From: Arnaud Charlet Date: Tue, 29 Jul 2008 15:46:37 +0000 (+0200) Subject: gcc-interface: New directory. X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=a1ab4c317abfd045fe0619b455a31e19f910f7e7;p=gcc.git gcc-interface: New directory. * gcc-interface: New directory. * ada-tree.def, cuintp.c, gigi.h, Makefile.in, targtyps.c, ada.h, utils.c, ada-tree.h, decl.c, lang.opt, Make-lang.in, trans.c, config-lang.in, deftarg.c, lang-specs.h, misc.c, utils2.c: Moved to gcc-interface subdirectory. From-SVN: r138246 --- diff --git a/gcc/ada/Makefile.in b/gcc/ada/Makefile.in index 6c9db7c09fa..9f223c4195c 100644 --- a/gcc/ada/Makefile.in +++ b/gcc/ada/Makefile.in @@ -1,2296 +1,3 @@ -# Makefile for GNU Ada Compiler (GNAT). -# Copyright (C) 1994-2008 Free Software Foundation, Inc. - -#This file is part of GCC. - -#GCC is free software; you can redistribute it and/or modify -#it under the terms of the GNU General Public License as published by -#the Free Software Foundation; either version 3, or (at your option) -#any later version. - -#GCC is distributed in the hope that it will be useful, -#but WITHOUT ANY WARRANTY; without even the implied warranty of -#MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -#GNU General Public License for more details. - -#You should have received a copy of the GNU General Public License -#along with GCC; see the file COPYING3. If not see -#. - -# The makefile built from this file lives in the language subdirectory. -# Its purpose is to provide support for: -# -# 1) recursion where necessary, and only then (building .o's), and -# 2) building and debugging cc1 from the language subdirectory, and -# 3) nothing else. -# -# The parent makefile handles all other chores, with help from the -# language makefile fragment, of course. -# -# The targets for external use are: -# all, TAGS, ???mostlyclean, ???clean. - -# This makefile will only work with Gnu make. -# The rules are written assuming a minimum subset of tools are available: -# -# Required: -# MAKE: Only Gnu make will work. -# MV: Must accept (at least) one, maybe wildcard, source argument, -# a file or directory destination, and support creation/ -# modification date preservation. Gnu mv -f works. -# RM: Must accept an arbitrary number of space separated file -# arguments, or one wildcard argument. Gnu rm works. -# RMDIR: Must delete a directory and all its contents. Gnu rm -rf works. -# ECHO: Must support command line redirection. Any Unix-like -# shell will typically provide this, otherwise a custom version -# is trivial to write. -# AR: Gnu ar works. -# MKDIR: Gnu mkdir works. -# CHMOD: Gnu chmod works. -# true: Does nothing and returns a normal successful return code. -# pwd: Prints the current directory on stdout. -# cd: Change directory. -# -# Optional: -# BISON: Gnu bison works. -# FLEX: Gnu flex works. -# Other miscellaneous tools for obscure targets. - -# Suppress smart makes who think they know how to automake Yacc files -.y.c: - -# Variables that exist for you to override. -# See below for how to change them for certain systems. - -# Various ways of specifying flags for compilations: -# CFLAGS is for the user to override to, e.g., do a bootstrap with -O2. -# BOOT_CFLAGS is the value of CFLAGS to pass -# to the stage2 and stage3 compilations -# XCFLAGS is used for most compilations but not when using the GCC just built. -XCFLAGS = -CFLAGS = -g -BOOT_CFLAGS = -O $(CFLAGS) -# These exists to be overridden by the x-* and t-* files, respectively. -X_CFLAGS = -T_CFLAGS = - -X_CPPFLAGS = -T_CPPFLAGS = - -X_ADA_CFLAGS = -T_ADA_CFLAGS = - -X_ADAFLAGS = -T_ADAFLAGS = - -CC = cc -BISON = bison -BISONFLAGS = -ECHO = echo -LEX = flex -LEXFLAGS = -CHMOD = chmod -LN = ln -LN_S = ln -s -CP = cp -p -MV = mv -f -RM = rm -f -RMDIR = rm -rf -MKDIR = mkdir -p -AR = ar -AR_FLAGS = rc -LS = ls -RANLIB = @RANLIB@ -RANLIB_FLAGS = @ranlib_flags@ - -SHELL = @SHELL@ -PWD_COMMAND = $${PWDCMD-pwd} -# How to copy preserving the date -INSTALL_DATA_DATE = cp -p -MAKEINFO = makeinfo -TEXI2DVI = texi2dvi -TEXI2PDF = texi2pdf -GNATBIND_FLAGS = -static -x -ADA_CFLAGS = -ADAFLAGS = -W -Wall -gnatpg -gnata -SOME_ADAFLAGS =-gnata -FORCE_DEBUG_ADAFLAGS = -g -GNATLIBFLAGS = -gnatpg -nostdinc -GNATLIBCFLAGS = -g -O2 -GNATLIBCFLAGS_FOR_C = $(GNATLIBCFLAGS) $(TARGET_LIBGCC2_CFLAGS) -fexceptions \ - -DIN_RTS -ALL_ADA_CFLAGS = $(X_ADA_CFLAGS) $(T_ADA_CFLAGS) $(ADA_CFLAGS) -ALL_ADAFLAGS = $(CFLAGS) $(ALL_ADA_CFLAGS) $(X_ADAFLAGS) $(T_ADAFLAGS) \ - $(ADAFLAGS) -MOST_ADAFLAGS = $(CFLAGS) $(ALL_ADA_CFLAGS) $(X_ADAFLAGS) $(T_ADAFLAGS) \ - $(SOME_ADAFLAGS) -THREAD_KIND = native -THREADSLIB = -GMEM_LIB = -MISCLIB = -SYMDEPS = $(LIBINTL_DEP) -OUTPUT_OPTION = @OUTPUT_OPTION@ - -objext = .o -exeext = -arext = .a -soext = .so -shext = -hyphen = - - -# Define this as & to perform parallel make on a Sequent. -# Note that this has some bugs, and it seems currently necessary -# to compile all the gen* files first by hand to avoid erroneous results. -P = - -# This is used instead of ALL_CFLAGS when compiling with GCC_FOR_TARGET. -# It omits XCFLAGS, and specifies -B./. -# It also specifies -B$(tooldir)/ to find as and ld for a cross compiler. -GCC_CFLAGS = $(INTERNAL_CFLAGS) $(X_CFLAGS) $(T_CFLAGS) $(CFLAGS) - -# Tools to use when building a cross-compiler. -# These are used because `configure' appends `cross-make' -# to the makefile when making a cross-compiler. - -# We don't use cross-make. Instead we use the tools from the build tree, -# if they are available. -# program_transform_name and objdir are set by configure.in. -program_transform_name = -objdir = . - -target_alias=@target_alias@ -target=@target@ -xmake_file = @xmake_file@ -tmake_file = @tmake_file@ -host_canonical=@host@ -#version=`sed -e 's/.*\"\([^ \"]*\)[ \"].*/\1/' < $(srcdir)/version.c` -#mainversion=`sed -e 's/.*\"\([0-9]*\.[0-9]*\).*/\1/' < $(srcdir)/version.c` - -# Directory where sources are, from where we are. srcdir = @srcdir@ -VPATH = $(srcdir) - -fsrcdir := $(shell cd $(srcdir);${PWD_COMMAND}) -fsrcpfx := $(shell cd $(srcdir);${PWD_COMMAND})/ -fcurdir := $(shell ${PWD_COMMAND}) -fcurpfx := $(shell ${PWD_COMMAND})/ - -# Top build directory, relative to here. -top_builddir = ../.. - -# Internationalization library. -LIBINTL = @LIBINTL@ -LIBINTL_DEP = @LIBINTL_DEP@ - -# Any system libraries needed just for GNAT. -SYSLIBS = @GNAT_LIBEXC@ - -# List of extra object files linked in with various programs. -EXTRA_GNATTOOLS_OBJS = ../../prefix.o ../../version.o - -# List of target dependent sources, overridden below as necessary -TARGET_ADA_SRCS = - -# Type of tools build we are doing; default is not compiling tools. -TOOLSCASE = - -# End of variables for you to override. - -all: all.indirect - -# This tells GNU Make version 3 not to put all variables in the environment. -.NOEXPORT: - -# tmake_file and xmake_file expand to lists with entries of the form -# $(srcdir)/config/... but here $(srcdir) is the ada subdirectory so we -# need to adjust the paths. There can't be spaces in the subst arguments -# or we get spurious spaces in the actual list of files to include. - -# target overrides -ifneq ($(tmake_file),) -include $(subst /config,/../config,$(tmake_file)) -endif - -# host overrides -ifneq ($(xmake_file),) -include $(subst /config,/../config,$(xmake_file)) -endif - -# Now figure out from those variables how to compile and link. - -all.indirect: Makefile ../gnat1$(exeext) - -# IN_GCC distinguishes between code compiled into GCC itself and other -# programs built during a bootstrap. -# autoconf inserts -DCROSS_DIRECTORY_STRUCTURE if we are building a cross -# compiler which does not use the native libraries and headers. -INTERNAL_CFLAGS = @CROSS@ -DIN_GCC - -# This is the variable actually used when we compile. -LOOSE_CFLAGS = `echo $(CFLAGS) $(WARN2_CFLAGS)|sed -e 's/-pedantic//g' -e 's/-Wtraditional//g'` -ALL_CFLAGS = $(INTERNAL_CFLAGS) $(X_CFLAGS) $(T_CFLAGS) $(LOOSE_CFLAGS) \ - $(XCFLAGS) - -# Likewise. -ALL_CPPFLAGS = $(CPPFLAGS) $(X_CPPFLAGS) $(T_CPPFLAGS) - -# This is where we get libiberty.a from. -LIBIBERTY = ../../libiberty/libiberty.a - -# How to link with both our special library facilities -# and the system's installed libraries. -LIBS = $(LIBINTL) $(LIBIBERTY) $(SYSLIBS) -LIBDEPS = $(LIBINTL_DEP) $(LIBIBERTY) -# Default is no TGT_LIB; one might be passed down or something -TGT_LIB = -TOOLS_LIBS = $(EXTRA_GNATTOOLS_OBJS) targext.o link.o $(LIBGNAT) ../../../libiberty/libiberty.a $(SYSLIBS) $(TGT_LIB) - -# Specify the directories to be searched for header files. -# Both . and srcdir are used, in that order, -# so that tm.h and config.h will be found in the compilation -# subdirectory rather than in the source directory. -INCLUDES = -I- -I. -I.. -I$(srcdir) -I$(srcdir)/.. -I$(srcdir)/../config \ - -I$(srcdir)/../../include - -ADA_INCLUDES = -I- -I. -I$(srcdir) - -INCLUDES_FOR_SUBDIR = -I. -I.. -I../.. -I$(fsrcdir) -I$(fsrcdir)/../config \ - -I$(fsrcdir)/../../include -I$(fsrcdir)/.. -ADA_INCLUDES_FOR_SUBDIR = -I. -I$(fsrcdir) - -# Avoid a lot of time thinking about remaking Makefile.in and *.def. -.SUFFIXES: .in .def - -# Say how to compile Ada programs. -.SUFFIXES: .ada .adb .ads .asm - -# Always use -I$(srcdir)/config when compiling. -.asm.o: - $(CC) -c -x assembler $< $(OUTPUT_OPTION) - -.c.o: - $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) $(ALL_CPPFLAGS) $(INCLUDES) $< \ - $(OUTPUT_OPTION) - -.adb.o: - $(CC) -c $(ALL_ADAFLAGS) $(ADA_INCLUDES) $< $(OUTPUT_OPTION) - -.ads.o: - $(CC) -c $(ALL_ADAFLAGS) $(ADA_INCLUDES) $< $(OUTPUT_OPTION) - -# how to regenerate this file -Makefile: ../config.status $(srcdir)/Makefile.in $(srcdir)/../version.c - cd ..; \ - LANGUAGES="$(CONFIG_LANGUAGES)" \ - CONFIG_HEADERS= \ - CONFIG_FILES=ada/Makefile $(SHELL) config.status - -# This tells GNU make version 3 not to export all the variables -# defined in this file into the environment. -.NOEXPORT: - -# Lists of files for various purposes. - -GNATLINK_OBJS = gnatlink.o \ - a-except.o ali.o alloc.o butil.o casing.o csets.o debug.o fmap.o fname.o \ - gnatvsn.o hostparm.o indepsw.o interfac.o i-c.o i-cstrin.o namet.o opt.o \ - osint.o output.o rident.o s-exctab.o s-secsta.o s-stalib.o s-stoele.o \ - sdefault.o snames.o stylesw.o switch.o system.o table.o targparm.o tree_io.o \ - types.o validsw.o widechar.o - -GNATMAKE_OBJS = a-except.o ali.o ali-util.o s-casuti.o \ - alloc.o atree.o binderr.o butil.o casing.o csets.o debug.o elists.o einfo.o\ - erroutc.o errutil.o err_vars.o fmap.o fname.o fname-uf.o fname-sf.o \ - gnatmake.o gnatvsn.o hostparm.o interfac.o i-c.o i-cstrin.o krunch.o lib.o \ - make.o makeusg.o makeutl.o mlib.o mlib-fil.o mlib-prj.o mlib-tgt.o \ - mlib-tgt-specific.o mlib-utl.o namet.o nlists.o opt.o osint.o osint-m.o output.o \ - prj.o prj-attr.o prj-attr-pm.o prj-com.o prj-dect.o prj-env.o prj-err.o prj-ext.o prj-nmsc.o \ - prj-pars.o prj-part.o prj-proc.o prj-strt.o prj-tree.o prj-util.o \ - rident.o s-exctab.o s-secsta.o s-stalib.o s-stoele.o \ - scans.o scng.o sdefault.o sfn_scan.o s-purexc.o s-htable.o \ - sinfo.o sinput.o sinput-c.o sinput-p.o \ - snames.o stand.o stringt.o styleg.o stylesw.o system.o validsw.o switch.o switch-m.o \ - table.o targparm.o tempdir.o tree_io.o types.o \ - uintp.o uname.o urealp.o usage.o widechar.o \ - $(EXTRA_GNATMAKE_OBJS) - -# Convert the target variable into a space separated list of architecture, -# manufacturer, and operating system and assign each of those to its own -# variable. - -host:=$(subst -, ,$(host_canonical)) -targ:=$(subst -, ,$(target)) -arch:=$(word 1,$(targ)) -ifeq ($(words $(targ)),2) - manu:= - osys:=$(word 2,$(targ)) -else - manu:=$(word 2,$(targ)) - osys:=$(word 3,$(targ)) -endif - -# LIBGNAT_TARGET_PAIRS is a list of pairs of filenames. -# The members of each pair must be separated by a '<' and no whitespace. -# Each pair must be separated by some amount of whitespace from the following -# pair. - -# Non-tasking case: - -LIBGNAT_TARGET_PAIRS = \ -a-intnam.ads rts/s.ads - $(MV) rts/s.ads rts/system.ads - $(MAKE) $(FLAGS_TO_PASS) \ - EH_MECHANISM="" \ - GNATLIBFLAGS="$(GNATLIBFLAGS)" \ - GNATLIBCFLAGS="$(GNATLIBCFLAGS)" \ - THREAD_KIND="$(THREAD_KIND)" \ - TARGET_LIBGCC2_CFLAGS="$(TARGET_LIBGCC2_CFLAGS)" gnatlib - -gnatlib-zcx: - $(MAKE) $(FLAGS_TO_PASS) EH_MECHANISM="-gcc" ../stamp-gnatlib1 - sed -e 's/ZCX_By_Default.*/ZCX_By_Default : constant Boolean := True;/' rts/system.ads > rts/s.ads - $(MV) rts/s.ads rts/system.ads - $(MAKE) $(FLAGS_TO_PASS) \ - EH_MECHANISM="-gcc" \ - GNATLIBFLAGS="$(GNATLIBFLAGS)" \ - GNATLIBCFLAGS="$(GNATLIBCFLAGS)" \ - THREAD_KIND="$(THREAD_KIND)" \ - TARGET_LIBGCC2_CFLAGS="$(TARGET_LIBGCC2_CFLAGS)" gnatlib - -# .s files for cross-building -gnat-cross: force - make $(GNAT1_ADA_OBJS) CC="gcc -B../stage1/" CFLAGS="-S -gnatp" - -# Compiling object files from source files. - -# Note that dependencies on obstack.h are not written -# because that file is not part of GCC. -# Dependencies on gvarargs.h are not written -# because all that file does, when not compiling with GCC, -# is include the system varargs.h. - -b_gnatl.c : $(GNATLINK_OBJS) - $(GNATBIND) -C $(ADA_INCLUDES) -o b_gnatl.c gnatlink.ali -b_gnatl.o : b_gnatl.c - -b_gnatm.c : $(GNATMAKE_OBJS) - $(GNATBIND) -C $(ADA_INCLUDES) -o b_gnatm.c gnatmake.ali -b_gnatm.o : b_gnatm.c - -ADA_INCLUDE_DIR = $(libsubdir)/adainclude -ADA_RTL_OBJ_DIR = $(libsubdir)/adalib - -# force no sibling call optimization on s-traceb.o so the number of stack -# frames to be skipped when computing a call chain is not modified by -# optimization. However we can do that only when building the runtime -# (not the compiler) because the -fno-optimize-sibling-calls option exists -# only in GCC 3 and above. - -ifneq (,$(findstring xgcc,$(CC))) -NO_SIBLING_ADAFLAGS=-fno-optimize-sibling-calls -else -NO_SIBLING_ADAFLAGS= -endif - -s-traceb.o : s-traceb.adb - $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) \ - $(NO_SIBLING_ADAFLAGS) $(ADA_INCLUDES) \ - $< $(OUTPUT_OPTION) - -# force debugging information on s-tasdeb.o so that it is always -# possible to set conditional breakpoints on tasks. - -s-tasdeb.o : s-tasdeb.adb s-tasdeb.ads - $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O0 $(ADA_INCLUDES) \ - $< $(OUTPUT_OPTION) - -# force no function reordering on a-except.o because of the exclusion bounds -# mechanism (see the source file for more detailed information). However we -# can do that only when building the runtime (not the compiler) because the -# -fno-toplevel-reorder option exists only in GCC 4.2 and above. - -ifneq (,$(findstring xgcc,$(CC))) -NO_REORDER_ADAFLAGS=-fno-toplevel-reorder -else -NO_REORDER_ADAFLAGS= -endif - -# force debugging information on a-except.o so that it is always -# possible to set conditional breakpoints on exceptions. -# use -O1 otherwise gdb isn't able to get a full backtrace on mips targets. - -a-except.o : a-except.adb a-except.ads - $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O1 -fno-inline \ - $(NO_REORDER_ADAFLAGS) $(ADA_INCLUDES) $< $(OUTPUT_OPTION) - -# compile s-except.o without optimization and with debug info to let the -# debugger set breakpoints and inspect subprogram parameters on exception -# related events. - -s-except.o : s-except.adb s-except.ads - $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O0 $(ADA_INCLUDES) \ - $< $(OUTPUT_OPTION) - -# force debugging information on s-assert.o so that it is always -# possible to set breakpoint on assert failures. - -s-assert.o : s-assert.adb s-assert.ads a-except.ads - $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O2 $(ADA_INCLUDES) \ - $< $(OUTPUT_OPTION) - -adadecode.o : adadecode.c adadecode.h -aux-io.o : aux-io.c -argv.o : argv.c -cal.o : cal.c -deftarg.o : deftarg.c -errno.o : errno.c -exit.o : adaint.h exit.c -expect.o : expect.c -final.o : final.c -gmem.o : gmem.c -link.o : link.c -mkdir.o : mkdir.c -socket.o : socket.c gsocket.h -sysdep.o : sysdep.c -raise-gcc.o : raise-gcc.c raise.h -raise.o : raise.c raise.h -vx_stack_info.o : vx_stack_info.c - -gen-soccon: gen-soccon.c gsocket.h - $(CC) $(ALL_CFLAGS) $(ADA_CFLAGS) $(ALL_CPPFLAGS) $(INCLUDES) \ - -UIN_GCC -DTARGET=\"$(target_alias)\" \ - $< $(OUTPUT_OPTION) - -cio.o : cio.c - $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) \ - $(ALL_CPPFLAGS) $(INCLUDES) $< $(OUTPUT_OPTION) - -init.o : init.c adaint.h raise.h - $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) \ - $(ALL_CPPFLAGS) $(INCLUDES) $< $(OUTPUT_OPTION) - -initialize.o : initialize.c raise.h - $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) \ - $(ALL_CPPFLAGS) $(INCLUDES) $< $(OUTPUT_OPTION) - -targext.o : targext.c - $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) \ - $(ALL_CPPFLAGS) $(INCLUDES_FOR_SUBDIR) \ - $< $(OUTPUT_OPTION) - -# No optimization to compile this file as optimizations (-O1 or above) breaks -# the SEH handling on Windows. The reasons are not clear. -seh_init.o : seh_init.c raise.h - $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) -O0 \ - $(ALL_CPPFLAGS) $(INCLUDES) $< $(OUTPUT_OPTION) - -# Need to keep the frame pointer in this file to pop the stack properly on -# some targets. -tracebak.o : tracebak.c tb-alvms.c tb-alvxw.c tb-gcc.c - $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) $(ALL_CPPFLAGS) $(INCLUDES) \ - -fno-omit-frame-pointer $< $(OUTPUT_OPTION) - -# In GNU Make, ignore whether `stage*' exists. -.PHONY: stage1 stage2 stage3 stage4 clean realclean TAGS bootstrap -.PHONY: risky-stage1 risky-stage2 risky-stage3 risky-stage4 - -force: - -# Gnatlbr, Vms_help, and Gnat.hlp are only used on VMS - -../../gnatlbr$(exeext): ../../prefix.o - $(GNATMAKE) -c $(ADA_INCLUDES) gnatlbr --GCC="$(CC) $(ALL_ADAFLAGS)" - $(GNATBIND) $(ADA_INCLUDES) $(GNATBIND_FLAGS) gnatlbr - $(GNATLINK) -v gnatlbr -o $@ --GCC="$(GCC_LINK)" $(TOOLS_LIBS) - -../../vms_help$(exeext): - $(GNATMAKE) -c $(ADA_INCLUDES) vms_help --GCC="$(CC) $(ALL_ADAFLAGS)" - $(GNATBIND) $(ADA_INCLUDES) $(GNATBIND_FLAGS) vms_help - $(GNATLINK) -v vms_help -o $@ --GCC="$(GCC_LINK)" $(TOOLS_LIBS) - -../../gnat.hlp: ../../vms_help$(exeext) - ../../vms_help$(exeext) $(fsrcdir)/gnat.help_in \ - $(fsrcdir)/vms_data.ads ../../gnat.hlp +-include ./gcc-interface/Makefile +-include ../gcc-interface/Makefile diff --git a/gcc/ada/config-lang.in b/gcc/ada/config-lang.in index e5922d5c905..ad76864cd61 100644 --- a/gcc/ada/config-lang.in +++ b/gcc/ada/config-lang.in @@ -1,11 +1,11 @@ # Top level configure fragment for GNU Ada (GNAT). -# Copyright (C) 1994-2003, 2007 Free Software Foundation, Inc. +# Copyright (C) 1994-2008 Free Software Foundation, Inc. #This file is part of GCC. #GCC is free software; you can redistribute it and/or modify #it under the terms of the GNU General Public License as published by -#the Free Software Foundation; either version 3, or (at your option) +#the Free Software Foundation; either version 2, or (at your option) #any later version. #GCC is distributed in the hope that it will be useful, @@ -14,28 +14,15 @@ #GNU General Public License for more details. #You should have received a copy of the GNU General Public License -#along with GCC; see the file COPYING3. If not see -#. - -# Configure looks for the existence of this file to auto-config each language. -# We define several parameters used by configure: -# -# language - name of language as it would appear in $(LANGUAGES) -# boot_language - "yes" if we need to build this language in stage1 -# compilers - value to add to $(COMPILERS) +#along with GCC; see the file COPYING. If not, write to +#the Free Software Foundation, 51 Franklin Street, Fifth Floor, +#Boston, MA 02110-1301, USA. language="ada" -boot_language=yes -boot_language_boot_flags='ADAFLAGS="$(BOOT_ADAFLAGS)"' - -compilers="gnat1\$(exeext)" - -gtfiles="\$(srcdir)/ada/ada-tree.h \$(srcdir)/ada/gigi.h \$(srcdir)/ada/decl.c \$(srcdir)/ada/trans.c \$(srcdir)/ada/utils.c" - -outputs=ada/Makefile - -target_libs="target-libada" -lang_dirs="gnattools" +gcc_subdir="ada/gcc-interface" -# Ada will not work until the front end starts emitting GIMPLE trees. -build_by_default=no +if [ -f ${srcdir}/gcc/ada/gcc-interface/config-lang.in ]; then + . ${srcdir}/gcc/ada/gcc-interface/config-lang.in +else + . ${srcdir}/ada/gcc-interface/config-lang.in +fi diff --git a/gcc/ada/gcc-interface/Make-lang.in b/gcc/ada/gcc-interface/Make-lang.in new file mode 100644 index 00000000000..2d21d45c23f --- /dev/null +++ b/gcc/ada/gcc-interface/Make-lang.in @@ -0,0 +1,4309 @@ +# Top level -*- makefile -*- fragment for GNU Ada (GNAT). +# Copyright (C) 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, +# 2003, 2004, 2005, 2006, 2007, 2008 Free Software Foundation, Inc. + +#This file is part of GCC. + +#GCC is free software; you can redistribute it and/or modify +#it under the terms of the GNU General Public License as published by +#the Free Software Foundation; either version 3, or (at your option) +#any later version. + +#GCC is distributed in the hope that it will be useful, +#but WITHOUT ANY WARRANTY; without even the implied warranty of +#MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +#GNU General Public License for more details. + +#You should have received a copy of the GNU General Public License +#along with GCC; see the file COPYING3. If not see +#. + +# This file provides the language dependent support in the main Makefile. +# Each language makefile fragment must provide the following targets: +# +# foo.all.cross, foo.start.encap, foo.rest.encap, +# foo.install-common, foo.install-man, foo.install-info, foo.install-pdf, +# foo.info, foo.dvi, foo.pdf, foo.html, foo.uninstall, +# foo.mostlyclean, foo.clean, foo.distclean, +# foo.maintainer-clean, foo.stage1, foo.stage2, foo.stage3, foo.stage4 +# +# where `foo' is the name of the language. +# +# It should also provide rules for: +# +# - making any compiler driver (eg: g++) +# - the compiler proper (eg: cc1plus) +# - define the names for selecting the language in LANGUAGES. +# tool definitions +CP = cp -p +ECHO = echo +MV = mv +MKDIR = mkdir -p +RM = rm -f +RMDIR = rm -rf + + +# Extra flags to pass to recursive makes. +COMMON_ADAFLAGS= -gnatpg -gnata +BOOT_ADAFLAGS= $(COMMON_ADAFLAGS) + +ifeq ($(CROSS),) +# If not in cross context we are probably doing a bootstrap +# so disable warnings during stage1 +ADAFLAGS= $(COMMON_ADAFLAGS) -gnatwns +else +ADAFLAGS= $(COMMON_ADAFLAGS) +endif + +ALL_ADAFLAGS = $(CFLAGS) $(ALL_ADA_CFLAGS) $(X_ADAFLAGS) $(T_ADAFLAGS) \ + $(ADAFLAGS) +FORCE_DEBUG_ADAFLAGS = -g +ADA_CFLAGS = +ALL_ADA_CFLAGS = $(X_ADA_CFLAGS) $(T_ADA_CFLAGS) $(ADA_CFLAGS) +ADA_INCLUDES = -nostdinc -I- -I. -Iada -I$(srcdir)/ada -I$(srcdir)/ada/gcc-interface +ADA_INCLUDE_DIR = $(libsubdir)/adainclude +ADA_RTL_OBJ_DIR = $(libsubdir)/adalib +ADA_FLAGS_TO_PASS = \ + "ADA_FOR_BUILD=$(ADA_FOR_BUILD)" \ + "ADA_INCLUDE_DIR=$(ADA_INCLUDE_DIR)" \ + "ADA_RTL_OBJ_DIR=$(ADA_RTL_OBJ_DIR)" \ + "ADAFLAGS=$(ADAFLAGS)" \ + "ADA_FOR_TARGET=$(ADA_FOR_TARGET)" \ + "INSTALL=$(INSTALL)" \ + "INSTALL_DATA=$(INSTALL_DATA)" \ + "INSTALL_PROGRAM=$(INSTALL_PROGRAM)" + +# Say how to compile Ada programs. +.SUFFIXES: .ada .adb .ads + +# FIXME: need to add $(ALL_ADA_CFLAGS) to .c.o suffix rule +# Use loose warnings for this front end, but add some special flags +ada-warn = $(ALL_ADA_CFLAGS) $(WERROR) +# unresolved warnings in a couple of files +ada/tracebak.o-warn = -Wno-error +ada/b_gnat1.o-warn = -Wno-error +ada/b_gnatb.o-warn = -Wno-error + +.adb.o: + $(CC) -c $(ALL_ADAFLAGS) $(ADA_INCLUDES) $< $(OUTPUT_OPTION) +.ads.o: + $(CC) -c $(ALL_ADAFLAGS) $(ADA_INCLUDES) $< $(OUTPUT_OPTION) + +# Define the names for selecting Ada in LANGUAGES. +ada: gnat1$(exeext) gnatbind$(exeext) + +# Tell GNU Make to ignore these, if they exist. +.PHONY: ada + +# There are too many Ada sources to check against here. Let's +# always force the recursive make. +ADA_TOOLS_FLAGS_TO_PASS=\ + "CC=../../xgcc -B../../" \ + "CFLAGS=$(CFLAGS)" \ + "exeext=$(exeext)" \ + "ADAFLAGS=$(ADAFLAGS)" \ + "ADA_INCLUDES=-I../rts" \ + "GNATMAKE=../../gnatmake" \ + "GNATLINK=../../gnatlink" \ + "GNATBIND=../../gnatbind" + +GCC_LINK=$(CC) -static-libgcc $(LDFLAGS) + +# Lists of files for various purposes. + +# Languages-specific object files for Ada. +# Object files for gnat1 from C sources. +GNAT1_C_OBJS = ada/b_gnat1.o ada/adadecode.o ada/adaint.o ada/cstreams.o \ + ada/cio.o ada/targtyps.o ada/decl.o ada/misc.o ada/utils.o ada/utils2.o \ + ada/trans.o ada/cuintp.o ada/argv.o ada/raise.o ada/init.o ada/tracebak.o \ + ada/initialize.o ada/env.o + +# Object files from Ada sources that are used by gnat1 + +GNAT_ADA_OBJS = ada/ada.o ada/a-charac.o ada/a-chlat1.o ada/a-except.o \ + ada/a-elchha.o ada/a-ioexce.o \ + ada/s-memory.o ada/s-carun8.o ada/s-casuti.o ada/s-strcom.o ada/s-purexc.o \ + ada/s-htable.o ada/s-traceb.o ada/s-mastop.o ada/ali.o \ + ada/alloc.o ada/atree.o ada/butil.o ada/casing.o ada/checks.o ada/comperr.o \ + ada/csets.o ada/cstand.o ada/debug.o ada/debug_a.o ada/einfo.o ada/elists.o \ + ada/errout.o ada/erroutc.o ada/err_vars.o ada/eval_fat.o ada/exp_attr.o \ + ada/exp_ch11.o ada/exp_ch12.o ada/exp_ch13.o ada/exp_ch2.o ada/exp_ch3.o \ + ada/exp_ch4.o ada/exp_ch5.o ada/exp_ch6.o ada/exp_ch7.o ada/exp_ch8.o \ + ada/exp_ch9.o ada/exp_code.o ada/exp_dbug.o ada/exp_disp.o ada/exp_atag.o \ + ada/exp_dist.o ada/exp_fixd.o ada/exp_aggr.o ada/exp_imgv.o ada/exp_intr.o \ + ada/exp_pakd.o ada/exp_prag.o ada/exp_sel.o ada/exp_smem.o ada/exp_strm.o \ + ada/exp_tss.o ada/exp_util.o ada/exp_vfpt.o ada/expander.o ada/fname.o \ + ada/fname-uf.o ada/fmap.o ada/freeze.o ada/frontend.o ada/gnat.o \ + ada/g-byorma.o \ + ada/g-hesora.o ada/g-htable.o ada/s-os_lib.o \ + ada/g-speche.o ada/g-spchge.o ada/g-u3spch.o ada/s-string.o \ + ada/s-utf_32.o ada/s-crc32.o ada/get_targ.o \ + ada/gnatvsn.o ada/hlo.o ada/hostparm.o ada/impunit.o ada/interfac.o \ + ada/itypes.o ada/inline.o ada/krunch.o ada/lib.o ada/layout.o \ + ada/lib-load.o ada/lib-util.o ada/lib-xref.o ada/lib-writ.o ada/live.o \ + ada/namet.o ada/namet-sp.o \ + ada/nlists.o ada/nmake.o ada/opt.o ada/osint.o ada/osint-c.o \ + ada/output.o \ + ada/par.o ada/prep.o ada/prepcomp.o ada/repinfo.o ada/restrict.o \ + ada/rident.o ada/rtsfind.o \ + ada/s-addope.o ada/s-assert.o ada/s-parame.o ada/s-stache.o \ + ada/s-stalib.o ada/s-imgenu.o ada/s-imenne.o ada/s-stoele.o ada/s-soflin.o \ + ada/s-except.o ada/s-exctab.o \ + ada/s-secsta.o ada/s-strops.o ada/s-sopco3.o ada/s-sopco4.o ada/s-sopco5.o \ + ada/s-traent.o ada/s-wchcnv.o ada/s-wchcon.o ada/s-wchjis.o \ + ada/s-unstyp.o ada/scans.o ada/scng.o ada/scn.o ada/sdefault.o ada/sem.o \ + ada/sem_aggr.o ada/sem_attr.o ada/sem_aux.o \ + ada/sem_cat.o ada/sem_ch10.o ada/sem_ch11.o \ + ada/sem_ch12.o ada/sem_ch13.o ada/sem_ch2.o ada/sem_ch3.o ada/sem_ch4.o \ + ada/sem_ch5.o ada/sem_ch6.o ada/sem_ch7.o ada/sem_ch8.o ada/sem_ch9.o \ + ada/sem_case.o ada/sem_disp.o ada/sem_dist.o ada/sem_elab.o ada/sem_elim.o \ + ada/sem_eval.o ada/sem_intr.o ada/sem_maps.o ada/sem_mech.o ada/sem_prag.o \ + ada/sem_res.o ada/sem_smem.o ada/sem_type.o ada/sem_util.o ada/sem_vfpt.o \ + ada/sem_warn.o ada/sinfo-cn.o ada/sinfo.o ada/sinput.o ada/sinput-d.o \ + ada/sinput-l.o ada/snames.o ada/sprint.o ada/stand.o ada/stringt.o \ + ada/style.o ada/styleg.o ada/styleg-c.o ada/switch.o ada/switch-c.o \ + ada/stylesw.o ada/validsw.o ada/system.o ada/table.o ada/targparm.o \ + ada/tbuild.o ada/tree_gen.o ada/tree_in.o \ + ada/tree_io.o ada/treepr.o ada/treeprs.o \ + ada/ttypef.o ada/ttypes.o ada/types.o ada/uintp.o ada/uname.o ada/urealp.o \ + ada/usage.o ada/widechar.o ada/s-crtl.o ada/seh_init.o ada/targext.o \ + ada/s-restri.o + +# Object files for gnat executables +GNAT1_ADA_OBJS = $(GNAT_ADA_OBJS) ada/back_end.o ada/gnat1drv.o + +GNAT1_OBJS = $(GNAT1_C_OBJS) $(GNAT1_ADA_OBJS) $(EXTRA_GNAT1_OBJS) + +GNATBIND_OBJS = \ + ada/adaint.o \ + ada/argv.o \ + ada/exit.o \ + ada/cio.o \ + ada/cstreams.o \ + ada/env.o \ + ada/final.o \ + ada/init.o \ + ada/initialize.o \ + ada/seh_init.o \ + ada/link.o \ + ada/targext.o \ + ada/raise.o \ + ada/tracebak.o \ + ada/ada.o \ + ada/a-clrefi.o \ + ada/a-comlin.o \ + ada/a-elchha.o \ + ada/a-except.o \ + ada/ali-util.o \ + ada/ali.o \ + ada/alloc.o \ + ada/atree.o \ + ada/bcheck.o \ + ada/binde.o \ + ada/binderr.o \ + ada/bindgen.o \ + ada/bindusg.o \ + ada/butil.o \ + ada/casing.o \ + ada/csets.o \ + ada/debug.o \ + ada/einfo.o \ + ada/elists.o \ + ada/err_vars.o \ + ada/errout.o \ + ada/erroutc.o \ + ada/fmap.o \ + ada/fname.o \ + ada/g-hesora.o \ + ada/g-htable.o \ + ada/s-os_lib.o \ + ada/s-string.o \ + ada/gnat.o \ + ada/gnatbind.o \ + ada/gnatvsn.o \ + ada/hostparm.o \ + ada/interfac.o \ + ada/lib.o \ + ada/namet.o \ + ada/nlists.o \ + ada/opt.o \ + ada/osint-b.o \ + ada/osint.o \ + ada/output.o \ + ada/rident.o \ + ada/s-addope.o \ + ada/s-assert.o \ + ada/s-carun8.o \ + ada/s-casuti.o \ + ada/s-crc32.o \ + ada/s-crtl.o \ + ada/s-except.o \ + ada/s-exctab.o \ + ada/s-htable.o \ + ada/s-imenne.o \ + ada/s-imgenu.o \ + ada/s-mastop.o \ + ada/s-memory.o \ + ada/s-parame.o \ + ada/s-restri.o \ + ada/s-secsta.o \ + ada/s-soflin.o \ + ada/s-sopco3.o \ + ada/s-sopco4.o \ + ada/s-sopco5.o \ + ada/s-stache.o \ + ada/s-stalib.o \ + ada/s-stoele.o \ + ada/s-strops.o \ + ada/s-traceb.o \ + ada/s-traent.o \ + ada/s-unstyp.o \ + ada/s-utf_32.o \ + ada/s-wchcnv.o \ + ada/s-wchcon.o \ + ada/s-wchjis.o \ + ada/scng.o \ + ada/scans.o \ + ada/sdefault.o \ + ada/sinfo.o \ + ada/sinput.o \ + ada/sinput-c.o \ + ada/snames.o \ + ada/stand.o \ + ada/stringt.o \ + ada/switch-b.o \ + ada/switch.o \ + ada/style.o \ + ada/styleg.o \ + ada/stylesw.o \ + ada/system.o \ + ada/table.o \ + ada/targparm.o \ + ada/tree_io.o \ + ada/types.o \ + ada/uintp.o \ + ada/uname.o \ + ada/urealp.o \ + ada/widechar.o \ + $(EXTRA_GNATBIND_OBJS) + +# List of extra object files linked in with various programs. +EXTRA_GNAT1_OBJS = prefix.o +EXTRA_GNATBIND_OBJS = prefix.o version.o + +# Language-independent object files. +ADA_BACKEND = $(BACKEND) attribs.o + +# List of target dependent sources, overridden below as necessary +TARGET_ADA_SRCS = + +# Needs to be built with CC=gcc +# Since the RTL should be built with the latest compiler, remove the +# stamp target in the parent directory whenever gnat1 is rebuilt +gnat1$(exeext): $(TARGET_ADA_SRCS) $(GNAT1_OBJS) $(ADA_BACKEND) $(LIBDEPS) + $(GCC_LINK) -o $@ $(GNAT1_OBJS) $(ADA_BACKEND) $(LIBS) $(SYSLIBS) $(GMPLIBS) + $(RM) stamp-gnatlib2 stamp-tools + +gnatbind$(exeext): ada/b_gnatb.o $(CONFIG_H) $(GNATBIND_OBJS) + $(GCC_LINK) -o $@ ada/b_gnatb.o $(GNATBIND_OBJS) $(ALL_CFLAGS) $(LIBS) $(SYSLIBS) + +# use cross-gcc +gnat-cross: force + make $(GNAT1_ADA_OBJS) CC="gcc -B../stage1/" CFLAGS="-S -gnatp" \ + $(FLAGS_TO_PASS) $(ADA_FLAGS_TO_PASS) HOST_CFLAGS= HOST_CC=cc + +gen-soccon: force + $(MAKE) -C ada $(FLAGS_TO_PASS) \ + GNATLIBFLAGS="$(GNATLIBFLAGS)" \ + GNATLIBCFLAGS="$(GNATLIBCFLAGS)" \ + TARGET_LIBGCC2_CFLAGS="$(TARGET_LIBGCC2_CFLAGS)" \ + THREAD_KIND="$(THREAD_KIND)" \ + TRACE="$(TRACE)" \ + LIBGNAT_OBJS=gen-soccon \ + gnatlib + + +# Build hooks: + +ada.all.cross: + -if [ -f gnatbind$(exeext) ] ; \ + then \ + $(MV) gnatbind$(exeext) gnatbind-cross$(exeext); \ + fi + -if [ -f gnatchop$(exeext) ] ; \ + then \ + $(MV) gnatchop$(exeext) gnatchop-cross$(exeext); \ + fi + -if [ -f gnat$(exeext) ] ; \ + then \ + $(MV) gnat$(exeext) gnat-cross$(exeext); \ + fi + -if [ -f gnatkr$(exeext) ] ; \ + then \ + $(MV) gnatkr$(exeext) gnatkr-cross$(exeext); \ + fi + -if [ -f gnatlink$(exeext) ] ; \ + then \ + $(MV) gnatlink$(exeext) gnatlink-cross$(exeext); \ + fi + -if [ -f gnatls$(exeext) ] ; \ + then \ + $(MV) gnatls$(exeext) gnatls-cross$(exeext); \ + fi + -if [ -f gnatmake$(exeext) ] ; \ + then \ + $(MV) gnatmake$(exeext) gnatmake-cross$(exeext); \ + fi + -if [ -f gnatname$(exeext) ] ; \ + then \ + $(MV) gnatname$(exeext) gnatname-cross$(exeext); \ + fi + -if [ -f gnatprep$(exeext) ] ; \ + then \ + $(MV) gnatprep$(exeext) gnatprep-cross$(exeext); \ + fi + -if [ -f gnatxref$(exeext) ] ; \ + then \ + $(MV) gnatxref$(exeext) gnatxref-cross$(exeext); \ + fi + -if [ -f gnatfind$(exeext) ] ; \ + then \ + $(MV) gnatfind$(exeext) gnatfind-cross$(exeext); \ + fi + -if [ -f gnatclean$(exeext) ] ; \ + then \ + $(MV) gnatclean$(exeext) gnatclean-cross$(exeext); \ + fi + -if [ -f gnatsym$(exeext) ] ; \ + then \ + $(MV) gnatsym$(exeext) gnatsym-cross$(exeext); \ + fi + +ada.start.encap: +ada.rest.encap: +ada.man: +ada.srcextra: +ada.srcman: + +ada.tags: force + cd $(srcdir)/ada && etags -o TAGS.sub *.c *.h *.ads *.adb && \ + etags --include TAGS.sub --include ../TAGS.sub + + +# Generate documentation. + +ada/doctools/xgnatugn$(build_exeext): ada/xgnatugn.adb + -$(MKDIR) ada/doctools + $(CP) $^ ada/doctools + cd ada/doctools && $(GNATMAKE) -q xgnatugn + +# Note that doc/gnat_ugn.texi does not depend on xgnatugn +# being built so we can distribute a pregenerated doc/gnat_ugn.info + +doc/gnat_ugn.texi: $(srcdir)/ada/gnat_ugn.texi $(srcdir)/ada/ug_words \ + $(gcc_docdir)/include/gcc-common.texi gcc-vers.texi + $(MAKE) ada/doctools/xgnatugn$(build_exeext) + ada/doctools/xgnatugn unw $(srcdir)/ada/gnat_ugn.texi \ + $(srcdir)/ada/ug_words doc/gnat_ugn.texi + +doc/gnat_ugn.info: doc/gnat_ugn.texi \ + $(gcc_docdir)/include/fdl.texi $(gcc_docdir)/include/gcc-common.texi \ + gcc-vers.texi + if [ x$(BUILD_INFO) = xinfo ]; then \ + rm -f $(@)*; \ + $(MAKEINFO) $(MAKEINFOFLAGS) -I$(gcc_docdir)/include \ + -I$(srcdir)/ada -o $@ $<; \ + else true; fi + +doc/gnat_rm.info: ada/gnat_rm.texi $(gcc_docdir)/include/fdl.texi \ + $(gcc_docdir)/include/gcc-common.texi gcc-vers.texi + if [ x$(BUILD_INFO) = xinfo ]; then \ + rm -f $(@)*; \ + $(MAKEINFO) $(MAKEINFOFLAGS) -I$(gcc_docdir)/include \ + -I$(srcdir)/ada -o $@ $<; \ + else true; fi + +doc/gnat-style.info: ada/gnat-style.texi $(gcc_docdir)/include/fdl.texi \ + $(gcc_docdir)/include/gcc-common.texi gcc-vers.texi + if [ x$(BUILD_INFO) = xinfo ]; then \ + rm -f $(@)*; \ + $(MAKEINFO) $(MAKEINFOFLAGS) -I$(gcc_docdir)/include \ + -I$(srcdir)/ada -o $@ $<; \ + else true; fi + +ADA_INFOFILES = doc/gnat_ugn.info doc/gnat_ugn.texi \ + doc/gnat_rm.info doc/gnat-style.info + +ada.info: $(ADA_INFOFILES) + +ada.srcinfo: $(ADA_INFOFILES) + -$(CP) $^ $(srcdir)/doc + +ada.install-info: $(DESTDIR)$(infodir)/gnat_ugn.info \ + $(DESTDIR)$(infodir)/gnat_rm.info \ + $(DESTDIR)$(infodir)/gnat-style.info + +ada.dvi: doc/gnat_ugn.dvi \ + doc/gnat_rm.dvi doc/gnat-style.dvi + +ADA_PDFFILES = doc/gnat_ugn.pdf \ + doc/gnat_rm.pdf doc/gnat-style.pdf + +ada.pdf: $(ADA_PDFFILES) + +ada.install-pdf: $(ADA_PDFFILES) + @$(NORMAL_INSTALL) + test -z "$(pdfdir)/gcc" || $(mkinstalldirs) "$(DESTDIR)$(pdfdir)/gcc" + @list='$(ADA_PDFFILES)'; for p in $$list; do \ + if test -f "$$p"; then d=; else d="$(srcdir)/"; fi; \ + f=$(pdf__strip_dir) \ + echo " $(INSTALL_DATA) '$$d$$p' '$(DESTDIR)$(pdfdir)/gcc/$$f'"; \ + $(INSTALL_DATA) "$$d$$p" "$(DESTDIR)$(pdfdir)/gcc/$$f"; \ + done + +ada.html: + +doc/gnat_ugn.dvi: doc/gnat_ugn.texi $(gcc_docdir)/include/fdl.texi \ + $(gcc_docdir)/include/gcc-common.texi gcc-vers.texi + $(TEXI2DVI) -c -I $(abs_docdir)/include -o $@ $< + +doc/gnat_rm.dvi: ada/gnat_rm.texi $(gcc_docdir)/include/fdl.texi \ + $(gcc_docdir)/include/gcc-common.texi gcc-vers.texi + $(TEXI2DVI) -c -I $(abs_docdir)/include -o $@ $< + +doc/gnat-style.dvi: ada/gnat-style.texi $(gcc_docdir)/include/fdl.texi + $(TEXI2DVI) -c -I $(abs_docdir)/include -o $@ $< + +doc/gnat_ugn.pdf: doc/gnat_ugn.texi $(gcc_docdir)/include/fdl.texi \ + $(gcc_docdir)/include/gcc-common.texi gcc-vers.texi + $(TEXI2PDF) -c -I $(abs_docdir)/include -o $@ $< + +doc/gnat_rm.pdf: ada/gnat_rm.texi $(gcc_docdir)/include/fdl.texi \ + $(gcc_docdir)/include/gcc-common.texi gcc-vers.texi + $(TEXI2PDF) -c -I $(abs_docdir)/include -o $@ $< + +doc/gnat-style.pdf: ada/gnat-style.texi $(gcc_docdir)/include/fdl.texi + $(TEXI2PDF) -c -I $(abs_docdir)/include -o $@ $< + + +# Install hooks: +# gnat1 is installed elsewhere as part of $(COMPILERS). + +# Install the binder program as $(target_noncanonical)-gnatbind +# and also as either gnatbind (if native) or $(tooldir)/bin/gnatbind +# likewise for gnatf, gnatchop, and gnatlink, gnatkr, gnatmake, gnat, +# gnatprep, gnatls, gnatxref, gnatfind, gnatname, gnatclean, +# gnatsym +ada.install-common: + $(MKDIR) $(DESTDIR)$(bindir) + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnatbind-cross$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatbind$(exeext); \ + $(INSTALL_PROGRAM) gnatbind-cross$(exeext) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatbind$(exeext); \ + if [ -d $(DESTDIR)$(tooldir)/bin/. ] ; then \ + rm -f $(DESTDIR)$(tooldir)/bin/gnatbind$(exeext); \ + $(INSTALL_PROGRAM) gnatbind-cross$(exeext) $(DESTDIR)$(tooldir)/bin/gnatbind$(exeext); \ + fi; \ + else \ + $(RM) $(DESTDIR)$(bindir)/gnatbind$(exeext); \ + $(INSTALL_PROGRAM) gnatbind$(exeext) $(DESTDIR)$(bindir)/gnatbind$(exeext); \ + fi ; \ + fi + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnatchop-cross$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatchop$(exeext); \ + $(INSTALL_PROGRAM) gnatchop-cross$(exeext) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatchop$(exeext); \ + if [ -d $(DESTDIR)$(tooldir)/bin/. ] ; then \ + rm -f $(DESTDIR)$(tooldir)/bin/gnatchop$(exeext); \ + $(INSTALL_PROGRAM) gnatchop-cross$(exeext) $(DESTDIR)$(tooldir)/bin/gnatchop$(exeext); \ + fi ; \ + else \ + $(RM) $(DESTDIR)$(bindir)/gnatchop$(exeext); \ + $(INSTALL_PROGRAM) gnatchop$(exeext) $(DESTDIR)$(bindir)/gnatchop$(exeext); \ + fi ; \ + fi + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnat-cross$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnat$(exeext); \ + $(INSTALL_PROGRAM) gnat-cross$(exeext) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnat$(exeext); \ + if [ -d $(DESTDIR)$(tooldir)/bin/. ] ; then \ + rm -f $(DESTDIR)$(tooldir)/bin/gnat$(exeext); \ + $(INSTALL_PROGRAM) gnat-cross$(exeext) $(DESTDIR)$(tooldir)/bin/gnat$(exeext); \ + fi; \ + else \ + $(RM) $(DESTDIR)$(bindir)/gnat$(exeext); \ + $(INSTALL_PROGRAM) gnat$(exeext) $(DESTDIR)$(bindir)/gnat$(exeext); \ + fi ; \ + fi + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnatkr-cross$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatkr$(exeext); \ + $(INSTALL_PROGRAM) gnatkr-cross$(exeext) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatkr$(exeext); \ + if [ -d $(DESTDIR)$(tooldir)/bin/. ] ; then \ + rm -f $(DESTDIR)$(tooldir)/bin/gnatkr$(exeext); \ + $(INSTALL_PROGRAM) gnatkr-cross$(exeext) $(DESTDIR)$(tooldir)/bin/gnatkr$(exeext); \ + fi; \ + else \ + $(RM) $(DESTDIR)$(bindir)/gnatkr$(exeext); \ + $(INSTALL_PROGRAM) gnatkr$(exeext) $(DESTDIR)$(bindir)/gnatkr$(exeext); \ + fi ; \ + fi + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnatlink-cross$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatlink$(exeext); \ + $(INSTALL_PROGRAM) gnatlink-cross$(exeext) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatlink$(exeext); \ + if [ -d $(DESTDIR)$(tooldir)/bin/. ] ; then \ + rm -f $(DESTDIR)$(tooldir)/bin/gnatlink$(exeext); \ + $(INSTALL_PROGRAM) gnatlink-cross$(exeext) $(DESTDIR)$(tooldir)/bin/gnatlink$(exeext); \ + fi; \ + else \ + $(RM) $(DESTDIR)$(bindir)/gnatlink$(exeext); \ + $(INSTALL_PROGRAM) gnatlink$(exeext) $(DESTDIR)$(bindir)/gnatlink$(exeext); \ + fi ; \ + fi + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnatls-cross$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatls$(exeext); \ + $(INSTALL_PROGRAM) gnatls-cross$(exeext) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatls$(exeext); \ + if [ -d $(DESTDIR)$(tooldir)/bin/. ] ; then \ + rm -f $(DESTDIR)$(tooldir)/bin/gnatls$(exeext); \ + $(INSTALL_PROGRAM) gnatls-cross$(exeext) $(DESTDIR)$(tooldir)/bin/gnatls$(exeext); \ + fi; \ + else \ + $(RM) $(DESTDIR)$(bindir)/gnatls$(exeext); \ + $(INSTALL_PROGRAM) gnatls$(exeext) $(DESTDIR)$(bindir)/gnatls$(exeext); \ + fi ; \ + fi + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnatmake-cross$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatmake$(exeext); \ + $(INSTALL_PROGRAM) gnatmake-cross$(exeext) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatmake$(exeext); \ + if [ -d $(DESTDIR)$(tooldir)/bin/. ] ; then \ + rm -f $(DESTDIR)$(tooldir)/bin/gnatmake$(exeext); \ + $(INSTALL_PROGRAM) gnatmake-cross$(exeext) $(DESTDIR)$(tooldir)/bin/gnatmake$(exeext); \ + fi; \ + else \ + $(RM) $(DESTDIR)$(bindir)/gnatmake$(exeext); \ + $(INSTALL_PROGRAM) gnatmake$(exeext) $(DESTDIR)$(bindir)/gnatmake$(exeext); \ + fi ; \ + fi + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnatname-cross$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatname$(exeext); \ + $(INSTALL_PROGRAM) gnatname-cross$(exeext) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatname$(exeext); \ + else \ + $(RM) $(DESTDIR)$(bindir)/gnatname$(exeext); \ + $(INSTALL_PROGRAM) gnatname$(exeext) $(DESTDIR)$(bindir)/gnatname$(exeext); \ + fi ; \ + fi + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnatprep-cross$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatprep$(exeext); \ + $(INSTALL_PROGRAM) gnatprep-cross$(exeext) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatprep$(exeext); \ + if [ -d $(DESTDIR)$(tooldir)/bin/. ] ; then \ + rm -f $(DESTDIR)$(tooldir)/bin/gnatprep$(exeext); \ + $(INSTALL_PROGRAM) gnatprep-cross$(exeext) $(DESTDIR)$(tooldir)/bin/gnatprep$(exeext); \ + fi; \ + else \ + $(RM) $(DESTDIR)$(bindir)/gnatprep$(exeext); \ + $(INSTALL_PROGRAM) gnatprep$(exeext) $(DESTDIR)$(bindir)/gnatprep$(exeext); \ + fi ; \ + fi + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnatxref-cross$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatxref$(exeext); \ + $(INSTALL_PROGRAM) gnatxref-cross$(exeext) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatxref$(exeext); \ + else \ + $(RM) $(DESTDIR)$(bindir)/gnatxref$(exeext); \ + $(INSTALL_PROGRAM) gnatxref$(exeext) $(DESTDIR)$(bindir)/gnatxref$(exeext); \ + fi ; \ + fi + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnatfind-cross$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatfind$(exeext); \ + $(INSTALL_PROGRAM) gnatfind-cross$(exeext) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatfind$(exeext); \ + else \ + $(RM) $(DESTDIR)$(bindir)/gnatfind$(exeext); \ + $(INSTALL_PROGRAM) gnatfind$(exeext) $(DESTDIR)$(bindir)/gnatfind$(exeext); \ + fi ; \ + fi + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnatclean-cross$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatclean$(exeext); \ + $(INSTALL_PROGRAM) gnatclean-cross$(exeext) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatclean$(exeext); \ + else \ + $(RM) $(DESTDIR)$(bindir)/gnatclean$(exeext); \ + $(INSTALL_PROGRAM) gnatclean$(exeext) $(DESTDIR)$(bindir)/gnatclean$(exeext); \ + fi ; \ + fi +# +# Gnatsym is only built on some platforms, including VMS +# + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnatsym$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/gnatsym$(exeext); \ + $(INSTALL_PROGRAM) gnatsym$(exeext) $(DESTDIR)$(bindir)/gnatsym$(exeext); \ + fi ; \ + fi +# +# Gnatlbr is only used on VMS. +# + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f gnatlbr$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/gnatlbr$(exeext); \ + $(INSTALL_PROGRAM) gnatlbr$(exeext) $(DESTDIR)$(bindir)/gnatlbr$(exeext); \ + fi ; \ + fi +# +# Gnatdll is only used on Windows. +# + -if [ -f gnat1$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/gnatdll$(exeext); \ + $(INSTALL_PROGRAM) gnatdll$(exeext) $(DESTDIR)$(bindir)/gnatdll$(exeext); \ + fi +# +# vxaddr2line is only used for cross ports (it calls the underlying cross +# addr2line). +# + -if [ -f gnat1$(exeext) ] ; \ + then \ + if [ -f vxaddr2line$(exeext) ] ; \ + then \ + $(RM) $(DESTDIR)$(bindir)/vxaddr2line$(exeext); \ + $(INSTALL_PROGRAM) vxaddr2line$(exeext) $(DESTDIR)$(bindir)/vxaddr2line$(exeext); \ + fi ; \ + fi + +# +# Finally, install the library +# + -if [ -f gnat1$(exeext) ] ; \ + then \ + $(MAKE) $(FLAGS_TO_PASS) $(ADA_FLAGS_TO_PASS) install-gnatlib; \ + fi + +install-gnatlib: + $(MAKE) -C ada $(FLAGS_TO_PASS) $(ADA_FLAGS_TO_PASS) install-gnatlib$(LIBGNAT_TARGET) + +install-gnatlib-obj: + $(MAKE) -C ada $(FLAGS_TO_PASS) $(ADA_FLAGS_TO_PASS) install-gnatlib-obj + +ada.install-man: + +ada.uninstall: + -$(RM) $(DESTDIR)$(bindir)/gnatbind$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnatchop$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnat$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnatfind$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnatdll$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnatkr$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnatlbr$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnatlink$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnatls$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnatmake$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnatname$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnatprep$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnatxref$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnatclean$(exeext) + -$(RM) $(DESTDIR)$(bindir)/gnatsym$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatbind$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatchop$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnat$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatfind$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatdll$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatkr$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatlbr$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatlink$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatls$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatmake$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatname$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatprep$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatxref$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatclean$(exeext) + -$(RM) $(DESTDIR)$(bindir)/$(target_noncanonical)-gnatsym$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatbind$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatchop$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnat$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatfind$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatdll$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatkr$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatlbr$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatlink$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatls$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatmake$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatname$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatprep$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatxref$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatclean$(exeext) + -$(RM) $(DESTDIR)$(tooldir)/bin/gnatsym$(exeext) +# Gnatlbr and Gnatchop are only used on VMS + -$(RM) $(DESTDIR)$(bindir)/gnatlbr$(exeext) $(DESTDIR)$(bindir)/gnatchop$(exeext) + +# Clean hooks: +# A lot of the ancillary files are deleted by the main makefile. +# We just have to delete files specific to us. + +ada.mostlyclean: + -$(RM) ada/*$(objext) ada/*.ali ada/b_*.c + -$(RM) ada/*$(coverageexts) + -$(RM) ada/sdefault.adb ada/stamp-sdefault + -$(RMDIR) ada/tools +ada.clean: +ada.distclean: + -$(RM) ada/Makefile + -$(RM) gnatchop$(exeext) + -$(RM) gnat$(exeext) + -$(RM) gnatdll$(exeext) + -$(RM) gnatkr$(exeext) + -$(RM) gnatlink$(exeext) + -$(RM) gnatls$(exeext) + -$(RM) gnatmake$(exeext) + -$(RM) gnatname$(exeext) + -$(RM) gnatprep$(exeext) + -$(RM) gnatfind$(exeext) + -$(RM) gnatxref$(exeext) + -$(RM) gnatclean$(exeext) + -$(RM) gnatsym$(exeext) +# Gnatlbr is only used on VMS + -$(RM) gnatlbr$(exeext) + -$(RM) ada/rts/* + -$(RMDIR) ada/rts + -$(RM) ada/tools/* + -$(RMDIR) ada/tools +ada.maintainer-clean: + -$(RM) ada/sinfo.h + -$(RM) ada/einfo.h + -$(RM) ada/nmake.adb + -$(RM) ada/nmake.ads + -$(RM) ada/treeprs.ads + +# Stage hooks: +# The main makefile has already created stage?/ada + +ada.stage1: stage1-start + -$(MV) ada/*$(objext) ada/*.ali ada/b_*.c stage1/ada + -$(MV) ada/stamp-* stage1/ada +ada.stage2: stage2-start + -$(MV) ada/*$(objext) ada/*.ali ada/b_*.c stage2/ada + -$(MV) ada/stamp-* stage2/ada +ada.stage3: stage3-start + -$(MV) ada/*$(objext) ada/*.ali ada/b_*.c stage3/ada + -$(MV) ada/stamp-* stage3/ada +ada.stage4: stage4-start + -$(MV) ada/*$(objext) ada/*.ali ada/b_*.c stage4/ada + -$(MV) ada/stamp-* stage4/ada +ada.stageprofile: stageprofile-start + -$(MV) ada/*$(objext) ada/*.ali ada/b_*.c stageprofile/ada + -$(MV) ada/stamp-* stageprofile/ada +ada.stagefeedback: stagefeedback-start + -$(MV) ada/*$(objext) ada/*.ali ada/b_*.c stagefeedback/ada + -$(MV) ada/stamp-* stagefeedback/ada + +lang_checks += check-gnat + +check-ada: check-acats check-gnat + +ACATSDIR = $(TESTSUITEDIR)/ada/acats + +check-acats: + test -d $(ACATSDIR) || mkdir -p $(ACATSDIR) + testdir=`cd ${srcdir}/${ACATSDIR} && ${PWD_COMMAND}`; \ + export testdir; cd $(ACATSDIR) && $(SHELL) $${testdir}/run_acats $(CHAPTERS) + +.PHONY: check-acats + + +# Bootstrapping targets for just GNAT - use the same stage directories +gnatboot: force + -$(RM) gnatboot3 + $(MAKE) gnat1$(exeext) gnatbind$(exeext) CC="$(CC)" \ + CFLAGS="$(CFLAGS)" + $(MAKE) gnatboot2 BOOT_CFLAGS="$(BOOT_CFLAGS)" \ + BOOT_ADAFLAGS="$(BOOT_ADAFLAGS)" \ + LDFLAGS="$(BOOT_LDFLAGS)" + +gnatboot2: force + $(MAKE) gnatstage1 + $(MAKE) gnat1$(exeext) gnatbind$(exeext) CC="gcc -B../stage1/"\ + CFLAGS="$(BOOT_CFLAGS)" \ + ADAFLAGS="$(BOOT_ADAFLAGS)"\ + LDFLAGS="$(BOOT_LDFLAGS)" \ + GNATBIND="../stage1/gnatbind" + $(MAKE) gnatboot3 BOOT_CFLAGS="$(BOOT_CFLAGS)" \ + BOOT_ADAFLAGS="$(BOOT_ADAFLAGS)" \ + LDFLAGS="$(BOOT_LDFLAGS)" + +gnatboot3: + $(MAKE) gnatstage2 + $(MAKE) gnat1$(exeext) gnatbind$(exeext) CC="gcc -B../stage2/"\ + CFLAGS="$(BOOT_CFLAGS)" \ + ADAFLAGS="$(BOOT_ADAFLAGS)"\ + LDFLAGS="$(BOOT_LDFLAGS)" \ + GNATBIND="../stage2/gnatbind" + +gnatstage1: force + -$(MKDIR) stage1 + -$(MKDIR) stage1/ada + -$(MV) gnat1$(exeext) gnatbind$(exeext) stage1 + -$(MV) ada/*$(objext) ada/*.ali stage1/ada + -$(MV) ada/stamp-* stage1/ada + +gnatstage2: force + -$(MKDIR) stage2 + -$(MKDIR) stage2/ada + -$(MV) gnat1$(exeext) gnatbind$(exeext) stage2 + -$(MV) ada/*$(objext) ada/*.ali stage2/ada + -$(MV) ada/stamp-* stage2/ada + +# Compiling object files from source files. + +# Note that dependencies on obstack.h are not written +# because that file is not part of GCC. +# Dependencies on gvarargs.h are not written +# because all that file does, when not compiling with GCC, +# is include the system varargs.h. + +# Ada language specific files. + +ada_extra_files : ada/treeprs.ads ada/einfo.h ada/sinfo.h ada/nmake.adb \ + ada/nmake.ads + +ada/b_gnat1.c : $(GNAT1_ADA_OBJS) + $(GNATBIND) -C $(ADA_INCLUDES) -o ada/b_gnat1.c -n ada/gnat1drv.ali +ada/b_gnat1.o : ada/b_gnat1.c + +ada/b_gnatb.c : $(GNATBIND_OBJS) ada/gnatbind.o ada/interfac.o + $(GNATBIND) -C $(ADA_INCLUDES) -o ada/b_gnatb.c ada/gnatbind.ali +ada/b_gnatb.o : ada/b_gnatb.c + +# We delete the files before copying, below, in case they are read-only. +ada/treeprs.ads : ada/treeprs.adt ada/sinfo.ads ada/xtreeprs.adb + -$(MKDIR) ada/bldtools/treeprs + $(RM) $(addprefix ada/bldtools/treeprs/,$(notdir $^)) + $(CP) $^ ada/bldtools/treeprs + (cd ada/bldtools/treeprs && $(GNATMAKE) -q xtreeprs && ./xtreeprs ../../treeprs.ads ) + +ada/einfo.h : ada/einfo.ads ada/einfo.adb ada/xeinfo.adb + -$(MKDIR) ada/bldtools/einfo + $(RM) $(addprefix ada/bldtools/einfo/,$(notdir $^)) + $(CP) $^ ada/bldtools/einfo + (cd ada/bldtools/einfo && $(GNATMAKE) -q xeinfo && ./xeinfo ../../einfo.h ) + +ada/sinfo.h : ada/sinfo.ads ada/xsinfo.adb + -$(MKDIR) ada/bldtools/sinfo + $(RM) $(addprefix ada/bldtools/sinfo/,$(notdir $^)) + $(CP) $^ ada/bldtools/sinfo + (cd ada/bldtools/sinfo && $(GNATMAKE) -q xsinfo && ./xsinfo ../../sinfo.h ) + +ada/nmake.adb : ada/sinfo.ads ada/nmake.adt ada/xnmake.adb + -$(MKDIR) ada/bldtools/nmake_b + $(RM) $(addprefix ada/bldtools/nmake_b/,$(notdir $^)) + $(CP) $^ ada/bldtools/nmake_b + (cd ada/bldtools/nmake_b && $(GNATMAKE) -q xnmake && ./xnmake -b ../../nmake.adb ) + +ada/nmake.ads : ada/sinfo.ads ada/nmake.adt ada/xnmake.adb ada/nmake.adb + -$(MKDIR) ada/bldtools/nmake_s + $(RM) $(addprefix ada/bldtools/nmake_s/,$(notdir $^)) + $(CP) $^ ada/bldtools/nmake_s + (cd ada/bldtools/nmake_s && $(GNATMAKE) -q xnmake && ./xnmake -s ../../nmake.ads ) + +update-sources : ada/treeprs.ads ada/einfo.h ada/sinfo.h ada/nmake.adb \ + ada/nmake.ads + $(RM) $(addprefix $(srcdir)/ada/,$(notdir $^)) + $(CP) $^ $(srcdir)/ada + +ada/sdefault.adb: ada/stamp-sdefault ; @true +ada/stamp-sdefault : $(srcdir)/version.c Makefile + $(ECHO) "pragma Style_Checks (Off);" >tmp-sdefault.adb + $(ECHO) "with Osint; use Osint;" >>tmp-sdefault.adb + $(ECHO) "package body Sdefault is" >>tmp-sdefault.adb + $(ECHO) " S0 : constant String := \"$(prefix)/\";" >>tmp-sdefault.adb + $(ECHO) " S1 : constant String := \"$(ADA_INCLUDE_DIR)/\";" >>tmp-sdefault.adb + $(ECHO) " S2 : constant String := \"$(ADA_RTL_OBJ_DIR)/\";" >>tmp-sdefault.adb + $(ECHO) " S3 : constant String := \"$(target)/\";" >>tmp-sdefault.adb + $(ECHO) " S4 : constant String := \"$(libsubdir)/\";" >>tmp-sdefault.adb + $(ECHO) " function Include_Dir_Default_Name return String_Ptr is" >>tmp-sdefault.adb + $(ECHO) " begin" >>tmp-sdefault.adb + $(ECHO) " return Relocate_Path (S0, S1);" >>tmp-sdefault.adb + $(ECHO) " end Include_Dir_Default_Name;" >>tmp-sdefault.adb + $(ECHO) " function Object_Dir_Default_Name return String_Ptr is" >>tmp-sdefault.adb + $(ECHO) " begin" >>tmp-sdefault.adb + $(ECHO) " return Relocate_Path (S0, S2);" >>tmp-sdefault.adb + $(ECHO) " end Object_Dir_Default_Name;" >>tmp-sdefault.adb + $(ECHO) " function Target_Name return String_Ptr is" >>tmp-sdefault.adb + $(ECHO) " begin" >>tmp-sdefault.adb + $(ECHO) " return new String'(S3);" >>tmp-sdefault.adb + $(ECHO) " end Target_Name;" >>tmp-sdefault.adb + $(ECHO) " function Search_Dir_Prefix return String_Ptr is" >>tmp-sdefault.adb + $(ECHO) " begin" >>tmp-sdefault.adb + $(ECHO) " return Relocate_Path (S0, S4);" >>tmp-sdefault.adb + $(ECHO) " end Search_Dir_Prefix;" >>tmp-sdefault.adb + $(ECHO) "end Sdefault;" >> tmp-sdefault.adb + $(srcdir)/../move-if-change tmp-sdefault.adb ada/sdefault.adb + touch ada/stamp-sdefault + +ada/sdefault.o : ada/ada.ads ada/a-except.ads ada/a-unccon.ads \ + ada/a-uncdea.ads ada/alloc.ads ada/debug.ads ada/hostparm.ads ada/namet.ads \ + ada/opt.ads ada/osint.ads ada/output.ads ada/sdefault.ads ada/sdefault.adb \ + ada/s-exctab.ads ada/s-memory.ads ada/s-os_lib.ads ada/s-parame.ads \ + ada/s-stalib.ads ada/s-strops.ads ada/s-sopco3.ads ada/s-sopco4.ads \ + ada/s-sopco5.ads ada/s-string.ads ada/s-traent.ads ada/s-unstyp.ads \ + ada/s-wchcon.ads ada/system.ads ada/table.adb ada/table.ads ada/tree_io.ads \ + ada/types.ads ada/unchdeal.ads ada/unchconv.ads + +ADA_TREE_H = ada/gcc-interface/ada-tree.h + +# force debugging information on s-tasdeb.o so that it is always +# possible to set conditional breakpoints on tasks. + +ada/s-tasdeb.o : ada/s-tasdeb.adb ada/s-tasdeb.ads + $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O0 $(ADA_INCLUDES) \ + $< $(OUTPUT_OPTION) + +# force debugging information on s-vaflop.o so that it is always +# possible to call the VAX float debug print routines. +# force at least -O so that the inline assembly works. + +ada/s-vaflop.o : ada/s-vaflop.adb ada/s-vaflop.ads + $(CC) -c -O $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) $(ADA_INCLUDES) \ + $(OUTPUT_OPTION) $< + +# force debugging information on a-except.o so that it is always +# possible to set conditional breakpoints on exceptions. +# use -O1 otherwise gdb isn't able to get a full backtrace on mips targets. + +ada/a-except.o : ada/a-except.adb ada/a-except.ads + $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O1 -fno-inline \ + $(ADA_INCLUDES) $< $(OUTPUT_OPTION) + +# compile s-except.o without optimization and with debug info to let the +# debugger set breakpoints and inspect subprogram parameters on exception +# related events. + +ada/s-except.o : ada/s-except.adb ada/s-except.ads + $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O0 \ + $(ADA_INCLUDES) $< $(OUTPUT_OPTION) + +# force debugging information on s-assert.o so that it is always +# possible to set breakpoint on assert failures. + +ada/s-assert.o : ada/s-assert.adb ada/s-assert.ads ada/a-except.ads + $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O2 \ + $(ADA_INCLUDES) $< $(OUTPUT_OPTION) + +# dependencies for windows specific tool (mdll) + +ada/mdll.o : ada/mdll.adb ada/mdll.ads ada/mdll-fil.ads ada/mdll-utl.ads + $(CC) -c $(ALL_ADAFLAGS) $(ADA_INCLUDES) $< $(OUTPUT_OPTION) + +ada/mdll-fil.o : ada/mdll-fil.adb ada/mdll.ads ada/mdll-fil.ads + $(CC) -c $(ALL_ADAFLAGS) $(ADA_INCLUDES) $< $(OUTPUT_OPTION) + +ada/mdll-utl.o : ada/mdll-utl.adb ada/mdll.ads ada/mdll-utl.ads ada/sdefault.ads ada/types.ads + $(CC) -c $(ALL_ADAFLAGS) $(ADA_INCLUDES) $< $(OUTPUT_OPTION) + +# force debugging information and no optimization on s-memory.o so that it +# is always possible to set breakpoint on __gnat_malloc and __gnat_free +# this is important for gnatmem using GDB. memtrack.o is built from +# memtrack.adb, and used by the post-mortem analysis with gnatmem. + +ada/s-memory.o : ada/s-memory.adb ada/s-memory.ads + $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O0 \ + $(ADA_INCLUDES) $< $(OUTPUT_OPTION) + +ada/memtrack.o : ada/memtrack.adb ada/s-memory.ads + $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O0 \ + $(ADA_INCLUDES) $< $(OUTPUT_OPTION) + +ada/adadecode.o : ada/adadecode.c $(CONFIG_H) $(SYSTEM_H) ada/adadecode.h +ada/adaint.o : ada/adaint.c $(CONFIG_H) $(SYSTEM_H) ada/adaint.h +ada/argv.o : ada/argv.c $(CONFIG_H) $(SYSTEM_H) ada/adaint.h +ada/cstreams.o : ada/cstreams.c $(CONFIG_H) $(SYSTEM_H) ada/adaint.h +ada/exit.o : ada/exit.c $(CONFIG_H) $(SYSTEM_H) ada/adaint.h +ada/final.o : ada/final.c $(CONFIG_H) $(SYSTEM_H) ada/raise.h +ada/link.o : ada/link.c + + +ada/targext.o : ada/targext.c $(SYSTEM_H) coretypes.h $(TM_H) + $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) $(ALL_CPPFLAGS) $(INCLUDES) \ + $< $(OUTPUT_OPTION) + +ada/cio.o : ada/cio.c $(CONFIG_H) $(SYSTEM_H) ada/adaint.h + $(CC) -c $(ALL_CFLAGS) $(ALL_ADA_CFLAGS) \ + $(ALL_CPPFLAGS) $(INCLUDES) $< $(OUTPUT_OPTION) + +ada/init.o : ada/init.c $(CONFIG_H) $(SYSTEM_H) ada/adaint.h ada/raise.h + $(CC) -c $(ALL_CFLAGS) $(ALL_ADA_CFLAGS) \ + $(ALL_CPPFLAGS) $(INCLUDES) $< $(OUTPUT_OPTION) + +ada/initialize.o : ada/initialize.c + $(CC) -c $(ALL_CFLAGS) $(ALL_ADA_CFLAGS) \ + $(ALL_CPPFLAGS) $(INCLUDES) $< $(OUTPUT_OPTION) + +ada/raise.o : ada/raise.c $(CONFIG_H) $(SYSTEM_H) ada/adaint.h ada/raise.h + $(CC) -c $(ALL_CFLAGS) $(ALL_ADA_CFLAGS) \ + $(ALL_CPPFLAGS) $(INCLUDES) $< $(OUTPUT_OPTION) + +# Need to keep the frame pointer in this file to pop the stack properly on +# some targets. +ada/tracebak.o : ada/tracebak.c $(CONFIG_H) $(SYSTEM_H) + $(CC) -c $(ALL_CFLAGS) $(ALL_ADA_CFLAGS) $(ALL_CPPFLAGS) $(INCLUDES) \ + -fno-omit-frame-pointer $< $(OUTPUT_OPTION) + +ada/cuintp.o : ada/gcc-interface/cuintp.c $(CONFIG_H) $(SYSTEM_H) coretypes.h $(TM_H) \ + $(TREE_H) ada/gcc-interface/ada.h ada/types.h ada/uintp.h ada/atree.h ada/stringt.h \ + ada/elists.h ada/nlists.h ada/fe.h ada/gcc-interface/gigi.h + $(CC) -c $(ALL_CFLAGS) -I.. $(ALL_CPPFLAGS) $< -o $@ + +ada/decl.o : ada/gcc-interface/decl.c $(CONFIG_H) $(SYSTEM_H) coretypes.h \ + $(TM_H) $(TREE_H) $(FLAGS_H) toplev.h convert.h $(TARGET_H) \ + ada/gcc-interface/ada.h ada/types.h ada/atree.h \ + ada/nlists.h ada/elists.h ada/uintp.h ada/sinfo.h ada/einfo.h ada/snames.h \ + ada/namet.h ada/stringt.h ada/repinfo.h ada/fe.h $(ADA_TREE_H) \ + ada/gcc-interface/gigi.h \ + $(EXPR_H) gt-ada-decl.h + $(CC) -c $(ALL_CFLAGS) -I.. $(ALL_CPPFLAGS) $< -o $@ + +ada/misc.o : ada/gcc-interface/misc.c $(CONFIG_H) $(SYSTEM_H) coretypes.h \ + $(TM_H) $(TREE_H) \ + $(RTL_H) $(EXPR_H) insn-codes.h insn-flags.h insn-config.h recog.h \ + $(FLAGS_H) $(DIAGNOSTIC_H) output.h except.h $(TM_P_H) langhooks.h debug.h \ + $(LANGHOOKS_DEF_H) libfuncs.h $(OPTABS_H) ada/gcc-interface/ada.h \ + ada/types.h \ + ada/atree.h ada/nlists.h ada/elists.h ada/sinfo.h ada/einfo.h ada/namet.h \ + ada/stringt.h ada/uintp.h ada/fe.h $(ADA_TREE_H) ada/gcc-interface/gigi.h \ + ada/adadecode.h opts.h options.h $(TARGET_H) $(REAL_H) + $(CC) -c $(ALL_CFLAGS) -I.. $(ALL_CPPFLAGS) $< -o $@ + +ada/targtyps.o : ada/gcc-interface/targtyps.c $(CONFIG_H) $(SYSTEM_H) \ + coretypes.h $(TM_H) \ + $(TREE_H) ada/gcc-interface/ada.h ada/types.h ada/atree.h ada/nlists.h \ + ada/elists.h \ + ada/uintp.h ada/sinfo.h ada/einfo.h ada/namet.h ada/snames.h ada/stringt.h \ + ada/urealp.h ada/fe.h $(ADA_TREE_H) ada/gcc-interface/gigi.h + $(CC) -c $(ALL_CFLAGS) -I.. $(ALL_CPPFLAGS) $< -o $@ + +ada/trans.o : ada/gcc-interface/trans.c $(CONFIG_H) $(SYSTEM_H) coretypes.h \ + $(TM_H) \ + $(TREE_H) $(RTL_H) $(EXPR_H) $(FLAGS_H) $(FUNCTION_H) \ + ada/gcc-interface/ada.h except.h \ + ada/types.h ada/atree.h ada/nlists.h ada/elists.h ada/uintp.h ada/sinfo.h \ + ada/einfo.h ada/namet.h ada/snames.h ada/stringt.h ada/urealp.h ada/fe.h \ + $(ADA_TREE_H) ada/gcc-interface/gigi.h gt-ada-trans.h tree-iterator.h + $(CC) -c $(ALL_CFLAGS) -I.. $(ALL_CPPFLAGS) $< -o $@ + +ada/utils.o : ada/gcc-interface/utils.c $(CONFIG_H) $(SYSTEM_H) coretypes.h \ + $(TM_H) \ + $(TREE_H) $(FLAGS_H) $(EXPR_H) convert.h defaults.h langhooks.h \ + ada/gcc-interface/ada.h ada/types.h \ + ada/atree.h ada/nlists.h ada/elists.h ada/sinfo.h \ + ada/einfo.h ada/namet.h ada/stringt.h ada/uintp.h ada/fe.h $(ADA_TREE_H) \ + ada/gcc-interface/gigi.h gt-ada-utils.h \ + gtype-ada.h $(TARGET_H) tree-iterator.h + $(CC) -c $(ALL_CFLAGS) -I.. $(ALL_CPPFLAGS) $< -o $@ + +ada/utils2.o : ada/gcc-interface/utils2.c $(CONFIG_H) $(SYSTEM_H) coretypes.h \ + $(TM_H) $(TREE_H) $(FLAGS_H) ada/gcc-interface/ada.h ada/types.h \ + ada/atree.h ada/nlists.h ada/elists.h ada/sinfo.h ada/einfo.h ada/namet.h \ + ada/snames.h ada/stringt.h ada/uintp.h ada/fe.h $(ADA_TREE_H) \ + ada/gcc-interface/gigi.h + $(CC) -c $(ALL_CFLAGS) -I.. $(ALL_CPPFLAGS) $< -o $@ + +# +# DO NOT PUT SPECIAL RULES BELOW, THIS SECTION IS UPDATED AUTOMATICALLY +# +# GNAT DEPENDENCIES +# regular dependencies +ada/a-charac.o : ada/ada.ads ada/a-charac.ads ada/system.ads + +ada/a-chlat1.o : ada/ada.ads ada/a-charac.ads ada/a-chlat1.ads \ + ada/system.ads + +ada/a-clrefi.o : ada/ada.ads ada/a-comlin.ads ada/a-clrefi.ads \ + ada/a-clrefi.adb ada/a-except.ads ada/a-unccon.ads ada/a-uncdea.ads \ + ada/system.ads ada/s-exctab.ads ada/s-exctab.adb ada/s-htable.ads \ + ada/s-os_lib.ads ada/s-parame.ads ada/s-secsta.ads ada/s-soflin.ads \ + ada/s-stache.ads ada/s-stalib.ads ada/s-stoele.ads ada/s-stoele.adb \ + ada/s-strops.ads ada/s-sopco3.ads ada/s-sopco4.ads ada/s-sopco5.ads \ + ada/s-string.ads ada/s-traent.ads + +ada/a-comlin.o : ada/ada.ads ada/a-comlin.ads ada/a-comlin.adb \ + ada/a-unccon.ads ada/system.ads ada/s-secsta.ads ada/s-stoele.ads \ + ada/s-stoele.adb + +ada/a-elchha.o : ada/ada.ads ada/a-except.ads ada/a-elchha.ads \ + ada/a-elchha.adb ada/a-unccon.ads ada/system.ads ada/s-parame.ads \ + ada/s-soflin.ads ada/s-stache.ads ada/s-stalib.ads ada/s-stoele.ads \ + ada/s-stoele.adb ada/s-traent.ads + +ada/a-except.o : ada/ada.ads ada/a-except.ads ada/a-except.adb \ + ada/a-exexda.adb ada/a-exextr.adb ada/a-elchha.ads ada/a-excpol.adb \ + ada/a-exstat.adb ada/a-unccon.ads ada/system.ads ada/s-exctab.ads \ + ada/s-except.ads ada/s-parame.ads ada/s-secsta.ads ada/s-soflin.ads \ + ada/s-stache.ads ada/s-stalib.ads ada/s-stoele.ads ada/s-strops.ads \ + ada/s-sopco3.ads ada/s-sopco4.ads ada/s-sopco5.ads ada/s-traent.ads + +ada/a-ioexce.o : ada/ada.ads ada/a-except.ads ada/a-ioexce.ads \ + ada/a-unccon.ads ada/system.ads ada/s-exctab.ads ada/s-exctab.adb \ + ada/s-htable.ads ada/s-parame.ads ada/s-soflin.ads ada/s-stache.ads \ + ada/s-stalib.ads ada/s-stoele.ads ada/s-stoele.adb ada/s-traent.ads + +ada/ada.o : ada/ada.ads ada/system.ads + +ada/ali-util.o : ada/ada.ads ada/a-except.ads ada/a-unccon.ads \ + ada/a-uncdea.ads ada/ali.ads ada/ali-util.ads ada/ali-util.adb \ + ada/alloc.ads ada/binderr.ads ada/casing.ads ada/csets.ads \ + ada/debug.ads ada/err_vars.ads ada/gnat.ads ada/g-htable.ads \ + ada/gnatvsn.ads ada/hostparm.ads ada/interfac.ads ada/namet.ads \ + ada/namet.adb ada/opt.ads ada/osint.ads ada/output.ads ada/rident.ads \ + ada/scans.ads ada/scng.ads ada/scng.adb ada/sinput.ads ada/sinput.adb \ + ada/sinput-c.ads ada/snames.ads ada/stringt.ads ada/stringt.adb \ + ada/styleg.ads ada/styleg.adb ada/stylesw.ads ada/system.ads \ + ada/s-carun8.ads ada/s-crc32.ads ada/s-crc32.adb ada/s-exctab.ads \ + ada/s-htable.ads ada/s-htable.adb ada/s-memory.ads ada/s-os_lib.ads \ + ada/s-parame.ads ada/s-rident.ads ada/s-secsta.ads ada/s-soflin.ads \ + ada/s-stache.ads ada/s-stalib.ads ada/s-stoele.ads ada/s-stoele.adb \ + ada/s-strops.ads ada/s-sopco3.ads ada/s-sopco4.ads ada/s-sopco5.ads \ + ada/s-string.ads ada/s-traent.ads ada/s-unstyp.ads ada/s-utf_32.ads \ + ada/s-utf_32.adb ada/s-wchcon.ads ada/table.ads ada/table.adb \ + ada/tree_io.ads ada/types.ads ada/types.adb ada/uintp.ads ada/uintp.adb \ + ada/unchconv.ads ada/unchdeal.ads ada/urealp.ads ada/urealp.adb \ + ada/widechar.ads + +ada/ali.o : ada/ada.ads ada/a-except.ads ada/a-unccon.ads ada/a-uncdea.ads \ + ada/ali.ads ada/ali.adb ada/alloc.ads ada/butil.ads ada/casing.ads \ + ada/debug.ads ada/fname.ads ada/gnat.ads ada/g-htable.ads \ + ada/gnatvsn.ads ada/hostparm.ads ada/interfac.ads ada/namet.ads \ + ada/namet.adb ada/opt.ads ada/osint.ads ada/output.ads ada/rident.ads \ + ada/system.ads ada/s-exctab.ads ada/s-exctab.adb ada/s-htable.ads \ + ada/s-htable.adb ada/s-memory.ads ada/s-os_lib.ads ada/s-parame.ads \ + ada/s-rident.ads ada/s-secsta.ads ada/s-soflin.ads ada/s-stache.ads \ + ada/s-stalib.ads ada/s-stoele.ads ada/s-stoele.adb ada/s-strops.ads \ + ada/s-sopco3.ads ada/s-sopco4.ads ada/s-sopco5.ads ada/s-string.ads \ + ada/s-traent.ads ada/s-unstyp.ads ada/s-wchcon.ads ada/table.ads \ + ada/table.adb ada/tree_io.ads ada/types.ads ada/unchconv.ads \ + ada/unchdeal.ads ada/widechar.ads + +ada/alloc.o : ada/alloc.ads ada/system.ads + +ada/atree.o : ada/ada.ads ada/a-except.ads ada/a-unccon.ads \ + ada/a-uncdea.ads ada/alloc.ads ada/atree.ads ada/atree.adb \ + ada/casing.ads ada/debug.ads ada/einfo.ads ada/einfo.adb ada/elists.ads \ + ada/elists.adb ada/gnat.ads ada/g-htable.ads ada/hostparm.ads \ + ada/interfac.ads ada/namet.ads ada/namet.adb ada/nlists.ads \ + ada/nlists.adb ada/opt.ads ada/output.ads ada/sinfo.ads ada/sinfo.adb \ + ada/sinput.ads ada/snames.ads ada/stand.ads ada/system.ads \ + ada/s-exctab.ads ada/s-htable.ads ada/s-htable.adb ada/s-imenne.ads \ + ada/s-memory.ads ada/s-os_lib.ads ada/s-parame.ads ada/s-secsta.ads \ + ada/s-stalib.ads ada/s-stoele.ads ada/s-stoele.adb ada/s-strops.ads \ + ada/s-sopco3.ads ada/s-sopco4.ads ada/s-sopco5.ads ada/s-string.ads \ + ada/s-traent.ads ada/s-unstyp.ads ada/s-wchcon.ads ada/table.ads \ + ada/table.adb ada/tree_io.ads ada/types.ads ada/uintp.ads ada/uintp.adb \ + ada/unchconv.ads ada/unchdeal.ads ada/urealp.ads ada/widechar.ads + +ada/back_end.o : ada/ada.ads ada/a-except.ads ada/a-unccon.ads \ + ada/a-uncdea.ads ada/alloc.ads ada/atree.ads ada/atree.adb \ + ada/back_end.ads ada/back_end.adb ada/casing.ads ada/debug.ads \ + 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+ ada/a-uncdea.ads ada/alloc.ads ada/atree.ads ada/atree.adb \ + ada/casing.ads ada/debug.ads ada/einfo.ads ada/einfo.adb ada/elists.ads \ + ada/fname.ads ada/gnat.ads ada/g-hesorg.ads ada/g-htable.ads \ + ada/hostparm.ads ada/lib.ads ada/lib.adb ada/lib-list.adb \ + ada/lib-sort.adb ada/namet.ads ada/nlists.ads ada/nlists.adb \ + ada/opt.ads ada/output.ads ada/sinfo.ads ada/sinfo.adb ada/sinput.ads \ + ada/sinput.adb ada/snames.ads ada/stand.ads ada/stringt.ads \ + ada/system.ads ada/s-exctab.ads ada/s-htable.ads ada/s-imenne.ads \ + ada/s-memory.ads ada/s-os_lib.ads ada/s-parame.ads ada/s-stalib.ads \ + ada/s-strops.ads ada/s-sopco3.ads ada/s-sopco4.ads ada/s-sopco5.ads \ + ada/s-string.ads ada/s-traent.ads ada/s-unstyp.ads ada/s-wchcon.ads \ + ada/table.ads ada/table.adb ada/tree_io.ads ada/types.ads ada/uintp.ads \ + ada/uintp.adb ada/uname.ads ada/uname.adb ada/unchconv.ads \ + ada/unchdeal.ads ada/urealp.ads ada/widechar.ads + +ada/urealp.o : ada/ada.ads ada/a-except.ads ada/a-unccon.ads \ + ada/a-uncdea.ads ada/alloc.ads ada/debug.ads ada/gnat.ads \ + ada/g-htable.ads ada/hostparm.ads ada/opt.ads ada/output.ads \ + ada/system.ads ada/s-exctab.ads ada/s-htable.ads ada/s-memory.ads \ + ada/s-os_lib.ads ada/s-parame.ads ada/s-stalib.ads ada/s-strops.ads \ + ada/s-sopco3.ads ada/s-sopco4.ads ada/s-sopco5.ads ada/s-string.ads \ + ada/s-traent.ads ada/s-unstyp.ads ada/s-wchcon.ads ada/table.ads \ + ada/table.adb ada/tree_io.ads ada/types.ads ada/uintp.ads ada/uintp.adb \ + ada/unchconv.ads ada/unchdeal.ads ada/urealp.ads ada/urealp.adb + +ada/usage.o : ada/ada.ads ada/a-except.ads ada/a-unccon.ads \ + ada/a-uncdea.ads ada/alloc.ads ada/debug.ads ada/hostparm.ads \ + ada/namet.ads ada/opt.ads ada/osint.ads ada/output.ads ada/rident.ads \ + ada/system.ads ada/s-exctab.ads ada/s-memory.ads ada/s-os_lib.ads \ + ada/s-parame.ads ada/s-rident.ads ada/s-stalib.ads ada/s-strops.ads \ + ada/s-sopco3.ads ada/s-sopco4.ads ada/s-sopco5.ads ada/s-string.ads \ + ada/s-traent.ads ada/s-unstyp.ads ada/s-wchcon.ads ada/table.ads \ + ada/table.adb ada/targparm.ads ada/tree_io.ads ada/types.ads \ + ada/unchconv.ads ada/unchdeal.ads ada/usage.ads ada/usage.adb + +ada/validsw.o : ada/ada.ads ada/a-unccon.ads ada/a-uncdea.ads \ + ada/debug.ads ada/hostparm.ads ada/opt.ads ada/system.ads \ + ada/s-exctab.ads ada/s-stalib.ads ada/s-strops.ads ada/s-sopco3.ads \ + ada/s-sopco4.ads ada/s-sopco5.ads ada/s-string.ads ada/s-unstyp.ads \ + ada/s-wchcon.ads ada/types.ads ada/unchconv.ads ada/unchdeal.ads \ + ada/validsw.ads ada/validsw.adb + +ada/widechar.o : ada/ada.ads ada/a-except.ads ada/a-unccon.ads \ + ada/a-uncdea.ads ada/debug.ads ada/hostparm.ads ada/interfac.ads \ + ada/opt.ads ada/system.ads ada/s-exctab.ads ada/s-parame.ads \ + ada/s-soflin.ads ada/s-stache.ads ada/s-stalib.ads ada/s-stoele.ads \ + ada/s-stoele.adb ada/s-strops.ads ada/s-sopco3.ads ada/s-sopco4.ads \ + ada/s-sopco5.ads ada/s-string.ads ada/s-traent.ads ada/s-unstyp.ads \ + ada/s-wchcnv.ads ada/s-wchcnv.adb ada/s-wchcon.ads ada/s-wchjis.ads \ + ada/types.ads ada/unchconv.ads ada/unchdeal.ads ada/widechar.ads \ + ada/widechar.adb + +# end of regular dependencies diff --git a/gcc/ada/gcc-interface/Makefile.in b/gcc/ada/gcc-interface/Makefile.in new file mode 100644 index 00000000000..fc96dcb1857 --- /dev/null +++ b/gcc/ada/gcc-interface/Makefile.in @@ -0,0 +1,2295 @@ +# Makefile for GNU Ada Compiler (GNAT). +# Copyright (C) 1994-2008 Free Software Foundation, Inc. + +#This file is part of GCC. + +#GCC is free software; you can redistribute it and/or modify +#it under the terms of the GNU General Public License as published by +#the Free Software Foundation; either version 3, or (at your option) +#any later version. + +#GCC is distributed in the hope that it will be useful, +#but WITHOUT ANY WARRANTY; without even the implied warranty of +#MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +#GNU General Public License for more details. + +#You should have received a copy of the GNU General Public License +#along with GCC; see the file COPYING3. If not see +#. + +# The makefile built from this file lives in the language subdirectory. +# Its purpose is to provide support for: +# +# 1) recursion where necessary, and only then (building .o's), and +# 2) building and debugging cc1 from the language subdirectory, and +# 3) nothing else. +# +# The parent makefile handles all other chores, with help from the +# language makefile fragment, of course. +# +# The targets for external use are: +# all, TAGS, ???mostlyclean, ???clean. + +# This makefile will only work with Gnu make. +# The rules are written assuming a minimum subset of tools are available: +# +# Required: +# MAKE: Only Gnu make will work. +# MV: Must accept (at least) one, maybe wildcard, source argument, +# a file or directory destination, and support creation/ +# modification date preservation. Gnu mv -f works. +# RM: Must accept an arbitrary number of space separated file +# arguments, or one wildcard argument. Gnu rm works. +# RMDIR: Must delete a directory and all its contents. Gnu rm -rf works. +# ECHO: Must support command line redirection. Any Unix-like +# shell will typically provide this, otherwise a custom version +# is trivial to write. +# AR: Gnu ar works. +# MKDIR: Gnu mkdir works. +# CHMOD: Gnu chmod works. +# true: Does nothing and returns a normal successful return code. +# pwd: Prints the current directory on stdout. +# cd: Change directory. +# +# Optional: +# BISON: Gnu bison works. +# FLEX: Gnu flex works. +# Other miscellaneous tools for obscure targets. + +# Suppress smart makes who think they know how to automake Yacc files +.y.c: + +# Variables that exist for you to override. +# See below for how to change them for certain systems. + +# Various ways of specifying flags for compilations: +# CFLAGS is for the user to override to, e.g., do a bootstrap with -O2. +# BOOT_CFLAGS is the value of CFLAGS to pass +# to the stage2 and stage3 compilations +# XCFLAGS is used for most compilations but not when using the GCC just built. +XCFLAGS = +CFLAGS = -g +BOOT_CFLAGS = -O $(CFLAGS) +# These exists to be overridden by the x-* and t-* files, respectively. +X_CFLAGS = +T_CFLAGS = + +X_CPPFLAGS = +T_CPPFLAGS = + +X_ADA_CFLAGS = +T_ADA_CFLAGS = + +X_ADAFLAGS = +T_ADAFLAGS = + +CC = cc +BISON = bison +BISONFLAGS = +ECHO = echo +LEX = flex +LEXFLAGS = +CHMOD = chmod +LN = ln +LN_S = ln -s +CP = cp -p +MV = mv -f +RM = rm -f +RMDIR = rm -rf +MKDIR = mkdir -p +AR = ar +AR_FLAGS = rc +LS = ls +RANLIB = @RANLIB@ +RANLIB_FLAGS = @ranlib_flags@ + +SHELL = @SHELL@ +PWD_COMMAND = $${PWDCMD-pwd} +# How to copy preserving the date +INSTALL_DATA_DATE = cp -p +MAKEINFO = makeinfo +TEXI2DVI = texi2dvi +TEXI2PDF = texi2pdf +GNATBIND_FLAGS = -static -x +ADA_CFLAGS = +ADAFLAGS = -W -Wall -gnatpg -gnata +SOME_ADAFLAGS =-gnata +FORCE_DEBUG_ADAFLAGS = -g +GNATLIBFLAGS = -gnatpg -nostdinc +GNATLIBCFLAGS = -g -O2 +GNATLIBCFLAGS_FOR_C = $(GNATLIBCFLAGS) $(TARGET_LIBGCC2_CFLAGS) -fexceptions \ + -DIN_RTS +ALL_ADA_CFLAGS = $(X_ADA_CFLAGS) $(T_ADA_CFLAGS) $(ADA_CFLAGS) +ALL_ADAFLAGS = $(CFLAGS) $(ALL_ADA_CFLAGS) $(X_ADAFLAGS) $(T_ADAFLAGS) \ + $(ADAFLAGS) +MOST_ADAFLAGS = $(CFLAGS) $(ALL_ADA_CFLAGS) $(X_ADAFLAGS) $(T_ADAFLAGS) \ + $(SOME_ADAFLAGS) +THREAD_KIND = native +THREADSLIB = +GMEM_LIB = +MISCLIB = +SYMDEPS = $(LIBINTL_DEP) +OUTPUT_OPTION = @OUTPUT_OPTION@ + +objext = .o +exeext = +arext = .a +soext = .so +shext = +hyphen = - + +# Define this as & to perform parallel make on a Sequent. +# Note that this has some bugs, and it seems currently necessary +# to compile all the gen* files first by hand to avoid erroneous results. +P = + +# This is used instead of ALL_CFLAGS when compiling with GCC_FOR_TARGET. +# It omits XCFLAGS, and specifies -B./. +# It also specifies -B$(tooldir)/ to find as and ld for a cross compiler. +GCC_CFLAGS = $(INTERNAL_CFLAGS) $(X_CFLAGS) $(T_CFLAGS) $(CFLAGS) + +# Tools to use when building a cross-compiler. +# These are used because `configure' appends `cross-make' +# to the makefile when making a cross-compiler. + +# We don't use cross-make. Instead we use the tools from the build tree, +# if they are available. +# program_transform_name and objdir are set by configure.in. +program_transform_name = +objdir = . + +target_alias=@target_alias@ +target=@target@ +xmake_file = @xmake_file@ +tmake_file = @tmake_file@ +host_canonical=@host@ +#version=`sed -e 's/.*\"\([^ \"]*\)[ \"].*/\1/' < $(srcdir)/version.c` +#mainversion=`sed -e 's/.*\"\([0-9]*\.[0-9]*\).*/\1/' < $(srcdir)/version.c` + +# Directory where sources are, from where we are. +VPATH = $(srcdir) + +fsrcdir := $(shell cd $(srcdir);${PWD_COMMAND}) +fsrcpfx := $(shell cd $(srcdir);${PWD_COMMAND})/ +fcurdir := $(shell ${PWD_COMMAND}) +fcurpfx := $(shell ${PWD_COMMAND})/ + +# Top build directory, relative to here. +top_builddir = ../.. + +# Internationalization library. +LIBINTL = @LIBINTL@ +LIBINTL_DEP = @LIBINTL_DEP@ + +# Any system libraries needed just for GNAT. +SYSLIBS = @GNAT_LIBEXC@ + +# List of extra object files linked in with various programs. +EXTRA_GNATTOOLS_OBJS = ../../prefix.o ../../version.o + +# List of target dependent sources, overridden below as necessary +TARGET_ADA_SRCS = + +# Type of tools build we are doing; default is not compiling tools. +TOOLSCASE = + +# End of variables for you to override. + +all: all.indirect + +# This tells GNU Make version 3 not to put all variables in the environment. +.NOEXPORT: + +# tmake_file and xmake_file expand to lists with entries of the form +# $(srcdir)/config/... but here $(srcdir) is the ada subdirectory so we +# need to adjust the paths. There can't be spaces in the subst arguments +# or we get spurious spaces in the actual list of files to include. + +# target overrides +ifneq ($(tmake_file),) +include $(subst /config,/../config,$(tmake_file)) +endif + +# host overrides +ifneq ($(xmake_file),) +include $(subst /config,/../config,$(xmake_file)) +endif + +# Now figure out from those variables how to compile and link. + +all.indirect: Makefile ../gnat1$(exeext) + +# IN_GCC distinguishes between code compiled into GCC itself and other +# programs built during a bootstrap. +# autoconf inserts -DCROSS_DIRECTORY_STRUCTURE if we are building a cross +# compiler which does not use the native libraries and headers. +INTERNAL_CFLAGS = @CROSS@ -DIN_GCC + +# This is the variable actually used when we compile. +LOOSE_CFLAGS = `echo $(CFLAGS) $(WARN2_CFLAGS)|sed -e 's/-pedantic//g' -e 's/-Wtraditional//g'` +ALL_CFLAGS = $(INTERNAL_CFLAGS) $(X_CFLAGS) $(T_CFLAGS) $(LOOSE_CFLAGS) \ + $(XCFLAGS) + +# Likewise. +ALL_CPPFLAGS = $(CPPFLAGS) $(X_CPPFLAGS) $(T_CPPFLAGS) + +# This is where we get libiberty.a from. +LIBIBERTY = ../../libiberty/libiberty.a + +# How to link with both our special library facilities +# and the system's installed libraries. +LIBS = $(LIBINTL) $(LIBIBERTY) $(SYSLIBS) +LIBDEPS = $(LIBINTL_DEP) $(LIBIBERTY) +# Default is no TGT_LIB; one might be passed down or something +TGT_LIB = +TOOLS_LIBS = $(EXTRA_GNATTOOLS_OBJS) targext.o link.o $(LIBGNAT) ../../../libiberty/libiberty.a $(SYSLIBS) $(TGT_LIB) + +# Specify the directories to be searched for header files. +# Both . and srcdir are used, in that order, +# so that tm.h and config.h will be found in the compilation +# subdirectory rather than in the source directory. +INCLUDES = -I- -I. -I.. -I$(srcdir) -I$(srcdir)/.. -I$(srcdir)/../config \ + -I$(srcdir)/../../include + +ADA_INCLUDES = -I- -I. -I$(srcdir) + +INCLUDES_FOR_SUBDIR = -I. -I.. -I../.. -I$(fsrcdir) -I$(fsrcdir)/../config \ + -I$(fsrcdir)/../../include -I$(fsrcdir)/.. +ADA_INCLUDES_FOR_SUBDIR = -I. -I$(fsrcdir) -I$(fsrcdir)/gcc + +# Avoid a lot of time thinking about remaking Makefile.in and *.def. +.SUFFIXES: .in .def + +# Say how to compile Ada programs. +.SUFFIXES: .ada .adb .ads .asm + +# Always use -I$(srcdir)/config when compiling. +.asm.o: + $(CC) -c -x assembler $< $(OUTPUT_OPTION) + +.c.o: + $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) $(ALL_CPPFLAGS) $(INCLUDES) $< \ + $(OUTPUT_OPTION) + +.adb.o: + $(CC) -c $(ALL_ADAFLAGS) $(ADA_INCLUDES) $< $(OUTPUT_OPTION) + +.ads.o: + $(CC) -c $(ALL_ADAFLAGS) $(ADA_INCLUDES) $< $(OUTPUT_OPTION) + +# how to regenerate this file +Makefile: ../config.status $(srcdir)/gcc-interface/Makefile.in $(srcdir)/Makefile.in $(srcdir)/../version.c + cd ..; \ + LANGUAGES="$(CONFIG_LANGUAGES)" \ + CONFIG_HEADERS= \ + CONFIG_FILES="ada/gcc-interface/Makefile ada/Makefile" $(SHELL) config.status + +# This tells GNU make version 3 not to export all the variables +# defined in this file into the environment. +.NOEXPORT: + +# Lists of files for various purposes. + +GNATLINK_OBJS = gnatlink.o \ + a-except.o ali.o alloc.o butil.o casing.o csets.o debug.o fmap.o fname.o \ + gnatvsn.o hostparm.o indepsw.o interfac.o i-c.o i-cstrin.o namet.o opt.o \ + osint.o output.o rident.o s-exctab.o s-secsta.o s-stalib.o s-stoele.o \ + sdefault.o snames.o stylesw.o switch.o system.o table.o targparm.o tree_io.o \ + types.o validsw.o widechar.o + +GNATMAKE_OBJS = a-except.o ali.o ali-util.o s-casuti.o \ + alloc.o atree.o binderr.o butil.o casing.o csets.o debug.o elists.o einfo.o\ + erroutc.o errutil.o err_vars.o fmap.o fname.o fname-uf.o fname-sf.o \ + gnatmake.o gnatvsn.o hostparm.o interfac.o i-c.o i-cstrin.o krunch.o lib.o \ + make.o makeusg.o makeutl.o mlib.o mlib-fil.o mlib-prj.o mlib-tgt.o \ + mlib-tgt-specific.o mlib-utl.o namet.o nlists.o opt.o osint.o osint-m.o output.o \ + prj.o prj-attr.o prj-attr-pm.o prj-com.o prj-dect.o prj-env.o prj-err.o prj-ext.o prj-nmsc.o \ + prj-pars.o prj-part.o prj-proc.o prj-strt.o prj-tree.o prj-util.o \ + rident.o s-exctab.o s-secsta.o s-stalib.o s-stoele.o \ + scans.o scng.o sdefault.o sfn_scan.o s-purexc.o s-htable.o \ + sinfo.o sinput.o sinput-c.o sinput-p.o \ + snames.o stand.o stringt.o styleg.o stylesw.o system.o validsw.o switch.o switch-m.o \ + table.o targparm.o tempdir.o tree_io.o types.o \ + uintp.o uname.o urealp.o usage.o widechar.o \ + $(EXTRA_GNATMAKE_OBJS) + +# Convert the target variable into a space separated list of architecture, +# manufacturer, and operating system and assign each of those to its own +# variable. + +host:=$(subst -, ,$(host_canonical)) +targ:=$(subst -, ,$(target)) +arch:=$(word 1,$(targ)) +ifeq ($(words $(targ)),2) + manu:= + osys:=$(word 2,$(targ)) +else + manu:=$(word 2,$(targ)) + osys:=$(word 3,$(targ)) +endif + +# LIBGNAT_TARGET_PAIRS is a list of pairs of filenames. +# The members of each pair must be separated by a '<' and no whitespace. +# Each pair must be separated by some amount of whitespace from the following +# pair. + +# Non-tasking case: + +LIBGNAT_TARGET_PAIRS = \ +a-intnam.ads rts/s.ads + $(MV) rts/s.ads rts/system.ads + $(MAKE) $(FLAGS_TO_PASS) \ + EH_MECHANISM="" \ + GNATLIBFLAGS="$(GNATLIBFLAGS)" \ + GNATLIBCFLAGS="$(GNATLIBCFLAGS)" \ + THREAD_KIND="$(THREAD_KIND)" \ + TARGET_LIBGCC2_CFLAGS="$(TARGET_LIBGCC2_CFLAGS)" gnatlib + +gnatlib-zcx: + $(MAKE) $(FLAGS_TO_PASS) EH_MECHANISM="-gcc" ../stamp-gnatlib1 + sed -e 's/ZCX_By_Default.*/ZCX_By_Default : constant Boolean := True;/' rts/system.ads > rts/s.ads + $(MV) rts/s.ads rts/system.ads + $(MAKE) $(FLAGS_TO_PASS) \ + EH_MECHANISM="-gcc" \ + GNATLIBFLAGS="$(GNATLIBFLAGS)" \ + GNATLIBCFLAGS="$(GNATLIBCFLAGS)" \ + THREAD_KIND="$(THREAD_KIND)" \ + TARGET_LIBGCC2_CFLAGS="$(TARGET_LIBGCC2_CFLAGS)" gnatlib + +# .s files for cross-building +gnat-cross: force + make $(GNAT1_ADA_OBJS) CC="gcc -B../stage1/" CFLAGS="-S -gnatp" + +# Compiling object files from source files. + +# Note that dependencies on obstack.h are not written +# because that file is not part of GCC. +# Dependencies on gvarargs.h are not written +# because all that file does, when not compiling with GCC, +# is include the system varargs.h. + +b_gnatl.c : $(GNATLINK_OBJS) + $(GNATBIND) -C $(ADA_INCLUDES) -o b_gnatl.c gnatlink.ali +b_gnatl.o : b_gnatl.c + +b_gnatm.c : $(GNATMAKE_OBJS) + $(GNATBIND) -C $(ADA_INCLUDES) -o b_gnatm.c gnatmake.ali +b_gnatm.o : b_gnatm.c + +ADA_INCLUDE_DIR = $(libsubdir)/adainclude +ADA_RTL_OBJ_DIR = $(libsubdir)/adalib + +# force no sibling call optimization on s-traceb.o so the number of stack +# frames to be skipped when computing a call chain is not modified by +# optimization. However we can do that only when building the runtime +# (not the compiler) because the -fno-optimize-sibling-calls option exists +# only in GCC 3 and above. + +ifneq (,$(findstring xgcc,$(CC))) +NO_SIBLING_ADAFLAGS=-fno-optimize-sibling-calls +else +NO_SIBLING_ADAFLAGS= +endif + +s-traceb.o : s-traceb.adb + $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) \ + $(NO_SIBLING_ADAFLAGS) $(ADA_INCLUDES) \ + $< $(OUTPUT_OPTION) + +# force debugging information on s-tasdeb.o so that it is always +# possible to set conditional breakpoints on tasks. + +s-tasdeb.o : s-tasdeb.adb s-tasdeb.ads + $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O0 $(ADA_INCLUDES) \ + $< $(OUTPUT_OPTION) + +# force no function reordering on a-except.o because of the exclusion bounds +# mechanism (see the source file for more detailed information). However we +# can do that only when building the runtime (not the compiler) because the +# -fno-toplevel-reorder option exists only in GCC 4.2 and above. + +ifneq (,$(findstring xgcc,$(CC))) +NO_REORDER_ADAFLAGS=-fno-toplevel-reorder +else +NO_REORDER_ADAFLAGS= +endif + +# force debugging information on a-except.o so that it is always +# possible to set conditional breakpoints on exceptions. +# use -O1 otherwise gdb isn't able to get a full backtrace on mips targets. + +a-except.o : a-except.adb a-except.ads + $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O1 -fno-inline \ + $(NO_REORDER_ADAFLAGS) $(ADA_INCLUDES) $< $(OUTPUT_OPTION) + +# compile s-except.o without optimization and with debug info to let the +# debugger set breakpoints and inspect subprogram parameters on exception +# related events. + +s-except.o : s-except.adb s-except.ads + $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O0 $(ADA_INCLUDES) \ + $< $(OUTPUT_OPTION) + +# force debugging information on s-assert.o so that it is always +# possible to set breakpoint on assert failures. + +s-assert.o : s-assert.adb s-assert.ads a-except.ads + $(CC) -c $(ALL_ADAFLAGS) $(FORCE_DEBUG_ADAFLAGS) -O2 $(ADA_INCLUDES) \ + $< $(OUTPUT_OPTION) + +adadecode.o : adadecode.c adadecode.h +aux-io.o : aux-io.c +argv.o : argv.c +cal.o : cal.c +deftarg.o : deftarg.c +errno.o : errno.c +exit.o : adaint.h exit.c +expect.o : expect.c +final.o : final.c +gmem.o : gmem.c +link.o : link.c +mkdir.o : mkdir.c +socket.o : socket.c gsocket.h +sysdep.o : sysdep.c +raise-gcc.o : raise-gcc.c raise.h +raise.o : raise.c raise.h +vx_stack_info.o : vx_stack_info.c + +gen-soccon: gen-soccon.c gsocket.h + $(CC) $(ALL_CFLAGS) $(ADA_CFLAGS) $(ALL_CPPFLAGS) $(INCLUDES) \ + -UIN_GCC -DTARGET=\"$(target_alias)\" \ + $< $(OUTPUT_OPTION) + +cio.o : cio.c + $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) \ + $(ALL_CPPFLAGS) $(INCLUDES) $< $(OUTPUT_OPTION) + +init.o : init.c adaint.h raise.h + $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) \ + $(ALL_CPPFLAGS) $(INCLUDES) $< $(OUTPUT_OPTION) + +initialize.o : initialize.c raise.h + $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) \ + $(ALL_CPPFLAGS) $(INCLUDES) $< $(OUTPUT_OPTION) + +targext.o : targext.c + $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) \ + $(ALL_CPPFLAGS) $(INCLUDES_FOR_SUBDIR) \ + $< $(OUTPUT_OPTION) + +# No optimization to compile this file as optimizations (-O1 or above) breaks +# the SEH handling on Windows. The reasons are not clear. +seh_init.o : seh_init.c raise.h + $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) -O0 \ + $(ALL_CPPFLAGS) $(INCLUDES) $< $(OUTPUT_OPTION) + +# Need to keep the frame pointer in this file to pop the stack properly on +# some targets. +tracebak.o : tracebak.c tb-alvms.c tb-alvxw.c tb-gcc.c + $(CC) -c $(ALL_CFLAGS) $(ADA_CFLAGS) $(ALL_CPPFLAGS) $(INCLUDES) \ + -fno-omit-frame-pointer $< $(OUTPUT_OPTION) + +# In GNU Make, ignore whether `stage*' exists. +.PHONY: stage1 stage2 stage3 stage4 clean realclean TAGS bootstrap +.PHONY: risky-stage1 risky-stage2 risky-stage3 risky-stage4 + +force: + +# Gnatlbr, Vms_help, and Gnat.hlp are only used on VMS + +../../gnatlbr$(exeext): ../../prefix.o + $(GNATMAKE) -c $(ADA_INCLUDES) gnatlbr --GCC="$(CC) $(ALL_ADAFLAGS)" + $(GNATBIND) $(ADA_INCLUDES) $(GNATBIND_FLAGS) gnatlbr + $(GNATLINK) -v gnatlbr -o $@ --GCC="$(GCC_LINK)" $(TOOLS_LIBS) + +../../vms_help$(exeext): + $(GNATMAKE) -c $(ADA_INCLUDES) vms_help --GCC="$(CC) $(ALL_ADAFLAGS)" + $(GNATBIND) $(ADA_INCLUDES) $(GNATBIND_FLAGS) vms_help + $(GNATLINK) -v vms_help -o $@ --GCC="$(GCC_LINK)" $(TOOLS_LIBS) + +../../gnat.hlp: ../../vms_help$(exeext) + ../../vms_help$(exeext) $(fsrcdir)/gnat.help_in \ + $(fsrcdir)/vms_data.ads ../../gnat.hlp diff --git a/gcc/ada/gcc-interface/ada-tree.def b/gcc/ada/gcc-interface/ada-tree.def new file mode 100644 index 00000000000..0a1949f6710 --- /dev/null +++ b/gcc/ada/gcc-interface/ada-tree.def @@ -0,0 +1,81 @@ +/**************************************************************************** + * * + * GNAT COMPILER COMPONENTS * + * * + * GNAT-SPECIFIC GCC TREE CODES * + * * + * Specification * + * * + * Copyright (C) 1992-2007, Free Software Foundation, Inc. * + * * + * GNAT is free software; you can redistribute it and/or modify it under * + * terms of the GNU General Public License as published by the Free Soft- * + * ware Foundation; either version 3, or (at your option) any later ver- * + * sion. GNAT is distributed in the hope that it will be useful, but WITH- * + * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * + * for more details. You should have received a copy of the GNU General * + * Public License along with GCC; see the file COPYING3. If not see * + * . * + * * + * GNAT was originally developed by the GNAT team at New York University. * + * Extensive contributions were provided by Ada Core Technologies Inc. * + * * + ****************************************************************************/ + +/* A type that is an unconstrained array itself. This node is never passed + to GCC. TREE_TYPE is the type of the fat pointer and TYPE_OBJECT_RECORD_TYPE + is the type of a record containing the template and data. */ + +DEFTREECODE (UNCONSTRAINED_ARRAY_TYPE, "unconstrained_array_type", tcc_type, 0) + +/* A reference to an unconstrained array. This node only exists as an + intermediate node during the translation of a GNAT tree to a GCC tree; + it is never passed to GCC. The only field used is operand 0, which + is the fat pointer object. */ + +DEFTREECODE (UNCONSTRAINED_ARRAY_REF, "unconstrained_array_ref", + tcc_reference, 1) + +/* An expression that returns an RTL suitable for its type. Operand 0 + is an expression to be evaluated for side effects only. */ +DEFTREECODE (NULL_EXPR, "null_expr", tcc_expression, 1) + +/* Same as ADDR_EXPR, except that if the operand represents a bit field, + return the address of the byte containing the bit. This is used + for the 'Address attribute and never shows up in the tree. */ +DEFTREECODE (ATTR_ADDR_EXPR, "attr_addr_expr", tcc_reference, 1) + +/* Here are the tree codes for the statement types known to Ada. These + must be at the end of this file to allow IS_ADA_STMT to work. */ + +/* This is how record_code_position and insert_code_for work. The former + makes this tree node, whose operand is a statement. The latter inserts + the actual statements into this node. Gimplification consists of + just returning the inner statement. */ +DEFTREECODE (STMT_STMT, "stmt_stmt", tcc_statement, 1) + +/* A loop. LOOP_STMT_TOP_COND and LOOP_STMT_BOT_COND are the tests to exit a + loop at the top and bottom, respectively. LOOP_STMT_UPDATE is the statement + to update the loop iterator at the continue point. LOOP_STMT_BODY are the + statements in the body of the loop. LOOP_STMT_LABEL points to the LABEL_DECL + of the end label of the loop. */ +DEFTREECODE (LOOP_STMT, "loop_stmt", tcc_statement, 5) + +/* Conditionally exit a loop. EXIT_STMT_COND is the condition, which, if + true, will cause the loop to be exited. If no condition is specified, + the loop is unconditionally exited. EXIT_STMT_LABEL is the end label + corresponding to the loop to exit. */ +DEFTREECODE (EXIT_STMT, "exit_stmt", tcc_statement, 2) + +/* A exception region. REGION_STMT_BODY is the statement to be executed + inside the region. REGION_STMT_HANDLE is a statement that represents + the exception handlers (usually a BLOCK_STMT of HANDLE_STMTs). + REGION_STMT_BLOCK is the BLOCK node for the declarative region, if any. */ +DEFTREECODE (REGION_STMT, "region_stmt", tcc_statement, 3) + +/* An exception handler. HANDLER_STMT_ARG is the value to pass to + expand_start_catch, HANDLER_STMT_LIST is the list of statements for the + handler itself, and HANDLER_STMT_BLOCK is the BLOCK node for this + binding. */ +DEFTREECODE (HANDLER_STMT, "handler_stmt", tcc_statement, 3) diff --git a/gcc/ada/gcc-interface/ada-tree.h b/gcc/ada/gcc-interface/ada-tree.h new file mode 100644 index 00000000000..9c31e46f267 --- /dev/null +++ b/gcc/ada/gcc-interface/ada-tree.h @@ -0,0 +1,321 @@ +/**************************************************************************** + * * + * GNAT COMPILER COMPONENTS * + * * + * A D A - T R E E * + * * + * C Header File * + * * + * Copyright (C) 1992-2008, Free Software Foundation, Inc. * + * * + * GNAT is free software; you can redistribute it and/or modify it under * + * terms of the GNU General Public License as published by the Free Soft- * + * ware Foundation; either version 3, or (at your option) any later ver- * + * sion. GNAT is distributed in the hope that it will be useful, but WITH- * + * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * + * for more details. You should have received a copy of the GNU General * + * Public License along with GCC; see the file COPYING3. If not see * + * . * + * * + * GNAT was originally developed by the GNAT team at New York University. * + * Extensive contributions were provided by Ada Core Technologies Inc. * + * * + ****************************************************************************/ + +/* Ada uses the lang_decl and lang_type fields to hold a tree. */ +union lang_tree_node + GTY((desc ("0"), + chain_next ("(union lang_tree_node *)TREE_CHAIN (&%h.t)"))) +{ + union tree_node GTY((tag ("0"))) t; +}; +struct lang_decl GTY(()) {tree t; }; +struct lang_type GTY(()) {tree t; }; + +/* Define macros to get and set the tree in TYPE_ and DECL_LANG_SPECIFIC. */ +#define GET_TYPE_LANG_SPECIFIC(NODE) \ + (TYPE_LANG_SPECIFIC (NODE) ? TYPE_LANG_SPECIFIC (NODE)->t : NULL_TREE) +#define SET_TYPE_LANG_SPECIFIC(NODE, X) \ + (TYPE_LANG_SPECIFIC (NODE) \ + = (TYPE_LANG_SPECIFIC (NODE) \ + ? TYPE_LANG_SPECIFIC (NODE) : GGC_NEW (struct lang_type))) \ + ->t = X; + +#define GET_DECL_LANG_SPECIFIC(NODE) \ + (DECL_LANG_SPECIFIC (NODE) ? DECL_LANG_SPECIFIC (NODE)->t : NULL_TREE) +#define SET_DECL_LANG_SPECIFIC(NODE, VALUE) \ + (DECL_LANG_SPECIFIC (NODE) \ + = (DECL_LANG_SPECIFIC (NODE) \ + ? DECL_LANG_SPECIFIC (NODE) : GGC_NEW (struct lang_decl))) \ + ->t = VALUE; + +/* Flags added to GCC type nodes. */ + +/* For RECORD_TYPE, UNION_TYPE, and QUAL_UNION_TYPE, nonzero if this is a + record being used as a fat pointer (only true for RECORD_TYPE). */ +#define TYPE_IS_FAT_POINTER_P(NODE) \ + TYPE_LANG_FLAG_0 (RECORD_OR_UNION_CHECK (NODE)) + +#define TYPE_FAT_POINTER_P(NODE) \ + (TREE_CODE (NODE) == RECORD_TYPE && TYPE_IS_FAT_POINTER_P (NODE)) + +/* For integral types and array types, nonzero if this is a packed array type + used for bit-packed types. Such types should not be extended to a larger + size or validated against a specified size. */ +#define TYPE_PACKED_ARRAY_TYPE_P(NODE) TYPE_LANG_FLAG_0 (NODE) + +#define TYPE_IS_PACKED_ARRAY_TYPE_P(NODE) \ + ((TREE_CODE (NODE) == INTEGER_TYPE || TREE_CODE (NODE) == ARRAY_TYPE) \ + && TYPE_PACKED_ARRAY_TYPE_P (NODE)) + +/* For INTEGER_TYPE, nonzero if this is a modular type with a modulus that + is not equal to two to the power of its mode's size. */ +#define TYPE_MODULAR_P(NODE) TYPE_LANG_FLAG_1 (INTEGER_TYPE_CHECK (NODE)) + +/* For ARRAY_TYPE, nonzero if this type corresponds to a dimension of + an Ada array other than the first. */ +#define TYPE_MULTI_ARRAY_P(NODE) TYPE_LANG_FLAG_1 (ARRAY_TYPE_CHECK (NODE)) + +/* For FUNCTION_TYPE, nonzero if this denotes a function returning an + unconstrained array or record. */ +#define TYPE_RETURNS_UNCONSTRAINED_P(NODE) \ + TYPE_LANG_FLAG_1 (FUNCTION_TYPE_CHECK (NODE)) + +/* For RECORD_TYPE, UNION_TYPE, and QUAL_UNION_TYPE, nonzero if this denotes + a justified modular type (will only be true for RECORD_TYPE). */ +#define TYPE_JUSTIFIED_MODULAR_P(NODE) \ + TYPE_LANG_FLAG_1 (RECORD_OR_UNION_CHECK (NODE)) + +/* Nonzero in an arithmetic subtype if this is a subtype not known to the + front-end. */ +#define TYPE_EXTRA_SUBTYPE_P(NODE) TYPE_LANG_FLAG_2 (NODE) + +/* Nonzero for composite types if this is a by-reference type. */ +#define TYPE_BY_REFERENCE_P(NODE) TYPE_LANG_FLAG_2 (NODE) + +/* For RECORD_TYPE, UNION_TYPE, and QUAL_UNION_TYPE, nonzero if this is the + type for an object whose type includes its template in addition to + its value (only true for RECORD_TYPE). */ +#define TYPE_CONTAINS_TEMPLATE_P(NODE) \ + TYPE_LANG_FLAG_3 (RECORD_OR_UNION_CHECK (NODE)) + +/* For INTEGER_TYPE, nonzero if this really represents a VAX + floating-point type. */ +#define TYPE_VAX_FLOATING_POINT_P(NODE) \ + TYPE_LANG_FLAG_3 (INTEGER_TYPE_CHECK (NODE)) + +/* True if NODE is a thin pointer. */ +#define TYPE_THIN_POINTER_P(NODE) \ + (POINTER_TYPE_P (NODE) \ + && TREE_CODE (TREE_TYPE (NODE)) == RECORD_TYPE \ + && TYPE_CONTAINS_TEMPLATE_P (TREE_TYPE (NODE))) + +/* True if TYPE is either a fat or thin pointer to an unconstrained + array. */ +#define TYPE_FAT_OR_THIN_POINTER_P(NODE) \ + (TYPE_FAT_POINTER_P (NODE) || TYPE_THIN_POINTER_P (NODE)) + +/* For INTEGER_TYPEs, nonzero if the type has a biased representation. */ +#define TYPE_BIASED_REPRESENTATION_P(NODE) \ + TYPE_LANG_FLAG_4 (INTEGER_TYPE_CHECK (NODE)) + +/* For ARRAY_TYPEs, nonzero if the array type has Convention_Fortran. */ +#define TYPE_CONVENTION_FORTRAN_P(NODE) \ + TYPE_LANG_FLAG_4 (ARRAY_TYPE_CHECK (NODE)) + +/* For FUNCTION_TYPEs, nonzero if the function returns by reference. */ +#define TYPE_RETURNS_BY_REF_P(NODE) \ + TYPE_LANG_FLAG_4 (FUNCTION_TYPE_CHECK (NODE)) + +/* For VOID_TYPE, ENUMERAL_TYPE, UNION_TYPE, and RECORD_TYPE, nonzero if this + is a dummy type, made to correspond to a private or incomplete type. */ +#define TYPE_DUMMY_P(NODE) TYPE_LANG_FLAG_4 (NODE) + +/* True if TYPE is such a dummy type. */ +#define TYPE_IS_DUMMY_P(NODE) \ + ((TREE_CODE (NODE) == VOID_TYPE || TREE_CODE (NODE) == RECORD_TYPE \ + || TREE_CODE (NODE) == UNION_TYPE || TREE_CODE (NODE) == ENUMERAL_TYPE) \ + && TYPE_DUMMY_P (NODE)) + +/* For FUNCTION_TYPEs, nonzero if function returns by being passed a pointer + to a place to store its result. */ +#define TYPE_RETURNS_BY_TARGET_PTR_P(NODE) \ + TYPE_LANG_FLAG_5 (FUNCTION_TYPE_CHECK (NODE)) + +/* For an INTEGER_TYPE, nonzero if TYPE_ACTUAL_BOUNDS is present. */ +#define TYPE_HAS_ACTUAL_BOUNDS_P(NODE) \ + TYPE_LANG_FLAG_5 (INTEGER_TYPE_CHECK (NODE)) + +/* For a RECORD_TYPE, nonzero if this was made just to supply needed + padding or alignment. */ +#define TYPE_IS_PADDING_P(NODE) TYPE_LANG_FLAG_5 (RECORD_TYPE_CHECK (NODE)) + +/* True if TYPE can alias any other types. */ +#define TYPE_UNIVERSAL_ALIASING_P(NODE) TYPE_LANG_FLAG_6 (NODE) + +/* This field is only defined for FUNCTION_TYPE nodes. If the Ada + subprogram contains no parameters passed by copy in/copy out then this + field is 0. Otherwise it points to a list of nodes used to specify the + return values of the out (or in out) parameters that qualify to be passed + by copy in copy out. It is a CONSTRUCTOR. For a full description of the + cico parameter passing mechanism refer to the routine gnat_to_gnu_entity. */ +#define TYPE_CI_CO_LIST(NODE) TYPE_LANG_SLOT_1 (FUNCTION_TYPE_CHECK (NODE)) + +/* For an INTEGER_TYPE with TYPE_MODULAR_P, this is the value of the + modulus. */ +#define TYPE_MODULUS(NODE) GET_TYPE_LANG_SPECIFIC (INTEGER_TYPE_CHECK (NODE)) +#define SET_TYPE_MODULUS(NODE, X) \ + SET_TYPE_LANG_SPECIFIC (INTEGER_TYPE_CHECK (NODE), X) + +/* For an INTEGER_TYPE that is the TYPE_DOMAIN of some ARRAY_TYPE, points to + the type corresponding to the Ada index type. */ +#define TYPE_INDEX_TYPE(NODE) \ + GET_TYPE_LANG_SPECIFIC (INTEGER_TYPE_CHECK (NODE)) +#define SET_TYPE_INDEX_TYPE(NODE, X) \ + SET_TYPE_LANG_SPECIFIC (INTEGER_TYPE_CHECK (NODE), X) + +/* For an INTEGER_TYPE with TYPE_VAX_FLOATING_POINT_P, stores the + Digits_Value. */ +#define TYPE_DIGITS_VALUE(NODE) \ + GET_TYPE_LANG_SPECIFIC (INTEGER_TYPE_CHECK (NODE)) +#define SET_TYPE_DIGITS_VALUE(NODE, X) \ + SET_TYPE_LANG_SPECIFIC (INTEGER_TYPE_CHECK (NODE), X) + +/* For numeric types, stores the RM_Size of the type. */ +#define TYPE_RM_SIZE_NUM(NODE) TYPE_LANG_SLOT_1 (NUMERICAL_TYPE_CHECK (NODE)) + +#define TYPE_RM_SIZE(NODE) \ + (INTEGRAL_TYPE_P (NODE) || TREE_CODE (NODE) == REAL_TYPE \ + ? TYPE_RM_SIZE_NUM (NODE) : 0) + +/* For a RECORD_TYPE that is a fat pointer, point to the type for the + unconstrained object. Likewise for a RECORD_TYPE that is pointed + to by a thin pointer. */ +#define TYPE_UNCONSTRAINED_ARRAY(NODE) \ + GET_TYPE_LANG_SPECIFIC (RECORD_TYPE_CHECK (NODE)) +#define SET_TYPE_UNCONSTRAINED_ARRAY(NODE, X) \ + SET_TYPE_LANG_SPECIFIC (RECORD_TYPE_CHECK (NODE), X) + +/* For other RECORD_TYPEs and all UNION_TYPEs and QUAL_UNION_TYPEs, the Ada + size of the object. This differs from the GCC size in that it does not + include any rounding up to the alignment of the type. */ +#define TYPE_ADA_SIZE(NODE) \ + GET_TYPE_LANG_SPECIFIC (RECORD_OR_UNION_CHECK (NODE)) +#define SET_TYPE_ADA_SIZE(NODE, X) \ + SET_TYPE_LANG_SPECIFIC (RECORD_OR_UNION_CHECK (NODE), X) + +/* For an INTEGER_TYPE with TYPE_HAS_ACTUAL_BOUNDS_P or an ARRAY_TYPE, this is + the index type that should be used when the actual bounds are required for + a template. This is used in the case of packed arrays. */ +#define TYPE_ACTUAL_BOUNDS(NODE) \ + GET_TYPE_LANG_SPECIFIC (TREE_CHECK2 (NODE, INTEGER_TYPE, ARRAY_TYPE)) +#define SET_TYPE_ACTUAL_BOUNDS(NODE, X) \ + SET_TYPE_LANG_SPECIFIC (TREE_CHECK2 (NODE, INTEGER_TYPE, ARRAY_TYPE), X) + +/* In an UNCONSTRAINED_ARRAY_TYPE, points to the record containing both + the template and object. + + ??? We also put this on an ENUMERAL_TYPE that's dummy. Technically, + this is a conflict on the minval field, but there doesn't seem to be + simple fix, so we'll live with this kludge for now. */ +#define TYPE_OBJECT_RECORD_TYPE(NODE) \ + (TREE_CHECK2 ((NODE), UNCONSTRAINED_ARRAY_TYPE, ENUMERAL_TYPE)->type.minval) + +/* Nonzero in a FUNCTION_DECL that represents a stubbed function + discriminant. */ +#define DECL_STUBBED_P(NODE) DECL_LANG_FLAG_0 (FUNCTION_DECL_CHECK (NODE)) + +/* Nonzero in a VAR_DECL if it is guaranteed to be constant after having + been elaborated and TREE_READONLY is not set on it. */ +#define DECL_READONLY_ONCE_ELAB(NODE) DECL_LANG_FLAG_0 (VAR_DECL_CHECK (NODE)) + +/* Nonzero if this decl is always used by reference; i.e., an INDIRECT_REF + is needed to access the object. */ +#define DECL_BY_REF_P(NODE) DECL_LANG_FLAG_1 (NODE) + +/* Nonzero in a FIELD_DECL that is a dummy built for some internal reason. */ +#define DECL_INTERNAL_P(NODE) DECL_LANG_FLAG_3 (FIELD_DECL_CHECK (NODE)) + +/* Nonzero if this decl is a PARM_DECL for an Ada array being passed to a + foreign convention subprogram. */ +#define DECL_BY_COMPONENT_PTR_P(NODE) DECL_LANG_FLAG_3 (PARM_DECL_CHECK (NODE)) + +/* Nonzero in a FUNCTION_DECL that corresponds to an elaboration procedure. */ +#define DECL_ELABORATION_PROC_P(NODE) \ + DECL_LANG_FLAG_3 (FUNCTION_DECL_CHECK (NODE)) + +/* Nonzero if this is a decl for a pointer that points to something which + is readonly. Used mostly for fat pointers. */ +#define DECL_POINTS_TO_READONLY_P(NODE) DECL_LANG_FLAG_4 (NODE) + +/* Nonzero in a FIELD_DECL if there was a record rep clause. */ +#define DECL_HAS_REP_P(NODE) DECL_LANG_FLAG_5 (FIELD_DECL_CHECK (NODE)) + +/* Nonzero in a PARM_DECL if we are to pass by descriptor. */ +#define DECL_BY_DESCRIPTOR_P(NODE) DECL_LANG_FLAG_5 (PARM_DECL_CHECK (NODE)) + +/* Nonzero in a VAR_DECL if it is a pointer renaming a global object. */ +#define DECL_RENAMING_GLOBAL_P(NODE) DECL_LANG_FLAG_5 (VAR_DECL_CHECK (NODE)) + +/* In a CONST_DECL, points to a VAR_DECL that is allocatable to + memory. Used when a scalar constant is aliased or has its + address taken. */ +#define DECL_CONST_CORRESPONDING_VAR(NODE) \ + GET_DECL_LANG_SPECIFIC (CONST_DECL_CHECK (NODE)) +#define SET_DECL_CONST_CORRESPONDING_VAR(NODE, X) \ + SET_DECL_LANG_SPECIFIC (CONST_DECL_CHECK (NODE), X) + +/* In a FIELD_DECL, points to the FIELD_DECL that was the ultimate + source of the decl. */ +#define DECL_ORIGINAL_FIELD(NODE) \ + GET_DECL_LANG_SPECIFIC (FIELD_DECL_CHECK (NODE)) +#define SET_DECL_ORIGINAL_FIELD(NODE, X) \ + SET_DECL_LANG_SPECIFIC (FIELD_DECL_CHECK (NODE), X) + +/* In a VAR_DECL, points to the object being renamed if the VAR_DECL is a + renaming pointer, otherwise 0. Note that this object is guaranteed to + be protected against multiple evaluations. */ +#define DECL_RENAMED_OBJECT(NODE) \ + GET_DECL_LANG_SPECIFIC (VAR_DECL_CHECK (NODE)) +#define SET_DECL_RENAMED_OBJECT(NODE, X) \ + SET_DECL_LANG_SPECIFIC (VAR_DECL_CHECK (NODE), X) + +/* In a TYPE_DECL, points to the parallel type if any, otherwise 0. */ +#define DECL_PARALLEL_TYPE(NODE) \ + GET_DECL_LANG_SPECIFIC (TYPE_DECL_CHECK (NODE)) +#define SET_DECL_PARALLEL_TYPE(NODE, X) \ + SET_DECL_LANG_SPECIFIC (TYPE_DECL_CHECK (NODE), X) + +/* In a FUNCTION_DECL, points to the stub associated with the function + if any, otherwise 0. */ +#define DECL_FUNCTION_STUB(NODE) \ + GET_DECL_LANG_SPECIFIC (FUNCTION_DECL_CHECK (NODE)) +#define SET_DECL_FUNCTION_STUB(NODE, X) \ + SET_DECL_LANG_SPECIFIC (FUNCTION_DECL_CHECK (NODE), X) + +/* In a FIELD_DECL corresponding to a discriminant, contains the + discriminant number. */ +#define DECL_DISCRIMINANT_NUMBER(NODE) DECL_INITIAL (FIELD_DECL_CHECK (NODE)) + +/* Define fields and macros for statements. + + Start by defining which tree codes are used for statements. */ +#define IS_STMT(NODE) (STATEMENT_CLASS_P (NODE)) +#define IS_ADA_STMT(NODE) (IS_STMT (NODE) \ + && TREE_CODE (NODE) >= STMT_STMT) + +#define STMT_STMT_STMT(NODE) TREE_OPERAND_CHECK_CODE (NODE, STMT_STMT, 0) +#define LOOP_STMT_TOP_COND(NODE) TREE_OPERAND_CHECK_CODE (NODE, LOOP_STMT, 0) +#define LOOP_STMT_BOT_COND(NODE) TREE_OPERAND_CHECK_CODE (NODE, LOOP_STMT, 1) +#define LOOP_STMT_UPDATE(NODE) TREE_OPERAND_CHECK_CODE (NODE, LOOP_STMT, 2) +#define LOOP_STMT_BODY(NODE) TREE_OPERAND_CHECK_CODE (NODE, LOOP_STMT, 3) +#define LOOP_STMT_LABEL(NODE) TREE_OPERAND_CHECK_CODE (NODE, LOOP_STMT, 4) +#define EXIT_STMT_COND(NODE) TREE_OPERAND_CHECK_CODE (NODE, EXIT_STMT, 0) +#define EXIT_STMT_LABEL(NODE) TREE_OPERAND_CHECK_CODE (NODE, EXIT_STMT, 1) +#define REGION_STMT_BODY(NODE) TREE_OPERAND_CHECK_CODE (NODE, REGION_STMT, 0) +#define REGION_STMT_HANDLE(NODE) TREE_OPERAND_CHECK_CODE (NODE, REGION_STMT, 1) +#define REGION_STMT_BLOCK(NODE) TREE_OPERAND_CHECK_CODE (NODE, REGION_STMT, 2) +#define HANDLER_STMT_ARG(NODE) TREE_OPERAND_CHECK_CODE (NODE, HANDLER_STMT, 0) +#define HANDLER_STMT_LIST(NODE) TREE_OPERAND_CHECK_CODE (NODE, HANDLER_STMT, 1) +#define HANDLER_STMT_BLOCK(NODE) TREE_OPERAND_CHECK_CODE(NODE, HANDLER_STMT, 2) diff --git a/gcc/ada/gcc-interface/ada.h b/gcc/ada/gcc-interface/ada.h new file mode 100644 index 00000000000..5f2191fdec9 --- /dev/null +++ b/gcc/ada/gcc-interface/ada.h @@ -0,0 +1,80 @@ +/**************************************************************************** + * * + * GNAT COMPILER COMPONENTS * + * * + * A D A * + * * + * C Header File * + * * + * Copyright (C) 1992-2008, Free Software Foundation, Inc. * + * * + * GNAT is free software; you can redistribute it and/or modify it under * + * terms of the GNU General Public License as published by the Free Soft- * + * ware Foundation; either version 2, or (at your option) any later ver- * + * sion. GNAT is distributed in the hope that it will be useful, but WITH- * + * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * + * for more details. You should have received a copy of the GNU General * + * Public License distributed with GNAT; see file COPYING. If not, write * + * to the Free Software Foundation, 51 Franklin Street, Fifth Floor, * + * Boston, MA 02110-1301, USA. * + * * + * As a special exception, if you link this file with other files to * + * produce an executable, this file does not by itself cause the resulting * + * executable to be covered by the GNU General Public License. This except- * + * ion does not however invalidate any other reasons why the executable * + * file might be covered by the GNU Public License. * + * * + * GNAT was originally developed by the GNAT team at New York University. * + * Extensive contributions were provided by Ada Core Technologies Inc. * + * * + ****************************************************************************/ + +/* This file contains some standard macros for performing Ada-like + operations. These are used to aid in the translation of other headers. */ + +#ifndef GCC_ADA_H +#define GCC_ADA_H + +/* Inlined functions in header are preceded by INLINE, which is normally set + to extern inline for GCC, but may be set to static for use in standard + ANSI-C. */ + +#ifndef INLINE +#ifdef __GNUC__ +#define INLINE static inline +#else +#define INLINE static +#endif +#endif + +/* Define a macro to concatenate two strings. Write it for ANSI C and + for traditional C. */ + +#ifdef __STDC__ +#define CAT(A,B) A##B +#else +#define _ECHO(A) A +#define CAT(A,B) ECHO(A)B +#endif + +/* The following macro definition simulates the effect of a declaration of + a subtype, where the first two parameters give the name of the type and + subtype, and the third and fourth parameters give the subtype range. The + effect is to compile a typedef defining the subtype as a synonym for the + type, together with two constants defining the end points. */ + +#define SUBTYPE(SUBTYPE,TYPE,FIRST,LAST) \ + typedef TYPE SUBTYPE; \ + enum { CAT (SUBTYPE,__First) = FIRST, \ + CAT (SUBTYPE,__Last) = LAST }; + +/* The following definitions provide the equivalent of the Ada IN and NOT IN + operators, assuming that the subtype involved has been defined using the + SUBTYPE macro defined above. */ + +#define IN(VALUE,SUBTYPE) \ + (((VALUE) >= (SUBTYPE) CAT (SUBTYPE,__First)) \ + && ((VALUE) <= (SUBTYPE) CAT (SUBTYPE,__Last))) + +#endif diff --git a/gcc/ada/gcc-interface/config-lang.in b/gcc/ada/gcc-interface/config-lang.in new file mode 100644 index 00000000000..4eb979034a2 --- /dev/null +++ b/gcc/ada/gcc-interface/config-lang.in @@ -0,0 +1,43 @@ +# Top level configure fragment for GNU Ada (GNAT). +# Copyright (C) 1994-2008 Free Software Foundation, Inc. + +#This file is part of GCC. + +#GCC is free software; you can redistribute it and/or modify +#it under the terms of the GNU General Public License as published by +#the Free Software Foundation; either version 3, or (at your option) +#any later version. + +#GCC is distributed in the hope that it will be useful, +#but WITHOUT ANY WARRANTY; without even the implied warranty of +#MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +#GNU General Public License for more details. + +#You should have received a copy of the GNU General Public License +#along with GCC; see the file COPYING3. If not see +#. + +# Configure looks for the existence of this file to auto-config each language. +# We define several parameters used by configure: +# +# language - name of language as it would appear in $(LANGUAGES) +# boot_language - "yes" if we need to build this language in stage1 +# compilers - value to add to $(COMPILERS) + +language="ada" +gcc_subdir="ada/gcc-interface" + +boot_language=yes +boot_language_boot_flags='ADAFLAGS="$(BOOT_ADAFLAGS)"' + +compilers="gnat1\$(exeext)" + +gtfiles="\$(srcdir)/ada/gcc-interface/ada-tree.h \$(srcdir)/ada/gcc-interface/gigi.h \$(srcdir)/ada/gcc-interface/decl.c \$(srcdir)/ada/gcc-interface/trans.c \$(srcdir)/ada/gcc-interface/utils.c" + +outputs="ada/gcc-interface/Makefile ada/Makefile" + +target_libs="target-libada" +lang_dirs="gnattools" + +# Ada will not work until the front end starts emitting GIMPLE trees. +build_by_default=no diff --git a/gcc/ada/gcc-interface/cuintp.c b/gcc/ada/gcc-interface/cuintp.c new file mode 100644 index 00000000000..90ea342f6b5 --- /dev/null +++ b/gcc/ada/gcc-interface/cuintp.c @@ -0,0 +1,142 @@ +/**************************************************************************** + * * + * GNAT COMPILER COMPONENTS * + * * + * C U I N T P * + * * + * C Implementation File * + * * + * Copyright (C) 1992-2008, Free Software Foundation, Inc. * + * * + * GNAT is free software; you can redistribute it and/or modify it under * + * terms of the GNU General Public License as published by the Free Soft- * + * ware Foundation; either version 3, or (at your option) any later ver- * + * sion. GNAT is distributed in the hope that it will be useful, but WITH- * + * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * + * for more details. You should have received a copy of the GNU General * + * Public License along with GCC; see the file COPYING3. If not see * + * . * + * * + * GNAT was originally developed by the GNAT team at New York University. * + * Extensive contributions were provided by Ada Core Technologies Inc. * + * * + ****************************************************************************/ + +/* This file corresponds to the Ada package body Uintp. It was created + manually from the files uintp.ads and uintp.adb. */ + +#include "config.h" +#include "system.h" +#include "coretypes.h" +#include "tm.h" +#include "tree.h" +#include "ada.h" +#include "types.h" +#include "uintp.h" +#include "atree.h" +#include "elists.h" +#include "nlists.h" +#include "stringt.h" +#include "fe.h" +#include "gigi.h" +#include "ada-tree.h" + +/* Universal integers are represented by the Uint type which is an index into + the Uints_Ptr table containing Uint_Entry values. A Uint_Entry contains an + index and length for getting the "digits" of the universal integer from the + Udigits_Ptr table. + + For efficiency, this method is used only for integer values larger than the + constant Uint_Bias. If a Uint is less than this constant, then it contains + the integer value itself. The origin of the Uints_Ptr table is adjusted so + that a Uint value of Uint_Bias indexes the first element. + + First define a utility function that operates like build_int_cst for + integral types and does a conversion to floating-point for real types. */ + +static tree +build_cst_from_int (tree type, HOST_WIDE_INT low) +{ + if (TREE_CODE (type) == REAL_TYPE) + return convert (type, build_int_cst (NULL_TREE, low)); + else + return build_int_cst_type (type, low); +} + +/* Similar to UI_To_Int, but return a GCC INTEGER_CST or REAL_CST node, + depending on whether TYPE is an integral or real type. Overflow is tested + by the constant-folding used to build the node. TYPE is the GCC type of + the resulting node. */ + +tree +UI_To_gnu (Uint Input, tree type) +{ + tree gnu_ret; + + /* We might have a TYPE with biased representation and be passed an + unbiased value that doesn't fit. We always use an unbiased type able + to hold any such possible value for intermediate computations, and + then rely on a conversion back to TYPE to perform the bias adjustment + when need be. */ + + int biased_type_p + = (TREE_CODE (type) == INTEGER_TYPE + && TYPE_BIASED_REPRESENTATION_P (type)); + + tree comp_type = biased_type_p ? get_base_type (type) : type; + + if (Input <= Uint_Direct_Last) + gnu_ret = build_cst_from_int (comp_type, Input - Uint_Direct_Bias); + else + { + Int Idx = Uints_Ptr[Input].Loc; + Pos Length = Uints_Ptr[Input].Length; + Int First = Udigits_Ptr[Idx]; + tree gnu_base; + + gcc_assert (Length > 0); + + /* The computations we perform below always require a type at least as + large as an integer not to overflow. REAL types are always fine, but + INTEGER or ENUMERAL types we are handed may be too short. We use a + base integer type node for the computations in this case and will + convert the final result back to the incoming type later on. + The base integer precision must be superior than 16. */ + + if (TREE_CODE (comp_type) != REAL_TYPE + && TYPE_PRECISION (comp_type) < TYPE_PRECISION (long_integer_type_node)) + { + comp_type = long_integer_type_node; + gcc_assert (TYPE_PRECISION (comp_type) > 16); + } + + gnu_base = build_cst_from_int (comp_type, Base); + + gnu_ret = build_cst_from_int (comp_type, First); + if (First < 0) + for (Idx++, Length--; Length; Idx++, Length--) + gnu_ret = fold_build2 (MINUS_EXPR, comp_type, + fold_build2 (MULT_EXPR, comp_type, + gnu_ret, gnu_base), + build_cst_from_int (comp_type, + Udigits_Ptr[Idx])); + else + for (Idx++, Length--; Length; Idx++, Length--) + gnu_ret = fold_build2 (PLUS_EXPR, comp_type, + fold_build2 (MULT_EXPR, comp_type, + gnu_ret, gnu_base), + build_cst_from_int (comp_type, + Udigits_Ptr[Idx])); + } + + gnu_ret = convert (type, gnu_ret); + + /* We don't need any NOP_EXPR or NON_LVALUE_EXPR on GNU_RET. */ + while ((TREE_CODE (gnu_ret) == NOP_EXPR + || TREE_CODE (gnu_ret) == NON_LVALUE_EXPR) + && TREE_TYPE (TREE_OPERAND (gnu_ret, 0)) == TREE_TYPE (gnu_ret)) + gnu_ret = TREE_OPERAND (gnu_ret, 0); + + return gnu_ret; +} diff --git a/gcc/ada/gcc-interface/decl.c b/gcc/ada/gcc-interface/decl.c new file mode 100644 index 00000000000..ebc2e5edd14 --- /dev/null +++ b/gcc/ada/gcc-interface/decl.c @@ -0,0 +1,7648 @@ +/**************************************************************************** + * * + * GNAT COMPILER COMPONENTS * + * * + * D E C L * + * * + * C Implementation File * + * * + * Copyright (C) 1992-2008, Free Software Foundation, Inc. * + * * + * GNAT is free software; you can redistribute it and/or modify it under * + * terms of the GNU General Public License as published by the Free Soft- * + * ware Foundation; either version 3, or (at your option) any later ver- * + * sion. GNAT is distributed in the hope that it will be useful, but WITH- * + * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * + * for more details. You should have received a copy of the GNU General * + * Public License along with GCC; see the file COPYING3. If not see * + * . * + * * + * GNAT was originally developed by the GNAT team at New York University. * + * Extensive contributions were provided by Ada Core Technologies Inc. * + * * + ****************************************************************************/ + +#include "config.h" +#include "system.h" +#include "coretypes.h" +#include "tm.h" +#include "tree.h" +#include "flags.h" +#include "toplev.h" +#include "convert.h" +#include "ggc.h" +#include "obstack.h" +#include "target.h" +#include "expr.h" + +#include "ada.h" +#include "types.h" +#include "atree.h" +#include "elists.h" +#include "namet.h" +#include "nlists.h" +#include "repinfo.h" +#include "snames.h" +#include "stringt.h" +#include "uintp.h" +#include "fe.h" +#include "sinfo.h" +#include "einfo.h" +#include "hashtab.h" +#include "ada-tree.h" +#include "gigi.h" + +#ifndef MAX_FIXED_MODE_SIZE +#define MAX_FIXED_MODE_SIZE GET_MODE_BITSIZE (DImode) +#endif + +/* Convention_Stdcall should be processed in a specific way on Windows targets + only. The macro below is a helper to avoid having to check for a Windows + specific attribute throughout this unit. */ + +#if TARGET_DLLIMPORT_DECL_ATTRIBUTES +#define Has_Stdcall_Convention(E) (Convention (E) == Convention_Stdcall) +#else +#define Has_Stdcall_Convention(E) (0) +#endif + +/* Stack realignment for functions with foreign conventions is provided on a + per back-end basis now, as it is handled by the prologue expanders and not + as part of the function's body any more. It might be requested by way of a + dedicated function type attribute on the targets that support it. + + We need a way to avoid setting the attribute on the targets that don't + support it and use FORCE_PREFERRED_STACK_BOUNDARY_IN_MAIN for this purpose. + + It is defined on targets where the circuitry is available, and indicates + whether the realignment is needed for 'main'. We use this to decide for + foreign subprograms as well. + + It is not defined on targets where the circuitry is not implemented, and + we just never set the attribute in these cases. + + Whether it is defined on all targets that would need it in theory is + not entirely clear. We currently trust the base GCC settings for this + purpose. */ + +#ifndef FORCE_PREFERRED_STACK_BOUNDARY_IN_MAIN +#define FORCE_PREFERRED_STACK_BOUNDARY_IN_MAIN 0 +#endif + +struct incomplete +{ + struct incomplete *next; + tree old_type; + Entity_Id full_type; +}; + +/* These variables are used to defer recursively expanding incomplete types + while we are processing an array, a record or a subprogram type. */ +static int defer_incomplete_level = 0; +static struct incomplete *defer_incomplete_list; + +/* This variable is used to delay expanding From_With_Type types until the + end of the spec. */ +static struct incomplete *defer_limited_with; + +/* These variables are used to defer finalizing types. The element of the + list is the TYPE_DECL associated with the type. */ +static int defer_finalize_level = 0; +static VEC (tree,heap) *defer_finalize_list; + +/* A hash table used to cache the result of annotate_value. */ +static GTY ((if_marked ("tree_int_map_marked_p"), + param_is (struct tree_int_map))) htab_t annotate_value_cache; + +static void copy_alias_set (tree, tree); +static tree substitution_list (Entity_Id, Entity_Id, tree, bool); +static bool allocatable_size_p (tree, bool); +static void prepend_one_attribute_to (struct attrib **, + enum attr_type, tree, tree, Node_Id); +static void prepend_attributes (Entity_Id, struct attrib **); +static tree elaborate_expression (Node_Id, Entity_Id, tree, bool, bool, bool); +static bool is_variable_size (tree); +static tree elaborate_expression_1 (Node_Id, Entity_Id, tree, tree, + bool, bool); +static tree make_packable_type (tree, bool); +static tree gnat_to_gnu_field (Entity_Id, tree, int, bool); +static tree gnat_to_gnu_param (Entity_Id, Mechanism_Type, Entity_Id, bool, + bool *); +static bool same_discriminant_p (Entity_Id, Entity_Id); +static bool array_type_has_nonaliased_component (Entity_Id, tree); +static void components_to_record (tree, Node_Id, tree, int, bool, tree *, + bool, bool, bool, bool); +static Uint annotate_value (tree); +static void annotate_rep (Entity_Id, tree); +static tree compute_field_positions (tree, tree, tree, tree, unsigned int); +static tree validate_size (Uint, tree, Entity_Id, enum tree_code, bool, bool); +static void set_rm_size (Uint, tree, Entity_Id); +static tree make_type_from_size (tree, tree, bool); +static unsigned int validate_alignment (Uint, Entity_Id, unsigned int); +static unsigned int ceil_alignment (unsigned HOST_WIDE_INT); +static void check_ok_for_atomic (tree, Entity_Id, bool); +static int compatible_signatures_p (tree ftype1, tree ftype2); +static void rest_of_type_decl_compilation_no_defer (tree); + +/* Return true if GNAT_ADDRESS is a compile time known value. + In particular catch System'To_Address. */ + +static bool +compile_time_known_address_p (Node_Id gnat_address) +{ + return ((Nkind (gnat_address) == N_Unchecked_Type_Conversion + && Compile_Time_Known_Value (Expression (gnat_address))) + || Compile_Time_Known_Value (gnat_address)); +} + +/* Given GNAT_ENTITY, an entity in the incoming GNAT tree, return a + GCC type corresponding to that entity. GNAT_ENTITY is assumed to + refer to an Ada type. */ + +tree +gnat_to_gnu_type (Entity_Id gnat_entity) +{ + tree gnu_decl; + + /* The back end never attempts to annotate generic types */ + if (Is_Generic_Type (gnat_entity) && type_annotate_only) + return void_type_node; + + /* Convert the ada entity type into a GCC TYPE_DECL node. */ + gnu_decl = gnat_to_gnu_entity (gnat_entity, NULL_TREE, 0); + gcc_assert (TREE_CODE (gnu_decl) == TYPE_DECL); + return TREE_TYPE (gnu_decl); +} + +/* Given GNAT_ENTITY, a GNAT defining identifier node, which denotes some Ada + entity, this routine returns the equivalent GCC tree for that entity + (an ..._DECL node) and associates the ..._DECL node with the input GNAT + defining identifier. + + If GNAT_ENTITY is a variable or a constant declaration, GNU_EXPR gives its + initial value (in GCC tree form). This is optional for variables. + For renamed entities, GNU_EXPR gives the object being renamed. + + DEFINITION is nonzero if this call is intended for a definition. This is + used for separate compilation where it necessary to know whether an + external declaration or a definition should be created if the GCC equivalent + was not created previously. The value of 1 is normally used for a nonzero + DEFINITION, but a value of 2 is used in special circumstances, defined in + the code. */ + +tree +gnat_to_gnu_entity (Entity_Id gnat_entity, tree gnu_expr, int definition) +{ + Entity_Id gnat_equiv_type = Gigi_Equivalent_Type (gnat_entity); + tree gnu_entity_id; + tree gnu_type = NULL_TREE; + /* Contains the gnu XXXX_DECL tree node which is equivalent to the input + GNAT tree. This node will be associated with the GNAT node by calling + the save_gnu_tree routine at the end of the `switch' statement. */ + tree gnu_decl = NULL_TREE; + /* true if we have already saved gnu_decl as a gnat association. */ + bool saved = false; + /* Nonzero if we incremented defer_incomplete_level. */ + bool this_deferred = false; + /* Nonzero if we incremented force_global. */ + bool this_global = false; + /* Nonzero if we should check to see if elaborated during processing. */ + bool maybe_present = false; + /* Nonzero if we made GNU_DECL and its type here. */ + bool this_made_decl = false; + struct attrib *attr_list = NULL; + bool debug_info_p = (Needs_Debug_Info (gnat_entity) + || debug_info_level == DINFO_LEVEL_VERBOSE); + Entity_Kind kind = Ekind (gnat_entity); + Entity_Id gnat_temp; + unsigned int esize + = ((Known_Esize (gnat_entity) + && UI_Is_In_Int_Range (Esize (gnat_entity))) + ? MIN (UI_To_Int (Esize (gnat_entity)), + IN (kind, Float_Kind) + ? fp_prec_to_size (LONG_DOUBLE_TYPE_SIZE) + : IN (kind, Access_Kind) ? POINTER_SIZE * 2 + : LONG_LONG_TYPE_SIZE) + : LONG_LONG_TYPE_SIZE); + tree gnu_size = 0; + bool imported_p + = (Is_Imported (gnat_entity) && No (Address_Clause (gnat_entity))); + unsigned int align = 0; + + /* Since a use of an Itype is a definition, process it as such if it + is not in a with'ed unit. */ + + if (!definition && Is_Itype (gnat_entity) + && !present_gnu_tree (gnat_entity) + && In_Extended_Main_Code_Unit (gnat_entity)) + { + /* Ensure that we are in a subprogram mentioned in the Scope + chain of this entity, our current scope is global, + or that we encountered a task or entry (where we can't currently + accurately check scoping). */ + if (!current_function_decl + || DECL_ELABORATION_PROC_P (current_function_decl)) + { + process_type (gnat_entity); + return get_gnu_tree (gnat_entity); + } + + for (gnat_temp = Scope (gnat_entity); + Present (gnat_temp); gnat_temp = Scope (gnat_temp)) + { + if (Is_Type (gnat_temp)) + gnat_temp = Underlying_Type (gnat_temp); + + if (Ekind (gnat_temp) == E_Subprogram_Body) + gnat_temp + = Corresponding_Spec (Parent (Declaration_Node (gnat_temp))); + + if (IN (Ekind (gnat_temp), Subprogram_Kind) + && Present (Protected_Body_Subprogram (gnat_temp))) + gnat_temp = Protected_Body_Subprogram (gnat_temp); + + if (Ekind (gnat_temp) == E_Entry + || Ekind (gnat_temp) == E_Entry_Family + || Ekind (gnat_temp) == E_Task_Type + || (IN (Ekind (gnat_temp), Subprogram_Kind) + && present_gnu_tree (gnat_temp) + && (current_function_decl + == gnat_to_gnu_entity (gnat_temp, NULL_TREE, 0)))) + { + process_type (gnat_entity); + return get_gnu_tree (gnat_entity); + } + } + + /* This abort means the entity "gnat_entity" has an incorrect scope, + i.e. that its scope does not correspond to the subprogram in which + it is declared */ + gcc_unreachable (); + } + + /* If this is entity 0, something went badly wrong. */ + gcc_assert (Present (gnat_entity)); + + /* If we've already processed this entity, return what we got last time. + If we are defining the node, we should not have already processed it. + In that case, we will abort below when we try to save a new GCC tree for + this object. We also need to handle the case of getting a dummy type + when a Full_View exists. */ + + if (present_gnu_tree (gnat_entity) + && (!definition || (Is_Type (gnat_entity) && imported_p))) + { + gnu_decl = get_gnu_tree (gnat_entity); + + if (TREE_CODE (gnu_decl) == TYPE_DECL + && TYPE_IS_DUMMY_P (TREE_TYPE (gnu_decl)) + && IN (kind, Incomplete_Or_Private_Kind) + && Present (Full_View (gnat_entity))) + { + gnu_decl = gnat_to_gnu_entity (Full_View (gnat_entity), + NULL_TREE, 0); + + save_gnu_tree (gnat_entity, NULL_TREE, false); + save_gnu_tree (gnat_entity, gnu_decl, false); + } + + return gnu_decl; + } + + /* If this is a numeric or enumeral type, or an access type, a nonzero + Esize must be specified unless it was specified by the programmer. */ + gcc_assert (!Unknown_Esize (gnat_entity) + || Has_Size_Clause (gnat_entity) + || (!IN (kind, Numeric_Kind) && !IN (kind, Enumeration_Kind) + && (!IN (kind, Access_Kind) + || kind == E_Access_Protected_Subprogram_Type + || kind == E_Anonymous_Access_Protected_Subprogram_Type + || kind == E_Access_Subtype))); + + /* Likewise, RM_Size must be specified for all discrete and fixed-point + types. */ + gcc_assert (!IN (kind, Discrete_Or_Fixed_Point_Kind) + || !Unknown_RM_Size (gnat_entity)); + + /* Get the name of the entity and set up the line number and filename of + the original definition for use in any decl we make. */ + gnu_entity_id = get_entity_name (gnat_entity); + Sloc_to_locus (Sloc (gnat_entity), &input_location); + + /* If we get here, it means we have not yet done anything with this + entity. If we are not defining it here, it must be external, + otherwise we should have defined it already. */ + gcc_assert (definition || Is_Public (gnat_entity) || type_annotate_only + || kind == E_Discriminant || kind == E_Component + || kind == E_Label + || (kind == E_Constant && Present (Full_View (gnat_entity))) + || IN (kind, Type_Kind)); + + /* For cases when we are not defining (i.e., we are referencing from + another compilation unit) Public entities, show we are at global level + for the purpose of computing scopes. Don't do this for components or + discriminants since the relevant test is whether or not the record is + being defined. But do this for Imported functions or procedures in + all cases. */ + if ((!definition && Is_Public (gnat_entity) + && !Is_Statically_Allocated (gnat_entity) + && kind != E_Discriminant && kind != E_Component) + || (Is_Imported (gnat_entity) + && (kind == E_Function || kind == E_Procedure))) + force_global++, this_global = true; + + /* Handle any attributes directly attached to the entity. */ + if (Has_Gigi_Rep_Item (gnat_entity)) + prepend_attributes (gnat_entity, &attr_list); + + /* Machine_Attributes on types are expected to be propagated to subtypes. + The corresponding Gigi_Rep_Items are only attached to the first subtype + though, so we handle the propagation here. */ + if (Is_Type (gnat_entity) && Base_Type (gnat_entity) != gnat_entity + && !Is_First_Subtype (gnat_entity) + && Has_Gigi_Rep_Item (First_Subtype (Base_Type (gnat_entity)))) + prepend_attributes (First_Subtype (Base_Type (gnat_entity)), &attr_list); + + switch (kind) + { + case E_Constant: + /* If this is a use of a deferred constant, get its full + declaration. */ + if (!definition && Present (Full_View (gnat_entity))) + { + gnu_decl = gnat_to_gnu_entity (Full_View (gnat_entity), + gnu_expr, 0); + saved = true; + break; + } + + /* If we have an external constant that we are not defining, get the + expression that is was defined to represent. We may throw that + expression away later if it is not a constant. Do not retrieve the + expression if it is an aggregate or allocator, because in complex + instantiation contexts it may not be expanded */ + if (!definition + && Present (Expression (Declaration_Node (gnat_entity))) + && !No_Initialization (Declaration_Node (gnat_entity)) + && (Nkind (Expression (Declaration_Node (gnat_entity))) + != N_Aggregate) + && (Nkind (Expression (Declaration_Node (gnat_entity))) + != N_Allocator)) + gnu_expr = gnat_to_gnu (Expression (Declaration_Node (gnat_entity))); + + /* Ignore deferred constant definitions; they are processed fully in the + front-end. For deferred constant references get the full definition. + On the other hand, constants that are renamings are handled like + variable renamings. If No_Initialization is set, this is not a + deferred constant but a constant whose value is built manually. */ + if (definition && !gnu_expr + && !No_Initialization (Declaration_Node (gnat_entity)) + && No (Renamed_Object (gnat_entity))) + { + gnu_decl = error_mark_node; + saved = true; + break; + } + else if (!definition && IN (kind, Incomplete_Or_Private_Kind) + && Present (Full_View (gnat_entity))) + { + gnu_decl = gnat_to_gnu_entity (Full_View (gnat_entity), + NULL_TREE, 0); + saved = true; + break; + } + + goto object; + + case E_Exception: + /* We used to special case VMS exceptions here to directly map them to + their associated condition code. Since this code had to be masked + dynamically to strip off the severity bits, this caused trouble in + the GCC/ZCX case because the "type" pointers we store in the tables + have to be static. We now don't special case here anymore, and let + the regular processing take place, which leaves us with a regular + exception data object for VMS exceptions too. The condition code + mapping is taken care of by the front end and the bitmasking by the + runtime library. */ + goto object; + + case E_Discriminant: + case E_Component: + { + /* The GNAT record where the component was defined. */ + Entity_Id gnat_record = Underlying_Type (Scope (gnat_entity)); + + /* If the variable is an inherited record component (in the case of + extended record types), just return the inherited entity, which + must be a FIELD_DECL. Likewise for discriminants. + For discriminants of untagged records which have explicit + stored discriminants, return the entity for the corresponding + stored discriminant. Also use Original_Record_Component + if the record has a private extension. */ + + if (Present (Original_Record_Component (gnat_entity)) + && Original_Record_Component (gnat_entity) != gnat_entity) + { + gnu_decl + = gnat_to_gnu_entity (Original_Record_Component (gnat_entity), + gnu_expr, definition); + saved = true; + break; + } + + /* If the enclosing record has explicit stored discriminants, + then it is an untagged record. If the Corresponding_Discriminant + is not empty then this must be a renamed discriminant and its + Original_Record_Component must point to the corresponding explicit + stored discriminant (i.e., we should have taken the previous + branch). */ + + else if (Present (Corresponding_Discriminant (gnat_entity)) + && Is_Tagged_Type (gnat_record)) + { + /* A tagged record has no explicit stored discriminants. */ + + gcc_assert (First_Discriminant (gnat_record) + == First_Stored_Discriminant (gnat_record)); + gnu_decl + = gnat_to_gnu_entity (Corresponding_Discriminant (gnat_entity), + gnu_expr, definition); + saved = true; + break; + } + + else if (Present (CR_Discriminant (gnat_entity)) + && type_annotate_only) + { + gnu_decl = gnat_to_gnu_entity (CR_Discriminant (gnat_entity), + gnu_expr, definition); + saved = true; + break; + } + + /* If the enclosing record has explicit stored discriminants, + then it is an untagged record. If the Corresponding_Discriminant + is not empty then this must be a renamed discriminant and its + Original_Record_Component must point to the corresponding explicit + stored discriminant (i.e., we should have taken the first + branch). */ + + else if (Present (Corresponding_Discriminant (gnat_entity)) + && (First_Discriminant (gnat_record) + != First_Stored_Discriminant (gnat_record))) + gcc_unreachable (); + + /* Otherwise, if we are not defining this and we have no GCC type + for the containing record, make one for it. Then we should + have made our own equivalent. */ + else if (!definition && !present_gnu_tree (gnat_record)) + { + /* ??? If this is in a record whose scope is a protected + type and we have an Original_Record_Component, use it. + This is a workaround for major problems in protected type + handling. */ + Entity_Id Scop = Scope (Scope (gnat_entity)); + if ((Is_Protected_Type (Scop) + || (Is_Private_Type (Scop) + && Present (Full_View (Scop)) + && Is_Protected_Type (Full_View (Scop)))) + && Present (Original_Record_Component (gnat_entity))) + { + gnu_decl + = gnat_to_gnu_entity (Original_Record_Component + (gnat_entity), + gnu_expr, 0); + saved = true; + break; + } + + gnat_to_gnu_entity (Scope (gnat_entity), NULL_TREE, 0); + gnu_decl = get_gnu_tree (gnat_entity); + saved = true; + break; + } + + else + /* Here we have no GCC type and this is a reference rather than a + definition. This should never happen. Most likely the cause is a + reference before declaration in the gnat tree for gnat_entity. */ + gcc_unreachable (); + } + + case E_Loop_Parameter: + case E_Out_Parameter: + case E_Variable: + + /* Simple variables, loop variables, Out parameters, and exceptions. */ + object: + { + bool used_by_ref = false; + bool const_flag + = ((kind == E_Constant || kind == E_Variable) + && Is_True_Constant (gnat_entity) + && (((Nkind (Declaration_Node (gnat_entity)) + == N_Object_Declaration) + && Present (Expression (Declaration_Node (gnat_entity)))) + || Present (Renamed_Object (gnat_entity)))); + bool inner_const_flag = const_flag; + bool static_p = Is_Statically_Allocated (gnat_entity); + bool mutable_p = false; + tree gnu_ext_name = NULL_TREE; + tree renamed_obj = NULL_TREE; + tree gnu_object_size; + + if (Present (Renamed_Object (gnat_entity)) && !definition) + { + if (kind == E_Exception) + gnu_expr = gnat_to_gnu_entity (Renamed_Entity (gnat_entity), + NULL_TREE, 0); + else + gnu_expr = gnat_to_gnu (Renamed_Object (gnat_entity)); + } + + /* Get the type after elaborating the renamed object. */ + gnu_type = gnat_to_gnu_type (Etype (gnat_entity)); + + /* For a debug renaming declaration, build a pure debug entity. */ + if (Present (Debug_Renaming_Link (gnat_entity))) + { + rtx addr; + gnu_decl = build_decl (VAR_DECL, gnu_entity_id, gnu_type); + /* The (MEM (CONST (0))) pattern is prescribed by STABS. */ + if (global_bindings_p ()) + addr = gen_rtx_CONST (VOIDmode, const0_rtx); + else + addr = stack_pointer_rtx; + SET_DECL_RTL (gnu_decl, gen_rtx_MEM (Pmode, addr)); + gnat_pushdecl (gnu_decl, gnat_entity); + break; + } + + /* If this is a loop variable, its type should be the base type. + This is because the code for processing a loop determines whether + a normal loop end test can be done by comparing the bounds of the + loop against those of the base type, which is presumed to be the + size used for computation. But this is not correct when the size + of the subtype is smaller than the type. */ + if (kind == E_Loop_Parameter) + gnu_type = get_base_type (gnu_type); + + /* Reject non-renamed objects whose types are unconstrained arrays or + any object whose type is a dummy type or VOID_TYPE. */ + + if ((TREE_CODE (gnu_type) == UNCONSTRAINED_ARRAY_TYPE + && No (Renamed_Object (gnat_entity))) + || TYPE_IS_DUMMY_P (gnu_type) + || TREE_CODE (gnu_type) == VOID_TYPE) + { + gcc_assert (type_annotate_only); + if (this_global) + force_global--; + return error_mark_node; + } + + /* If an alignment is specified, use it if valid. Note that + exceptions are objects but don't have alignments. We must do this + before we validate the size, since the alignment can affect the + size. */ + if (kind != E_Exception && Known_Alignment (gnat_entity)) + { + gcc_assert (Present (Alignment (gnat_entity))); + align = validate_alignment (Alignment (gnat_entity), gnat_entity, + TYPE_ALIGN (gnu_type)); + gnu_type = maybe_pad_type (gnu_type, NULL_TREE, align, gnat_entity, + "PAD", false, definition, true); + } + + /* If we are defining the object, see if it has a Size value and + validate it if so. If we are not defining the object and a Size + clause applies, simply retrieve the value. We don't want to ignore + the clause and it is expected to have been validated already. Then + get the new type, if any. */ + if (definition) + gnu_size = validate_size (Esize (gnat_entity), gnu_type, + gnat_entity, VAR_DECL, false, + Has_Size_Clause (gnat_entity)); + else if (Has_Size_Clause (gnat_entity)) + gnu_size = UI_To_gnu (Esize (gnat_entity), bitsizetype); + + if (gnu_size) + { + gnu_type + = make_type_from_size (gnu_type, gnu_size, + Has_Biased_Representation (gnat_entity)); + + if (operand_equal_p (TYPE_SIZE (gnu_type), gnu_size, 0)) + gnu_size = NULL_TREE; + } + + /* If this object has self-referential size, it must be a record with + a default value. We are supposed to allocate an object of the + maximum size in this case unless it is a constant with an + initializing expression, in which case we can get the size from + that. Note that the resulting size may still be a variable, so + this may end up with an indirect allocation. */ + if (No (Renamed_Object (gnat_entity)) + && CONTAINS_PLACEHOLDER_P (TYPE_SIZE (gnu_type))) + { + if (gnu_expr && kind == E_Constant) + { + tree size = TYPE_SIZE (TREE_TYPE (gnu_expr)); + if (CONTAINS_PLACEHOLDER_P (size)) + { + /* If the initializing expression is itself a constant, + despite having a nominal type with self-referential + size, we can get the size directly from it. */ + if (TREE_CODE (gnu_expr) == COMPONENT_REF + && TREE_CODE (TREE_TYPE (TREE_OPERAND (gnu_expr, 0))) + == RECORD_TYPE + && TYPE_IS_PADDING_P + (TREE_TYPE (TREE_OPERAND (gnu_expr, 0))) + && TREE_CODE (TREE_OPERAND (gnu_expr, 0)) == VAR_DECL + && (TREE_READONLY (TREE_OPERAND (gnu_expr, 0)) + || DECL_READONLY_ONCE_ELAB + (TREE_OPERAND (gnu_expr, 0)))) + gnu_size = DECL_SIZE (TREE_OPERAND (gnu_expr, 0)); + else + gnu_size + = SUBSTITUTE_PLACEHOLDER_IN_EXPR (size, gnu_expr); + } + else + gnu_size = size; + } + /* We may have no GNU_EXPR because No_Initialization is + set even though there's an Expression. */ + else if (kind == E_Constant + && (Nkind (Declaration_Node (gnat_entity)) + == N_Object_Declaration) + && Present (Expression (Declaration_Node (gnat_entity)))) + gnu_size + = TYPE_SIZE (gnat_to_gnu_type + (Etype + (Expression (Declaration_Node (gnat_entity))))); + else + { + gnu_size = max_size (TYPE_SIZE (gnu_type), true); + mutable_p = true; + } + } + + /* If the size is zero bytes, make it one byte since some linkers have + trouble with zero-sized objects. If the object will have a + template, that will make it nonzero so don't bother. Also avoid + doing that for an object renaming or an object with an address + clause, as we would lose useful information on the view size + (e.g. for null array slices) and we are not allocating the object + here anyway. */ + if (((gnu_size + && integer_zerop (gnu_size) + && !TREE_OVERFLOW (gnu_size)) + || (TYPE_SIZE (gnu_type) + && integer_zerop (TYPE_SIZE (gnu_type)) + && !TREE_OVERFLOW (TYPE_SIZE (gnu_type)))) + && (!Is_Constr_Subt_For_UN_Aliased (Etype (gnat_entity)) + || !Is_Array_Type (Etype (gnat_entity))) + && !Present (Renamed_Object (gnat_entity)) + && !Present (Address_Clause (gnat_entity))) + gnu_size = bitsize_unit_node; + + /* If this is an object with no specified size and alignment, and + if either it is atomic or we are not optimizing alignment for + space and it is composite and not an exception, an Out parameter + or a reference to another object, and the size of its type is a + constant, set the alignment to the smallest one which is not + smaller than the size, with an appropriate cap. */ + if (!gnu_size && align == 0 + && (Is_Atomic (gnat_entity) + || (!Optimize_Alignment_Space (gnat_entity) + && kind != E_Exception + && kind != E_Out_Parameter + && Is_Composite_Type (Etype (gnat_entity)) + && !Is_Constr_Subt_For_UN_Aliased (Etype (gnat_entity)) + && !imported_p + && No (Renamed_Object (gnat_entity)) + && No (Address_Clause (gnat_entity)))) + && TREE_CODE (TYPE_SIZE (gnu_type)) == INTEGER_CST) + { + /* No point in jumping through all the hoops needed in order + to support BIGGEST_ALIGNMENT if we don't really have to. */ + unsigned int align_cap = Is_Atomic (gnat_entity) + ? BIGGEST_ALIGNMENT + : get_mode_alignment (word_mode); + + if (!host_integerp (TYPE_SIZE (gnu_type), 1) + || compare_tree_int (TYPE_SIZE (gnu_type), align_cap) >= 0) + align = align_cap; + else + align = ceil_alignment (tree_low_cst (TYPE_SIZE (gnu_type), 1)); + + /* But make sure not to under-align the object. */ + if (align <= TYPE_ALIGN (gnu_type)) + align = 0; + + /* And honor the minimum valid atomic alignment, if any. */ +#ifdef MINIMUM_ATOMIC_ALIGNMENT + else if (align < MINIMUM_ATOMIC_ALIGNMENT) + align = MINIMUM_ATOMIC_ALIGNMENT; +#endif + } + + /* If the object is set to have atomic components, find the component + type and validate it. + + ??? Note that we ignore Has_Volatile_Components on objects; it's + not at all clear what to do in that case. */ + + if (Has_Atomic_Components (gnat_entity)) + { + tree gnu_inner = (TREE_CODE (gnu_type) == ARRAY_TYPE + ? TREE_TYPE (gnu_type) : gnu_type); + + while (TREE_CODE (gnu_inner) == ARRAY_TYPE + && TYPE_MULTI_ARRAY_P (gnu_inner)) + gnu_inner = TREE_TYPE (gnu_inner); + + check_ok_for_atomic (gnu_inner, gnat_entity, true); + } + + /* Now check if the type of the object allows atomic access. Note + that we must test the type, even if this object has size and + alignment to allow such access, because we will be going + inside the padded record to assign to the object. We could fix + this by always copying via an intermediate value, but it's not + clear it's worth the effort. */ + if (Is_Atomic (gnat_entity)) + check_ok_for_atomic (gnu_type, gnat_entity, false); + + /* If this is an aliased object with an unconstrained nominal subtype, + make a type that includes the template. */ + if (Is_Constr_Subt_For_UN_Aliased (Etype (gnat_entity)) + && Is_Array_Type (Etype (gnat_entity)) + && !type_annotate_only) + { + tree gnu_fat + = TREE_TYPE (gnat_to_gnu_type (Base_Type (Etype (gnat_entity)))); + + gnu_type + = build_unc_object_type_from_ptr (gnu_fat, gnu_type, + concat_id_with_name (gnu_entity_id, + "UNC")); + } + +#ifdef MINIMUM_ATOMIC_ALIGNMENT + /* If the size is a constant and no alignment is specified, force + the alignment to be the minimum valid atomic alignment. The + restriction on constant size avoids problems with variable-size + temporaries; if the size is variable, there's no issue with + atomic access. Also don't do this for a constant, since it isn't + necessary and can interfere with constant replacement. Finally, + do not do it for Out parameters since that creates an + size inconsistency with In parameters. */ + if (align == 0 && MINIMUM_ATOMIC_ALIGNMENT > TYPE_ALIGN (gnu_type) + && !FLOAT_TYPE_P (gnu_type) + && !const_flag && No (Renamed_Object (gnat_entity)) + && !imported_p && No (Address_Clause (gnat_entity)) + && kind != E_Out_Parameter + && (gnu_size ? TREE_CODE (gnu_size) == INTEGER_CST + : TREE_CODE (TYPE_SIZE (gnu_type)) == INTEGER_CST)) + align = MINIMUM_ATOMIC_ALIGNMENT; +#endif + + /* Make a new type with the desired size and alignment, if needed. + But do not take into account alignment promotions to compute the + size of the object. */ + gnu_object_size = gnu_size ? gnu_size : TYPE_SIZE (gnu_type); + if (gnu_size || align > 0) + gnu_type = maybe_pad_type (gnu_type, gnu_size, align, gnat_entity, + "PAD", false, definition, + gnu_size ? true : false); + + /* Make a volatile version of this object's type if we are to make + the object volatile. We also interpret 13.3(19) conservatively + and disallow any optimizations for an object covered by it. */ + if ((Treat_As_Volatile (gnat_entity) + || (Is_Exported (gnat_entity) + /* Exclude exported constants created by the compiler, + which should boil down to static dispatch tables and + make it possible to put them in read-only memory. */ + && (Comes_From_Source (gnat_entity) || !const_flag)) + || Is_Imported (gnat_entity) + || Present (Address_Clause (gnat_entity))) + && !TYPE_VOLATILE (gnu_type)) + gnu_type = build_qualified_type (gnu_type, + (TYPE_QUALS (gnu_type) + | TYPE_QUAL_VOLATILE)); + + /* If this is a renaming, avoid as much as possible to create a new + object. However, in several cases, creating it is required. + This processing needs to be applied to the raw expression so + as to make it more likely to rename the underlying object. */ + if (Present (Renamed_Object (gnat_entity))) + { + bool create_normal_object = false; + + /* If the renamed object had padding, strip off the reference + to the inner object and reset our type. */ + if ((TREE_CODE (gnu_expr) == COMPONENT_REF + && TREE_CODE (TREE_TYPE (TREE_OPERAND (gnu_expr, 0))) + == RECORD_TYPE + && TYPE_IS_PADDING_P (TREE_TYPE (TREE_OPERAND (gnu_expr, 0)))) + /* Strip useless conversions around the object. */ + || TREE_CODE (gnu_expr) == NOP_EXPR) + { + gnu_expr = TREE_OPERAND (gnu_expr, 0); + gnu_type = TREE_TYPE (gnu_expr); + } + + /* Case 1: If this is a constant renaming stemming from a function + call, treat it as a normal object whose initial value is what + is being renamed. RM 3.3 says that the result of evaluating a + function call is a constant object. As a consequence, it can + be the inner object of a constant renaming. In this case, the + renaming must be fully instantiated, i.e. it cannot be a mere + reference to (part of) an existing object. */ + if (const_flag) + { + tree inner_object = gnu_expr; + while (handled_component_p (inner_object)) + inner_object = TREE_OPERAND (inner_object, 0); + if (TREE_CODE (inner_object) == CALL_EXPR) + create_normal_object = true; + } + + /* Otherwise, see if we can proceed with a stabilized version of + the renamed entity or if we need to make a new object. */ + if (!create_normal_object) + { + tree maybe_stable_expr = NULL_TREE; + bool stable = false; + + /* Case 2: If the renaming entity need not be materialized and + the renamed expression is something we can stabilize, use + that for the renaming. At the global level, we can only do + this if we know no SAVE_EXPRs need be made, because the + expression we return might be used in arbitrary conditional + branches so we must force the SAVE_EXPRs evaluation + immediately and this requires a function context. */ + if (!Materialize_Entity (gnat_entity) + && (!global_bindings_p () + || (staticp (gnu_expr) + && !TREE_SIDE_EFFECTS (gnu_expr)))) + { + maybe_stable_expr + = maybe_stabilize_reference (gnu_expr, true, &stable); + + if (stable) + { + gnu_decl = maybe_stable_expr; + /* ??? No DECL_EXPR is created so we need to mark + the expression manually lest it is shared. */ + if (global_bindings_p ()) + mark_visited (&gnu_decl); + save_gnu_tree (gnat_entity, gnu_decl, true); + saved = true; + break; + } + + /* The stabilization failed. Keep maybe_stable_expr + untouched here to let the pointer case below know + about that failure. */ + } + + /* Case 3: If this is a constant renaming and creating a + new object is allowed and cheap, treat it as a normal + object whose initial value is what is being renamed. */ + if (const_flag && Is_Elementary_Type (Etype (gnat_entity))) + ; + + /* Case 4: Make this into a constant pointer to the object we + are to rename and attach the object to the pointer if it is + something we can stabilize. + + From the proper scope, attached objects will be referenced + directly instead of indirectly via the pointer to avoid + subtle aliasing problems with non-addressable entities. + They have to be stable because we must not evaluate the + variables in the expression every time the renaming is used. + The pointer is called a "renaming" pointer in this case. + + In the rare cases where we cannot stabilize the renamed + object, we just make a "bare" pointer, and the renamed + entity is always accessed indirectly through it. */ + else + { + gnu_type = build_reference_type (gnu_type); + inner_const_flag = TREE_READONLY (gnu_expr); + const_flag = true; + + /* If the previous attempt at stabilizing failed, there + is no point in trying again and we reuse the result + without attaching it to the pointer. In this case it + will only be used as the initializing expression of + the pointer and thus needs no special treatment with + regard to multiple evaluations. */ + if (maybe_stable_expr) + ; + + /* Otherwise, try to stabilize and attach the expression + to the pointer if the stabilization succeeds. + + Note that this might introduce SAVE_EXPRs and we don't + check whether we're at the global level or not. This + is fine since we are building a pointer initializer and + neither the pointer nor the initializing expression can + be accessed before the pointer elaboration has taken + place in a correct program. + + These SAVE_EXPRs will be evaluated at the right place + by either the evaluation of the initializer for the + non-global case or the elaboration code for the global + case, and will be attached to the elaboration procedure + in the latter case. */ + else + { + maybe_stable_expr + = maybe_stabilize_reference (gnu_expr, true, &stable); + + if (stable) + renamed_obj = maybe_stable_expr; + + /* Attaching is actually performed downstream, as soon + as we have a VAR_DECL for the pointer we make. */ + } + + gnu_expr + = build_unary_op (ADDR_EXPR, gnu_type, maybe_stable_expr); + + gnu_size = NULL_TREE; + used_by_ref = true; + } + } + } + + /* If this is an aliased object whose nominal subtype is unconstrained, + the object is a record that contains both the template and + the object. If there is an initializer, it will have already + been converted to the right type, but we need to create the + template if there is no initializer. */ + else if (definition + && TREE_CODE (gnu_type) == RECORD_TYPE + && (TYPE_CONTAINS_TEMPLATE_P (gnu_type) + /* Beware that padding might have been introduced + via maybe_pad_type above. */ + || (TYPE_IS_PADDING_P (gnu_type) + && TREE_CODE (TREE_TYPE (TYPE_FIELDS (gnu_type))) + == RECORD_TYPE + && TYPE_CONTAINS_TEMPLATE_P + (TREE_TYPE (TYPE_FIELDS (gnu_type))))) + && !gnu_expr) + { + tree template_field + = TYPE_IS_PADDING_P (gnu_type) + ? TYPE_FIELDS (TREE_TYPE (TYPE_FIELDS (gnu_type))) + : TYPE_FIELDS (gnu_type); + + gnu_expr + = gnat_build_constructor + (gnu_type, + tree_cons + (template_field, + build_template (TREE_TYPE (template_field), + TREE_TYPE (TREE_CHAIN (template_field)), + NULL_TREE), + NULL_TREE)); + } + + /* Convert the expression to the type of the object except in the + case where the object's type is unconstrained or the object's type + is a padded record whose field is of self-referential size. In + the former case, converting will generate unnecessary evaluations + of the CONSTRUCTOR to compute the size and in the latter case, we + want to only copy the actual data. */ + if (gnu_expr + && TREE_CODE (gnu_type) != UNCONSTRAINED_ARRAY_TYPE + && !CONTAINS_PLACEHOLDER_P (TYPE_SIZE (gnu_type)) + && !(TREE_CODE (gnu_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (gnu_type) + && (CONTAINS_PLACEHOLDER_P + (TYPE_SIZE (TREE_TYPE (TYPE_FIELDS (gnu_type))))))) + gnu_expr = convert (gnu_type, gnu_expr); + + /* If this is a pointer and it does not have an initializing + expression, initialize it to NULL, unless the object is + imported. */ + if (definition + && (POINTER_TYPE_P (gnu_type) || TYPE_FAT_POINTER_P (gnu_type)) + && !Is_Imported (gnat_entity) && !gnu_expr) + gnu_expr = integer_zero_node; + + /* If we are defining the object and it has an Address clause we must + get the address expression from the saved GCC tree for the + object if the object has a Freeze_Node. Otherwise, we elaborate + the address expression here since the front-end has guaranteed + in that case that the elaboration has no effects. Note that + only the latter mechanism is currently in use. */ + if (definition && Present (Address_Clause (gnat_entity))) + { + tree gnu_address + = (present_gnu_tree (gnat_entity) ? get_gnu_tree (gnat_entity) + : gnat_to_gnu (Expression (Address_Clause (gnat_entity)))); + + save_gnu_tree (gnat_entity, NULL_TREE, false); + + /* Ignore the size. It's either meaningless or was handled + above. */ + gnu_size = NULL_TREE; + /* Convert the type of the object to a reference type that can + alias everything as per 13.3(19). */ + gnu_type + = build_reference_type_for_mode (gnu_type, ptr_mode, true); + gnu_address = convert (gnu_type, gnu_address); + used_by_ref = true; + const_flag = !Is_Public (gnat_entity) + || compile_time_known_address_p (Expression (Address_Clause + (gnat_entity))); + + /* If we don't have an initializing expression for the underlying + variable, the initializing expression for the pointer is the + specified address. Otherwise, we have to make a COMPOUND_EXPR + to assign both the address and the initial value. */ + if (!gnu_expr) + gnu_expr = gnu_address; + else + gnu_expr + = build2 (COMPOUND_EXPR, gnu_type, + build_binary_op + (MODIFY_EXPR, NULL_TREE, + build_unary_op (INDIRECT_REF, NULL_TREE, + gnu_address), + gnu_expr), + gnu_address); + } + + /* If it has an address clause and we are not defining it, mark it + as an indirect object. Likewise for Stdcall objects that are + imported. */ + if ((!definition && Present (Address_Clause (gnat_entity))) + || (Is_Imported (gnat_entity) + && Has_Stdcall_Convention (gnat_entity))) + { + /* Convert the type of the object to a reference type that can + alias everything as per 13.3(19). */ + gnu_type + = build_reference_type_for_mode (gnu_type, ptr_mode, true); + gnu_size = NULL_TREE; + + /* No point in taking the address of an initializing expression + that isn't going to be used. */ + gnu_expr = NULL_TREE; + + /* If it has an address clause whose value is known at compile + time, make the object a CONST_DECL. This will avoid a + useless dereference. */ + if (Present (Address_Clause (gnat_entity))) + { + Node_Id gnat_address + = Expression (Address_Clause (gnat_entity)); + + if (compile_time_known_address_p (gnat_address)) + { + gnu_expr = gnat_to_gnu (gnat_address); + const_flag = true; + } + } + + used_by_ref = true; + } + + /* If we are at top level and this object is of variable size, + make the actual type a hidden pointer to the real type and + make the initializer be a memory allocation and initialization. + Likewise for objects we aren't defining (presumed to be + external references from other packages), but there we do + not set up an initialization. + + If the object's size overflows, make an allocator too, so that + Storage_Error gets raised. Note that we will never free + such memory, so we presume it never will get allocated. */ + + if (!allocatable_size_p (TYPE_SIZE_UNIT (gnu_type), + global_bindings_p () || !definition + || static_p) + || (gnu_size + && ! allocatable_size_p (gnu_size, + global_bindings_p () || !definition + || static_p))) + { + gnu_type = build_reference_type (gnu_type); + gnu_size = NULL_TREE; + used_by_ref = true; + const_flag = true; + + /* In case this was a aliased object whose nominal subtype is + unconstrained, the pointer above will be a thin pointer and + build_allocator will automatically make the template. + + If we have a template initializer only (that we made above), + pretend there is none and rely on what build_allocator creates + again anyway. Otherwise (if we have a full initializer), get + the data part and feed that to build_allocator. + + If we are elaborating a mutable object, tell build_allocator to + ignore a possibly simpler size from the initializer, if any, as + we must allocate the maximum possible size in this case. */ + + if (definition) + { + tree gnu_alloc_type = TREE_TYPE (gnu_type); + + if (TREE_CODE (gnu_alloc_type) == RECORD_TYPE + && TYPE_CONTAINS_TEMPLATE_P (gnu_alloc_type)) + { + gnu_alloc_type + = TREE_TYPE (TREE_CHAIN (TYPE_FIELDS (gnu_alloc_type))); + + if (TREE_CODE (gnu_expr) == CONSTRUCTOR + && 1 == VEC_length (constructor_elt, + CONSTRUCTOR_ELTS (gnu_expr))) + gnu_expr = 0; + else + gnu_expr + = build_component_ref + (gnu_expr, NULL_TREE, + TREE_CHAIN (TYPE_FIELDS (TREE_TYPE (gnu_expr))), + false); + } + + if (TREE_CODE (TYPE_SIZE_UNIT (gnu_alloc_type)) == INTEGER_CST + && TREE_OVERFLOW (TYPE_SIZE_UNIT (gnu_alloc_type)) + && !Is_Imported (gnat_entity)) + post_error ("?Storage_Error will be raised at run-time!", + gnat_entity); + + gnu_expr = build_allocator (gnu_alloc_type, gnu_expr, gnu_type, + 0, 0, gnat_entity, mutable_p); + } + else + { + gnu_expr = NULL_TREE; + const_flag = false; + } + } + + /* If this object would go into the stack and has an alignment larger + than the largest stack alignment the back-end can honor, resort to + a variable of "aligning type". */ + if (!global_bindings_p () && !static_p && definition + && !imported_p && TYPE_ALIGN (gnu_type) > BIGGEST_ALIGNMENT) + { + /* Create the new variable. No need for extra room before the + aligned field as this is in automatic storage. */ + tree gnu_new_type + = make_aligning_type (gnu_type, TYPE_ALIGN (gnu_type), + TYPE_SIZE_UNIT (gnu_type), + BIGGEST_ALIGNMENT, 0); + tree gnu_new_var + = create_var_decl (create_concat_name (gnat_entity, "ALIGN"), + NULL_TREE, gnu_new_type, NULL_TREE, false, + false, false, false, NULL, gnat_entity); + + /* Initialize the aligned field if we have an initializer. */ + if (gnu_expr) + add_stmt_with_node + (build_binary_op (MODIFY_EXPR, NULL_TREE, + build_component_ref + (gnu_new_var, NULL_TREE, + TYPE_FIELDS (gnu_new_type), false), + gnu_expr), + gnat_entity); + + /* And setup this entity as a reference to the aligned field. */ + gnu_type = build_reference_type (gnu_type); + gnu_expr + = build_unary_op + (ADDR_EXPR, gnu_type, + build_component_ref (gnu_new_var, NULL_TREE, + TYPE_FIELDS (gnu_new_type), false)); + + gnu_size = NULL_TREE; + used_by_ref = true; + const_flag = true; + } + + if (const_flag) + gnu_type = build_qualified_type (gnu_type, (TYPE_QUALS (gnu_type) + | TYPE_QUAL_CONST)); + + /* Convert the expression to the type of the object except in the + case where the object's type is unconstrained or the object's type + is a padded record whose field is of self-referential size. In + the former case, converting will generate unnecessary evaluations + of the CONSTRUCTOR to compute the size and in the latter case, we + want to only copy the actual data. */ + if (gnu_expr + && TREE_CODE (gnu_type) != UNCONSTRAINED_ARRAY_TYPE + && !CONTAINS_PLACEHOLDER_P (TYPE_SIZE (gnu_type)) + && !(TREE_CODE (gnu_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (gnu_type) + && (CONTAINS_PLACEHOLDER_P + (TYPE_SIZE (TREE_TYPE (TYPE_FIELDS (gnu_type))))))) + gnu_expr = convert (gnu_type, gnu_expr); + + /* If this name is external or there was a name specified, use it, + unless this is a VMS exception object since this would conflict + with the symbol we need to export in addition. Don't use the + Interface_Name if there is an address clause (see CD30005). */ + if (!Is_VMS_Exception (gnat_entity) + && ((Present (Interface_Name (gnat_entity)) + && No (Address_Clause (gnat_entity))) + || (Is_Public (gnat_entity) + && (!Is_Imported (gnat_entity) + || Is_Exported (gnat_entity))))) + gnu_ext_name = create_concat_name (gnat_entity, 0); + + /* If this is constant initialized to a static constant and the + object has an aggregate type, force it to be statically + allocated. */ + if (const_flag && gnu_expr && TREE_CONSTANT (gnu_expr) + && host_integerp (TYPE_SIZE_UNIT (gnu_type), 1) + && (AGGREGATE_TYPE_P (gnu_type) + && !(TREE_CODE (gnu_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (gnu_type)))) + static_p = true; + + gnu_decl = create_var_decl (gnu_entity_id, gnu_ext_name, gnu_type, + gnu_expr, const_flag, + Is_Public (gnat_entity), + imported_p || !definition, + static_p, attr_list, gnat_entity); + DECL_BY_REF_P (gnu_decl) = used_by_ref; + DECL_POINTS_TO_READONLY_P (gnu_decl) = used_by_ref && inner_const_flag; + if (TREE_CODE (gnu_decl) == VAR_DECL && renamed_obj) + { + SET_DECL_RENAMED_OBJECT (gnu_decl, renamed_obj); + if (global_bindings_p ()) + { + DECL_RENAMING_GLOBAL_P (gnu_decl) = 1; + record_global_renaming_pointer (gnu_decl); + } + } + + if (definition && DECL_SIZE (gnu_decl) + && get_block_jmpbuf_decl () + && (TREE_CODE (DECL_SIZE (gnu_decl)) != INTEGER_CST + || (flag_stack_check && !STACK_CHECK_BUILTIN + && 0 < compare_tree_int (DECL_SIZE_UNIT (gnu_decl), + STACK_CHECK_MAX_VAR_SIZE)))) + add_stmt_with_node (build_call_1_expr + (update_setjmp_buf_decl, + build_unary_op (ADDR_EXPR, NULL_TREE, + get_block_jmpbuf_decl ())), + gnat_entity); + + /* If this is a public constant or we're not optimizing and we're not + making a VAR_DECL for it, make one just for export or debugger use. + Likewise if the address is taken or if either the object or type is + aliased. Make an external declaration for a reference, unless this + is a Standard entity since there no real symbol at the object level + for these. */ + if (TREE_CODE (gnu_decl) == CONST_DECL + && (definition || Sloc (gnat_entity) > Standard_Location) + && ((Is_Public (gnat_entity) + && !Present (Address_Clause (gnat_entity))) + || optimize == 0 + || Address_Taken (gnat_entity) + || Is_Aliased (gnat_entity) + || Is_Aliased (Etype (gnat_entity)))) + { + tree gnu_corr_var + = create_true_var_decl (gnu_entity_id, gnu_ext_name, gnu_type, + gnu_expr, true, Is_Public (gnat_entity), + !definition, static_p, NULL, + gnat_entity); + + SET_DECL_CONST_CORRESPONDING_VAR (gnu_decl, gnu_corr_var); + + /* As debugging information will be generated for the variable, + do not generate information for the constant. */ + DECL_IGNORED_P (gnu_decl) = true; + } + + /* If this is declared in a block that contains a block with an + exception handler, we must force this variable in memory to + suppress an invalid optimization. */ + if (Has_Nested_Block_With_Handler (Scope (gnat_entity)) + && Exception_Mechanism != Back_End_Exceptions) + TREE_ADDRESSABLE (gnu_decl) = 1; + + gnu_type = TREE_TYPE (gnu_decl); + + /* Back-annotate Alignment and Esize of the object if not already + known, except for when the object is actually a pointer to the + real object, since alignment and size of a pointer don't have + anything to do with those of the designated object. Note that + we pick the values of the type, not those of the object, to + shield ourselves from low-level platform-dependent adjustments + like alignment promotion. This is both consistent with all the + treatment above, where alignment and size are set on the type of + the object and not on the object directly, and makes it possible + to support confirming representation clauses in all cases. */ + + if (!used_by_ref && Unknown_Alignment (gnat_entity)) + Set_Alignment (gnat_entity, + UI_From_Int (TYPE_ALIGN (gnu_type) / BITS_PER_UNIT)); + + if (!used_by_ref && Unknown_Esize (gnat_entity)) + { + if (TREE_CODE (gnu_type) == RECORD_TYPE + && TYPE_CONTAINS_TEMPLATE_P (gnu_type)) + gnu_object_size + = TYPE_SIZE (TREE_TYPE (TREE_CHAIN (TYPE_FIELDS (gnu_type)))); + + Set_Esize (gnat_entity, annotate_value (gnu_object_size)); + } + } + break; + + case E_Void: + /* Return a TYPE_DECL for "void" that we previously made. */ + gnu_decl = void_type_decl_node; + break; + + case E_Enumeration_Type: + /* A special case, for the types Character and Wide_Character in + Standard, we do not list all the literals. So if the literals + are not specified, make this an unsigned type. */ + if (No (First_Literal (gnat_entity))) + { + gnu_type = make_unsigned_type (esize); + TYPE_NAME (gnu_type) = gnu_entity_id; + + /* Set the TYPE_STRING_FLAG for Ada Character and + Wide_Character types. This is needed by the dwarf-2 debug writer to + distinguish between unsigned integer types and character types. */ + TYPE_STRING_FLAG (gnu_type) = 1; + break; + } + + /* Normal case of non-character type, or non-Standard character type */ + { + /* Here we have a list of enumeral constants in First_Literal. + We make a CONST_DECL for each and build into GNU_LITERAL_LIST + the list to be places into TYPE_FIELDS. Each node in the list + is a TREE_LIST node whose TREE_VALUE is the literal name + and whose TREE_PURPOSE is the value of the literal. + + Esize contains the number of bits needed to represent the enumeral + type, Type_Low_Bound also points to the first literal and + Type_High_Bound points to the last literal. */ + + Entity_Id gnat_literal; + tree gnu_literal_list = NULL_TREE; + + if (Is_Unsigned_Type (gnat_entity)) + gnu_type = make_unsigned_type (esize); + else + gnu_type = make_signed_type (esize); + + TREE_SET_CODE (gnu_type, ENUMERAL_TYPE); + + for (gnat_literal = First_Literal (gnat_entity); + Present (gnat_literal); + gnat_literal = Next_Literal (gnat_literal)) + { + tree gnu_value = UI_To_gnu (Enumeration_Rep (gnat_literal), + gnu_type); + tree gnu_literal + = create_var_decl (get_entity_name (gnat_literal), NULL_TREE, + gnu_type, gnu_value, true, false, false, + false, NULL, gnat_literal); + + save_gnu_tree (gnat_literal, gnu_literal, false); + gnu_literal_list = tree_cons (DECL_NAME (gnu_literal), + gnu_value, gnu_literal_list); + } + + TYPE_VALUES (gnu_type) = nreverse (gnu_literal_list); + + /* Note that the bounds are updated at the end of this function + because to avoid an infinite recursion when we get the bounds of + this type, since those bounds are objects of this type. */ + } + break; + + case E_Signed_Integer_Type: + case E_Ordinary_Fixed_Point_Type: + case E_Decimal_Fixed_Point_Type: + /* For integer types, just make a signed type the appropriate number + of bits. */ + gnu_type = make_signed_type (esize); + break; + + case E_Modular_Integer_Type: + /* For modular types, make the unsigned type of the proper number of + bits and then set up the modulus, if required. */ + { + enum machine_mode mode; + tree gnu_modulus; + tree gnu_high = 0; + + if (Is_Packed_Array_Type (gnat_entity)) + esize = UI_To_Int (RM_Size (gnat_entity)); + + /* Find the smallest mode at least ESIZE bits wide and make a class + using that mode. */ + + for (mode = GET_CLASS_NARROWEST_MODE (MODE_INT); + GET_MODE_BITSIZE (mode) < esize; + mode = GET_MODE_WIDER_MODE (mode)) + ; + + gnu_type = make_unsigned_type (GET_MODE_BITSIZE (mode)); + TYPE_PACKED_ARRAY_TYPE_P (gnu_type) + = (Is_Packed_Array_Type (gnat_entity) + && Is_Bit_Packed_Array (Original_Array_Type (gnat_entity))); + + /* Get the modulus in this type. If it overflows, assume it is because + it is equal to 2**Esize. Note that there is no overflow checking + done on unsigned type, so we detect the overflow by looking for + a modulus of zero, which is otherwise invalid. */ + gnu_modulus = UI_To_gnu (Modulus (gnat_entity), gnu_type); + + if (!integer_zerop (gnu_modulus)) + { + TYPE_MODULAR_P (gnu_type) = 1; + SET_TYPE_MODULUS (gnu_type, gnu_modulus); + gnu_high = fold_build2 (MINUS_EXPR, gnu_type, gnu_modulus, + convert (gnu_type, integer_one_node)); + } + + /* If we have to set TYPE_PRECISION different from its natural value, + make a subtype to do do. Likewise if there is a modulus and + it is not one greater than TYPE_MAX_VALUE. */ + if (TYPE_PRECISION (gnu_type) != esize + || (TYPE_MODULAR_P (gnu_type) + && !tree_int_cst_equal (TYPE_MAX_VALUE (gnu_type), gnu_high))) + { + tree gnu_subtype = make_node (INTEGER_TYPE); + + TYPE_NAME (gnu_type) = create_concat_name (gnat_entity, "UMT"); + TREE_TYPE (gnu_subtype) = gnu_type; + TYPE_MIN_VALUE (gnu_subtype) = TYPE_MIN_VALUE (gnu_type); + TYPE_MAX_VALUE (gnu_subtype) + = TYPE_MODULAR_P (gnu_type) + ? gnu_high : TYPE_MAX_VALUE (gnu_type); + TYPE_PRECISION (gnu_subtype) = esize; + TYPE_UNSIGNED (gnu_subtype) = 1; + TYPE_EXTRA_SUBTYPE_P (gnu_subtype) = 1; + TYPE_PACKED_ARRAY_TYPE_P (gnu_subtype) + = (Is_Packed_Array_Type (gnat_entity) + && Is_Bit_Packed_Array (Original_Array_Type (gnat_entity))); + layout_type (gnu_subtype); + + gnu_type = gnu_subtype; + } + } + break; + + case E_Signed_Integer_Subtype: + case E_Enumeration_Subtype: + case E_Modular_Integer_Subtype: + case E_Ordinary_Fixed_Point_Subtype: + case E_Decimal_Fixed_Point_Subtype: + + /* For integral subtypes, we make a new INTEGER_TYPE. Note + that we do not want to call build_range_type since we would + like each subtype node to be distinct. This will be important + when memory aliasing is implemented. + + The TREE_TYPE field of the INTEGER_TYPE we make points to the + parent type; this fact is used by the arithmetic conversion + functions. + + We elaborate the Ancestor_Subtype if it is not in the current + unit and one of our bounds is non-static. We do this to ensure + consistent naming in the case where several subtypes share the same + bounds by always elaborating the first such subtype first, thus + using its name. */ + + if (!definition + && Present (Ancestor_Subtype (gnat_entity)) + && !In_Extended_Main_Code_Unit (Ancestor_Subtype (gnat_entity)) + && (!Compile_Time_Known_Value (Type_Low_Bound (gnat_entity)) + || !Compile_Time_Known_Value (Type_High_Bound (gnat_entity)))) + gnat_to_gnu_entity (Ancestor_Subtype (gnat_entity), + gnu_expr, 0); + + gnu_type = make_node (INTEGER_TYPE); + if (Is_Packed_Array_Type (gnat_entity) + && Is_Bit_Packed_Array (Original_Array_Type (gnat_entity))) + { + esize = UI_To_Int (RM_Size (gnat_entity)); + TYPE_PACKED_ARRAY_TYPE_P (gnu_type) = 1; + } + + TYPE_PRECISION (gnu_type) = esize; + TREE_TYPE (gnu_type) = get_unpadded_type (Etype (gnat_entity)); + + TYPE_MIN_VALUE (gnu_type) + = convert (TREE_TYPE (gnu_type), + elaborate_expression (Type_Low_Bound (gnat_entity), + gnat_entity, + get_identifier ("L"), definition, 1, + Needs_Debug_Info (gnat_entity))); + + TYPE_MAX_VALUE (gnu_type) + = convert (TREE_TYPE (gnu_type), + elaborate_expression (Type_High_Bound (gnat_entity), + gnat_entity, + get_identifier ("U"), definition, 1, + Needs_Debug_Info (gnat_entity))); + + /* One of the above calls might have caused us to be elaborated, + so don't blow up if so. */ + if (present_gnu_tree (gnat_entity)) + { + maybe_present = true; + break; + } + + TYPE_BIASED_REPRESENTATION_P (gnu_type) + = Has_Biased_Representation (gnat_entity); + + /* This should be an unsigned type if the lower bound is constant + and non-negative or if the base type is unsigned; a signed type + otherwise. */ + TYPE_UNSIGNED (gnu_type) + = (TYPE_UNSIGNED (TREE_TYPE (gnu_type)) + || (TREE_CODE (TYPE_MIN_VALUE (gnu_type)) == INTEGER_CST + && TREE_INT_CST_HIGH (TYPE_MIN_VALUE (gnu_type)) >= 0) + || TYPE_BIASED_REPRESENTATION_P (gnu_type) + || Is_Unsigned_Type (gnat_entity)); + + layout_type (gnu_type); + + /* Inherit our alias set from what we're a subtype of. Subtypes + are not different types and a pointer can designate any instance + within a subtype hierarchy. */ + copy_alias_set (gnu_type, TREE_TYPE (gnu_type)); + + /* If the type we are dealing with is to represent a packed array, + we need to have the bits left justified on big-endian targets + and right justified on little-endian targets. We also need to + ensure that when the value is read (e.g. for comparison of two + such values), we only get the good bits, since the unused bits + are uninitialized. Both goals are accomplished by wrapping the + modular value in an enclosing struct. */ + if (Is_Packed_Array_Type (gnat_entity) + && Is_Bit_Packed_Array (Original_Array_Type (gnat_entity))) + { + tree gnu_field_type = gnu_type; + tree gnu_field; + + TYPE_RM_SIZE_NUM (gnu_field_type) + = UI_To_gnu (RM_Size (gnat_entity), bitsizetype); + gnu_type = make_node (RECORD_TYPE); + TYPE_NAME (gnu_type) = create_concat_name (gnat_entity, "JM"); + + /* Propagate the alignment of the modular type to the record. + This means that bitpacked arrays have "ceil" alignment for + their size, which may seem counter-intuitive but makes it + possible to easily overlay them on modular types. */ + TYPE_ALIGN (gnu_type) = TYPE_ALIGN (gnu_field_type); + TYPE_PACKED (gnu_type) = 1; + + /* Create a stripped-down declaration of the original type, mainly + for debugging. */ + create_type_decl (get_entity_name (gnat_entity), gnu_field_type, + NULL, true, debug_info_p, gnat_entity); + + /* Don't notify the field as "addressable", since we won't be taking + it's address and it would prevent create_field_decl from making a + bitfield. */ + gnu_field = create_field_decl (get_identifier ("OBJECT"), + gnu_field_type, gnu_type, 1, 0, 0, 0); + + finish_record_type (gnu_type, gnu_field, 0, false); + TYPE_JUSTIFIED_MODULAR_P (gnu_type) = 1; + SET_TYPE_ADA_SIZE (gnu_type, bitsize_int (esize)); + + copy_alias_set (gnu_type, gnu_field_type); + } + + /* If the type we are dealing with has got a smaller alignment than the + natural one, we need to wrap it up in a record type and under-align + the latter. We reuse the padding machinery for this purpose. */ + else if (Known_Alignment (gnat_entity) + && UI_Is_In_Int_Range (Alignment (gnat_entity)) + && (align = UI_To_Int (Alignment (gnat_entity)) * BITS_PER_UNIT) + && align < TYPE_ALIGN (gnu_type)) + { + tree gnu_field_type = gnu_type; + tree gnu_field; + + gnu_type = make_node (RECORD_TYPE); + TYPE_NAME (gnu_type) = create_concat_name (gnat_entity, "PAD"); + + TYPE_ALIGN (gnu_type) = align; + TYPE_PACKED (gnu_type) = 1; + + /* Create a stripped-down declaration of the original type, mainly + for debugging. */ + create_type_decl (get_entity_name (gnat_entity), gnu_field_type, + NULL, true, debug_info_p, gnat_entity); + + /* Don't notify the field as "addressable", since we won't be taking + it's address and it would prevent create_field_decl from making a + bitfield. */ + gnu_field = create_field_decl (get_identifier ("OBJECT"), + gnu_field_type, gnu_type, 1, 0, 0, 0); + + finish_record_type (gnu_type, gnu_field, 0, false); + TYPE_IS_PADDING_P (gnu_type) = 1; + SET_TYPE_ADA_SIZE (gnu_type, bitsize_int (esize)); + + copy_alias_set (gnu_type, gnu_field_type); + } + + /* Otherwise reset the alignment lest we computed it above. */ + else + align = 0; + + break; + + case E_Floating_Point_Type: + /* If this is a VAX floating-point type, use an integer of the proper + size. All the operations will be handled with ASM statements. */ + if (Vax_Float (gnat_entity)) + { + gnu_type = make_signed_type (esize); + TYPE_VAX_FLOATING_POINT_P (gnu_type) = 1; + SET_TYPE_DIGITS_VALUE (gnu_type, + UI_To_gnu (Digits_Value (gnat_entity), + sizetype)); + break; + } + + /* The type of the Low and High bounds can be our type if this is + a type from Standard, so set them at the end of the function. */ + gnu_type = make_node (REAL_TYPE); + TYPE_PRECISION (gnu_type) = fp_size_to_prec (esize); + layout_type (gnu_type); + break; + + case E_Floating_Point_Subtype: + if (Vax_Float (gnat_entity)) + { + gnu_type = gnat_to_gnu_type (Etype (gnat_entity)); + break; + } + + { + if (!definition + && Present (Ancestor_Subtype (gnat_entity)) + && !In_Extended_Main_Code_Unit (Ancestor_Subtype (gnat_entity)) + && (!Compile_Time_Known_Value (Type_Low_Bound (gnat_entity)) + || !Compile_Time_Known_Value (Type_High_Bound (gnat_entity)))) + gnat_to_gnu_entity (Ancestor_Subtype (gnat_entity), + gnu_expr, 0); + + gnu_type = make_node (REAL_TYPE); + TREE_TYPE (gnu_type) = get_unpadded_type (Etype (gnat_entity)); + TYPE_PRECISION (gnu_type) = fp_size_to_prec (esize); + + TYPE_MIN_VALUE (gnu_type) + = convert (TREE_TYPE (gnu_type), + elaborate_expression (Type_Low_Bound (gnat_entity), + gnat_entity, get_identifier ("L"), + definition, 1, + Needs_Debug_Info (gnat_entity))); + + TYPE_MAX_VALUE (gnu_type) + = convert (TREE_TYPE (gnu_type), + elaborate_expression (Type_High_Bound (gnat_entity), + gnat_entity, get_identifier ("U"), + definition, 1, + Needs_Debug_Info (gnat_entity))); + + /* One of the above calls might have caused us to be elaborated, + so don't blow up if so. */ + if (present_gnu_tree (gnat_entity)) + { + maybe_present = true; + break; + } + + layout_type (gnu_type); + + /* Inherit our alias set from what we're a subtype of, as for + integer subtypes. */ + copy_alias_set (gnu_type, TREE_TYPE (gnu_type)); + } + break; + + /* Array and String Types and Subtypes + + Unconstrained array types are represented by E_Array_Type and + constrained array types are represented by E_Array_Subtype. There + are no actual objects of an unconstrained array type; all we have + are pointers to that type. + + The following fields are defined on array types and subtypes: + + Component_Type Component type of the array. + Number_Dimensions Number of dimensions (an int). + First_Index Type of first index. */ + + case E_String_Type: + case E_Array_Type: + { + tree gnu_template_fields = NULL_TREE; + tree gnu_template_type = make_node (RECORD_TYPE); + tree gnu_ptr_template = build_pointer_type (gnu_template_type); + tree gnu_fat_type = make_node (RECORD_TYPE); + int ndim = Number_Dimensions (gnat_entity); + int firstdim + = (Convention (gnat_entity) == Convention_Fortran) ? ndim - 1 : 0; + int nextdim + = (Convention (gnat_entity) == Convention_Fortran) ? - 1 : 1; + int index; + tree *gnu_index_types = (tree *) alloca (ndim * sizeof (tree *)); + tree *gnu_temp_fields = (tree *) alloca (ndim * sizeof (tree *)); + tree gnu_comp_size = 0; + tree gnu_max_size = size_one_node; + tree gnu_max_size_unit; + Entity_Id gnat_ind_subtype; + Entity_Id gnat_ind_base_subtype; + tree gnu_template_reference; + tree tem; + + TYPE_NAME (gnu_template_type) + = create_concat_name (gnat_entity, "XUB"); + + /* Make a node for the array. If we are not defining the array + suppress expanding incomplete types. */ + gnu_type = make_node (UNCONSTRAINED_ARRAY_TYPE); + + if (!definition) + defer_incomplete_level++, this_deferred = true; + + /* Build the fat pointer type. Use a "void *" object instead of + a pointer to the array type since we don't have the array type + yet (it will reference the fat pointer via the bounds). */ + tem = chainon (chainon (NULL_TREE, + create_field_decl (get_identifier ("P_ARRAY"), + ptr_void_type_node, + gnu_fat_type, 0, 0, 0, 0)), + create_field_decl (get_identifier ("P_BOUNDS"), + gnu_ptr_template, + gnu_fat_type, 0, 0, 0, 0)); + + /* Make sure we can put this into a register. */ + TYPE_ALIGN (gnu_fat_type) = MIN (BIGGEST_ALIGNMENT, 2 * POINTER_SIZE); + + /* Do not finalize this record type since the types of its fields + are still incomplete at this point. */ + finish_record_type (gnu_fat_type, tem, 0, true); + TYPE_IS_FAT_POINTER_P (gnu_fat_type) = 1; + + /* Build a reference to the template from a PLACEHOLDER_EXPR that + is the fat pointer. This will be used to access the individual + fields once we build them. */ + tem = build3 (COMPONENT_REF, gnu_ptr_template, + build0 (PLACEHOLDER_EXPR, gnu_fat_type), + TREE_CHAIN (TYPE_FIELDS (gnu_fat_type)), NULL_TREE); + gnu_template_reference + = build_unary_op (INDIRECT_REF, gnu_template_type, tem); + TREE_READONLY (gnu_template_reference) = 1; + + /* Now create the GCC type for each index and add the fields for + that index to the template. */ + for (index = firstdim, gnat_ind_subtype = First_Index (gnat_entity), + gnat_ind_base_subtype + = First_Index (Implementation_Base_Type (gnat_entity)); + index < ndim && index >= 0; + index += nextdim, + gnat_ind_subtype = Next_Index (gnat_ind_subtype), + gnat_ind_base_subtype = Next_Index (gnat_ind_base_subtype)) + { + char field_name[10]; + tree gnu_ind_subtype + = get_unpadded_type (Base_Type (Etype (gnat_ind_subtype))); + tree gnu_base_subtype + = get_unpadded_type (Etype (gnat_ind_base_subtype)); + tree gnu_base_min + = convert (sizetype, TYPE_MIN_VALUE (gnu_base_subtype)); + tree gnu_base_max + = convert (sizetype, TYPE_MAX_VALUE (gnu_base_subtype)); + tree gnu_min_field, gnu_max_field, gnu_min, gnu_max; + + /* Make the FIELD_DECLs for the minimum and maximum of this + type and then make extractions of that field from the + template. */ + sprintf (field_name, "LB%d", index); + gnu_min_field = create_field_decl (get_identifier (field_name), + gnu_ind_subtype, + gnu_template_type, 0, 0, 0, 0); + field_name[0] = 'U'; + gnu_max_field = create_field_decl (get_identifier (field_name), + gnu_ind_subtype, + gnu_template_type, 0, 0, 0, 0); + + Sloc_to_locus (Sloc (gnat_entity), + &DECL_SOURCE_LOCATION (gnu_min_field)); + Sloc_to_locus (Sloc (gnat_entity), + &DECL_SOURCE_LOCATION (gnu_max_field)); + gnu_temp_fields[index] = chainon (gnu_min_field, gnu_max_field); + + /* We can't use build_component_ref here since the template + type isn't complete yet. */ + gnu_min = build3 (COMPONENT_REF, gnu_ind_subtype, + gnu_template_reference, gnu_min_field, + NULL_TREE); + gnu_max = build3 (COMPONENT_REF, gnu_ind_subtype, + gnu_template_reference, gnu_max_field, + NULL_TREE); + TREE_READONLY (gnu_min) = TREE_READONLY (gnu_max) = 1; + + /* Make a range type with the new ranges, but using + the Ada subtype. Then we convert to sizetype. */ + gnu_index_types[index] + = create_index_type (convert (sizetype, gnu_min), + convert (sizetype, gnu_max), + build_range_type (gnu_ind_subtype, + gnu_min, gnu_max), + gnat_entity); + /* Update the maximum size of the array, in elements. */ + gnu_max_size + = size_binop (MULT_EXPR, gnu_max_size, + size_binop (PLUS_EXPR, size_one_node, + size_binop (MINUS_EXPR, gnu_base_max, + gnu_base_min))); + + TYPE_NAME (gnu_index_types[index]) + = create_concat_name (gnat_entity, field_name); + } + + for (index = 0; index < ndim; index++) + gnu_template_fields + = chainon (gnu_template_fields, gnu_temp_fields[index]); + + /* Install all the fields into the template. */ + finish_record_type (gnu_template_type, gnu_template_fields, 0, false); + TYPE_READONLY (gnu_template_type) = 1; + + /* Now make the array of arrays and update the pointer to the array + in the fat pointer. Note that it is the first field. */ + tem = gnat_to_gnu_type (Component_Type (gnat_entity)); + + /* Try to get a smaller form of the component if needed. */ + if ((Is_Packed (gnat_entity) + || Has_Component_Size_Clause (gnat_entity)) + && !Is_Bit_Packed_Array (gnat_entity) + && !Has_Aliased_Components (gnat_entity) + && !Strict_Alignment (Component_Type (gnat_entity)) + && TREE_CODE (tem) == RECORD_TYPE + && host_integerp (TYPE_SIZE (tem), 1)) + tem = make_packable_type (tem, false); + + if (Has_Atomic_Components (gnat_entity)) + check_ok_for_atomic (tem, gnat_entity, true); + + /* Get and validate any specified Component_Size, but if Packed, + ignore it since the front end will have taken care of it. */ + gnu_comp_size + = validate_size (Component_Size (gnat_entity), tem, + gnat_entity, + (Is_Bit_Packed_Array (gnat_entity) + ? TYPE_DECL : VAR_DECL), + true, Has_Component_Size_Clause (gnat_entity)); + + /* If the component type is a RECORD_TYPE that has a self-referential + size, use the maxium size. */ + if (!gnu_comp_size && TREE_CODE (tem) == RECORD_TYPE + && CONTAINS_PLACEHOLDER_P (TYPE_SIZE (tem))) + gnu_comp_size = max_size (TYPE_SIZE (tem), true); + + if (gnu_comp_size && !Is_Bit_Packed_Array (gnat_entity)) + { + tree orig_tem; + tem = make_type_from_size (tem, gnu_comp_size, false); + orig_tem = tem; + tem = maybe_pad_type (tem, gnu_comp_size, 0, gnat_entity, + "C_PAD", false, definition, true); + /* If a padding record was made, declare it now since it will + never be declared otherwise. This is necessary to ensure + that its subtrees are properly marked. */ + if (tem != orig_tem) + create_type_decl (TYPE_NAME (tem), tem, NULL, true, false, + gnat_entity); + } + + if (Has_Volatile_Components (gnat_entity)) + tem = build_qualified_type (tem, + TYPE_QUALS (tem) | TYPE_QUAL_VOLATILE); + + /* If Component_Size is not already specified, annotate it with the + size of the component. */ + if (Unknown_Component_Size (gnat_entity)) + Set_Component_Size (gnat_entity, annotate_value (TYPE_SIZE (tem))); + + gnu_max_size_unit = size_binop (MAX_EXPR, size_zero_node, + size_binop (MULT_EXPR, gnu_max_size, + TYPE_SIZE_UNIT (tem))); + gnu_max_size = size_binop (MAX_EXPR, bitsize_zero_node, + size_binop (MULT_EXPR, + convert (bitsizetype, + gnu_max_size), + TYPE_SIZE (tem))); + + for (index = ndim - 1; index >= 0; index--) + { + tem = build_array_type (tem, gnu_index_types[index]); + TYPE_MULTI_ARRAY_P (tem) = (index > 0); + if (array_type_has_nonaliased_component (gnat_entity, tem)) + TYPE_NONALIASED_COMPONENT (tem) = 1; + } + + /* If an alignment is specified, use it if valid. But ignore it for + types that represent the unpacked base type for packed arrays. If + the alignment was requested with an explicit user alignment clause, + state so. */ + if (No (Packed_Array_Type (gnat_entity)) + && Known_Alignment (gnat_entity)) + { + gcc_assert (Present (Alignment (gnat_entity))); + TYPE_ALIGN (tem) + = validate_alignment (Alignment (gnat_entity), gnat_entity, + TYPE_ALIGN (tem)); + if (Present (Alignment_Clause (gnat_entity))) + TYPE_USER_ALIGN (tem) = 1; + } + + TYPE_CONVENTION_FORTRAN_P (tem) + = (Convention (gnat_entity) == Convention_Fortran); + TREE_TYPE (TYPE_FIELDS (gnu_fat_type)) = build_pointer_type (tem); + + /* The result type is an UNCONSTRAINED_ARRAY_TYPE that indicates the + corresponding fat pointer. */ + TREE_TYPE (gnu_type) = TYPE_POINTER_TO (gnu_type) + = TYPE_REFERENCE_TO (gnu_type) = gnu_fat_type; + TYPE_MODE (gnu_type) = BLKmode; + TYPE_ALIGN (gnu_type) = TYPE_ALIGN (tem); + SET_TYPE_UNCONSTRAINED_ARRAY (gnu_fat_type, gnu_type); + + /* If the maximum size doesn't overflow, use it. */ + if (TREE_CODE (gnu_max_size) == INTEGER_CST + && !TREE_OVERFLOW (gnu_max_size)) + TYPE_SIZE (tem) + = size_binop (MIN_EXPR, gnu_max_size, TYPE_SIZE (tem)); + if (TREE_CODE (gnu_max_size_unit) == INTEGER_CST + && !TREE_OVERFLOW (gnu_max_size_unit)) + TYPE_SIZE_UNIT (tem) + = size_binop (MIN_EXPR, gnu_max_size_unit, + TYPE_SIZE_UNIT (tem)); + + create_type_decl (create_concat_name (gnat_entity, "XUA"), + tem, NULL, !Comes_From_Source (gnat_entity), + debug_info_p, gnat_entity); + + /* Give the fat pointer type a name. */ + create_type_decl (create_concat_name (gnat_entity, "XUP"), + gnu_fat_type, NULL, !Comes_From_Source (gnat_entity), + debug_info_p, gnat_entity); + + /* Create the type to be used as what a thin pointer designates: an + record type for the object and its template with the field offsets + shifted to have the template at a negative offset. */ + tem = build_unc_object_type (gnu_template_type, tem, + create_concat_name (gnat_entity, "XUT")); + shift_unc_components_for_thin_pointers (tem); + + SET_TYPE_UNCONSTRAINED_ARRAY (tem, gnu_type); + TYPE_OBJECT_RECORD_TYPE (gnu_type) = tem; + + /* Give the thin pointer type a name. */ + create_type_decl (create_concat_name (gnat_entity, "XUX"), + build_pointer_type (tem), NULL, + !Comes_From_Source (gnat_entity), debug_info_p, + gnat_entity); + } + break; + + case E_String_Subtype: + case E_Array_Subtype: + + /* This is the actual data type for array variables. Multidimensional + arrays are implemented in the gnu tree as arrays of arrays. Note + that for the moment arrays which have sparse enumeration subtypes as + index components create sparse arrays, which is obviously space + inefficient but so much easier to code for now. + + Also note that the subtype never refers to the unconstrained + array type, which is somewhat at variance with Ada semantics. + + First check to see if this is simply a renaming of the array + type. If so, the result is the array type. */ + + gnu_type = gnat_to_gnu_type (Etype (gnat_entity)); + if (!Is_Constrained (gnat_entity)) + break; + else + { + int index; + int array_dim = Number_Dimensions (gnat_entity); + int first_dim + = ((Convention (gnat_entity) == Convention_Fortran) + ? array_dim - 1 : 0); + int next_dim + = (Convention (gnat_entity) == Convention_Fortran) ? -1 : 1; + Entity_Id gnat_ind_subtype; + Entity_Id gnat_ind_base_subtype; + tree gnu_base_type = gnu_type; + tree *gnu_index_type = (tree *) alloca (array_dim * sizeof (tree *)); + tree gnu_comp_size = NULL_TREE; + tree gnu_max_size = size_one_node; + tree gnu_max_size_unit; + bool need_index_type_struct = false; + bool max_overflow = false; + + /* First create the gnu types for each index. Create types for + debugging information to point to the index types if the + are not integer types, have variable bounds, or are + wider than sizetype. */ + + for (index = first_dim, gnat_ind_subtype = First_Index (gnat_entity), + gnat_ind_base_subtype + = First_Index (Implementation_Base_Type (gnat_entity)); + index < array_dim && index >= 0; + index += next_dim, + gnat_ind_subtype = Next_Index (gnat_ind_subtype), + gnat_ind_base_subtype = Next_Index (gnat_ind_base_subtype)) + { + tree gnu_index_subtype + = get_unpadded_type (Etype (gnat_ind_subtype)); + tree gnu_min + = convert (sizetype, TYPE_MIN_VALUE (gnu_index_subtype)); + tree gnu_max + = convert (sizetype, TYPE_MAX_VALUE (gnu_index_subtype)); + tree gnu_base_subtype + = get_unpadded_type (Etype (gnat_ind_base_subtype)); + tree gnu_base_min + = convert (sizetype, TYPE_MIN_VALUE (gnu_base_subtype)); + tree gnu_base_max + = convert (sizetype, TYPE_MAX_VALUE (gnu_base_subtype)); + tree gnu_base_type = get_base_type (gnu_base_subtype); + tree gnu_base_base_min + = convert (sizetype, TYPE_MIN_VALUE (gnu_base_type)); + tree gnu_base_base_max + = convert (sizetype, TYPE_MAX_VALUE (gnu_base_type)); + tree gnu_high; + tree gnu_this_max; + + /* If the minimum and maximum values both overflow in + SIZETYPE, but the difference in the original type + does not overflow in SIZETYPE, ignore the overflow + indications. */ + if ((TYPE_PRECISION (gnu_index_subtype) + > TYPE_PRECISION (sizetype) + || TYPE_UNSIGNED (gnu_index_subtype) + != TYPE_UNSIGNED (sizetype)) + && TREE_CODE (gnu_min) == INTEGER_CST + && TREE_CODE (gnu_max) == INTEGER_CST + && TREE_OVERFLOW (gnu_min) && TREE_OVERFLOW (gnu_max) + && (!TREE_OVERFLOW + (fold_build2 (MINUS_EXPR, gnu_index_subtype, + TYPE_MAX_VALUE (gnu_index_subtype), + TYPE_MIN_VALUE (gnu_index_subtype))))) + { + TREE_OVERFLOW (gnu_min) = 0; + TREE_OVERFLOW (gnu_max) = 0; + } + + /* Similarly, if the range is null, use bounds of 1..0 for + the sizetype bounds. */ + else if ((TYPE_PRECISION (gnu_index_subtype) + > TYPE_PRECISION (sizetype) + || TYPE_UNSIGNED (gnu_index_subtype) + != TYPE_UNSIGNED (sizetype)) + && TREE_CODE (gnu_min) == INTEGER_CST + && TREE_CODE (gnu_max) == INTEGER_CST + && (TREE_OVERFLOW (gnu_min) || TREE_OVERFLOW (gnu_max)) + && tree_int_cst_lt (TYPE_MAX_VALUE (gnu_index_subtype), + TYPE_MIN_VALUE (gnu_index_subtype))) + gnu_min = size_one_node, gnu_max = size_zero_node; + + /* Now compute the size of this bound. We need to provide + GCC with an upper bound to use but have to deal with the + "superflat" case. There are three ways to do this. If we + can prove that the array can never be superflat, we can + just use the high bound of the index subtype. If we can + prove that the low bound minus one can't overflow, we + can do this as MAX (hb, lb - 1). Otherwise, we have to use + the expression hb >= lb ? hb : lb - 1. */ + gnu_high = size_binop (MINUS_EXPR, gnu_min, size_one_node); + + /* See if the base array type is already flat. If it is, we + are probably compiling an ACVC test, but it will cause the + code below to malfunction if we don't handle it specially. */ + if (TREE_CODE (gnu_base_min) == INTEGER_CST + && TREE_CODE (gnu_base_max) == INTEGER_CST + && !TREE_OVERFLOW (gnu_base_min) + && !TREE_OVERFLOW (gnu_base_max) + && tree_int_cst_lt (gnu_base_max, gnu_base_min)) + gnu_high = size_zero_node, gnu_min = size_one_node; + + /* If gnu_high is now an integer which overflowed, the array + cannot be superflat. */ + else if (TREE_CODE (gnu_high) == INTEGER_CST + && TREE_OVERFLOW (gnu_high)) + gnu_high = gnu_max; + else if (TYPE_UNSIGNED (gnu_base_subtype) + || TREE_CODE (gnu_high) == INTEGER_CST) + gnu_high = size_binop (MAX_EXPR, gnu_max, gnu_high); + else + gnu_high + = build_cond_expr + (sizetype, build_binary_op (GE_EXPR, integer_type_node, + gnu_max, gnu_min), + gnu_max, gnu_high); + + gnu_index_type[index] + = create_index_type (gnu_min, gnu_high, gnu_index_subtype, + gnat_entity); + + /* Also compute the maximum size of the array. Here we + see if any constraint on the index type of the base type + can be used in the case of self-referential bound on + the index type of the subtype. We look for a non-"infinite" + and non-self-referential bound from any type involved and + handle each bound separately. */ + + if ((TREE_CODE (gnu_min) == INTEGER_CST + && !TREE_OVERFLOW (gnu_min) + && !operand_equal_p (gnu_min, gnu_base_base_min, 0)) + || !CONTAINS_PLACEHOLDER_P (gnu_min) + || !(TREE_CODE (gnu_base_min) == INTEGER_CST + && !TREE_OVERFLOW (gnu_base_min))) + gnu_base_min = gnu_min; + + if ((TREE_CODE (gnu_max) == INTEGER_CST + && !TREE_OVERFLOW (gnu_max) + && !operand_equal_p (gnu_max, gnu_base_base_max, 0)) + || !CONTAINS_PLACEHOLDER_P (gnu_max) + || !(TREE_CODE (gnu_base_max) == INTEGER_CST + && !TREE_OVERFLOW (gnu_base_max))) + gnu_base_max = gnu_max; + + if ((TREE_CODE (gnu_base_min) == INTEGER_CST + && TREE_OVERFLOW (gnu_base_min)) + || operand_equal_p (gnu_base_min, gnu_base_base_min, 0) + || (TREE_CODE (gnu_base_max) == INTEGER_CST + && TREE_OVERFLOW (gnu_base_max)) + || operand_equal_p (gnu_base_max, gnu_base_base_max, 0)) + max_overflow = true; + + gnu_base_min = size_binop (MAX_EXPR, gnu_base_min, gnu_min); + gnu_base_max = size_binop (MIN_EXPR, gnu_base_max, gnu_max); + + gnu_this_max + = size_binop (MAX_EXPR, + size_binop (PLUS_EXPR, size_one_node, + size_binop (MINUS_EXPR, gnu_base_max, + gnu_base_min)), + size_zero_node); + + if (TREE_CODE (gnu_this_max) == INTEGER_CST + && TREE_OVERFLOW (gnu_this_max)) + max_overflow = true; + + gnu_max_size + = size_binop (MULT_EXPR, gnu_max_size, gnu_this_max); + + if (!integer_onep (TYPE_MIN_VALUE (gnu_index_subtype)) + || (TREE_CODE (TYPE_MAX_VALUE (gnu_index_subtype)) + != INTEGER_CST) + || TREE_CODE (gnu_index_subtype) != INTEGER_TYPE + || (TREE_TYPE (gnu_index_subtype) + && (TREE_CODE (TREE_TYPE (gnu_index_subtype)) + != INTEGER_TYPE)) + || TYPE_BIASED_REPRESENTATION_P (gnu_index_subtype) + || (TYPE_PRECISION (gnu_index_subtype) + > TYPE_PRECISION (sizetype))) + need_index_type_struct = true; + } + + /* Then flatten: create the array of arrays. For an array type + used to implement a packed array, get the component type from + the original array type since the representation clauses that + can affect it are on the latter. */ + if (Is_Packed_Array_Type (gnat_entity) + && !Is_Bit_Packed_Array (Original_Array_Type (gnat_entity))) + { + gnu_type = gnat_to_gnu_type (Original_Array_Type (gnat_entity)); + for (index = array_dim - 1; index >= 0; index--) + gnu_type = TREE_TYPE (gnu_type); + + /* One of the above calls might have caused us to be elaborated, + so don't blow up if so. */ + if (present_gnu_tree (gnat_entity)) + { + maybe_present = true; + break; + } + } + else + { + gnu_type = gnat_to_gnu_type (Component_Type (gnat_entity)); + + /* One of the above calls might have caused us to be elaborated, + so don't blow up if so. */ + if (present_gnu_tree (gnat_entity)) + { + maybe_present = true; + break; + } + + /* Try to get a smaller form of the component if needed. */ + if ((Is_Packed (gnat_entity) + || Has_Component_Size_Clause (gnat_entity)) + && !Is_Bit_Packed_Array (gnat_entity) + && !Has_Aliased_Components (gnat_entity) + && !Strict_Alignment (Component_Type (gnat_entity)) + && TREE_CODE (gnu_type) == RECORD_TYPE + && host_integerp (TYPE_SIZE (gnu_type), 1)) + gnu_type = make_packable_type (gnu_type, false); + + /* Get and validate any specified Component_Size, but if Packed, + ignore it since the front end will have taken care of it. */ + gnu_comp_size + = validate_size (Component_Size (gnat_entity), gnu_type, + gnat_entity, + (Is_Bit_Packed_Array (gnat_entity) + ? TYPE_DECL : VAR_DECL), true, + Has_Component_Size_Clause (gnat_entity)); + + /* If the component type is a RECORD_TYPE that has a + self-referential size, use the maxium size. */ + if (!gnu_comp_size + && TREE_CODE (gnu_type) == RECORD_TYPE + && CONTAINS_PLACEHOLDER_P (TYPE_SIZE (gnu_type))) + gnu_comp_size = max_size (TYPE_SIZE (gnu_type), true); + + if (gnu_comp_size && !Is_Bit_Packed_Array (gnat_entity)) + { + tree orig_gnu_type; + gnu_type + = make_type_from_size (gnu_type, gnu_comp_size, false); + orig_gnu_type = gnu_type; + gnu_type = maybe_pad_type (gnu_type, gnu_comp_size, 0, + gnat_entity, "C_PAD", false, + definition, true); + /* If a padding record was made, declare it now since it + will never be declared otherwise. This is necessary + to ensure that its subtrees are properly marked. */ + if (gnu_type != orig_gnu_type) + create_type_decl (TYPE_NAME (gnu_type), gnu_type, NULL, + true, false, gnat_entity); + } + + if (Has_Volatile_Components (Base_Type (gnat_entity))) + gnu_type = build_qualified_type (gnu_type, + (TYPE_QUALS (gnu_type) + | TYPE_QUAL_VOLATILE)); + } + + gnu_max_size_unit = size_binop (MULT_EXPR, gnu_max_size, + TYPE_SIZE_UNIT (gnu_type)); + gnu_max_size = size_binop (MULT_EXPR, + convert (bitsizetype, gnu_max_size), + TYPE_SIZE (gnu_type)); + + for (index = array_dim - 1; index >= 0; index --) + { + gnu_type = build_array_type (gnu_type, gnu_index_type[index]); + TYPE_MULTI_ARRAY_P (gnu_type) = (index > 0); + if (array_type_has_nonaliased_component (gnat_entity, gnu_type)) + TYPE_NONALIASED_COMPONENT (gnu_type) = 1; + } + + /* If we are at file level and this is a multi-dimensional array, we + need to make a variable corresponding to the stride of the + inner dimensions. */ + if (global_bindings_p () && array_dim > 1) + { + tree gnu_str_name = get_identifier ("ST"); + tree gnu_arr_type; + + for (gnu_arr_type = TREE_TYPE (gnu_type); + TREE_CODE (gnu_arr_type) == ARRAY_TYPE; + gnu_arr_type = TREE_TYPE (gnu_arr_type), + gnu_str_name = concat_id_with_name (gnu_str_name, "ST")) + { + tree eltype = TREE_TYPE (gnu_arr_type); + + TYPE_SIZE (gnu_arr_type) + = elaborate_expression_1 (gnat_entity, gnat_entity, + TYPE_SIZE (gnu_arr_type), + gnu_str_name, definition, 0); + + /* ??? For now, store the size as a multiple of the + alignment of the element type in bytes so that we + can see the alignment from the tree. */ + TYPE_SIZE_UNIT (gnu_arr_type) + = build_binary_op + (MULT_EXPR, sizetype, + elaborate_expression_1 + (gnat_entity, gnat_entity, + build_binary_op (EXACT_DIV_EXPR, sizetype, + TYPE_SIZE_UNIT (gnu_arr_type), + size_int (TYPE_ALIGN (eltype) + / BITS_PER_UNIT)), + concat_id_with_name (gnu_str_name, "A_U"), + definition, 0), + size_int (TYPE_ALIGN (eltype) / BITS_PER_UNIT)); + + /* ??? create_type_decl is not invoked on the inner types so + the MULT_EXPR node built above will never be marked. */ + mark_visited (&TYPE_SIZE_UNIT (gnu_arr_type)); + } + } + + /* If we need to write out a record type giving the names of + the bounds, do it now. */ + if (need_index_type_struct && debug_info_p) + { + tree gnu_bound_rec_type = make_node (RECORD_TYPE); + tree gnu_field_list = NULL_TREE; + tree gnu_field; + + TYPE_NAME (gnu_bound_rec_type) + = create_concat_name (gnat_entity, "XA"); + + for (index = array_dim - 1; index >= 0; index--) + { + tree gnu_type_name + = TYPE_NAME (TYPE_INDEX_TYPE (gnu_index_type[index])); + + if (TREE_CODE (gnu_type_name) == TYPE_DECL) + gnu_type_name = DECL_NAME (gnu_type_name); + + gnu_field = create_field_decl (gnu_type_name, + integer_type_node, + gnu_bound_rec_type, + 0, NULL_TREE, NULL_TREE, 0); + TREE_CHAIN (gnu_field) = gnu_field_list; + gnu_field_list = gnu_field; + } + + finish_record_type (gnu_bound_rec_type, gnu_field_list, + 0, false); + + TYPE_STUB_DECL (gnu_type) + = build_decl (TYPE_DECL, NULL_TREE, gnu_type); + + add_parallel_type + (TYPE_STUB_DECL (gnu_type), gnu_bound_rec_type); + } + + TYPE_CONVENTION_FORTRAN_P (gnu_type) + = (Convention (gnat_entity) == Convention_Fortran); + TYPE_PACKED_ARRAY_TYPE_P (gnu_type) + = (Is_Packed_Array_Type (gnat_entity) + && Is_Bit_Packed_Array (Original_Array_Type (gnat_entity))); + + /* If our size depends on a placeholder and the maximum size doesn't + overflow, use it. */ + if (CONTAINS_PLACEHOLDER_P (TYPE_SIZE (gnu_type)) + && !(TREE_CODE (gnu_max_size) == INTEGER_CST + && TREE_OVERFLOW (gnu_max_size)) + && !(TREE_CODE (gnu_max_size_unit) == INTEGER_CST + && TREE_OVERFLOW (gnu_max_size_unit)) + && !max_overflow) + { + TYPE_SIZE (gnu_type) = size_binop (MIN_EXPR, gnu_max_size, + TYPE_SIZE (gnu_type)); + TYPE_SIZE_UNIT (gnu_type) + = size_binop (MIN_EXPR, gnu_max_size_unit, + TYPE_SIZE_UNIT (gnu_type)); + } + + /* Set our alias set to that of our base type. This gives all + array subtypes the same alias set. */ + copy_alias_set (gnu_type, gnu_base_type); + } + + /* If this is a packed type, make this type the same as the packed + array type, but do some adjusting in the type first. */ + + if (Present (Packed_Array_Type (gnat_entity))) + { + Entity_Id gnat_index; + tree gnu_inner_type; + + /* First finish the type we had been making so that we output + debugging information for it */ + gnu_type + = build_qualified_type (gnu_type, + (TYPE_QUALS (gnu_type) + | (TYPE_QUAL_VOLATILE + * Treat_As_Volatile (gnat_entity)))); + gnu_decl = create_type_decl (gnu_entity_id, gnu_type, attr_list, + !Comes_From_Source (gnat_entity), + debug_info_p, gnat_entity); + if (!Comes_From_Source (gnat_entity)) + DECL_ARTIFICIAL (gnu_decl) = 1; + + /* Save it as our equivalent in case the call below elaborates + this type again. */ + save_gnu_tree (gnat_entity, gnu_decl, false); + + gnu_decl = gnat_to_gnu_entity (Packed_Array_Type (gnat_entity), + NULL_TREE, 0); + this_made_decl = true; + gnu_type = TREE_TYPE (gnu_decl); + save_gnu_tree (gnat_entity, NULL_TREE, false); + + gnu_inner_type = gnu_type; + while (TREE_CODE (gnu_inner_type) == RECORD_TYPE + && (TYPE_JUSTIFIED_MODULAR_P (gnu_inner_type) + || TYPE_IS_PADDING_P (gnu_inner_type))) + gnu_inner_type = TREE_TYPE (TYPE_FIELDS (gnu_inner_type)); + + /* We need to point the type we just made to our index type so + the actual bounds can be put into a template. */ + + if ((TREE_CODE (gnu_inner_type) == ARRAY_TYPE + && !TYPE_ACTUAL_BOUNDS (gnu_inner_type)) + || (TREE_CODE (gnu_inner_type) == INTEGER_TYPE + && !TYPE_HAS_ACTUAL_BOUNDS_P (gnu_inner_type))) + { + if (TREE_CODE (gnu_inner_type) == INTEGER_TYPE) + { + /* The TYPE_ACTUAL_BOUNDS field is also used for the modulus. + If it is, we need to make another type. */ + if (TYPE_MODULAR_P (gnu_inner_type)) + { + tree gnu_subtype; + + gnu_subtype = make_node (INTEGER_TYPE); + + TREE_TYPE (gnu_subtype) = gnu_inner_type; + TYPE_MIN_VALUE (gnu_subtype) + = TYPE_MIN_VALUE (gnu_inner_type); + TYPE_MAX_VALUE (gnu_subtype) + = TYPE_MAX_VALUE (gnu_inner_type); + TYPE_PRECISION (gnu_subtype) + = TYPE_PRECISION (gnu_inner_type); + TYPE_UNSIGNED (gnu_subtype) + = TYPE_UNSIGNED (gnu_inner_type); + TYPE_EXTRA_SUBTYPE_P (gnu_subtype) = 1; + layout_type (gnu_subtype); + + gnu_inner_type = gnu_subtype; + } + + TYPE_HAS_ACTUAL_BOUNDS_P (gnu_inner_type) = 1; + } + + SET_TYPE_ACTUAL_BOUNDS (gnu_inner_type, NULL_TREE); + + for (gnat_index = First_Index (gnat_entity); + Present (gnat_index); gnat_index = Next_Index (gnat_index)) + SET_TYPE_ACTUAL_BOUNDS + (gnu_inner_type, + tree_cons (NULL_TREE, + get_unpadded_type (Etype (gnat_index)), + TYPE_ACTUAL_BOUNDS (gnu_inner_type))); + + if (Convention (gnat_entity) != Convention_Fortran) + SET_TYPE_ACTUAL_BOUNDS + (gnu_inner_type, + nreverse (TYPE_ACTUAL_BOUNDS (gnu_inner_type))); + + if (TREE_CODE (gnu_type) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (gnu_type)) + TREE_TYPE (TYPE_FIELDS (gnu_type)) = gnu_inner_type; + } + } + + /* Abort if packed array with no packed array type field set. */ + else + gcc_assert (!Is_Packed (gnat_entity)); + + break; + + case E_String_Literal_Subtype: + /* Create the type for a string literal. */ + { + Entity_Id gnat_full_type + = (IN (Ekind (Etype (gnat_entity)), Private_Kind) + && Present (Full_View (Etype (gnat_entity))) + ? Full_View (Etype (gnat_entity)) : Etype (gnat_entity)); + tree gnu_string_type = get_unpadded_type (gnat_full_type); + tree gnu_string_array_type + = TREE_TYPE (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (gnu_string_type)))); + tree gnu_string_index_type + = get_base_type (TREE_TYPE (TYPE_INDEX_TYPE + (TYPE_DOMAIN (gnu_string_array_type)))); + tree gnu_lower_bound + = convert (gnu_string_index_type, + gnat_to_gnu (String_Literal_Low_Bound (gnat_entity))); + int length = UI_To_Int (String_Literal_Length (gnat_entity)); + tree gnu_length = ssize_int (length - 1); + tree gnu_upper_bound + = build_binary_op (PLUS_EXPR, gnu_string_index_type, + gnu_lower_bound, + convert (gnu_string_index_type, gnu_length)); + tree gnu_range_type + = build_range_type (gnu_string_index_type, + gnu_lower_bound, gnu_upper_bound); + tree gnu_index_type + = create_index_type (convert (sizetype, + TYPE_MIN_VALUE (gnu_range_type)), + convert (sizetype, + TYPE_MAX_VALUE (gnu_range_type)), + gnu_range_type, gnat_entity); + + gnu_type + = build_array_type (gnat_to_gnu_type (Component_Type (gnat_entity)), + gnu_index_type); + copy_alias_set (gnu_type, gnu_string_type); + } + break; + + /* Record Types and Subtypes + + The following fields are defined on record types: + + Has_Discriminants True if the record has discriminants + First_Discriminant Points to head of list of discriminants + First_Entity Points to head of list of fields + Is_Tagged_Type True if the record is tagged + + Implementation of Ada records and discriminated records: + + A record type definition is transformed into the equivalent of a C + struct definition. The fields that are the discriminants which are + found in the Full_Type_Declaration node and the elements of the + Component_List found in the Record_Type_Definition node. The + Component_List can be a recursive structure since each Variant of + the Variant_Part of the Component_List has a Component_List. + + Processing of a record type definition comprises starting the list of + field declarations here from the discriminants and the calling the + function components_to_record to add the rest of the fields from the + component list and return the gnu type node. The function + components_to_record will call itself recursively as it traverses + the tree. */ + + case E_Record_Type: + if (Has_Complex_Representation (gnat_entity)) + { + gnu_type + = build_complex_type + (get_unpadded_type + (Etype (Defining_Entity + (First (Component_Items + (Component_List + (Type_Definition + (Declaration_Node (gnat_entity))))))))); + + break; + } + + { + Node_Id full_definition = Declaration_Node (gnat_entity); + Node_Id record_definition = Type_Definition (full_definition); + Entity_Id gnat_field; + tree gnu_field; + tree gnu_field_list = NULL_TREE; + tree gnu_get_parent; + /* Set PACKED in keeping with gnat_to_gnu_field. */ + int packed + = Is_Packed (gnat_entity) + ? 1 + : Component_Alignment (gnat_entity) == Calign_Storage_Unit + ? -1 + : (Known_Alignment (gnat_entity) + || (Strict_Alignment (gnat_entity) + && Known_Static_Esize (gnat_entity))) + ? -2 + : 0; + bool has_rep = Has_Specified_Layout (gnat_entity); + bool all_rep = has_rep; + bool is_extension + = (Is_Tagged_Type (gnat_entity) + && Nkind (record_definition) == N_Derived_Type_Definition); + + /* See if all fields have a rep clause. Stop when we find one + that doesn't. */ + for (gnat_field = First_Entity (gnat_entity); + Present (gnat_field) && all_rep; + gnat_field = Next_Entity (gnat_field)) + if ((Ekind (gnat_field) == E_Component + || Ekind (gnat_field) == E_Discriminant) + && No (Component_Clause (gnat_field))) + all_rep = false; + + /* If this is a record extension, go a level further to find the + record definition. Also, verify we have a Parent_Subtype. */ + if (is_extension) + { + if (!type_annotate_only + || Present (Record_Extension_Part (record_definition))) + record_definition = Record_Extension_Part (record_definition); + + gcc_assert (type_annotate_only + || Present (Parent_Subtype (gnat_entity))); + } + + /* Make a node for the record. If we are not defining the record, + suppress expanding incomplete types. */ + gnu_type = make_node (tree_code_for_record_type (gnat_entity)); + TYPE_NAME (gnu_type) = gnu_entity_id; + TYPE_PACKED (gnu_type) = (packed != 0) || has_rep; + + if (!definition) + defer_incomplete_level++, this_deferred = true; + + /* If both a size and rep clause was specified, put the size in + the record type now so that it can get the proper mode. */ + if (has_rep && Known_Esize (gnat_entity)) + TYPE_SIZE (gnu_type) = UI_To_gnu (Esize (gnat_entity), sizetype); + + /* Always set the alignment here so that it can be used to + set the mode, if it is making the alignment stricter. If + it is invalid, it will be checked again below. If this is to + be Atomic, choose a default alignment of a word unless we know + the size and it's smaller. */ + if (Known_Alignment (gnat_entity)) + TYPE_ALIGN (gnu_type) + = validate_alignment (Alignment (gnat_entity), gnat_entity, 0); + else if (Is_Atomic (gnat_entity)) + TYPE_ALIGN (gnu_type) + = esize >= BITS_PER_WORD ? BITS_PER_WORD : ceil_alignment (esize); + /* If a type needs strict alignment, the minimum size will be the + type size instead of the RM size (see validate_size). Cap the + alignment, lest it causes this type size to become too large. */ + else if (Strict_Alignment (gnat_entity) + && Known_Static_Esize (gnat_entity)) + { + unsigned int raw_size = UI_To_Int (Esize (gnat_entity)); + unsigned int raw_align = raw_size & -raw_size; + if (raw_align < BIGGEST_ALIGNMENT) + TYPE_ALIGN (gnu_type) = raw_align; + } + else + TYPE_ALIGN (gnu_type) = 0; + + /* If we have a Parent_Subtype, make a field for the parent. If + this record has rep clauses, force the position to zero. */ + if (Present (Parent_Subtype (gnat_entity))) + { + Entity_Id gnat_parent = Parent_Subtype (gnat_entity); + tree gnu_parent; + + /* A major complexity here is that the parent subtype will + reference our discriminants in its Discriminant_Constraint + list. But those must reference the parent component of this + record which is of the parent subtype we have not built yet! + To break the circle we first build a dummy COMPONENT_REF which + represents the "get to the parent" operation and initialize + each of those discriminants to a COMPONENT_REF of the above + dummy parent referencing the corresponding discriminant of the + base type of the parent subtype. */ + gnu_get_parent = build3 (COMPONENT_REF, void_type_node, + build0 (PLACEHOLDER_EXPR, gnu_type), + build_decl (FIELD_DECL, NULL_TREE, + void_type_node), + NULL_TREE); + + if (Has_Discriminants (gnat_entity)) + for (gnat_field = First_Stored_Discriminant (gnat_entity); + Present (gnat_field); + gnat_field = Next_Stored_Discriminant (gnat_field)) + if (Present (Corresponding_Discriminant (gnat_field))) + save_gnu_tree + (gnat_field, + build3 (COMPONENT_REF, + get_unpadded_type (Etype (gnat_field)), + gnu_get_parent, + gnat_to_gnu_field_decl (Corresponding_Discriminant + (gnat_field)), + NULL_TREE), + true); + + /* Then we build the parent subtype. */ + gnu_parent = gnat_to_gnu_type (gnat_parent); + + /* Finally we fix up both kinds of twisted COMPONENT_REF we have + initially built. The discriminants must reference the fields + of the parent subtype and not those of its base type for the + placeholder machinery to properly work. */ + if (Has_Discriminants (gnat_entity)) + for (gnat_field = First_Stored_Discriminant (gnat_entity); + Present (gnat_field); + gnat_field = Next_Stored_Discriminant (gnat_field)) + if (Present (Corresponding_Discriminant (gnat_field))) + { + Entity_Id field = Empty; + for (field = First_Stored_Discriminant (gnat_parent); + Present (field); + field = Next_Stored_Discriminant (field)) + if (same_discriminant_p (gnat_field, field)) + break; + gcc_assert (Present (field)); + TREE_OPERAND (get_gnu_tree (gnat_field), 1) + = gnat_to_gnu_field_decl (field); + } + + /* The "get to the parent" COMPONENT_REF must be given its + proper type... */ + TREE_TYPE (gnu_get_parent) = gnu_parent; + + /* ...and reference the _parent field of this record. */ + gnu_field_list + = create_field_decl (get_identifier + (Get_Name_String (Name_uParent)), + gnu_parent, gnu_type, 0, + has_rep ? TYPE_SIZE (gnu_parent) : 0, + has_rep ? bitsize_zero_node : 0, 1); + DECL_INTERNAL_P (gnu_field_list) = 1; + TREE_OPERAND (gnu_get_parent, 1) = gnu_field_list; + } + + /* Make the fields for the discriminants and put them into the record + unless it's an Unchecked_Union. */ + if (Has_Discriminants (gnat_entity)) + for (gnat_field = First_Stored_Discriminant (gnat_entity); + Present (gnat_field); + gnat_field = Next_Stored_Discriminant (gnat_field)) + { + /* If this is a record extension and this discriminant + is the renaming of another discriminant, we've already + handled the discriminant above. */ + if (Present (Parent_Subtype (gnat_entity)) + && Present (Corresponding_Discriminant (gnat_field))) + continue; + + gnu_field + = gnat_to_gnu_field (gnat_field, gnu_type, packed, definition); + + /* Make an expression using a PLACEHOLDER_EXPR from the + FIELD_DECL node just created and link that with the + corresponding GNAT defining identifier. Then add to the + list of fields. */ + save_gnu_tree (gnat_field, + build3 (COMPONENT_REF, TREE_TYPE (gnu_field), + build0 (PLACEHOLDER_EXPR, + DECL_CONTEXT (gnu_field)), + gnu_field, NULL_TREE), + true); + + if (!Is_Unchecked_Union (gnat_entity)) + { + TREE_CHAIN (gnu_field) = gnu_field_list; + gnu_field_list = gnu_field; + } + } + + /* Put the discriminants into the record (backwards), so we can + know the appropriate discriminant to use for the names of the + variants. */ + TYPE_FIELDS (gnu_type) = gnu_field_list; + + /* Add the listed fields into the record and finish it up. */ + components_to_record (gnu_type, Component_List (record_definition), + gnu_field_list, packed, definition, NULL, + false, all_rep, false, + Is_Unchecked_Union (gnat_entity)); + + /* We used to remove the associations of the discriminants and + _Parent for validity checking, but we may need them if there's + Freeze_Node for a subtype used in this record. */ + TYPE_VOLATILE (gnu_type) = Treat_As_Volatile (gnat_entity); + TYPE_BY_REFERENCE_P (gnu_type) = Is_By_Reference_Type (gnat_entity); + + /* If it is a tagged record force the type to BLKmode to insure + that these objects will always be placed in memory. Do the + same thing for limited record types. */ + if (Is_Tagged_Type (gnat_entity) || Is_Limited_Record (gnat_entity)) + TYPE_MODE (gnu_type) = BLKmode; + + /* If this is a derived type, we must make the alias set of this type + the same as that of the type we are derived from. We assume here + that the other type is already frozen. */ + if (Etype (gnat_entity) != gnat_entity + && !(Is_Private_Type (Etype (gnat_entity)) + && Full_View (Etype (gnat_entity)) == gnat_entity)) + copy_alias_set (gnu_type, gnat_to_gnu_type (Etype (gnat_entity))); + + /* Fill in locations of fields. */ + annotate_rep (gnat_entity, gnu_type); + + /* If there are any entities in the chain corresponding to + components that we did not elaborate, ensure we elaborate their + types if they are Itypes. */ + for (gnat_temp = First_Entity (gnat_entity); + Present (gnat_temp); gnat_temp = Next_Entity (gnat_temp)) + if ((Ekind (gnat_temp) == E_Component + || Ekind (gnat_temp) == E_Discriminant) + && Is_Itype (Etype (gnat_temp)) + && !present_gnu_tree (gnat_temp)) + gnat_to_gnu_entity (Etype (gnat_temp), NULL_TREE, 0); + } + break; + + case E_Class_Wide_Subtype: + /* If an equivalent type is present, that is what we should use. + Otherwise, fall through to handle this like a record subtype + since it may have constraints. */ + if (gnat_equiv_type != gnat_entity) + { + gnu_decl = gnat_to_gnu_entity (gnat_equiv_type, NULL_TREE, 0); + maybe_present = true; + break; + } + + /* ... fall through ... */ + + case E_Record_Subtype: + + /* If Cloned_Subtype is Present it means this record subtype has + identical layout to that type or subtype and we should use + that GCC type for this one. The front end guarantees that + the component list is shared. */ + if (Present (Cloned_Subtype (gnat_entity))) + { + gnu_decl = gnat_to_gnu_entity (Cloned_Subtype (gnat_entity), + NULL_TREE, 0); + maybe_present = true; + } + + /* Otherwise, first ensure the base type is elaborated. Then, if we are + changing the type, make a new type with each field having the + type of the field in the new subtype but having the position + computed by transforming every discriminant reference according + to the constraints. We don't see any difference between + private and nonprivate type here since derivations from types should + have been deferred until the completion of the private type. */ + else + { + Entity_Id gnat_base_type = Implementation_Base_Type (gnat_entity); + tree gnu_base_type; + tree gnu_orig_type; + + if (!definition) + defer_incomplete_level++, this_deferred = true; + + /* Get the base type initially for its alignment and sizes. But + if it is a padded type, we do all the other work with the + unpadded type. */ + gnu_base_type = gnat_to_gnu_type (gnat_base_type); + + if (TREE_CODE (gnu_base_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (gnu_base_type)) + gnu_type = gnu_orig_type = TREE_TYPE (TYPE_FIELDS (gnu_base_type)); + else + gnu_type = gnu_orig_type = gnu_base_type; + + if (present_gnu_tree (gnat_entity)) + { + maybe_present = true; + break; + } + + /* When the type has discriminants, and these discriminants + affect the shape of what it built, factor them in. + + If we are making a subtype of an Unchecked_Union (must be an + Itype), just return the type. + + We can't just use Is_Constrained because private subtypes without + discriminants of full types with discriminants with default + expressions are Is_Constrained but aren't constrained! */ + + if (IN (Ekind (gnat_base_type), Record_Kind) + && !Is_For_Access_Subtype (gnat_entity) + && !Is_Unchecked_Union (gnat_base_type) + && Is_Constrained (gnat_entity) + && Stored_Constraint (gnat_entity) != No_Elist + && Present (Discriminant_Constraint (gnat_entity))) + { + Entity_Id gnat_field; + tree gnu_field_list = 0; + tree gnu_pos_list + = compute_field_positions (gnu_orig_type, NULL_TREE, + size_zero_node, bitsize_zero_node, + BIGGEST_ALIGNMENT); + tree gnu_subst_list + = substitution_list (gnat_entity, gnat_base_type, NULL_TREE, + definition); + tree gnu_temp; + + gnu_type = make_node (RECORD_TYPE); + TYPE_NAME (gnu_type) = gnu_entity_id; + TYPE_VOLATILE (gnu_type) = Treat_As_Volatile (gnat_entity); + + /* Set the size, alignment and alias set of the new type to + match that of the old one, doing required substitutions. + We do it this early because we need the size of the new + type below to discard old fields if necessary. */ + TYPE_SIZE (gnu_type) = TYPE_SIZE (gnu_base_type); + TYPE_SIZE_UNIT (gnu_type) = TYPE_SIZE_UNIT (gnu_base_type); + SET_TYPE_ADA_SIZE (gnu_type, TYPE_ADA_SIZE (gnu_base_type)); + TYPE_ALIGN (gnu_type) = TYPE_ALIGN (gnu_base_type); + copy_alias_set (gnu_type, gnu_base_type); + + if (CONTAINS_PLACEHOLDER_P (TYPE_SIZE (gnu_type))) + for (gnu_temp = gnu_subst_list; + gnu_temp; gnu_temp = TREE_CHAIN (gnu_temp)) + TYPE_SIZE (gnu_type) + = substitute_in_expr (TYPE_SIZE (gnu_type), + TREE_PURPOSE (gnu_temp), + TREE_VALUE (gnu_temp)); + + if (CONTAINS_PLACEHOLDER_P (TYPE_SIZE_UNIT (gnu_type))) + for (gnu_temp = gnu_subst_list; + gnu_temp; gnu_temp = TREE_CHAIN (gnu_temp)) + TYPE_SIZE_UNIT (gnu_type) + = substitute_in_expr (TYPE_SIZE_UNIT (gnu_type), + TREE_PURPOSE (gnu_temp), + TREE_VALUE (gnu_temp)); + + if (CONTAINS_PLACEHOLDER_P (TYPE_ADA_SIZE (gnu_type))) + for (gnu_temp = gnu_subst_list; + gnu_temp; gnu_temp = TREE_CHAIN (gnu_temp)) + SET_TYPE_ADA_SIZE + (gnu_type, substitute_in_expr (TYPE_ADA_SIZE (gnu_type), + TREE_PURPOSE (gnu_temp), + TREE_VALUE (gnu_temp))); + + for (gnat_field = First_Entity (gnat_entity); + Present (gnat_field); gnat_field = Next_Entity (gnat_field)) + if ((Ekind (gnat_field) == E_Component + || Ekind (gnat_field) == E_Discriminant) + && (Underlying_Type (Scope (Original_Record_Component + (gnat_field))) + == gnat_base_type) + && (No (Corresponding_Discriminant (gnat_field)) + || !Is_Tagged_Type (gnat_base_type))) + { + tree gnu_old_field + = gnat_to_gnu_field_decl (Original_Record_Component + (gnat_field)); + tree gnu_offset + = TREE_VALUE (purpose_member (gnu_old_field, + gnu_pos_list)); + tree gnu_pos = TREE_PURPOSE (gnu_offset); + tree gnu_bitpos = TREE_VALUE (TREE_VALUE (gnu_offset)); + tree gnu_field_type + = gnat_to_gnu_type (Etype (gnat_field)); + tree gnu_size = TYPE_SIZE (gnu_field_type); + tree gnu_new_pos = NULL_TREE; + unsigned int offset_align + = tree_low_cst (TREE_PURPOSE (TREE_VALUE (gnu_offset)), + 1); + tree gnu_field; + + /* If there was a component clause, the field types must be + the same for the type and subtype, so copy the data from + the old field to avoid recomputation here. Also if the + field is justified modular and the optimization in + gnat_to_gnu_field was applied. */ + if (Present (Component_Clause + (Original_Record_Component (gnat_field))) + || (TREE_CODE (gnu_field_type) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (gnu_field_type) + && TREE_TYPE (TYPE_FIELDS (gnu_field_type)) + == TREE_TYPE (gnu_old_field))) + { + gnu_size = DECL_SIZE (gnu_old_field); + gnu_field_type = TREE_TYPE (gnu_old_field); + } + + /* If the old field was packed and of constant size, we + have to get the old size here, as it might differ from + what the Etype conveys and the latter might overlap + onto the following field. Try to arrange the type for + possible better packing along the way. */ + else if (DECL_PACKED (gnu_old_field) + && TREE_CODE (DECL_SIZE (gnu_old_field)) + == INTEGER_CST) + { + gnu_size = DECL_SIZE (gnu_old_field); + if (TYPE_MODE (gnu_field_type) == BLKmode + && TREE_CODE (gnu_field_type) == RECORD_TYPE + && host_integerp (TYPE_SIZE (gnu_field_type), 1)) + gnu_field_type + = make_packable_type (gnu_field_type, true); + } + + if (CONTAINS_PLACEHOLDER_P (gnu_pos)) + for (gnu_temp = gnu_subst_list; + gnu_temp; gnu_temp = TREE_CHAIN (gnu_temp)) + gnu_pos = substitute_in_expr (gnu_pos, + TREE_PURPOSE (gnu_temp), + TREE_VALUE (gnu_temp)); + + /* If the position is now a constant, we can set it as the + position of the field when we make it. Otherwise, we need + to deal with it specially below. */ + if (TREE_CONSTANT (gnu_pos)) + { + gnu_new_pos = bit_from_pos (gnu_pos, gnu_bitpos); + + /* Discard old fields that are outside the new type. + This avoids confusing code scanning it to decide + how to pass it to functions on some platforms. */ + if (TREE_CODE (gnu_new_pos) == INTEGER_CST + && TREE_CODE (TYPE_SIZE (gnu_type)) == INTEGER_CST + && !integer_zerop (gnu_size) + && !tree_int_cst_lt (gnu_new_pos, + TYPE_SIZE (gnu_type))) + continue; + } + + gnu_field + = create_field_decl + (DECL_NAME (gnu_old_field), gnu_field_type, gnu_type, + DECL_PACKED (gnu_old_field), gnu_size, gnu_new_pos, + !DECL_NONADDRESSABLE_P (gnu_old_field)); + + if (!TREE_CONSTANT (gnu_pos)) + { + normalize_offset (&gnu_pos, &gnu_bitpos, offset_align); + DECL_FIELD_OFFSET (gnu_field) = gnu_pos; + DECL_FIELD_BIT_OFFSET (gnu_field) = gnu_bitpos; + SET_DECL_OFFSET_ALIGN (gnu_field, offset_align); + DECL_SIZE (gnu_field) = gnu_size; + DECL_SIZE_UNIT (gnu_field) + = convert (sizetype, + size_binop (CEIL_DIV_EXPR, gnu_size, + bitsize_unit_node)); + layout_decl (gnu_field, DECL_OFFSET_ALIGN (gnu_field)); + } + + DECL_INTERNAL_P (gnu_field) + = DECL_INTERNAL_P (gnu_old_field); + SET_DECL_ORIGINAL_FIELD + (gnu_field, (DECL_ORIGINAL_FIELD (gnu_old_field) + ? DECL_ORIGINAL_FIELD (gnu_old_field) + : gnu_old_field)); + DECL_DISCRIMINANT_NUMBER (gnu_field) + = DECL_DISCRIMINANT_NUMBER (gnu_old_field); + TREE_THIS_VOLATILE (gnu_field) + = TREE_THIS_VOLATILE (gnu_old_field); + TREE_CHAIN (gnu_field) = gnu_field_list; + gnu_field_list = gnu_field; + save_gnu_tree (gnat_field, gnu_field, false); + } + + /* Now go through the entities again looking for Itypes that + we have not elaborated but should (e.g., Etypes of fields + that have Original_Components). */ + for (gnat_field = First_Entity (gnat_entity); + Present (gnat_field); gnat_field = Next_Entity (gnat_field)) + if ((Ekind (gnat_field) == E_Discriminant + || Ekind (gnat_field) == E_Component) + && !present_gnu_tree (Etype (gnat_field))) + gnat_to_gnu_entity (Etype (gnat_field), NULL_TREE, 0); + + /* Do not finalize it since we're going to modify it below. */ + gnu_field_list = nreverse (gnu_field_list); + finish_record_type (gnu_type, gnu_field_list, 2, true); + + /* Finalize size and mode. */ + TYPE_SIZE (gnu_type) = variable_size (TYPE_SIZE (gnu_type)); + TYPE_SIZE_UNIT (gnu_type) + = variable_size (TYPE_SIZE_UNIT (gnu_type)); + + compute_record_mode (gnu_type); + + /* Fill in locations of fields. */ + annotate_rep (gnat_entity, gnu_type); + + /* We've built a new type, make an XVS type to show what this + is a subtype of. Some debuggers require the XVS type to be + output first, so do it in that order. */ + if (debug_info_p) + { + tree gnu_subtype_marker = make_node (RECORD_TYPE); + tree gnu_orig_name = TYPE_NAME (gnu_orig_type); + + if (TREE_CODE (gnu_orig_name) == TYPE_DECL) + gnu_orig_name = DECL_NAME (gnu_orig_name); + + TYPE_NAME (gnu_subtype_marker) + = create_concat_name (gnat_entity, "XVS"); + finish_record_type (gnu_subtype_marker, + create_field_decl (gnu_orig_name, + integer_type_node, + gnu_subtype_marker, + 0, NULL_TREE, + NULL_TREE, 0), + 0, false); + + add_parallel_type (TYPE_STUB_DECL (gnu_type), + gnu_subtype_marker); + } + + /* Now we can finalize it. */ + rest_of_record_type_compilation (gnu_type); + } + + /* Otherwise, go down all the components in the new type and + make them equivalent to those in the base type. */ + else + for (gnat_temp = First_Entity (gnat_entity); Present (gnat_temp); + gnat_temp = Next_Entity (gnat_temp)) + if ((Ekind (gnat_temp) == E_Discriminant + && !Is_Unchecked_Union (gnat_base_type)) + || Ekind (gnat_temp) == E_Component) + save_gnu_tree (gnat_temp, + gnat_to_gnu_field_decl + (Original_Record_Component (gnat_temp)), false); + } + break; + + case E_Access_Subprogram_Type: + /* Use the special descriptor type for dispatch tables if needed, + that is to say for the Prim_Ptr of a-tags.ads and its clones. + Note that we are only required to do so for static tables in + order to be compatible with the C++ ABI, but Ada 2005 allows + to extend library level tagged types at the local level so + we do it in the non-static case as well. */ + if (TARGET_VTABLE_USES_DESCRIPTORS + && Is_Dispatch_Table_Entity (gnat_entity)) + { + gnu_type = fdesc_type_node; + gnu_size = TYPE_SIZE (gnu_type); + break; + } + + /* ... fall through ... */ + + case E_Anonymous_Access_Subprogram_Type: + /* If we are not defining this entity, and we have incomplete + entities being processed above us, make a dummy type and + fill it in later. */ + if (!definition && defer_incomplete_level != 0) + { + struct incomplete *p + = (struct incomplete *) xmalloc (sizeof (struct incomplete)); + + gnu_type + = build_pointer_type + (make_dummy_type (Directly_Designated_Type (gnat_entity))); + gnu_decl = create_type_decl (gnu_entity_id, gnu_type, attr_list, + !Comes_From_Source (gnat_entity), + debug_info_p, gnat_entity); + this_made_decl = true; + gnu_type = TREE_TYPE (gnu_decl); + save_gnu_tree (gnat_entity, gnu_decl, false); + saved = true; + + p->old_type = TREE_TYPE (gnu_type); + p->full_type = Directly_Designated_Type (gnat_entity); + p->next = defer_incomplete_list; + defer_incomplete_list = p; + break; + } + + /* ... fall through ... */ + + case E_Allocator_Type: + case E_Access_Type: + case E_Access_Attribute_Type: + case E_Anonymous_Access_Type: + case E_General_Access_Type: + { + Entity_Id gnat_desig_type = Directly_Designated_Type (gnat_entity); + Entity_Id gnat_desig_equiv = Gigi_Equivalent_Type (gnat_desig_type); + bool is_from_limited_with + = (IN (Ekind (gnat_desig_equiv), Incomplete_Kind) + && From_With_Type (gnat_desig_equiv)); + + /* Get the "full view" of this entity. If this is an incomplete + entity from a limited with, treat its non-limited view as the full + view. Otherwise, if this is an incomplete or private type, use the + full view. In the former case, we might point to a private type, + in which case, we need its full view. Also, we want to look at the + actual type used for the representation, so this takes a total of + three steps. */ + Entity_Id gnat_desig_full_direct_first + = (is_from_limited_with ? Non_Limited_View (gnat_desig_equiv) + : (IN (Ekind (gnat_desig_equiv), Incomplete_Or_Private_Kind) + ? Full_View (gnat_desig_equiv) : Empty)); + Entity_Id gnat_desig_full_direct + = ((is_from_limited_with + && Present (gnat_desig_full_direct_first) + && IN (Ekind (gnat_desig_full_direct_first), Private_Kind)) + ? Full_View (gnat_desig_full_direct_first) + : gnat_desig_full_direct_first); + Entity_Id gnat_desig_full + = Gigi_Equivalent_Type (gnat_desig_full_direct); + + /* This the type actually used to represent the designated type, + either gnat_desig_full or gnat_desig_equiv. */ + Entity_Id gnat_desig_rep; + + /* Nonzero if this is a pointer to an unconstrained array. */ + bool is_unconstrained_array; + + /* We want to know if we'll be seeing the freeze node for any + incomplete type we may be pointing to. */ + bool in_main_unit + = (Present (gnat_desig_full) + ? In_Extended_Main_Code_Unit (gnat_desig_full) + : In_Extended_Main_Code_Unit (gnat_desig_type)); + + /* Nonzero if we make a dummy type here. */ + bool got_fat_p = false; + /* Nonzero if the dummy is a fat pointer. */ + bool made_dummy = false; + tree gnu_desig_type = NULL_TREE; + enum machine_mode p_mode = mode_for_size (esize, MODE_INT, 0); + + if (!targetm.valid_pointer_mode (p_mode)) + p_mode = ptr_mode; + + /* If either the designated type or its full view is an unconstrained + array subtype, replace it with the type it's a subtype of. This + avoids problems with multiple copies of unconstrained array types. + Likewise, if the designated type is a subtype of an incomplete + record type, use the parent type to avoid order of elaboration + issues. This can lose some code efficiency, but there is no + alternative. */ + if (Ekind (gnat_desig_equiv) == E_Array_Subtype + && ! Is_Constrained (gnat_desig_equiv)) + gnat_desig_equiv = Etype (gnat_desig_equiv); + if (Present (gnat_desig_full) + && ((Ekind (gnat_desig_full) == E_Array_Subtype + && ! Is_Constrained (gnat_desig_full)) + || (Ekind (gnat_desig_full) == E_Record_Subtype + && Ekind (Etype (gnat_desig_full)) == E_Record_Type))) + gnat_desig_full = Etype (gnat_desig_full); + + /* Now set the type that actually marks the representation of + the designated type and also flag whether we have a unconstrained + array. */ + gnat_desig_rep = gnat_desig_full ? gnat_desig_full : gnat_desig_equiv; + is_unconstrained_array + = (Is_Array_Type (gnat_desig_rep) + && ! Is_Constrained (gnat_desig_rep)); + + /* If we are pointing to an incomplete type whose completion is an + unconstrained array, make a fat pointer type. The two types in our + fields will be pointers to dummy nodes and will be replaced in + update_pointer_to. Similarly, if the type itself is a dummy type or + an unconstrained array. Also make a dummy TYPE_OBJECT_RECORD_TYPE + in case we have any thin pointers to it. */ + if (is_unconstrained_array + && (Present (gnat_desig_full) + || (present_gnu_tree (gnat_desig_equiv) + && TYPE_IS_DUMMY_P (TREE_TYPE + (get_gnu_tree (gnat_desig_equiv)))) + || (No (gnat_desig_full) && ! in_main_unit + && defer_incomplete_level != 0 + && ! present_gnu_tree (gnat_desig_equiv)) + || (in_main_unit && is_from_limited_with + && Present (Freeze_Node (gnat_desig_rep))))) + { + tree gnu_old + = (present_gnu_tree (gnat_desig_rep) + ? TREE_TYPE (get_gnu_tree (gnat_desig_rep)) + : make_dummy_type (gnat_desig_rep)); + tree fields; + + /* Show the dummy we get will be a fat pointer. */ + got_fat_p = made_dummy = true; + + /* If the call above got something that has a pointer, that + pointer is our type. This could have happened either + because the type was elaborated or because somebody + else executed the code below. */ + gnu_type = TYPE_POINTER_TO (gnu_old); + if (!gnu_type) + { + tree gnu_template_type = make_node (ENUMERAL_TYPE); + tree gnu_ptr_template = build_pointer_type (gnu_template_type); + tree gnu_array_type = make_node (ENUMERAL_TYPE); + tree gnu_ptr_array = build_pointer_type (gnu_array_type); + + TYPE_NAME (gnu_template_type) + = concat_id_with_name (get_entity_name (gnat_desig_equiv), + "XUB"); + TYPE_DUMMY_P (gnu_template_type) = 1; + + TYPE_NAME (gnu_array_type) + = concat_id_with_name (get_entity_name (gnat_desig_equiv), + "XUA"); + TYPE_DUMMY_P (gnu_array_type) = 1; + + gnu_type = make_node (RECORD_TYPE); + SET_TYPE_UNCONSTRAINED_ARRAY (gnu_type, gnu_old); + TYPE_POINTER_TO (gnu_old) = gnu_type; + + Sloc_to_locus (Sloc (gnat_entity), &input_location); + fields + = chainon (chainon (NULL_TREE, + create_field_decl + (get_identifier ("P_ARRAY"), + gnu_ptr_array, + gnu_type, 0, 0, 0, 0)), + create_field_decl (get_identifier ("P_BOUNDS"), + gnu_ptr_template, + gnu_type, 0, 0, 0, 0)); + + /* Make sure we can place this into a register. */ + TYPE_ALIGN (gnu_type) + = MIN (BIGGEST_ALIGNMENT, 2 * POINTER_SIZE); + TYPE_IS_FAT_POINTER_P (gnu_type) = 1; + + /* Do not finalize this record type since the types of + its fields are incomplete. */ + finish_record_type (gnu_type, fields, 0, true); + + TYPE_OBJECT_RECORD_TYPE (gnu_old) = make_node (RECORD_TYPE); + TYPE_NAME (TYPE_OBJECT_RECORD_TYPE (gnu_old)) + = concat_id_with_name (get_entity_name (gnat_desig_equiv), + "XUT"); + TYPE_DUMMY_P (TYPE_OBJECT_RECORD_TYPE (gnu_old)) = 1; + } + } + + /* If we already know what the full type is, use it. */ + else if (Present (gnat_desig_full) + && present_gnu_tree (gnat_desig_full)) + gnu_desig_type = TREE_TYPE (get_gnu_tree (gnat_desig_full)); + + /* Get the type of the thing we are to point to and build a pointer + to it. If it is a reference to an incomplete or private type with a + full view that is a record, make a dummy type node and get the + actual type later when we have verified it is safe. */ + else if ((! in_main_unit + && ! present_gnu_tree (gnat_desig_equiv) + && Present (gnat_desig_full) + && ! present_gnu_tree (gnat_desig_full) + && Is_Record_Type (gnat_desig_full)) + /* Likewise if we are pointing to a record or array and we + are to defer elaborating incomplete types. We do this + since this access type may be the full view of some + private type. Note that the unconstrained array case is + handled above. */ + || ((! in_main_unit || imported_p) + && defer_incomplete_level != 0 + && ! present_gnu_tree (gnat_desig_equiv) + && ((Is_Record_Type (gnat_desig_rep) + || Is_Array_Type (gnat_desig_rep)))) + /* If this is a reference from a limited_with type back to our + main unit and there's a Freeze_Node for it, either we have + already processed the declaration and made the dummy type, + in which case we just reuse the latter, or we have not yet, + in which case we make the dummy type and it will be reused + when the declaration is processed. In both cases, the + pointer eventually created below will be automatically + adjusted when the Freeze_Node is processed. Note that the + unconstrained array case is handled above. */ + || (in_main_unit && is_from_limited_with + && Present (Freeze_Node (gnat_desig_rep)))) + { + gnu_desig_type = make_dummy_type (gnat_desig_equiv); + made_dummy = true; + } + + /* Otherwise handle the case of a pointer to itself. */ + else if (gnat_desig_equiv == gnat_entity) + { + gnu_type + = build_pointer_type_for_mode (void_type_node, p_mode, + No_Strict_Aliasing (gnat_entity)); + TREE_TYPE (gnu_type) = TYPE_POINTER_TO (gnu_type) = gnu_type; + } + + /* If expansion is disabled, the equivalent type of a concurrent + type is absent, so build a dummy pointer type. */ + else if (type_annotate_only && No (gnat_desig_equiv)) + gnu_type = ptr_void_type_node; + + /* Finally, handle the straightforward case where we can just + elaborate our designated type and point to it. */ + else + gnu_desig_type = gnat_to_gnu_type (gnat_desig_equiv); + + /* It is possible that a call to gnat_to_gnu_type above resolved our + type. If so, just return it. */ + if (present_gnu_tree (gnat_entity)) + { + maybe_present = true; + break; + } + + /* If we have a GCC type for the designated type, possibly modify it + if we are pointing only to constant objects and then make a pointer + to it. Don't do this for unconstrained arrays. */ + if (!gnu_type && gnu_desig_type) + { + if (Is_Access_Constant (gnat_entity) + && TREE_CODE (gnu_desig_type) != UNCONSTRAINED_ARRAY_TYPE) + { + gnu_desig_type + = build_qualified_type + (gnu_desig_type, + TYPE_QUALS (gnu_desig_type) | TYPE_QUAL_CONST); + + /* Some extra processing is required if we are building a + pointer to an incomplete type (in the GCC sense). We might + have such a type if we just made a dummy, or directly out + of the call to gnat_to_gnu_type above if we are processing + an access type for a record component designating the + record type itself. */ + if (TYPE_MODE (gnu_desig_type) == VOIDmode) + { + /* We must ensure that the pointer to variant we make will + be processed by update_pointer_to when the initial type + is completed. Pretend we made a dummy and let further + processing act as usual. */ + made_dummy = true; + + /* We must ensure that update_pointer_to will not retrieve + the dummy variant when building a properly qualified + version of the complete type. We take advantage of the + fact that get_qualified_type is requiring TYPE_NAMEs to + match to influence build_qualified_type and then also + update_pointer_to here. */ + TYPE_NAME (gnu_desig_type) + = create_concat_name (gnat_desig_type, "INCOMPLETE_CST"); + } + } + + gnu_type + = build_pointer_type_for_mode (gnu_desig_type, p_mode, + No_Strict_Aliasing (gnat_entity)); + } + + /* If we are not defining this object and we made a dummy pointer, + save our current definition, evaluate the actual type, and replace + the tentative type we made with the actual one. If we are to defer + actually looking up the actual type, make an entry in the + deferred list. If this is from a limited with, we have to defer + to the end of the current spec in two cases: first if the + designated type is in the current unit and second if the access + type is. */ + if ((! in_main_unit || is_from_limited_with) && made_dummy) + { + tree gnu_old_type + = TYPE_FAT_POINTER_P (gnu_type) + ? TYPE_UNCONSTRAINED_ARRAY (gnu_type) : TREE_TYPE (gnu_type); + + if (esize == POINTER_SIZE + && (got_fat_p || TYPE_FAT_POINTER_P (gnu_type))) + gnu_type + = build_pointer_type + (TYPE_OBJECT_RECORD_TYPE + (TYPE_UNCONSTRAINED_ARRAY (gnu_type))); + + gnu_decl = create_type_decl (gnu_entity_id, gnu_type, attr_list, + !Comes_From_Source (gnat_entity), + debug_info_p, gnat_entity); + this_made_decl = true; + gnu_type = TREE_TYPE (gnu_decl); + save_gnu_tree (gnat_entity, gnu_decl, false); + saved = true; + + if (defer_incomplete_level == 0 + && ! (is_from_limited_with + && (in_main_unit + || In_Extended_Main_Code_Unit (gnat_entity)))) + update_pointer_to (TYPE_MAIN_VARIANT (gnu_old_type), + gnat_to_gnu_type (gnat_desig_equiv)); + + /* Note that the call to gnat_to_gnu_type here might have + updated gnu_old_type directly, in which case it is not a + dummy type any more when we get into update_pointer_to. + + This may happen for instance when the designated type is a + record type, because their elaboration starts with an + initial node from make_dummy_type, which may yield the same + node as the one we got. + + Besides, variants of this non-dummy type might have been + created along the way. update_pointer_to is expected to + properly take care of those situations. */ + else + { + struct incomplete *p + = (struct incomplete *) xmalloc (sizeof + (struct incomplete)); + struct incomplete **head + = (is_from_limited_with + && (in_main_unit + || In_Extended_Main_Code_Unit (gnat_entity)) + ? &defer_limited_with : &defer_incomplete_list); + + p->old_type = gnu_old_type; + p->full_type = gnat_desig_equiv; + p->next = *head; + *head = p; + } + } + } + break; + + case E_Access_Protected_Subprogram_Type: + case E_Anonymous_Access_Protected_Subprogram_Type: + if (type_annotate_only && No (gnat_equiv_type)) + gnu_type = ptr_void_type_node; + else + { + /* The runtime representation is the equivalent type. */ + gnu_type = gnat_to_gnu_type (gnat_equiv_type); + maybe_present = 1; + } + + if (Is_Itype (Directly_Designated_Type (gnat_entity)) + && !present_gnu_tree (Directly_Designated_Type (gnat_entity)) + && No (Freeze_Node (Directly_Designated_Type (gnat_entity))) + && !Is_Record_Type (Scope (Directly_Designated_Type (gnat_entity)))) + gnat_to_gnu_entity (Directly_Designated_Type (gnat_entity), + NULL_TREE, 0); + + break; + + case E_Access_Subtype: + + /* We treat this as identical to its base type; any constraint is + meaningful only to the front end. + + The designated type must be elaborated as well, if it does + not have its own freeze node. Designated (sub)types created + for constrained components of records with discriminants are + not frozen by the front end and thus not elaborated by gigi, + because their use may appear before the base type is frozen, + and because it is not clear that they are needed anywhere in + Gigi. With the current model, there is no correct place where + they could be elaborated. */ + + gnu_type = gnat_to_gnu_type (Etype (gnat_entity)); + if (Is_Itype (Directly_Designated_Type (gnat_entity)) + && !present_gnu_tree (Directly_Designated_Type (gnat_entity)) + && Is_Frozen (Directly_Designated_Type (gnat_entity)) + && No (Freeze_Node (Directly_Designated_Type (gnat_entity)))) + { + /* If we are not defining this entity, and we have incomplete + entities being processed above us, make a dummy type and + elaborate it later. */ + if (!definition && defer_incomplete_level != 0) + { + struct incomplete *p + = (struct incomplete *) xmalloc (sizeof (struct incomplete)); + tree gnu_ptr_type + = build_pointer_type + (make_dummy_type (Directly_Designated_Type (gnat_entity))); + + p->old_type = TREE_TYPE (gnu_ptr_type); + p->full_type = Directly_Designated_Type (gnat_entity); + p->next = defer_incomplete_list; + defer_incomplete_list = p; + } + else if (!IN (Ekind (Base_Type + (Directly_Designated_Type (gnat_entity))), + Incomplete_Or_Private_Kind)) + gnat_to_gnu_entity (Directly_Designated_Type (gnat_entity), + NULL_TREE, 0); + } + + maybe_present = true; + break; + + /* Subprogram Entities + + The following access functions are defined for subprograms (functions + or procedures): + + First_Formal The first formal parameter. + Is_Imported Indicates that the subprogram has appeared in + an INTERFACE or IMPORT pragma. For now we + assume that the external language is C. + Is_Exported Likewise but for an EXPORT pragma. + Is_Inlined True if the subprogram is to be inlined. + + In addition for function subprograms we have: + + Etype Return type of the function. + + Each parameter is first checked by calling must_pass_by_ref on its + type to determine if it is passed by reference. For parameters which + are copied in, if they are Ada In Out or Out parameters, their return + value becomes part of a record which becomes the return type of the + function (C function - note that this applies only to Ada procedures + so there is no Ada return type). Additional code to store back the + parameters will be generated on the caller side. This transformation + is done here, not in the front-end. + + The intended result of the transformation can be seen from the + equivalent source rewritings that follow: + + struct temp {int a,b}; + procedure P (A,B: In Out ...) is temp P (int A,B) + begin { + .. .. + end P; return {A,B}; + } + + temp t; + P(X,Y); t = P(X,Y); + X = t.a , Y = t.b; + + For subprogram types we need to perform mainly the same conversions to + GCC form that are needed for procedures and function declarations. The + only difference is that at the end, we make a type declaration instead + of a function declaration. */ + + case E_Subprogram_Type: + case E_Function: + case E_Procedure: + { + /* The first GCC parameter declaration (a PARM_DECL node). The + PARM_DECL nodes are chained through the TREE_CHAIN field, so this + actually is the head of this parameter list. */ + tree gnu_param_list = NULL_TREE; + /* Likewise for the stub associated with an exported procedure. */ + tree gnu_stub_param_list = NULL_TREE; + /* The type returned by a function. If the subprogram is a procedure + this type should be void_type_node. */ + tree gnu_return_type = void_type_node; + /* List of fields in return type of procedure with copy-in copy-out + parameters. */ + tree gnu_field_list = NULL_TREE; + /* Non-null for subprograms containing parameters passed by copy-in + copy-out (Ada In Out or Out parameters not passed by reference), + in which case it is the list of nodes used to specify the values of + the in out/out parameters that are returned as a record upon + procedure return. The TREE_PURPOSE of an element of this list is + a field of the record and the TREE_VALUE is the PARM_DECL + corresponding to that field. This list will be saved in the + TYPE_CI_CO_LIST field of the FUNCTION_TYPE node we create. */ + tree gnu_return_list = NULL_TREE; + /* If an import pragma asks to map this subprogram to a GCC builtin, + this is the builtin DECL node. */ + tree gnu_builtin_decl = NULL_TREE; + /* For the stub associated with an exported procedure. */ + tree gnu_stub_type = NULL_TREE, gnu_stub_name = NULL_TREE; + tree gnu_ext_name = create_concat_name (gnat_entity, NULL); + Entity_Id gnat_param; + bool inline_flag = Is_Inlined (gnat_entity); + bool public_flag = Is_Public (gnat_entity) || imported_p; + bool extern_flag + = (Is_Public (gnat_entity) && !definition) || imported_p; + bool pure_flag = Is_Pure (gnat_entity); + bool volatile_flag = No_Return (gnat_entity); + bool returns_by_ref = false; + bool returns_unconstrained = false; + bool returns_by_target_ptr = false; + bool has_copy_in_out = false; + bool has_stub = false; + int parmnum; + + if (kind == E_Subprogram_Type && !definition) + /* A parameter may refer to this type, so defer completion + of any incomplete types. */ + defer_incomplete_level++, this_deferred = true; + + /* If the subprogram has an alias, it is probably inherited, so + we can use the original one. If the original "subprogram" + is actually an enumeration literal, it may be the first use + of its type, so we must elaborate that type now. */ + if (Present (Alias (gnat_entity))) + { + if (Ekind (Alias (gnat_entity)) == E_Enumeration_Literal) + gnat_to_gnu_entity (Etype (Alias (gnat_entity)), NULL_TREE, 0); + + gnu_decl = gnat_to_gnu_entity (Alias (gnat_entity), + gnu_expr, 0); + + /* Elaborate any Itypes in the parameters of this entity. */ + for (gnat_temp = First_Formal_With_Extras (gnat_entity); + Present (gnat_temp); + gnat_temp = Next_Formal_With_Extras (gnat_temp)) + if (Is_Itype (Etype (gnat_temp))) + gnat_to_gnu_entity (Etype (gnat_temp), NULL_TREE, 0); + + break; + } + + /* If this subprogram is expectedly bound to a GCC builtin, fetch the + corresponding DECL node. + + We still want the parameter associations to take place because the + proper generation of calls depends on it (a GNAT parameter without + a corresponding GCC tree has a very specific meaning), so we don't + just break here. */ + if (Convention (gnat_entity) == Convention_Intrinsic) + gnu_builtin_decl = builtin_decl_for (gnu_ext_name); + + /* ??? What if we don't find the builtin node above ? warn ? err ? + In the current state we neither warn nor err, and calls will just + be handled as for regular subprograms. */ + + if (kind == E_Function || kind == E_Subprogram_Type) + gnu_return_type = gnat_to_gnu_type (Etype (gnat_entity)); + + /* If this function returns by reference, make the actual + return type of this function the pointer and mark the decl. */ + if (Returns_By_Ref (gnat_entity)) + { + returns_by_ref = true; + gnu_return_type = build_pointer_type (gnu_return_type); + } + + /* If the Mechanism is By_Reference, ensure the return type uses + the machine's by-reference mechanism, which may not the same + as above (e.g., it might be by passing a fake parameter). */ + else if (kind == E_Function + && Mechanism (gnat_entity) == By_Reference) + { + TREE_ADDRESSABLE (gnu_return_type) = 1; + + /* We expect this bit to be reset by gigi shortly, so can avoid a + type node copy here. This actually also prevents troubles with + the generation of debug information for the function, because + we might have issued such info for this type already, and would + be attaching a distinct type node to the function if we made a + copy here. */ + } + + /* If we are supposed to return an unconstrained array, + actually return a fat pointer and make a note of that. Return + a pointer to an unconstrained record of variable size. */ + else if (TREE_CODE (gnu_return_type) == UNCONSTRAINED_ARRAY_TYPE) + { + gnu_return_type = TREE_TYPE (gnu_return_type); + returns_unconstrained = true; + } + + /* If the type requires a transient scope, the result is allocated + on the secondary stack, so the result type of the function is + just a pointer. */ + else if (Requires_Transient_Scope (Etype (gnat_entity))) + { + gnu_return_type = build_pointer_type (gnu_return_type); + returns_unconstrained = true; + } + + /* If the type is a padded type and the underlying type would not + be passed by reference or this function has a foreign convention, + return the underlying type. */ + else if (TREE_CODE (gnu_return_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (gnu_return_type) + && (!default_pass_by_ref (TREE_TYPE + (TYPE_FIELDS (gnu_return_type))) + || Has_Foreign_Convention (gnat_entity))) + gnu_return_type = TREE_TYPE (TYPE_FIELDS (gnu_return_type)); + + /* If the return type has a non-constant size, we convert the function + into a procedure and its caller will pass a pointer to an object as + the first parameter when we call the function. This can happen for + an unconstrained type with a maximum size or a constrained type with + a size not known at compile time. */ + if (TYPE_SIZE_UNIT (gnu_return_type) + && !TREE_CONSTANT (TYPE_SIZE_UNIT (gnu_return_type))) + { + returns_by_target_ptr = true; + gnu_param_list + = create_param_decl (get_identifier ("TARGET"), + build_reference_type (gnu_return_type), + true); + gnu_return_type = void_type_node; + } + + /* If the return type has a size that overflows, we cannot have + a function that returns that type. This usage doesn't make + sense anyway, so give an error here. */ + if (TYPE_SIZE_UNIT (gnu_return_type) + && TREE_CONSTANT (TYPE_SIZE_UNIT (gnu_return_type)) + && TREE_OVERFLOW (TYPE_SIZE_UNIT (gnu_return_type))) + { + post_error ("cannot return type whose size overflows", + gnat_entity); + gnu_return_type = copy_node (gnu_return_type); + TYPE_SIZE (gnu_return_type) = bitsize_zero_node; + TYPE_SIZE_UNIT (gnu_return_type) = size_zero_node; + TYPE_MAIN_VARIANT (gnu_return_type) = gnu_return_type; + TYPE_NEXT_VARIANT (gnu_return_type) = NULL_TREE; + } + + /* Look at all our parameters and get the type of + each. While doing this, build a copy-out structure if + we need one. */ + + /* Loop over the parameters and get their associated GCC tree. + While doing this, build a copy-out structure if we need one. */ + for (gnat_param = First_Formal_With_Extras (gnat_entity), parmnum = 0; + Present (gnat_param); + gnat_param = Next_Formal_With_Extras (gnat_param), parmnum++) + { + tree gnu_param_name = get_entity_name (gnat_param); + tree gnu_param_type = gnat_to_gnu_type (Etype (gnat_param)); + tree gnu_param, gnu_field; + bool copy_in_copy_out = false; + Mechanism_Type mech = Mechanism (gnat_param); + + /* Builtins are expanded inline and there is no real call sequence + involved. So the type expected by the underlying expander is + always the type of each argument "as is". */ + if (gnu_builtin_decl) + mech = By_Copy; + /* Handle the first parameter of a valued procedure specially. */ + else if (Is_Valued_Procedure (gnat_entity) && parmnum == 0) + mech = By_Copy_Return; + /* Otherwise, see if a Mechanism was supplied that forced this + parameter to be passed one way or another. */ + else if (mech == Default + || mech == By_Copy || mech == By_Reference) + ; + else if (By_Descriptor_Last <= mech && mech <= By_Descriptor) + mech = By_Descriptor; + else if (mech > 0) + { + if (TREE_CODE (gnu_param_type) == UNCONSTRAINED_ARRAY_TYPE + || TREE_CODE (TYPE_SIZE (gnu_param_type)) != INTEGER_CST + || 0 < compare_tree_int (TYPE_SIZE (gnu_param_type), + mech)) + mech = By_Reference; + else + mech = By_Copy; + } + else + { + post_error ("unsupported mechanism for&", gnat_param); + mech = Default; + } + + gnu_param + = gnat_to_gnu_param (gnat_param, mech, gnat_entity, + Has_Foreign_Convention (gnat_entity), + ©_in_copy_out); + + /* We are returned either a PARM_DECL or a type if no parameter + needs to be passed; in either case, adjust the type. */ + if (DECL_P (gnu_param)) + gnu_param_type = TREE_TYPE (gnu_param); + else + { + gnu_param_type = gnu_param; + gnu_param = NULL_TREE; + } + + if (gnu_param) + { + /* If it's an exported subprogram, we build a parameter list + in parallel, in case we need to emit a stub for it. */ + if (Is_Exported (gnat_entity)) + { + gnu_stub_param_list + = chainon (gnu_param, gnu_stub_param_list); + /* Change By_Descriptor parameter to By_Reference for + the internal version of an exported subprogram. */ + if (mech == By_Descriptor) + { + gnu_param + = gnat_to_gnu_param (gnat_param, By_Reference, + gnat_entity, false, + ©_in_copy_out); + has_stub = true; + } + else + gnu_param = copy_node (gnu_param); + } + + gnu_param_list = chainon (gnu_param, gnu_param_list); + Sloc_to_locus (Sloc (gnat_param), + &DECL_SOURCE_LOCATION (gnu_param)); + save_gnu_tree (gnat_param, gnu_param, false); + + /* If a parameter is a pointer, this function may modify + memory through it and thus shouldn't be considered + a pure function. Also, the memory may be modified + between two calls, so they can't be CSE'ed. The latter + case also handles by-ref parameters. */ + if (POINTER_TYPE_P (gnu_param_type) + || TYPE_FAT_POINTER_P (gnu_param_type)) + pure_flag = false; + } + + if (copy_in_copy_out) + { + if (!has_copy_in_out) + { + gcc_assert (TREE_CODE (gnu_return_type) == VOID_TYPE); + gnu_return_type = make_node (RECORD_TYPE); + TYPE_NAME (gnu_return_type) = get_identifier ("RETURN"); + has_copy_in_out = true; + } + + gnu_field = create_field_decl (gnu_param_name, gnu_param_type, + gnu_return_type, 0, 0, 0, 0); + Sloc_to_locus (Sloc (gnat_param), + &DECL_SOURCE_LOCATION (gnu_field)); + TREE_CHAIN (gnu_field) = gnu_field_list; + gnu_field_list = gnu_field; + gnu_return_list = tree_cons (gnu_field, gnu_param, + gnu_return_list); + } + } + + /* Do not compute record for out parameters if subprogram is + stubbed since structures are incomplete for the back-end. */ + if (gnu_field_list && Convention (gnat_entity) != Convention_Stubbed) + finish_record_type (gnu_return_type, nreverse (gnu_field_list), + 0, false); + + /* If we have a CICO list but it has only one entry, we convert + this function into a function that simply returns that one + object. */ + if (list_length (gnu_return_list) == 1) + gnu_return_type = TREE_TYPE (TREE_PURPOSE (gnu_return_list)); + + if (Has_Stdcall_Convention (gnat_entity)) + prepend_one_attribute_to + (&attr_list, ATTR_MACHINE_ATTRIBUTE, + get_identifier ("stdcall"), NULL_TREE, + gnat_entity); + + /* If we are on a target where stack realignment is needed for 'main' + to honor GCC's implicit expectations (stack alignment greater than + what the base ABI guarantees), ensure we do the same for foreign + convention subprograms as they might be used as callbacks from code + breaking such expectations. Note that this applies to task entry + points in particular. */ + if (FORCE_PREFERRED_STACK_BOUNDARY_IN_MAIN + && Has_Foreign_Convention (gnat_entity)) + prepend_one_attribute_to + (&attr_list, ATTR_MACHINE_ATTRIBUTE, + get_identifier ("force_align_arg_pointer"), NULL_TREE, + gnat_entity); + + /* The lists have been built in reverse. */ + gnu_param_list = nreverse (gnu_param_list); + if (has_stub) + gnu_stub_param_list = nreverse (gnu_stub_param_list); + gnu_return_list = nreverse (gnu_return_list); + + if (Ekind (gnat_entity) == E_Function) + Set_Mechanism (gnat_entity, + (returns_by_ref || returns_unconstrained + ? By_Reference : By_Copy)); + gnu_type + = create_subprog_type (gnu_return_type, gnu_param_list, + gnu_return_list, returns_unconstrained, + returns_by_ref, returns_by_target_ptr); + + if (has_stub) + gnu_stub_type + = create_subprog_type (gnu_return_type, gnu_stub_param_list, + gnu_return_list, returns_unconstrained, + returns_by_ref, returns_by_target_ptr); + + /* A subprogram (something that doesn't return anything) shouldn't + be considered Pure since there would be no reason for such a + subprogram. Note that procedures with Out (or In Out) parameters + have already been converted into a function with a return type. */ + if (TREE_CODE (gnu_return_type) == VOID_TYPE) + pure_flag = false; + + /* The semantics of "pure" in Ada essentially matches that of "const" + in the back-end. In particular, both properties are orthogonal to + the "nothrow" property. But this is true only if the EH circuitry + is explicit in the internal representation of the back-end. If we + are to completely hide the EH circuitry from it, we need to declare + that calls to pure Ada subprograms that can throw have side effects + since they can trigger an "abnormal" transfer of control flow; thus + they can be neither "const" nor "pure" in the back-end sense. */ + gnu_type + = build_qualified_type (gnu_type, + TYPE_QUALS (gnu_type) + | (Exception_Mechanism == Back_End_Exceptions + ? TYPE_QUAL_CONST * pure_flag : 0) + | (TYPE_QUAL_VOLATILE * volatile_flag)); + + Sloc_to_locus (Sloc (gnat_entity), &input_location); + + if (has_stub) + gnu_stub_type + = build_qualified_type (gnu_stub_type, + TYPE_QUALS (gnu_stub_type) + | (Exception_Mechanism == Back_End_Exceptions + ? TYPE_QUAL_CONST * pure_flag : 0) + | (TYPE_QUAL_VOLATILE * volatile_flag)); + + /* If we have a builtin decl for that function, check the signatures + compatibilities. If the signatures are compatible, use the builtin + decl. If they are not, we expect the checker predicate to have + posted the appropriate errors, and just continue with what we have + so far. */ + if (gnu_builtin_decl) + { + tree gnu_builtin_type = TREE_TYPE (gnu_builtin_decl); + + if (compatible_signatures_p (gnu_type, gnu_builtin_type)) + { + gnu_decl = gnu_builtin_decl; + gnu_type = gnu_builtin_type; + break; + } + } + + /* If there was no specified Interface_Name and the external and + internal names of the subprogram are the same, only use the + internal name to allow disambiguation of nested subprograms. */ + if (No (Interface_Name (gnat_entity)) && gnu_ext_name == gnu_entity_id) + gnu_ext_name = NULL_TREE; + + /* If we are defining the subprogram and it has an Address clause + we must get the address expression from the saved GCC tree for the + subprogram if it has a Freeze_Node. Otherwise, we elaborate + the address expression here since the front-end has guaranteed + in that case that the elaboration has no effects. If there is + an Address clause and we are not defining the object, just + make it a constant. */ + if (Present (Address_Clause (gnat_entity))) + { + tree gnu_address = NULL_TREE; + + if (definition) + gnu_address + = (present_gnu_tree (gnat_entity) + ? get_gnu_tree (gnat_entity) + : gnat_to_gnu (Expression (Address_Clause (gnat_entity)))); + + save_gnu_tree (gnat_entity, NULL_TREE, false); + + /* Convert the type of the object to a reference type that can + alias everything as per 13.3(19). */ + gnu_type + = build_reference_type_for_mode (gnu_type, ptr_mode, true); + if (gnu_address) + gnu_address = convert (gnu_type, gnu_address); + + gnu_decl + = create_var_decl (gnu_entity_id, gnu_ext_name, gnu_type, + gnu_address, false, Is_Public (gnat_entity), + extern_flag, false, NULL, gnat_entity); + DECL_BY_REF_P (gnu_decl) = 1; + } + + else if (kind == E_Subprogram_Type) + gnu_decl = create_type_decl (gnu_entity_id, gnu_type, attr_list, + !Comes_From_Source (gnat_entity), + debug_info_p, gnat_entity); + else + { + if (has_stub) + { + gnu_stub_name = gnu_ext_name; + gnu_ext_name = create_concat_name (gnat_entity, "internal"); + public_flag = false; + } + + gnu_decl = create_subprog_decl (gnu_entity_id, gnu_ext_name, + gnu_type, gnu_param_list, + inline_flag, public_flag, + extern_flag, attr_list, + gnat_entity); + if (has_stub) + { + tree gnu_stub_decl + = create_subprog_decl (gnu_entity_id, gnu_stub_name, + gnu_stub_type, gnu_stub_param_list, + inline_flag, true, + extern_flag, attr_list, + gnat_entity); + SET_DECL_FUNCTION_STUB (gnu_decl, gnu_stub_decl); + } + + /* This is unrelated to the stub built right above. */ + DECL_STUBBED_P (gnu_decl) + = Convention (gnat_entity) == Convention_Stubbed; + } + } + break; + + case E_Incomplete_Type: + case E_Incomplete_Subtype: + case E_Private_Type: + case E_Private_Subtype: + case E_Limited_Private_Type: + case E_Limited_Private_Subtype: + case E_Record_Type_With_Private: + case E_Record_Subtype_With_Private: + { + /* Get the "full view" of this entity. If this is an incomplete + entity from a limited with, treat its non-limited view as the + full view. Otherwise, use either the full view or the underlying + full view, whichever is present. This is used in all the tests + below. */ + Entity_Id full_view + = (IN (Ekind (gnat_entity), Incomplete_Kind) + && From_With_Type (gnat_entity)) + ? Non_Limited_View (gnat_entity) + : Present (Full_View (gnat_entity)) + ? Full_View (gnat_entity) + : Underlying_Full_View (gnat_entity); + + /* If this is an incomplete type with no full view, it must be a Taft + Amendment type, in which case we return a dummy type. Otherwise, + just get the type from its Etype. */ + if (No (full_view)) + { + if (kind == E_Incomplete_Type) + gnu_type = make_dummy_type (gnat_entity); + else + { + gnu_decl = gnat_to_gnu_entity (Etype (gnat_entity), + NULL_TREE, 0); + maybe_present = true; + } + break; + } + + /* If we already made a type for the full view, reuse it. */ + else if (present_gnu_tree (full_view)) + { + gnu_decl = get_gnu_tree (full_view); + break; + } + + /* Otherwise, if we are not defining the type now, get the type + from the full view. But always get the type from the full view + for define on use types, since otherwise we won't see them! */ + else if (!definition + || (Is_Itype (full_view) + && No (Freeze_Node (gnat_entity))) + || (Is_Itype (gnat_entity) + && No (Freeze_Node (full_view)))) + { + gnu_decl = gnat_to_gnu_entity (full_view, NULL_TREE, 0); + maybe_present = true; + break; + } + + /* For incomplete types, make a dummy type entry which will be + replaced later. */ + gnu_type = make_dummy_type (gnat_entity); + + /* Save this type as the full declaration's type so we can do any + needed updates when we see it. */ + gnu_decl = create_type_decl (gnu_entity_id, gnu_type, attr_list, + !Comes_From_Source (gnat_entity), + debug_info_p, gnat_entity); + save_gnu_tree (full_view, gnu_decl, 0); + break; + } + + /* Simple class_wide types are always viewed as their root_type + by Gigi unless an Equivalent_Type is specified. */ + case E_Class_Wide_Type: + gnu_decl = gnat_to_gnu_entity (gnat_equiv_type, NULL_TREE, 0); + maybe_present = true; + break; + + case E_Task_Type: + case E_Task_Subtype: + case E_Protected_Type: + case E_Protected_Subtype: + if (type_annotate_only && No (gnat_equiv_type)) + gnu_type = void_type_node; + else + gnu_type = gnat_to_gnu_type (gnat_equiv_type); + + maybe_present = true; + break; + + case E_Label: + gnu_decl = create_label_decl (gnu_entity_id); + break; + + case E_Block: + case E_Loop: + /* Nothing at all to do here, so just return an ERROR_MARK and claim + we've already saved it, so we don't try to. */ + gnu_decl = error_mark_node; + saved = true; + break; + + default: + gcc_unreachable (); + } + + /* If we had a case where we evaluated another type and it might have + defined this one, handle it here. */ + if (maybe_present && present_gnu_tree (gnat_entity)) + { + gnu_decl = get_gnu_tree (gnat_entity); + saved = true; + } + + /* If we are processing a type and there is either no decl for it or + we just made one, do some common processing for the type, such as + handling alignment and possible padding. */ + + if ((!gnu_decl || this_made_decl) && IN (kind, Type_Kind)) + { + if (Is_Tagged_Type (gnat_entity) + || Is_Class_Wide_Equivalent_Type (gnat_entity)) + TYPE_ALIGN_OK (gnu_type) = 1; + + if (AGGREGATE_TYPE_P (gnu_type) && Is_By_Reference_Type (gnat_entity)) + TYPE_BY_REFERENCE_P (gnu_type) = 1; + + /* ??? Don't set the size for a String_Literal since it is either + confirming or we don't handle it properly (if the low bound is + non-constant). */ + if (!gnu_size && kind != E_String_Literal_Subtype) + gnu_size = validate_size (Esize (gnat_entity), gnu_type, gnat_entity, + TYPE_DECL, false, + Has_Size_Clause (gnat_entity)); + + /* If a size was specified, see if we can make a new type of that size + by rearranging the type, for example from a fat to a thin pointer. */ + if (gnu_size) + { + gnu_type + = make_type_from_size (gnu_type, gnu_size, + Has_Biased_Representation (gnat_entity)); + + if (operand_equal_p (TYPE_SIZE (gnu_type), gnu_size, 0) + && operand_equal_p (rm_size (gnu_type), gnu_size, 0)) + gnu_size = 0; + } + + /* If the alignment hasn't already been processed and this is + not an unconstrained array, see if an alignment is specified. + If not, we pick a default alignment for atomic objects. */ + if (align != 0 || TREE_CODE (gnu_type) == UNCONSTRAINED_ARRAY_TYPE) + ; + else if (Known_Alignment (gnat_entity)) + { + align = validate_alignment (Alignment (gnat_entity), gnat_entity, + TYPE_ALIGN (gnu_type)); + + /* Warn on suspiciously large alignments. This should catch + errors about the (alignment,byte)/(size,bit) discrepancy. */ + if (align > BIGGEST_ALIGNMENT && Has_Alignment_Clause (gnat_entity)) + { + tree size; + + /* If a size was specified, take it into account. Otherwise + use the RM size for records as the type size has already + been adjusted to the alignment. */ + if (gnu_size) + size = gnu_size; + else if ((TREE_CODE (gnu_type) == RECORD_TYPE + || TREE_CODE (gnu_type) == UNION_TYPE + || TREE_CODE (gnu_type) == QUAL_UNION_TYPE) + && !TYPE_IS_FAT_POINTER_P (gnu_type)) + size = rm_size (gnu_type); + else + size = TYPE_SIZE (gnu_type); + + /* Consider an alignment as suspicious if the alignment/size + ratio is greater or equal to the byte/bit ratio. */ + if (host_integerp (size, 1) + && align >= TREE_INT_CST_LOW (size) * BITS_PER_UNIT) + post_error_ne ("?suspiciously large alignment specified for&", + Expression (Alignment_Clause (gnat_entity)), + gnat_entity); + } + } + else if (Is_Atomic (gnat_entity) && !gnu_size + && host_integerp (TYPE_SIZE (gnu_type), 1) + && integer_pow2p (TYPE_SIZE (gnu_type))) + align = MIN (BIGGEST_ALIGNMENT, + tree_low_cst (TYPE_SIZE (gnu_type), 1)); + else if (Is_Atomic (gnat_entity) && gnu_size + && host_integerp (gnu_size, 1) + && integer_pow2p (gnu_size)) + align = MIN (BIGGEST_ALIGNMENT, tree_low_cst (gnu_size, 1)); + + /* See if we need to pad the type. If we did, and made a record, + the name of the new type may be changed. So get it back for + us when we make the new TYPE_DECL below. */ + if (gnu_size || align > 0) + gnu_type = maybe_pad_type (gnu_type, gnu_size, align, gnat_entity, + "PAD", true, definition, false); + + if (TREE_CODE (gnu_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (gnu_type)) + { + gnu_entity_id = TYPE_NAME (gnu_type); + if (TREE_CODE (gnu_entity_id) == TYPE_DECL) + gnu_entity_id = DECL_NAME (gnu_entity_id); + } + + set_rm_size (RM_Size (gnat_entity), gnu_type, gnat_entity); + + /* If we are at global level, GCC will have applied variable_size to + the type, but that won't have done anything. So, if it's not + a constant or self-referential, call elaborate_expression_1 to + make a variable for the size rather than calculating it each time. + Handle both the RM size and the actual size. */ + if (global_bindings_p () + && TYPE_SIZE (gnu_type) + && !TREE_CONSTANT (TYPE_SIZE (gnu_type)) + && !CONTAINS_PLACEHOLDER_P (TYPE_SIZE (gnu_type))) + { + if (TREE_CODE (gnu_type) == RECORD_TYPE + && operand_equal_p (TYPE_ADA_SIZE (gnu_type), + TYPE_SIZE (gnu_type), 0)) + { + TYPE_SIZE (gnu_type) + = elaborate_expression_1 (gnat_entity, gnat_entity, + TYPE_SIZE (gnu_type), + get_identifier ("SIZE"), + definition, 0); + SET_TYPE_ADA_SIZE (gnu_type, TYPE_SIZE (gnu_type)); + } + else + { + TYPE_SIZE (gnu_type) + = elaborate_expression_1 (gnat_entity, gnat_entity, + TYPE_SIZE (gnu_type), + get_identifier ("SIZE"), + definition, 0); + + /* ??? For now, store the size as a multiple of the alignment + in bytes so that we can see the alignment from the tree. */ + TYPE_SIZE_UNIT (gnu_type) + = build_binary_op + (MULT_EXPR, sizetype, + elaborate_expression_1 + (gnat_entity, gnat_entity, + build_binary_op (EXACT_DIV_EXPR, sizetype, + TYPE_SIZE_UNIT (gnu_type), + size_int (TYPE_ALIGN (gnu_type) + / BITS_PER_UNIT)), + get_identifier ("SIZE_A_UNIT"), + definition, 0), + size_int (TYPE_ALIGN (gnu_type) / BITS_PER_UNIT)); + + if (TREE_CODE (gnu_type) == RECORD_TYPE) + SET_TYPE_ADA_SIZE + (gnu_type, + elaborate_expression_1 (gnat_entity, + gnat_entity, + TYPE_ADA_SIZE (gnu_type), + get_identifier ("RM_SIZE"), + definition, 0)); + } + } + + /* If this is a record type or subtype, call elaborate_expression_1 on + any field position. Do this for both global and local types. + Skip any fields that we haven't made trees for to avoid problems with + class wide types. */ + if (IN (kind, Record_Kind)) + for (gnat_temp = First_Entity (gnat_entity); Present (gnat_temp); + gnat_temp = Next_Entity (gnat_temp)) + if (Ekind (gnat_temp) == E_Component && present_gnu_tree (gnat_temp)) + { + tree gnu_field = get_gnu_tree (gnat_temp); + + /* ??? Unfortunately, GCC needs to be able to prove the + alignment of this offset and if it's a variable, it can't. + In GCC 3.4, we'll use DECL_OFFSET_ALIGN in some way, but + right now, we have to put in an explicit multiply and + divide by that value. */ + if (!CONTAINS_PLACEHOLDER_P (DECL_FIELD_OFFSET (gnu_field))) + { + DECL_FIELD_OFFSET (gnu_field) + = build_binary_op + (MULT_EXPR, sizetype, + elaborate_expression_1 + (gnat_temp, gnat_temp, + build_binary_op (EXACT_DIV_EXPR, sizetype, + DECL_FIELD_OFFSET (gnu_field), + size_int (DECL_OFFSET_ALIGN (gnu_field) + / BITS_PER_UNIT)), + get_identifier ("OFFSET"), + definition, 0), + size_int (DECL_OFFSET_ALIGN (gnu_field) / BITS_PER_UNIT)); + + /* ??? The context of gnu_field is not necessarily gnu_type so + the MULT_EXPR node built above may not be marked by the call + to create_type_decl below. */ + if (global_bindings_p ()) + mark_visited (&DECL_FIELD_OFFSET (gnu_field)); + } + } + + gnu_type = build_qualified_type (gnu_type, + (TYPE_QUALS (gnu_type) + | (TYPE_QUAL_VOLATILE + * Treat_As_Volatile (gnat_entity)))); + + if (Is_Atomic (gnat_entity)) + check_ok_for_atomic (gnu_type, gnat_entity, false); + + if (Present (Alignment_Clause (gnat_entity))) + TYPE_USER_ALIGN (gnu_type) = 1; + + if (Universal_Aliasing (gnat_entity)) + TYPE_UNIVERSAL_ALIASING_P (TYPE_MAIN_VARIANT (gnu_type)) = 1; + + if (!gnu_decl) + gnu_decl = create_type_decl (gnu_entity_id, gnu_type, attr_list, + !Comes_From_Source (gnat_entity), + debug_info_p, gnat_entity); + else + TREE_TYPE (gnu_decl) = gnu_type; + } + + if (IN (kind, Type_Kind) && !TYPE_IS_DUMMY_P (TREE_TYPE (gnu_decl))) + { + gnu_type = TREE_TYPE (gnu_decl); + + /* Back-annotate the Alignment of the type if not already in the + tree. Likewise for sizes. */ + if (Unknown_Alignment (gnat_entity)) + Set_Alignment (gnat_entity, + UI_From_Int (TYPE_ALIGN (gnu_type) / BITS_PER_UNIT)); + + if (Unknown_Esize (gnat_entity) && TYPE_SIZE (gnu_type)) + { + /* If the size is self-referential, we annotate the maximum + value of that size. */ + tree gnu_size = TYPE_SIZE (gnu_type); + + if (CONTAINS_PLACEHOLDER_P (gnu_size)) + gnu_size = max_size (gnu_size, true); + + Set_Esize (gnat_entity, annotate_value (gnu_size)); + + if (type_annotate_only && Is_Tagged_Type (gnat_entity)) + { + /* In this mode the tag and the parent components are not + generated by the front-end, so the sizes must be adjusted + explicitly now. */ + int size_offset, new_size; + + if (Is_Derived_Type (gnat_entity)) + { + size_offset + = UI_To_Int (Esize (Etype (Base_Type (gnat_entity)))); + Set_Alignment (gnat_entity, + Alignment (Etype (Base_Type (gnat_entity)))); + } + else + size_offset = POINTER_SIZE; + + new_size = UI_To_Int (Esize (gnat_entity)) + size_offset; + Set_Esize (gnat_entity, + UI_From_Int (((new_size + (POINTER_SIZE - 1)) + / POINTER_SIZE) * POINTER_SIZE)); + Set_RM_Size (gnat_entity, Esize (gnat_entity)); + } + } + + if (Unknown_RM_Size (gnat_entity) && rm_size (gnu_type)) + Set_RM_Size (gnat_entity, annotate_value (rm_size (gnu_type))); + } + + if (!Comes_From_Source (gnat_entity) && DECL_P (gnu_decl)) + DECL_ARTIFICIAL (gnu_decl) = 1; + + if (!debug_info_p && DECL_P (gnu_decl) + && TREE_CODE (gnu_decl) != FUNCTION_DECL + && No (Renamed_Object (gnat_entity))) + DECL_IGNORED_P (gnu_decl) = 1; + + /* If we haven't already, associate the ..._DECL node that we just made with + the input GNAT entity node. */ + if (!saved) + save_gnu_tree (gnat_entity, gnu_decl, false); + + /* If this is an enumeral or floating-point type, we were not able to set + the bounds since they refer to the type. These bounds are always static. + + For enumeration types, also write debugging information and declare the + enumeration literal table, if needed. */ + + if ((kind == E_Enumeration_Type && Present (First_Literal (gnat_entity))) + || (kind == E_Floating_Point_Type && !Vax_Float (gnat_entity))) + { + tree gnu_scalar_type = gnu_type; + + /* If this is a padded type, we need to use the underlying type. */ + if (TREE_CODE (gnu_scalar_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (gnu_scalar_type)) + gnu_scalar_type = TREE_TYPE (TYPE_FIELDS (gnu_scalar_type)); + + /* If this is a floating point type and we haven't set a floating + point type yet, use this in the evaluation of the bounds. */ + if (!longest_float_type_node && kind == E_Floating_Point_Type) + longest_float_type_node = gnu_type; + + TYPE_MIN_VALUE (gnu_scalar_type) + = gnat_to_gnu (Type_Low_Bound (gnat_entity)); + TYPE_MAX_VALUE (gnu_scalar_type) + = gnat_to_gnu (Type_High_Bound (gnat_entity)); + + if (TREE_CODE (gnu_scalar_type) == ENUMERAL_TYPE) + { + /* Since this has both a typedef and a tag, avoid outputting + the name twice. */ + DECL_ARTIFICIAL (gnu_decl) = 1; + rest_of_type_decl_compilation (gnu_decl); + } + } + + /* If we deferred processing of incomplete types, re-enable it. If there + were no other disables and we have some to process, do so. */ + if (this_deferred && --defer_incomplete_level == 0) + { + if (defer_incomplete_list) + { + struct incomplete *incp, *next; + + /* We are back to level 0 for the deferring of incomplete types. + But processing these incomplete types below may itself require + deferring, so preserve what we have and restart from scratch. */ + incp = defer_incomplete_list; + defer_incomplete_list = NULL; + + /* For finalization, however, all types must be complete so we + cannot do the same because deferred incomplete types may end up + referencing each other. Process them all recursively first. */ + defer_finalize_level++; + + for (; incp; incp = next) + { + next = incp->next; + + if (incp->old_type) + update_pointer_to (TYPE_MAIN_VARIANT (incp->old_type), + gnat_to_gnu_type (incp->full_type)); + free (incp); + } + + defer_finalize_level--; + } + + /* All the deferred incomplete types have been processed so we can + now proceed with the finalization of the deferred types. */ + if (defer_finalize_level == 0 && defer_finalize_list) + { + unsigned int i; + tree t; + + for (i = 0; VEC_iterate (tree, defer_finalize_list, i, t); i++) + rest_of_type_decl_compilation_no_defer (t); + + VEC_free (tree, heap, defer_finalize_list); + } + } + + /* If we are not defining this type, see if it's in the incomplete list. + If so, handle that list entry now. */ + else if (!definition) + { + struct incomplete *incp; + + for (incp = defer_incomplete_list; incp; incp = incp->next) + if (incp->old_type && incp->full_type == gnat_entity) + { + update_pointer_to (TYPE_MAIN_VARIANT (incp->old_type), + TREE_TYPE (gnu_decl)); + incp->old_type = NULL_TREE; + } + } + + if (this_global) + force_global--; + + if (Is_Packed_Array_Type (gnat_entity) + && Is_Itype (Associated_Node_For_Itype (gnat_entity)) + && No (Freeze_Node (Associated_Node_For_Itype (gnat_entity))) + && !present_gnu_tree (Associated_Node_For_Itype (gnat_entity))) + gnat_to_gnu_entity (Associated_Node_For_Itype (gnat_entity), NULL_TREE, 0); + + return gnu_decl; +} + +/* Similar, but if the returned value is a COMPONENT_REF, return the + FIELD_DECL. */ + +tree +gnat_to_gnu_field_decl (Entity_Id gnat_entity) +{ + tree gnu_field = gnat_to_gnu_entity (gnat_entity, NULL_TREE, 0); + + if (TREE_CODE (gnu_field) == COMPONENT_REF) + gnu_field = TREE_OPERAND (gnu_field, 1); + + return gnu_field; +} + +/* Wrap up compilation of DECL, a TYPE_DECL, possibly deferring it. + Every TYPE_DECL generated for a type definition must be passed + to this function once everything else has been done for it. */ + +void +rest_of_type_decl_compilation (tree decl) +{ + /* We need to defer finalizing the type if incomplete types + are being deferred or if they are being processed. */ + if (defer_incomplete_level || defer_finalize_level) + VEC_safe_push (tree, heap, defer_finalize_list, decl); + else + rest_of_type_decl_compilation_no_defer (decl); +} + +/* Same as above but without deferring the compilation. This + function should not be invoked directly on a TYPE_DECL. */ + +static void +rest_of_type_decl_compilation_no_defer (tree decl) +{ + const int toplev = global_bindings_p (); + tree t = TREE_TYPE (decl); + + rest_of_decl_compilation (decl, toplev, 0); + + /* Now process all the variants. This is needed for STABS. */ + for (t = TYPE_MAIN_VARIANT (t); t; t = TYPE_NEXT_VARIANT (t)) + { + if (t == TREE_TYPE (decl)) + continue; + + if (!TYPE_STUB_DECL (t)) + { + TYPE_STUB_DECL (t) = build_decl (TYPE_DECL, DECL_NAME (decl), t); + DECL_ARTIFICIAL (TYPE_STUB_DECL (t)) = 1; + } + + rest_of_type_compilation (t, toplev); + } +} + +/* Finalize any From_With_Type incomplete types. We do this after processing + our compilation unit and after processing its spec, if this is a body. */ + +void +finalize_from_with_types (void) +{ + struct incomplete *incp = defer_limited_with; + struct incomplete *next; + + defer_limited_with = 0; + for (; incp; incp = next) + { + next = incp->next; + + if (incp->old_type != 0) + update_pointer_to (TYPE_MAIN_VARIANT (incp->old_type), + gnat_to_gnu_type (incp->full_type)); + free (incp); + } +} + +/* Return the equivalent type to be used for GNAT_ENTITY, if it's a + kind of type (such E_Task_Type) that has a different type which Gigi + uses for its representation. If the type does not have a special type + for its representation, return GNAT_ENTITY. If a type is supposed to + exist, but does not, abort unless annotating types, in which case + return Empty. If GNAT_ENTITY is Empty, return Empty. */ + +Entity_Id +Gigi_Equivalent_Type (Entity_Id gnat_entity) +{ + Entity_Id gnat_equiv = gnat_entity; + + if (No (gnat_entity)) + return gnat_entity; + + switch (Ekind (gnat_entity)) + { + case E_Class_Wide_Subtype: + if (Present (Equivalent_Type (gnat_entity))) + gnat_equiv = Equivalent_Type (gnat_entity); + break; + + case E_Access_Protected_Subprogram_Type: + case E_Anonymous_Access_Protected_Subprogram_Type: + gnat_equiv = Equivalent_Type (gnat_entity); + break; + + case E_Class_Wide_Type: + gnat_equiv = ((Present (Equivalent_Type (gnat_entity))) + ? Equivalent_Type (gnat_entity) + : Root_Type (gnat_entity)); + break; + + case E_Task_Type: + case E_Task_Subtype: + case E_Protected_Type: + case E_Protected_Subtype: + gnat_equiv = Corresponding_Record_Type (gnat_entity); + break; + + default: + break; + } + + gcc_assert (Present (gnat_equiv) || type_annotate_only); + return gnat_equiv; +} + +/* Return a GCC tree for a parameter corresponding to GNAT_PARAM and + using MECH as its passing mechanism, to be placed in the parameter + list built for GNAT_SUBPROG. Assume a foreign convention for the + latter if FOREIGN is true. Also set CICO to true if the parameter + must use the copy-in copy-out implementation mechanism. + + The returned tree is a PARM_DECL, except for those cases where no + parameter needs to be actually passed to the subprogram; the type + of this "shadow" parameter is then returned instead. */ + +static tree +gnat_to_gnu_param (Entity_Id gnat_param, Mechanism_Type mech, + Entity_Id gnat_subprog, bool foreign, bool *cico) +{ + tree gnu_param_name = get_entity_name (gnat_param); + tree gnu_param_type = gnat_to_gnu_type (Etype (gnat_param)); + bool in_param = (Ekind (gnat_param) == E_In_Parameter); + /* The parameter can be indirectly modified if its address is taken. */ + bool ro_param = in_param && !Address_Taken (gnat_param); + bool by_return = false, by_component_ptr = false, by_ref = false; + tree gnu_param; + + /* Copy-return is used only for the first parameter of a valued procedure. + It's a copy mechanism for which a parameter is never allocated. */ + if (mech == By_Copy_Return) + { + gcc_assert (Ekind (gnat_param) == E_Out_Parameter); + mech = By_Copy; + by_return = true; + } + + /* If this is either a foreign function or if the underlying type won't + be passed by reference, strip off possible padding type. */ + if (TREE_CODE (gnu_param_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (gnu_param_type)) + { + tree unpadded_type = TREE_TYPE (TYPE_FIELDS (gnu_param_type)); + + if (mech == By_Reference + || foreign + || (!must_pass_by_ref (unpadded_type) + && (mech == By_Copy || !default_pass_by_ref (unpadded_type)))) + gnu_param_type = unpadded_type; + } + + /* If this is a read-only parameter, make a variant of the type that is + read-only. ??? However, if this is an unconstrained array, that type + can be very complex, so skip it for now. Likewise for any other + self-referential type. */ + if (ro_param + && TREE_CODE (gnu_param_type) != UNCONSTRAINED_ARRAY_TYPE + && !CONTAINS_PLACEHOLDER_P (TYPE_SIZE (gnu_param_type))) + gnu_param_type = build_qualified_type (gnu_param_type, + (TYPE_QUALS (gnu_param_type) + | TYPE_QUAL_CONST)); + + /* For foreign conventions, pass arrays as pointers to the element type. + First check for unconstrained array and get the underlying array. */ + if (foreign && TREE_CODE (gnu_param_type) == UNCONSTRAINED_ARRAY_TYPE) + gnu_param_type + = TREE_TYPE (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (gnu_param_type)))); + + /* VMS descriptors are themselves passed by reference. */ + if (mech == By_Descriptor) + gnu_param_type + = build_pointer_type (build_vms_descriptor (gnu_param_type, + Mechanism (gnat_param), + gnat_subprog)); + + /* Arrays are passed as pointers to element type for foreign conventions. */ + else if (foreign + && mech != By_Copy + && TREE_CODE (gnu_param_type) == ARRAY_TYPE) + { + /* Strip off any multi-dimensional entries, then strip + off the last array to get the component type. */ + while (TREE_CODE (TREE_TYPE (gnu_param_type)) == ARRAY_TYPE + && TYPE_MULTI_ARRAY_P (TREE_TYPE (gnu_param_type))) + gnu_param_type = TREE_TYPE (gnu_param_type); + + by_component_ptr = true; + gnu_param_type = TREE_TYPE (gnu_param_type); + + if (ro_param) + gnu_param_type = build_qualified_type (gnu_param_type, + (TYPE_QUALS (gnu_param_type) + | TYPE_QUAL_CONST)); + + gnu_param_type = build_pointer_type (gnu_param_type); + } + + /* Fat pointers are passed as thin pointers for foreign conventions. */ + else if (foreign && TYPE_FAT_POINTER_P (gnu_param_type)) + gnu_param_type + = make_type_from_size (gnu_param_type, size_int (POINTER_SIZE), 0); + + /* If we must pass or were requested to pass by reference, do so. + If we were requested to pass by copy, do so. + Otherwise, for foreign conventions, pass In Out or Out parameters + or aggregates by reference. For COBOL and Fortran, pass all + integer and FP types that way too. For Convention Ada, use + the standard Ada default. */ + else if (must_pass_by_ref (gnu_param_type) + || mech == By_Reference + || (mech != By_Copy + && ((foreign + && (!in_param || AGGREGATE_TYPE_P (gnu_param_type))) + || (foreign + && (Convention (gnat_subprog) == Convention_Fortran + || Convention (gnat_subprog) == Convention_COBOL) + && (INTEGRAL_TYPE_P (gnu_param_type) + || FLOAT_TYPE_P (gnu_param_type))) + || (!foreign + && default_pass_by_ref (gnu_param_type))))) + { + gnu_param_type = build_reference_type (gnu_param_type); + by_ref = true; + } + + /* Pass In Out or Out parameters using copy-in copy-out mechanism. */ + else if (!in_param) + *cico = true; + + if (mech == By_Copy && (by_ref || by_component_ptr)) + post_error ("?cannot pass & by copy", gnat_param); + + /* If this is an Out parameter that isn't passed by reference and isn't + a pointer or aggregate, we don't make a PARM_DECL for it. Instead, + it will be a VAR_DECL created when we process the procedure, so just + return its type. For the special parameter of a valued procedure, + never pass it in. + + An exception is made to cover the RM-6.4.1 rule requiring "by copy" + Out parameters with discriminants or implicit initial values to be + handled like In Out parameters. These type are normally built as + aggregates, hence passed by reference, except for some packed arrays + which end up encoded in special integer types. + + The exception we need to make is then for packed arrays of records + with discriminants or implicit initial values. We have no light/easy + way to check for the latter case, so we merely check for packed arrays + of records. This may lead to useless copy-in operations, but in very + rare cases only, as these would be exceptions in a set of already + exceptional situations. */ + if (Ekind (gnat_param) == E_Out_Parameter + && !by_ref + && (by_return + || (mech != By_Descriptor + && !POINTER_TYPE_P (gnu_param_type) + && !AGGREGATE_TYPE_P (gnu_param_type))) + && !(Is_Array_Type (Etype (gnat_param)) + && Is_Packed (Etype (gnat_param)) + && Is_Composite_Type (Component_Type (Etype (gnat_param))))) + return gnu_param_type; + + gnu_param = create_param_decl (gnu_param_name, gnu_param_type, + ro_param || by_ref || by_component_ptr); + DECL_BY_REF_P (gnu_param) = by_ref; + DECL_BY_COMPONENT_PTR_P (gnu_param) = by_component_ptr; + DECL_BY_DESCRIPTOR_P (gnu_param) = (mech == By_Descriptor); + DECL_POINTS_TO_READONLY_P (gnu_param) + = (ro_param && (by_ref || by_component_ptr)); + + /* If no Mechanism was specified, indicate what we're using, then + back-annotate it. */ + if (mech == Default) + mech = (by_ref || by_component_ptr) ? By_Reference : By_Copy; + + Set_Mechanism (gnat_param, mech); + return gnu_param; +} + +/* Return true if DISCR1 and DISCR2 represent the same discriminant. */ + +static bool +same_discriminant_p (Entity_Id discr1, Entity_Id discr2) +{ + while (Present (Corresponding_Discriminant (discr1))) + discr1 = Corresponding_Discriminant (discr1); + + while (Present (Corresponding_Discriminant (discr2))) + discr2 = Corresponding_Discriminant (discr2); + + return + Original_Record_Component (discr1) == Original_Record_Component (discr2); +} + +/* Return true if the array type specified by GNAT_TYPE and GNU_TYPE has + a non-aliased component in the back-end sense. */ + +static bool +array_type_has_nonaliased_component (Entity_Id gnat_type, tree gnu_type) +{ + /* If the type below this is a multi-array type, then + this does not have aliased components. */ + if (TREE_CODE (TREE_TYPE (gnu_type)) == ARRAY_TYPE + && TYPE_MULTI_ARRAY_P (TREE_TYPE (gnu_type))) + return true; + + if (Has_Aliased_Components (gnat_type)) + return false; + + return type_for_nonaliased_component_p (TREE_TYPE (gnu_type)); +} + +/* Given GNAT_ENTITY, elaborate all expressions that are required to + be elaborated at the point of its definition, but do nothing else. */ + +void +elaborate_entity (Entity_Id gnat_entity) +{ + switch (Ekind (gnat_entity)) + { + case E_Signed_Integer_Subtype: + case E_Modular_Integer_Subtype: + case E_Enumeration_Subtype: + case E_Ordinary_Fixed_Point_Subtype: + case E_Decimal_Fixed_Point_Subtype: + case E_Floating_Point_Subtype: + { + Node_Id gnat_lb = Type_Low_Bound (gnat_entity); + Node_Id gnat_hb = Type_High_Bound (gnat_entity); + + /* ??? Tests for avoiding static constraint error expression + is needed until the front stops generating bogus conversions + on bounds of real types. */ + + if (!Raises_Constraint_Error (gnat_lb)) + elaborate_expression (gnat_lb, gnat_entity, get_identifier ("L"), + 1, 0, Needs_Debug_Info (gnat_entity)); + if (!Raises_Constraint_Error (gnat_hb)) + elaborate_expression (gnat_hb, gnat_entity, get_identifier ("U"), + 1, 0, Needs_Debug_Info (gnat_entity)); + break; + } + + case E_Record_Type: + { + Node_Id full_definition = Declaration_Node (gnat_entity); + Node_Id record_definition = Type_Definition (full_definition); + + /* If this is a record extension, go a level further to find the + record definition. */ + if (Nkind (record_definition) == N_Derived_Type_Definition) + record_definition = Record_Extension_Part (record_definition); + } + break; + + case E_Record_Subtype: + case E_Private_Subtype: + case E_Limited_Private_Subtype: + case E_Record_Subtype_With_Private: + if (Is_Constrained (gnat_entity) + && Has_Discriminants (Base_Type (gnat_entity)) + && Present (Discriminant_Constraint (gnat_entity))) + { + Node_Id gnat_discriminant_expr; + Entity_Id gnat_field; + + for (gnat_field = First_Discriminant (Base_Type (gnat_entity)), + gnat_discriminant_expr + = First_Elmt (Discriminant_Constraint (gnat_entity)); + Present (gnat_field); + gnat_field = Next_Discriminant (gnat_field), + gnat_discriminant_expr = Next_Elmt (gnat_discriminant_expr)) + /* ??? For now, ignore access discriminants. */ + if (!Is_Access_Type (Etype (Node (gnat_discriminant_expr)))) + elaborate_expression (Node (gnat_discriminant_expr), + gnat_entity, + get_entity_name (gnat_field), 1, 0, 0); + } + break; + + } +} + +/* Mark GNAT_ENTITY as going out of scope at this point. Recursively mark + any entities on its entity chain similarly. */ + +void +mark_out_of_scope (Entity_Id gnat_entity) +{ + Entity_Id gnat_sub_entity; + unsigned int kind = Ekind (gnat_entity); + + /* If this has an entity list, process all in the list. */ + if (IN (kind, Class_Wide_Kind) || IN (kind, Concurrent_Kind) + || IN (kind, Private_Kind) + || kind == E_Block || kind == E_Entry || kind == E_Entry_Family + || kind == E_Function || kind == E_Generic_Function + || kind == E_Generic_Package || kind == E_Generic_Procedure + || kind == E_Loop || kind == E_Operator || kind == E_Package + || kind == E_Package_Body || kind == E_Procedure + || kind == E_Record_Type || kind == E_Record_Subtype + || kind == E_Subprogram_Body || kind == E_Subprogram_Type) + for (gnat_sub_entity = First_Entity (gnat_entity); + Present (gnat_sub_entity); + gnat_sub_entity = Next_Entity (gnat_sub_entity)) + if (Scope (gnat_sub_entity) == gnat_entity + && gnat_sub_entity != gnat_entity) + mark_out_of_scope (gnat_sub_entity); + + /* Now clear this if it has been defined, but only do so if it isn't + a subprogram or parameter. We could refine this, but it isn't + worth it. If this is statically allocated, it is supposed to + hang around out of cope. */ + if (present_gnu_tree (gnat_entity) && !Is_Statically_Allocated (gnat_entity) + && kind != E_Procedure && kind != E_Function && !IN (kind, Formal_Kind)) + { + save_gnu_tree (gnat_entity, NULL_TREE, true); + save_gnu_tree (gnat_entity, error_mark_node, true); + } +} + +/* Set the alias set of GNU_NEW_TYPE to be that of GNU_OLD_TYPE. If this + is a multi-dimensional array type, do this recursively. */ + +static void +copy_alias_set (tree gnu_new_type, tree gnu_old_type) +{ + /* Remove any padding from GNU_OLD_TYPE. It doesn't matter in the case + of a one-dimensional array, since the padding has the same alias set + as the field type, but if it's a multi-dimensional array, we need to + see the inner types. */ + while (TREE_CODE (gnu_old_type) == RECORD_TYPE + && (TYPE_JUSTIFIED_MODULAR_P (gnu_old_type) + || TYPE_IS_PADDING_P (gnu_old_type))) + gnu_old_type = TREE_TYPE (TYPE_FIELDS (gnu_old_type)); + + /* We need to be careful here in case GNU_OLD_TYPE is an unconstrained + array. In that case, it doesn't have the same shape as GNU_NEW_TYPE, + so we need to go down to what does. */ + if (TREE_CODE (gnu_old_type) == UNCONSTRAINED_ARRAY_TYPE) + gnu_old_type + = TREE_TYPE (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (gnu_old_type)))); + + if (TREE_CODE (gnu_new_type) == ARRAY_TYPE + && TREE_CODE (TREE_TYPE (gnu_new_type)) == ARRAY_TYPE + && TYPE_MULTI_ARRAY_P (TREE_TYPE (gnu_new_type))) + copy_alias_set (TREE_TYPE (gnu_new_type), TREE_TYPE (gnu_old_type)); + + TYPE_ALIAS_SET (gnu_new_type) = get_alias_set (gnu_old_type); + record_component_aliases (gnu_new_type); +} + +/* Return a TREE_LIST describing the substitutions needed to reflect + discriminant substitutions from GNAT_SUBTYPE to GNAT_TYPE and add + them to GNU_LIST. If GNAT_TYPE is not specified, use the base type + of GNAT_SUBTYPE. The substitutions can be in any order. TREE_PURPOSE + gives the tree for the discriminant and TREE_VALUES is the replacement + value. They are in the form of operands to substitute_in_expr. + DEFINITION is as in gnat_to_gnu_entity. */ + +static tree +substitution_list (Entity_Id gnat_subtype, Entity_Id gnat_type, + tree gnu_list, bool definition) +{ + Entity_Id gnat_discrim; + Node_Id gnat_value; + + if (No (gnat_type)) + gnat_type = Implementation_Base_Type (gnat_subtype); + + if (Has_Discriminants (gnat_type)) + for (gnat_discrim = First_Stored_Discriminant (gnat_type), + gnat_value = First_Elmt (Stored_Constraint (gnat_subtype)); + Present (gnat_discrim); + gnat_discrim = Next_Stored_Discriminant (gnat_discrim), + gnat_value = Next_Elmt (gnat_value)) + /* Ignore access discriminants. */ + if (!Is_Access_Type (Etype (Node (gnat_value)))) + gnu_list = tree_cons (gnat_to_gnu_field_decl (gnat_discrim), + elaborate_expression + (Node (gnat_value), gnat_subtype, + get_entity_name (gnat_discrim), definition, + 1, 0), + gnu_list); + + return gnu_list; +} + +/* Return true if the size represented by GNU_SIZE can be handled by an + allocation. If STATIC_P is true, consider only what can be done with a + static allocation. */ + +static bool +allocatable_size_p (tree gnu_size, bool static_p) +{ + HOST_WIDE_INT our_size; + + /* If this is not a static allocation, the only case we want to forbid + is an overflowing size. That will be converted into a raise a + Storage_Error. */ + if (!static_p) + return !(TREE_CODE (gnu_size) == INTEGER_CST + && TREE_OVERFLOW (gnu_size)); + + /* Otherwise, we need to deal with both variable sizes and constant + sizes that won't fit in a host int. We use int instead of HOST_WIDE_INT + since assemblers may not like very large sizes. */ + if (!host_integerp (gnu_size, 1)) + return false; + + our_size = tree_low_cst (gnu_size, 1); + return (int) our_size == our_size; +} + +/* Prepend to ATTR_LIST an entry for an attribute with provided TYPE, + NAME, ARGS and ERROR_POINT. */ + +static void +prepend_one_attribute_to (struct attrib ** attr_list, + enum attr_type attr_type, + tree attr_name, + tree attr_args, + Node_Id attr_error_point) +{ + struct attrib * attr = (struct attrib *) xmalloc (sizeof (struct attrib)); + + attr->type = attr_type; + attr->name = attr_name; + attr->args = attr_args; + attr->error_point = attr_error_point; + + attr->next = *attr_list; + *attr_list = attr; +} + +/* Prepend to ATTR_LIST the list of attributes for GNAT_ENTITY, if any. */ + +static void +prepend_attributes (Entity_Id gnat_entity, struct attrib ** attr_list) +{ + Node_Id gnat_temp; + + for (gnat_temp = First_Rep_Item (gnat_entity); Present (gnat_temp); + gnat_temp = Next_Rep_Item (gnat_temp)) + if (Nkind (gnat_temp) == N_Pragma) + { + tree gnu_arg0 = NULL_TREE, gnu_arg1 = NULL_TREE; + Node_Id gnat_assoc = Pragma_Argument_Associations (gnat_temp); + enum attr_type etype; + + if (Present (gnat_assoc) && Present (First (gnat_assoc)) + && Present (Next (First (gnat_assoc))) + && (Nkind (Expression (Next (First (gnat_assoc)))) + == N_String_Literal)) + { + gnu_arg0 = get_identifier (TREE_STRING_POINTER + (gnat_to_gnu + (Expression (Next + (First (gnat_assoc)))))); + if (Present (Next (Next (First (gnat_assoc)))) + && (Nkind (Expression (Next (Next (First (gnat_assoc))))) + == N_String_Literal)) + gnu_arg1 = get_identifier (TREE_STRING_POINTER + (gnat_to_gnu + (Expression + (Next (Next + (First (gnat_assoc))))))); + } + + switch (Get_Pragma_Id (Chars (Pragma_Identifier (gnat_temp)))) + { + case Pragma_Machine_Attribute: + etype = ATTR_MACHINE_ATTRIBUTE; + break; + + case Pragma_Linker_Alias: + etype = ATTR_LINK_ALIAS; + break; + + case Pragma_Linker_Section: + etype = ATTR_LINK_SECTION; + break; + + case Pragma_Linker_Constructor: + etype = ATTR_LINK_CONSTRUCTOR; + break; + + case Pragma_Linker_Destructor: + etype = ATTR_LINK_DESTRUCTOR; + break; + + case Pragma_Weak_External: + etype = ATTR_WEAK_EXTERNAL; + break; + + default: + continue; + } + + + /* Prepend to the list now. Make a list of the argument we might + have, as GCC expects it. */ + prepend_one_attribute_to + (attr_list, + etype, gnu_arg0, + (gnu_arg1 != NULL_TREE) + ? build_tree_list (NULL_TREE, gnu_arg1) : NULL_TREE, + Present (Next (First (gnat_assoc))) + ? Expression (Next (First (gnat_assoc))) : gnat_temp); + } +} + +/* Get the unpadded version of a GNAT type. */ + +tree +get_unpadded_type (Entity_Id gnat_entity) +{ + tree type = gnat_to_gnu_type (gnat_entity); + + if (TREE_CODE (type) == RECORD_TYPE && TYPE_IS_PADDING_P (type)) + type = TREE_TYPE (TYPE_FIELDS (type)); + + return type; +} + +/* Called when we need to protect a variable object using a save_expr. */ + +tree +maybe_variable (tree gnu_operand) +{ + if (TREE_CONSTANT (gnu_operand) || TREE_READONLY (gnu_operand) + || TREE_CODE (gnu_operand) == SAVE_EXPR + || TREE_CODE (gnu_operand) == NULL_EXPR) + return gnu_operand; + + if (TREE_CODE (gnu_operand) == UNCONSTRAINED_ARRAY_REF) + { + tree gnu_result = build1 (UNCONSTRAINED_ARRAY_REF, + TREE_TYPE (gnu_operand), + variable_size (TREE_OPERAND (gnu_operand, 0))); + + TREE_READONLY (gnu_result) = TREE_STATIC (gnu_result) + = TYPE_READONLY (TREE_TYPE (TREE_TYPE (gnu_operand))); + return gnu_result; + } + else + return variable_size (gnu_operand); +} + +/* Given a GNAT tree GNAT_EXPR, for an expression which is a value within a + type definition (either a bound or a discriminant value) for GNAT_ENTITY, + return the GCC tree to use for that expression. GNU_NAME is the + qualification to use if an external name is appropriate and DEFINITION is + nonzero if this is a definition of GNAT_ENTITY. If NEED_VALUE is nonzero, + we need a result. Otherwise, we are just elaborating this for + side-effects. If NEED_DEBUG is nonzero we need the symbol for debugging + purposes even if it isn't needed for code generation. */ + +static tree +elaborate_expression (Node_Id gnat_expr, Entity_Id gnat_entity, + tree gnu_name, bool definition, bool need_value, + bool need_debug) +{ + tree gnu_expr; + + /* If we already elaborated this expression (e.g., it was involved + in the definition of a private type), use the old value. */ + if (present_gnu_tree (gnat_expr)) + return get_gnu_tree (gnat_expr); + + /* If we don't need a value and this is static or a discriminant, we + don't need to do anything. */ + else if (!need_value + && (Is_OK_Static_Expression (gnat_expr) + || (Nkind (gnat_expr) == N_Identifier + && Ekind (Entity (gnat_expr)) == E_Discriminant))) + return 0; + + /* Otherwise, convert this tree to its GCC equivalent. */ + gnu_expr + = elaborate_expression_1 (gnat_expr, gnat_entity, gnat_to_gnu (gnat_expr), + gnu_name, definition, need_debug); + + /* Save the expression in case we try to elaborate this entity again. Since + this is not a DECL, don't check it. Don't save if it's a discriminant. */ + if (!CONTAINS_PLACEHOLDER_P (gnu_expr)) + save_gnu_tree (gnat_expr, gnu_expr, true); + + return need_value ? gnu_expr : error_mark_node; +} + +/* Similar, but take a GNU expression. */ + +static tree +elaborate_expression_1 (Node_Id gnat_expr, Entity_Id gnat_entity, + tree gnu_expr, tree gnu_name, bool definition, + bool need_debug) +{ + tree gnu_decl = NULL_TREE; + /* Skip any conversions and simple arithmetics to see if the expression + is a read-only variable. + ??? This really should remain read-only, but we have to think about + the typing of the tree here. */ + tree gnu_inner_expr + = skip_simple_arithmetic (remove_conversions (gnu_expr, true)); + bool expr_global = Is_Public (gnat_entity) || global_bindings_p (); + bool expr_variable; + + /* In most cases, we won't see a naked FIELD_DECL here because a + discriminant reference will have been replaced with a COMPONENT_REF + when the type is being elaborated. However, there are some cases + involving child types where we will. So convert it to a COMPONENT_REF + here. We have to hope it will be at the highest level of the + expression in these cases. */ + if (TREE_CODE (gnu_expr) == FIELD_DECL) + gnu_expr = build3 (COMPONENT_REF, TREE_TYPE (gnu_expr), + build0 (PLACEHOLDER_EXPR, DECL_CONTEXT (gnu_expr)), + gnu_expr, NULL_TREE); + + /* If GNU_EXPR is neither a placeholder nor a constant, nor a variable + that is read-only, make a variable that is initialized to contain the + bound when the package containing the definition is elaborated. If + this entity is defined at top level and a bound or discriminant value + isn't a constant or a reference to a discriminant, replace the bound + by the variable; otherwise use a SAVE_EXPR if needed. Note that we + rely here on the fact that an expression cannot contain both the + discriminant and some other variable. */ + + expr_variable = (!CONSTANT_CLASS_P (gnu_expr) + && !(TREE_CODE (gnu_inner_expr) == VAR_DECL + && (TREE_READONLY (gnu_inner_expr) + || DECL_READONLY_ONCE_ELAB (gnu_inner_expr))) + && !CONTAINS_PLACEHOLDER_P (gnu_expr)); + + /* If this is a static expression or contains a discriminant, we don't + need the variable for debugging (and can't elaborate anyway if a + discriminant). */ + if (need_debug + && (Is_OK_Static_Expression (gnat_expr) + || CONTAINS_PLACEHOLDER_P (gnu_expr))) + need_debug = false; + + /* Now create the variable if we need it. */ + if (need_debug || (expr_variable && expr_global)) + gnu_decl + = create_var_decl (create_concat_name (gnat_entity, + IDENTIFIER_POINTER (gnu_name)), + NULL_TREE, TREE_TYPE (gnu_expr), gnu_expr, + !need_debug, Is_Public (gnat_entity), + !definition, false, NULL, gnat_entity); + + /* We only need to use this variable if we are in global context since GCC + can do the right thing in the local case. */ + if (expr_global && expr_variable) + return gnu_decl; + else if (!expr_variable) + return gnu_expr; + else + return maybe_variable (gnu_expr); +} + +/* Create a record type that contains a SIZE bytes long field of TYPE with a + starting bit position so that it is aligned to ALIGN bits, and leaving at + least ROOM bytes free before the field. BASE_ALIGN is the alignment the + record is guaranteed to get. */ + +tree +make_aligning_type (tree type, unsigned int align, tree size, + unsigned int base_align, int room) +{ + /* We will be crafting a record type with one field at a position set to be + the next multiple of ALIGN past record'address + room bytes. We use a + record placeholder to express record'address. */ + + tree record_type = make_node (RECORD_TYPE); + tree record = build0 (PLACEHOLDER_EXPR, record_type); + + tree record_addr_st + = convert (sizetype, build_unary_op (ADDR_EXPR, NULL_TREE, record)); + + /* The diagram below summarizes the shape of what we manipulate: + + <--------- pos ----------> + { +------------+-------------+-----------------+ + record =>{ |############| ... | field (type) | + { +------------+-------------+-----------------+ + |<-- room -->|<- voffset ->|<---- size ----->| + o o + | | + record_addr vblock_addr + + Every length is in sizetype bytes there, except "pos" which has to be + set as a bit position in the GCC tree for the record. */ + + tree room_st = size_int (room); + tree vblock_addr_st = size_binop (PLUS_EXPR, record_addr_st, room_st); + tree voffset_st, pos, field; + + tree name = TYPE_NAME (type); + + if (TREE_CODE (name) == TYPE_DECL) + name = DECL_NAME (name); + + TYPE_NAME (record_type) = concat_id_with_name (name, "_ALIGN"); + + /* Compute VOFFSET and then POS. The next byte position multiple of some + alignment after some address is obtained by "and"ing the alignment minus + 1 with the two's complement of the address. */ + + voffset_st = size_binop (BIT_AND_EXPR, + size_diffop (size_zero_node, vblock_addr_st), + ssize_int ((align / BITS_PER_UNIT) - 1)); + + /* POS = (ROOM + VOFFSET) * BIT_PER_UNIT, in bitsizetype. */ + + pos = size_binop (MULT_EXPR, + convert (bitsizetype, + size_binop (PLUS_EXPR, room_st, voffset_st)), + bitsize_unit_node); + + /* Craft the GCC record representation. We exceptionally do everything + manually here because 1) our generic circuitry is not quite ready to + handle the complex position/size expressions we are setting up, 2) we + have a strong simplifying factor at hand: we know the maximum possible + value of voffset, and 3) we have to set/reset at least the sizes in + accordance with this maximum value anyway, as we need them to convey + what should be "alloc"ated for this type. + + Use -1 as the 'addressable' indication for the field to prevent the + creation of a bitfield. We don't need one, it would have damaging + consequences on the alignment computation, and create_field_decl would + make one without this special argument, for instance because of the + complex position expression. */ + + field = create_field_decl (get_identifier ("F"), type, record_type, + 1, size, pos, -1); + TYPE_FIELDS (record_type) = field; + + TYPE_ALIGN (record_type) = base_align; + TYPE_USER_ALIGN (record_type) = 1; + + TYPE_SIZE (record_type) + = size_binop (PLUS_EXPR, + size_binop (MULT_EXPR, convert (bitsizetype, size), + bitsize_unit_node), + bitsize_int (align + room * BITS_PER_UNIT)); + TYPE_SIZE_UNIT (record_type) + = size_binop (PLUS_EXPR, size, + size_int (room + align / BITS_PER_UNIT)); + + TYPE_MODE (record_type) = BLKmode; + + copy_alias_set (record_type, type); + return record_type; +} + +/* Return the result of rounding T up to ALIGN. */ + +static inline unsigned HOST_WIDE_INT +round_up_to_align (unsigned HOST_WIDE_INT t, unsigned int align) +{ + t += align - 1; + t /= align; + t *= align; + return t; +} + +/* TYPE is a RECORD_TYPE, UNION_TYPE or QUAL_UNION_TYPE that is being used + as the field type of a packed record if IN_RECORD is true, or as the + component type of a packed array if IN_RECORD is false. See if we can + rewrite it either as a type that has a non-BLKmode, which we can pack + tighter in the packed record case, or as a smaller type with BLKmode. + If so, return the new type. If not, return the original type. */ + +static tree +make_packable_type (tree type, bool in_record) +{ + unsigned HOST_WIDE_INT size = tree_low_cst (TYPE_SIZE (type), 1); + unsigned HOST_WIDE_INT new_size; + tree new_type, old_field, field_list = NULL_TREE; + + /* No point in doing anything if the size is zero. */ + if (size == 0) + return type; + + new_type = make_node (TREE_CODE (type)); + + /* Copy the name and flags from the old type to that of the new. + Note that we rely on the pointer equality created here for + TYPE_NAME to look through conversions in various places. */ + TYPE_NAME (new_type) = TYPE_NAME (type); + TYPE_JUSTIFIED_MODULAR_P (new_type) = TYPE_JUSTIFIED_MODULAR_P (type); + TYPE_CONTAINS_TEMPLATE_P (new_type) = TYPE_CONTAINS_TEMPLATE_P (type); + if (TREE_CODE (type) == RECORD_TYPE) + TYPE_IS_PADDING_P (new_type) = TYPE_IS_PADDING_P (type); + + /* If we are in a record and have a small size, set the alignment to + try for an integral mode. Otherwise set it to try for a smaller + type with BLKmode. */ + if (in_record && size <= MAX_FIXED_MODE_SIZE) + { + TYPE_ALIGN (new_type) = ceil_alignment (size); + new_size = round_up_to_align (size, TYPE_ALIGN (new_type)); + } + else + { + unsigned HOST_WIDE_INT align; + + /* Do not try to shrink the size if the RM size is not constant. */ + if (TYPE_CONTAINS_TEMPLATE_P (type) + || !host_integerp (TYPE_ADA_SIZE (type), 1)) + return type; + + /* Round the RM size up to a unit boundary to get the minimal size + for a BLKmode record. Give up if it's already the size. */ + new_size = TREE_INT_CST_LOW (TYPE_ADA_SIZE (type)); + new_size = round_up_to_align (new_size, BITS_PER_UNIT); + if (new_size == size) + return type; + + align = new_size & -new_size; + TYPE_ALIGN (new_type) = MIN (TYPE_ALIGN (type), align); + } + + TYPE_USER_ALIGN (new_type) = 1; + + /* Now copy the fields, keeping the position and size as we don't want + to change the layout by propagating the packedness downwards. */ + for (old_field = TYPE_FIELDS (type); old_field; + old_field = TREE_CHAIN (old_field)) + { + tree new_field_type = TREE_TYPE (old_field); + tree new_field, new_size; + + if (TYPE_MODE (new_field_type) == BLKmode + && (TREE_CODE (new_field_type) == RECORD_TYPE + || TREE_CODE (new_field_type) == UNION_TYPE + || TREE_CODE (new_field_type) == QUAL_UNION_TYPE) + && host_integerp (TYPE_SIZE (new_field_type), 1)) + new_field_type = make_packable_type (new_field_type, true); + + /* However, for the last field in a not already packed record type + that is of an aggregate type, we need to use the RM_Size in the + packable version of the record type, see finish_record_type. */ + if (!TREE_CHAIN (old_field) + && !TYPE_PACKED (type) + && (TREE_CODE (new_field_type) == RECORD_TYPE + || TREE_CODE (new_field_type) == UNION_TYPE + || TREE_CODE (new_field_type) == QUAL_UNION_TYPE) + && !TYPE_IS_FAT_POINTER_P (new_field_type) + && !TYPE_CONTAINS_TEMPLATE_P (new_field_type) + && TYPE_ADA_SIZE (new_field_type)) + new_size = TYPE_ADA_SIZE (new_field_type); + else + new_size = DECL_SIZE (old_field); + + new_field = create_field_decl (DECL_NAME (old_field), new_field_type, + new_type, TYPE_PACKED (type), new_size, + bit_position (old_field), + !DECL_NONADDRESSABLE_P (old_field)); + + DECL_INTERNAL_P (new_field) = DECL_INTERNAL_P (old_field); + SET_DECL_ORIGINAL_FIELD + (new_field, (DECL_ORIGINAL_FIELD (old_field) + ? DECL_ORIGINAL_FIELD (old_field) : old_field)); + + if (TREE_CODE (new_type) == QUAL_UNION_TYPE) + DECL_QUALIFIER (new_field) = DECL_QUALIFIER (old_field); + + TREE_CHAIN (new_field) = field_list; + field_list = new_field; + } + + finish_record_type (new_type, nreverse (field_list), 2, true); + copy_alias_set (new_type, type); + + /* If this is a padding record, we never want to make the size smaller + than what was specified. For QUAL_UNION_TYPE, also copy the size. */ + if ((TREE_CODE (type) == RECORD_TYPE && TYPE_IS_PADDING_P (type)) + || TREE_CODE (type) == QUAL_UNION_TYPE) + { + TYPE_SIZE (new_type) = TYPE_SIZE (type); + TYPE_SIZE_UNIT (new_type) = TYPE_SIZE_UNIT (type); + } + else + { + TYPE_SIZE (new_type) = bitsize_int (new_size); + TYPE_SIZE_UNIT (new_type) + = size_int ((new_size + BITS_PER_UNIT - 1) / BITS_PER_UNIT); + } + + if (!TYPE_CONTAINS_TEMPLATE_P (type)) + SET_TYPE_ADA_SIZE (new_type, TYPE_ADA_SIZE (type)); + + compute_record_mode (new_type); + + /* Try harder to get a packable type if necessary, for example + in case the record itself contains a BLKmode field. */ + if (in_record && TYPE_MODE (new_type) == BLKmode) + TYPE_MODE (new_type) + = mode_for_size_tree (TYPE_SIZE (new_type), MODE_INT, 1); + + /* If neither the mode nor the size has shrunk, return the old type. */ + if (TYPE_MODE (new_type) == BLKmode && new_size >= size) + return type; + + return new_type; +} + +/* Ensure that TYPE has SIZE and ALIGN. Make and return a new padded type + if needed. We have already verified that SIZE and TYPE are large enough. + + GNAT_ENTITY and NAME_TRAILER are used to name the resulting record and + to issue a warning. + + IS_USER_TYPE is true if we must complete the original type. + + DEFINITION is true if this type is being defined. + + SAME_RM_SIZE is true if the RM_Size of the resulting type is to be set + to SIZE too; otherwise, it's set to the RM_Size of the original type. */ + +tree +maybe_pad_type (tree type, tree size, unsigned int align, + Entity_Id gnat_entity, const char *name_trailer, + bool is_user_type, bool definition, bool same_rm_size) +{ + tree orig_rm_size = same_rm_size ? NULL_TREE : rm_size (type); + tree orig_size = TYPE_SIZE (type); + unsigned int orig_align = align; + tree record, field; + + /* If TYPE is a padded type, see if it agrees with any size and alignment + we were given. If so, return the original type. Otherwise, strip + off the padding, since we will either be returning the inner type + or repadding it. If no size or alignment is specified, use that of + the original padded type. */ + if (TREE_CODE (type) == RECORD_TYPE && TYPE_IS_PADDING_P (type)) + { + if ((!size + || operand_equal_p (round_up (size, + MAX (align, TYPE_ALIGN (type))), + round_up (TYPE_SIZE (type), + MAX (align, TYPE_ALIGN (type))), + 0)) + && (align == 0 || align == TYPE_ALIGN (type))) + return type; + + if (!size) + size = TYPE_SIZE (type); + if (align == 0) + align = TYPE_ALIGN (type); + + type = TREE_TYPE (TYPE_FIELDS (type)); + orig_size = TYPE_SIZE (type); + } + + /* If the size is either not being changed or is being made smaller (which + is not done here (and is only valid for bitfields anyway), show the size + isn't changing. Likewise, clear the alignment if it isn't being + changed. Then return if we aren't doing anything. */ + if (size + && (operand_equal_p (size, orig_size, 0) + || (TREE_CODE (orig_size) == INTEGER_CST + && tree_int_cst_lt (size, orig_size)))) + size = NULL_TREE; + + if (align == TYPE_ALIGN (type)) + align = 0; + + if (align == 0 && !size) + return type; + + /* If requested, complete the original type and give it a name. */ + if (is_user_type) + create_type_decl (get_entity_name (gnat_entity), type, + NULL, !Comes_From_Source (gnat_entity), + !(TYPE_NAME (type) + && TREE_CODE (TYPE_NAME (type)) == TYPE_DECL + && DECL_IGNORED_P (TYPE_NAME (type))), + gnat_entity); + + /* We used to modify the record in place in some cases, but that could + generate incorrect debugging information. So make a new record + type and name. */ + record = make_node (RECORD_TYPE); + TYPE_IS_PADDING_P (record) = 1; + + if (Present (gnat_entity)) + TYPE_NAME (record) = create_concat_name (gnat_entity, name_trailer); + + TYPE_VOLATILE (record) + = Present (gnat_entity) && Treat_As_Volatile (gnat_entity); + + TYPE_ALIGN (record) = align; + if (orig_align) + TYPE_USER_ALIGN (record) = align; + + TYPE_SIZE (record) = size ? size : orig_size; + TYPE_SIZE_UNIT (record) + = convert (sizetype, + size_binop (CEIL_DIV_EXPR, TYPE_SIZE (record), + bitsize_unit_node)); + + /* If we are changing the alignment and the input type is a record with + BLKmode and a small constant size, try to make a form that has an + integral mode. This might allow the padding record to also have an + integral mode, which will be much more efficient. There is no point + in doing so if a size is specified unless it is also a small constant + size and it is incorrect to do so if we cannot guarantee that the mode + will be naturally aligned since the field must always be addressable. + + ??? This might not always be a win when done for a stand-alone object: + since the nominal and the effective type of the object will now have + different modes, a VIEW_CONVERT_EXPR will be required for converting + between them and it might be hard to overcome afterwards, including + at the RTL level when the stand-alone object is accessed as a whole. */ + if (align != 0 + && TREE_CODE (type) == RECORD_TYPE + && TYPE_MODE (type) == BLKmode + && TREE_CODE (orig_size) == INTEGER_CST + && !TREE_CONSTANT_OVERFLOW (orig_size) + && compare_tree_int (orig_size, MAX_FIXED_MODE_SIZE) <= 0 + && (!size + || (TREE_CODE (size) == INTEGER_CST + && compare_tree_int (size, MAX_FIXED_MODE_SIZE) <= 0))) + { + tree packable_type = make_packable_type (type, true); + if (TYPE_MODE (packable_type) != BLKmode + && align >= TYPE_ALIGN (packable_type)) + type = packable_type; + } + + /* Now create the field with the original size. */ + field = create_field_decl (get_identifier ("F"), type, record, 0, + orig_size, bitsize_zero_node, 1); + DECL_INTERNAL_P (field) = 1; + + /* Do not finalize it until after the auxiliary record is built. */ + finish_record_type (record, field, 1, true); + + /* Set the same size for its RM_size if requested; otherwise reuse + the RM_size of the original type. */ + SET_TYPE_ADA_SIZE (record, same_rm_size ? size : orig_rm_size); + + /* Unless debugging information isn't being written for the input type, + write a record that shows what we are a subtype of and also make a + variable that indicates our size, if still variable. */ + if (TYPE_NAME (record) + && AGGREGATE_TYPE_P (type) + && TREE_CODE (orig_size) != INTEGER_CST + && !(TREE_CODE (TYPE_NAME (type)) == TYPE_DECL + && DECL_IGNORED_P (TYPE_NAME (type)))) + { + tree marker = make_node (RECORD_TYPE); + tree name = TYPE_NAME (record); + tree orig_name = TYPE_NAME (type); + + if (TREE_CODE (name) == TYPE_DECL) + name = DECL_NAME (name); + + if (TREE_CODE (orig_name) == TYPE_DECL) + orig_name = DECL_NAME (orig_name); + + TYPE_NAME (marker) = concat_id_with_name (name, "XVS"); + finish_record_type (marker, + create_field_decl (orig_name, integer_type_node, + marker, 0, NULL_TREE, NULL_TREE, + 0), + 0, false); + + add_parallel_type (TYPE_STUB_DECL (record), marker); + + if (size && TREE_CODE (size) != INTEGER_CST && definition) + create_var_decl (concat_id_with_name (name, "XVZ"), NULL_TREE, + bitsizetype, TYPE_SIZE (record), false, false, false, + false, NULL, gnat_entity); + } + + rest_of_record_type_compilation (record); + + /* If the size was widened explicitly, maybe give a warning. Take the + original size as the maximum size of the input if there was an + unconstrained record involved and round it up to the specified alignment, + if one was specified. */ + if (CONTAINS_PLACEHOLDER_P (orig_size)) + orig_size = max_size (orig_size, true); + + if (align) + orig_size = round_up (orig_size, align); + + if (size && Present (gnat_entity) + && !operand_equal_p (size, orig_size, 0) + && !(TREE_CODE (size) == INTEGER_CST + && TREE_CODE (orig_size) == INTEGER_CST + && tree_int_cst_lt (size, orig_size))) + { + Node_Id gnat_error_node = Empty; + + if (Is_Packed_Array_Type (gnat_entity)) + gnat_entity = Original_Array_Type (gnat_entity); + + if ((Ekind (gnat_entity) == E_Component + || Ekind (gnat_entity) == E_Discriminant) + && Present (Component_Clause (gnat_entity))) + gnat_error_node = Last_Bit (Component_Clause (gnat_entity)); + else if (Present (Size_Clause (gnat_entity))) + gnat_error_node = Expression (Size_Clause (gnat_entity)); + + /* Generate message only for entities that come from source, since + if we have an entity created by expansion, the message will be + generated for some other corresponding source entity. */ + if (Comes_From_Source (gnat_entity) && Present (gnat_error_node)) + post_error_ne_tree ("{^ }bits of & unused?", gnat_error_node, + gnat_entity, + size_diffop (size, orig_size)); + + else if (*name_trailer == 'C' && !Is_Internal (gnat_entity)) + post_error_ne_tree ("component of& padded{ by ^ bits}?", + gnat_entity, gnat_entity, + size_diffop (size, orig_size)); + } + + return record; +} + +/* Given a GNU tree and a GNAT list of choices, generate an expression to test + the value passed against the list of choices. */ + +tree +choices_to_gnu (tree operand, Node_Id choices) +{ + Node_Id choice; + Node_Id gnat_temp; + tree result = integer_zero_node; + tree this_test, low = 0, high = 0, single = 0; + + for (choice = First (choices); Present (choice); choice = Next (choice)) + { + switch (Nkind (choice)) + { + case N_Range: + low = gnat_to_gnu (Low_Bound (choice)); + high = gnat_to_gnu (High_Bound (choice)); + + /* There's no good type to use here, so we might as well use + integer_type_node. */ + this_test + = build_binary_op (TRUTH_ANDIF_EXPR, integer_type_node, + build_binary_op (GE_EXPR, integer_type_node, + operand, low), + build_binary_op (LE_EXPR, integer_type_node, + operand, high)); + + break; + + case N_Subtype_Indication: + gnat_temp = Range_Expression (Constraint (choice)); + low = gnat_to_gnu (Low_Bound (gnat_temp)); + high = gnat_to_gnu (High_Bound (gnat_temp)); + + this_test + = build_binary_op (TRUTH_ANDIF_EXPR, integer_type_node, + build_binary_op (GE_EXPR, integer_type_node, + operand, low), + build_binary_op (LE_EXPR, integer_type_node, + operand, high)); + break; + + case N_Identifier: + case N_Expanded_Name: + /* This represents either a subtype range, an enumeration + literal, or a constant Ekind says which. If an enumeration + literal or constant, fall through to the next case. */ + if (Ekind (Entity (choice)) != E_Enumeration_Literal + && Ekind (Entity (choice)) != E_Constant) + { + tree type = gnat_to_gnu_type (Entity (choice)); + + low = TYPE_MIN_VALUE (type); + high = TYPE_MAX_VALUE (type); + + this_test + = build_binary_op (TRUTH_ANDIF_EXPR, integer_type_node, + build_binary_op (GE_EXPR, integer_type_node, + operand, low), + build_binary_op (LE_EXPR, integer_type_node, + operand, high)); + break; + } + /* ... fall through ... */ + case N_Character_Literal: + case N_Integer_Literal: + single = gnat_to_gnu (choice); + this_test = build_binary_op (EQ_EXPR, integer_type_node, operand, + single); + break; + + case N_Others_Choice: + this_test = integer_one_node; + break; + + default: + gcc_unreachable (); + } + + result = build_binary_op (TRUTH_ORIF_EXPR, integer_type_node, + result, this_test); + } + + return result; +} + +/* Adjust PACKED setting as passed to gnat_to_gnu_field for a field of + type FIELD_TYPE to be placed in RECORD_TYPE. Return the result. */ + +static int +adjust_packed (tree field_type, tree record_type, int packed) +{ + /* If the field contains an item of variable size, we cannot pack it + because we cannot create temporaries of non-fixed size in case + we need to take the address of the field. See addressable_p and + the notes on the addressability issues for further details. */ + if (is_variable_size (field_type)) + return 0; + + /* If the alignment of the record is specified and the field type + is over-aligned, request Storage_Unit alignment for the field. */ + if (packed == -2) + { + if (TYPE_ALIGN (field_type) > TYPE_ALIGN (record_type)) + return -1; + else + return 0; + } + + return packed; +} + +/* Return a GCC tree for a field corresponding to GNAT_FIELD to be + placed in GNU_RECORD_TYPE. + + PACKED is 1 if the enclosing record is packed, -1 if the enclosing + record has Component_Alignment of Storage_Unit, -2 if the enclosing + record has a specified alignment. + + DEFINITION is true if this field is for a record being defined. */ + +static tree +gnat_to_gnu_field (Entity_Id gnat_field, tree gnu_record_type, int packed, + bool definition) +{ + tree gnu_field_id = get_entity_name (gnat_field); + tree gnu_field_type = gnat_to_gnu_type (Etype (gnat_field)); + tree gnu_field, gnu_size, gnu_pos; + bool needs_strict_alignment + = (Is_Aliased (gnat_field) || Strict_Alignment (Etype (gnat_field)) + || Treat_As_Volatile (gnat_field)); + + /* If this field requires strict alignment, we cannot pack it because + it would very likely be under-aligned in the record. */ + if (needs_strict_alignment) + packed = 0; + else + packed = adjust_packed (gnu_field_type, gnu_record_type, packed); + + /* If a size is specified, use it. Otherwise, if the record type is packed, + use the official RM size. See "Handling of Type'Size Values" in Einfo + for further details. */ + if (Known_Static_Esize (gnat_field)) + gnu_size = validate_size (Esize (gnat_field), gnu_field_type, + gnat_field, FIELD_DECL, false, true); + else if (packed == 1) + gnu_size = validate_size (RM_Size (Etype (gnat_field)), gnu_field_type, + gnat_field, FIELD_DECL, false, true); + else + gnu_size = NULL_TREE; + + /* If we have a specified size that's smaller than that of the field type, + or a position is specified, and the field type is also a record that's + BLKmode, see if we can get either an integral mode form of the type or + a smaller BLKmode form. If we can, show a size was specified for the + field if there wasn't one already, so we know to make this a bitfield + and avoid making things wider. + + Doing this is first useful if the record is packed because we may then + place the field at a non-byte-aligned position and so achieve tighter + packing. + + This is in addition *required* if the field shares a byte with another + field and the front-end lets the back-end handle the references, because + GCC does not handle BLKmode bitfields properly. + + We avoid the transformation if it is not required or potentially useful, + as it might entail an increase of the field's alignment and have ripple + effects on the outer record type. A typical case is a field known to be + byte aligned and not to share a byte with another field. + + Besides, we don't even look the possibility of a transformation in cases + known to be in error already, for instance when an invalid size results + from a component clause. */ + + if (TREE_CODE (gnu_field_type) == RECORD_TYPE + && TYPE_MODE (gnu_field_type) == BLKmode + && host_integerp (TYPE_SIZE (gnu_field_type), 1) + && (packed == 1 + || (gnu_size + && (tree_int_cst_lt (gnu_size, TYPE_SIZE (gnu_field_type)) + || Present (Component_Clause (gnat_field)))))) + { + /* See what the alternate type and size would be. */ + tree gnu_packable_type = make_packable_type (gnu_field_type, true); + + bool has_byte_aligned_clause + = Present (Component_Clause (gnat_field)) + && (UI_To_Int (Component_Bit_Offset (gnat_field)) + % BITS_PER_UNIT == 0); + + /* Compute whether we should avoid the substitution. */ + bool reject + /* There is no point substituting if there is no change... */ + = (gnu_packable_type == gnu_field_type) + /* ... nor when the field is known to be byte aligned and not to + share a byte with another field. */ + || (has_byte_aligned_clause + && value_factor_p (gnu_size, BITS_PER_UNIT)) + /* The size of an aliased field must be an exact multiple of the + type's alignment, which the substitution might increase. Reject + substitutions that would so invalidate a component clause when the + specified position is byte aligned, as the change would have no + real benefit from the packing standpoint anyway. */ + || (Is_Aliased (gnat_field) + && has_byte_aligned_clause + && !value_factor_p (gnu_size, TYPE_ALIGN (gnu_packable_type))); + + /* Substitute unless told otherwise. */ + if (!reject) + { + gnu_field_type = gnu_packable_type; + + if (!gnu_size) + gnu_size = rm_size (gnu_field_type); + } + } + + /* If we are packing the record and the field is BLKmode, round the + size up to a byte boundary. */ + if (packed && TYPE_MODE (gnu_field_type) == BLKmode && gnu_size) + gnu_size = round_up (gnu_size, BITS_PER_UNIT); + + if (Present (Component_Clause (gnat_field))) + { + gnu_pos = UI_To_gnu (Component_Bit_Offset (gnat_field), bitsizetype); + gnu_size = validate_size (Esize (gnat_field), gnu_field_type, + gnat_field, FIELD_DECL, false, true); + + /* Ensure the position does not overlap with the parent subtype, + if there is one. */ + if (Present (Parent_Subtype (Underlying_Type (Scope (gnat_field))))) + { + tree gnu_parent + = gnat_to_gnu_type (Parent_Subtype + (Underlying_Type (Scope (gnat_field)))); + + if (TREE_CODE (TYPE_SIZE (gnu_parent)) == INTEGER_CST + && tree_int_cst_lt (gnu_pos, TYPE_SIZE (gnu_parent))) + { + post_error_ne_tree + ("offset of& must be beyond parent{, minimum allowed is ^}", + First_Bit (Component_Clause (gnat_field)), gnat_field, + TYPE_SIZE_UNIT (gnu_parent)); + } + } + + /* If this field needs strict alignment, ensure the record is + sufficiently aligned and that that position and size are + consistent with the alignment. */ + if (needs_strict_alignment) + { + TYPE_ALIGN (gnu_record_type) + = MAX (TYPE_ALIGN (gnu_record_type), TYPE_ALIGN (gnu_field_type)); + + if (gnu_size + && !operand_equal_p (gnu_size, TYPE_SIZE (gnu_field_type), 0)) + { + if (Is_Atomic (gnat_field) || Is_Atomic (Etype (gnat_field))) + post_error_ne_tree + ("atomic field& must be natural size of type{ (^)}", + Last_Bit (Component_Clause (gnat_field)), gnat_field, + TYPE_SIZE (gnu_field_type)); + + else if (Is_Aliased (gnat_field)) + post_error_ne_tree + ("size of aliased field& must be ^ bits", + Last_Bit (Component_Clause (gnat_field)), gnat_field, + TYPE_SIZE (gnu_field_type)); + + else if (Strict_Alignment (Etype (gnat_field))) + post_error_ne_tree + ("size of & with aliased or tagged components not ^ bits", + Last_Bit (Component_Clause (gnat_field)), gnat_field, + TYPE_SIZE (gnu_field_type)); + + gnu_size = NULL_TREE; + } + + if (!integer_zerop (size_binop + (TRUNC_MOD_EXPR, gnu_pos, + bitsize_int (TYPE_ALIGN (gnu_field_type))))) + { + if (Is_Aliased (gnat_field)) + post_error_ne_num + ("position of aliased field& must be multiple of ^ bits", + First_Bit (Component_Clause (gnat_field)), gnat_field, + TYPE_ALIGN (gnu_field_type)); + + else if (Treat_As_Volatile (gnat_field)) + post_error_ne_num + ("position of volatile field& must be multiple of ^ bits", + First_Bit (Component_Clause (gnat_field)), gnat_field, + TYPE_ALIGN (gnu_field_type)); + + else if (Strict_Alignment (Etype (gnat_field))) + post_error_ne_num + ("position of & with aliased or tagged components not multiple of ^ bits", + First_Bit (Component_Clause (gnat_field)), gnat_field, + TYPE_ALIGN (gnu_field_type)); + + else + gcc_unreachable (); + + gnu_pos = NULL_TREE; + } + } + + if (Is_Atomic (gnat_field)) + check_ok_for_atomic (gnu_field_type, gnat_field, false); + } + + /* If the record has rep clauses and this is the tag field, make a rep + clause for it as well. */ + else if (Has_Specified_Layout (Scope (gnat_field)) + && Chars (gnat_field) == Name_uTag) + { + gnu_pos = bitsize_zero_node; + gnu_size = TYPE_SIZE (gnu_field_type); + } + + else + gnu_pos = NULL_TREE; + + /* We need to make the size the maximum for the type if it is + self-referential and an unconstrained type. In that case, we can't + pack the field since we can't make a copy to align it. */ + if (TREE_CODE (gnu_field_type) == RECORD_TYPE + && !gnu_size + && CONTAINS_PLACEHOLDER_P (TYPE_SIZE (gnu_field_type)) + && !Is_Constrained (Underlying_Type (Etype (gnat_field)))) + { + gnu_size = max_size (TYPE_SIZE (gnu_field_type), true); + packed = 0; + } + + /* If a size is specified, adjust the field's type to it. */ + if (gnu_size) + { + /* If the field's type is justified modular, we would need to remove + the wrapper to (better) meet the layout requirements. However we + can do so only if the field is not aliased to preserve the unique + layout and if the prescribed size is not greater than that of the + packed array to preserve the justification. */ + if (!needs_strict_alignment + && TREE_CODE (gnu_field_type) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (gnu_field_type) + && tree_int_cst_compare (gnu_size, TYPE_ADA_SIZE (gnu_field_type)) + <= 0) + gnu_field_type = TREE_TYPE (TYPE_FIELDS (gnu_field_type)); + + gnu_field_type + = make_type_from_size (gnu_field_type, gnu_size, + Has_Biased_Representation (gnat_field)); + gnu_field_type = maybe_pad_type (gnu_field_type, gnu_size, 0, gnat_field, + "PAD", false, definition, true); + } + + /* Otherwise (or if there was an error), don't specify a position. */ + else + gnu_pos = NULL_TREE; + + gcc_assert (TREE_CODE (gnu_field_type) != RECORD_TYPE + || !TYPE_CONTAINS_TEMPLATE_P (gnu_field_type)); + + /* Now create the decl for the field. */ + gnu_field = create_field_decl (gnu_field_id, gnu_field_type, gnu_record_type, + packed, gnu_size, gnu_pos, + Is_Aliased (gnat_field)); + Sloc_to_locus (Sloc (gnat_field), &DECL_SOURCE_LOCATION (gnu_field)); + TREE_THIS_VOLATILE (gnu_field) = Treat_As_Volatile (gnat_field); + + if (Ekind (gnat_field) == E_Discriminant) + DECL_DISCRIMINANT_NUMBER (gnu_field) + = UI_To_gnu (Discriminant_Number (gnat_field), sizetype); + + return gnu_field; +} + +/* Return true if TYPE is a type with variable size, a padding type with a + field of variable size or is a record that has a field such a field. */ + +static bool +is_variable_size (tree type) +{ + tree field; + + if (!TREE_CONSTANT (TYPE_SIZE (type))) + return true; + + if (TREE_CODE (type) == RECORD_TYPE + && TYPE_IS_PADDING_P (type) + && !TREE_CONSTANT (DECL_SIZE (TYPE_FIELDS (type)))) + return true; + + if (TREE_CODE (type) != RECORD_TYPE + && TREE_CODE (type) != UNION_TYPE + && TREE_CODE (type) != QUAL_UNION_TYPE) + return false; + + for (field = TYPE_FIELDS (type); field; field = TREE_CHAIN (field)) + if (is_variable_size (TREE_TYPE (field))) + return true; + + return false; +} + +/* qsort comparer for the bit positions of two record components. */ + +static int +compare_field_bitpos (const PTR rt1, const PTR rt2) +{ + const_tree const field1 = * (const_tree const *) rt1; + const_tree const field2 = * (const_tree const *) rt2; + const int ret + = tree_int_cst_compare (bit_position (field1), bit_position (field2)); + + return ret ? ret : (int) (DECL_UID (field1) - DECL_UID (field2)); +} + +/* Return a GCC tree for a record type given a GNAT Component_List and a chain + of GCC trees for fields that are in the record and have already been + processed. When called from gnat_to_gnu_entity during the processing of a + record type definition, the GCC nodes for the discriminants will be on + the chain. The other calls to this function are recursive calls from + itself for the Component_List of a variant and the chain is empty. + + PACKED is 1 if this is for a packed record, -1 if this is for a record + with Component_Alignment of Storage_Unit, -2 if this is for a record + with a specified alignment. + + DEFINITION is true if we are defining this record. + + P_GNU_REP_LIST, if nonzero, is a pointer to a list to which each field + with a rep clause is to be added. If it is nonzero, that is all that + should be done with such fields. + + CANCEL_ALIGNMENT, if true, means the alignment should be zeroed before + laying out the record. This means the alignment only serves to force fields + to be bitfields, but not require the record to be that aligned. This is + used for variants. + + ALL_REP, if true, means a rep clause was found for all the fields. This + simplifies the logic since we know we're not in the mixed case. + + DO_NOT_FINALIZE, if true, means that the record type is expected to be + modified afterwards so it will not be sent to the back-end for finalization. + + UNCHECKED_UNION, if true, means that we are building a type for a record + with a Pragma Unchecked_Union. + + The processing of the component list fills in the chain with all of the + fields of the record and then the record type is finished. */ + +static void +components_to_record (tree gnu_record_type, Node_Id component_list, + tree gnu_field_list, int packed, bool definition, + tree *p_gnu_rep_list, bool cancel_alignment, + bool all_rep, bool do_not_finalize, bool unchecked_union) +{ + Node_Id component_decl; + Entity_Id gnat_field; + Node_Id variant_part; + tree gnu_our_rep_list = NULL_TREE; + tree gnu_field, gnu_last; + bool layout_with_rep = false; + bool all_rep_and_size = all_rep && TYPE_SIZE (gnu_record_type); + + /* For each variable within each component declaration create a GCC field + and add it to the list, skipping any pragmas in the list. */ + if (Present (Component_Items (component_list))) + for (component_decl = First_Non_Pragma (Component_Items (component_list)); + Present (component_decl); + component_decl = Next_Non_Pragma (component_decl)) + { + gnat_field = Defining_Entity (component_decl); + + if (Chars (gnat_field) == Name_uParent) + gnu_field = tree_last (TYPE_FIELDS (gnu_record_type)); + else + { + gnu_field = gnat_to_gnu_field (gnat_field, gnu_record_type, + packed, definition); + + /* If this is the _Tag field, put it before any discriminants, + instead of after them as is the case for all other fields. + Ignore field of void type if only annotating. */ + if (Chars (gnat_field) == Name_uTag) + gnu_field_list = chainon (gnu_field_list, gnu_field); + else + { + TREE_CHAIN (gnu_field) = gnu_field_list; + gnu_field_list = gnu_field; + } + } + + save_gnu_tree (gnat_field, gnu_field, false); + } + + /* At the end of the component list there may be a variant part. */ + variant_part = Variant_Part (component_list); + + /* We create a QUAL_UNION_TYPE for the variant part since the variants are + mutually exclusive and should go in the same memory. To do this we need + to treat each variant as a record whose elements are created from the + component list for the variant. So here we create the records from the + lists for the variants and put them all into the QUAL_UNION_TYPE. + If this is an Unchecked_Union, we make a UNION_TYPE instead or + use GNU_RECORD_TYPE if there are no fields so far. */ + if (Present (variant_part)) + { + tree gnu_discriminant = gnat_to_gnu (Name (variant_part)); + Node_Id variant; + tree gnu_name = TYPE_NAME (gnu_record_type); + tree gnu_var_name + = concat_id_with_name (get_identifier (Get_Name_String + (Chars (Name (variant_part)))), + "XVN"); + tree gnu_union_type; + tree gnu_union_name; + tree gnu_union_field; + tree gnu_variant_list = NULL_TREE; + + if (TREE_CODE (gnu_name) == TYPE_DECL) + gnu_name = DECL_NAME (gnu_name); + + gnu_union_name = concat_id_with_name (gnu_name, + IDENTIFIER_POINTER (gnu_var_name)); + + /* Reuse an enclosing union if all fields are in the variant part + and there is no representation clause on the record, to match + the layout of C unions. There is an associated check below. */ + if (!gnu_field_list + && TREE_CODE (gnu_record_type) == UNION_TYPE + && !TYPE_PACKED (gnu_record_type)) + gnu_union_type = gnu_record_type; + else + { + gnu_union_type + = make_node (unchecked_union ? UNION_TYPE : QUAL_UNION_TYPE); + + TYPE_NAME (gnu_union_type) = gnu_union_name; + TYPE_ALIGN (gnu_union_type) = 0; + TYPE_PACKED (gnu_union_type) = TYPE_PACKED (gnu_record_type); + } + + for (variant = First_Non_Pragma (Variants (variant_part)); + Present (variant); + variant = Next_Non_Pragma (variant)) + { + tree gnu_variant_type = make_node (RECORD_TYPE); + tree gnu_inner_name; + tree gnu_qual; + + Get_Variant_Encoding (variant); + gnu_inner_name = get_identifier (Name_Buffer); + TYPE_NAME (gnu_variant_type) + = concat_id_with_name (gnu_union_name, + IDENTIFIER_POINTER (gnu_inner_name)); + + /* Set the alignment of the inner type in case we need to make + inner objects into bitfields, but then clear it out + so the record actually gets only the alignment required. */ + TYPE_ALIGN (gnu_variant_type) = TYPE_ALIGN (gnu_record_type); + TYPE_PACKED (gnu_variant_type) = TYPE_PACKED (gnu_record_type); + + /* Similarly, if the outer record has a size specified and all fields + have record rep clauses, we can propagate the size into the + variant part. */ + if (all_rep_and_size) + { + TYPE_SIZE (gnu_variant_type) = TYPE_SIZE (gnu_record_type); + TYPE_SIZE_UNIT (gnu_variant_type) + = TYPE_SIZE_UNIT (gnu_record_type); + } + + /* Create the record type for the variant. Note that we defer + finalizing it until after we are sure to actually use it. */ + components_to_record (gnu_variant_type, Component_List (variant), + NULL_TREE, packed, definition, + &gnu_our_rep_list, !all_rep_and_size, all_rep, + true, unchecked_union); + + gnu_qual = choices_to_gnu (gnu_discriminant, + Discrete_Choices (variant)); + + Set_Present_Expr (variant, annotate_value (gnu_qual)); + + /* If this is an Unchecked_Union and we have exactly one field, + use this field directly to match the layout of C unions. */ + if (unchecked_union + && TYPE_FIELDS (gnu_variant_type) + && !TREE_CHAIN (TYPE_FIELDS (gnu_variant_type))) + gnu_field = TYPE_FIELDS (gnu_variant_type); + else + { + /* Deal with packedness like in gnat_to_gnu_field. */ + int field_packed + = adjust_packed (gnu_variant_type, gnu_record_type, packed); + + /* Finalize the record type now. We used to throw away + empty records but we no longer do that because we need + them to generate complete debug info for the variant; + otherwise, the union type definition will be lacking + the fields associated with these empty variants. */ + rest_of_record_type_compilation (gnu_variant_type); + + gnu_field = create_field_decl (gnu_inner_name, gnu_variant_type, + gnu_union_type, field_packed, + (all_rep_and_size + ? TYPE_SIZE (gnu_variant_type) + : 0), + (all_rep_and_size + ? bitsize_zero_node : 0), + 0); + + DECL_INTERNAL_P (gnu_field) = 1; + + if (!unchecked_union) + DECL_QUALIFIER (gnu_field) = gnu_qual; + } + + TREE_CHAIN (gnu_field) = gnu_variant_list; + gnu_variant_list = gnu_field; + } + + /* Only make the QUAL_UNION_TYPE if there are any non-empty variants. */ + if (gnu_variant_list) + { + int union_field_packed; + + if (all_rep_and_size) + { + TYPE_SIZE (gnu_union_type) = TYPE_SIZE (gnu_record_type); + TYPE_SIZE_UNIT (gnu_union_type) + = TYPE_SIZE_UNIT (gnu_record_type); + } + + finish_record_type (gnu_union_type, nreverse (gnu_variant_list), + all_rep_and_size ? 1 : 0, false); + + /* If GNU_UNION_TYPE is our record type, it means we must have an + Unchecked_Union with no fields. Verify that and, if so, just + return. */ + if (gnu_union_type == gnu_record_type) + { + gcc_assert (unchecked_union + && !gnu_field_list + && !gnu_our_rep_list); + return; + } + + /* Deal with packedness like in gnat_to_gnu_field. */ + union_field_packed + = adjust_packed (gnu_union_type, gnu_record_type, packed); + + gnu_union_field + = create_field_decl (gnu_var_name, gnu_union_type, gnu_record_type, + union_field_packed, + all_rep ? TYPE_SIZE (gnu_union_type) : 0, + all_rep ? bitsize_zero_node : 0, 0); + + DECL_INTERNAL_P (gnu_union_field) = 1; + TREE_CHAIN (gnu_union_field) = gnu_field_list; + gnu_field_list = gnu_union_field; + } + } + + /* Scan GNU_FIELD_LIST and see if any fields have rep clauses. If they + do, pull them out and put them into GNU_OUR_REP_LIST. We have to do this + in a separate pass since we want to handle the discriminants but can't + play with them until we've used them in debugging data above. + + ??? Note: if we then reorder them, debugging information will be wrong, + but there's nothing that can be done about this at the moment. */ + for (gnu_field = gnu_field_list, gnu_last = NULL_TREE; gnu_field; ) + { + if (DECL_FIELD_OFFSET (gnu_field)) + { + tree gnu_next = TREE_CHAIN (gnu_field); + + if (!gnu_last) + gnu_field_list = gnu_next; + else + TREE_CHAIN (gnu_last) = gnu_next; + + TREE_CHAIN (gnu_field) = gnu_our_rep_list; + gnu_our_rep_list = gnu_field; + gnu_field = gnu_next; + } + else + { + gnu_last = gnu_field; + gnu_field = TREE_CHAIN (gnu_field); + } + } + + /* If we have any items in our rep'ed field list, it is not the case that all + the fields in the record have rep clauses, and P_REP_LIST is nonzero, + set it and ignore the items. */ + if (gnu_our_rep_list && p_gnu_rep_list && !all_rep) + *p_gnu_rep_list = chainon (*p_gnu_rep_list, gnu_our_rep_list); + else if (gnu_our_rep_list) + { + /* Otherwise, sort the fields by bit position and put them into their + own record if we have any fields without rep clauses. */ + tree gnu_rep_type + = (gnu_field_list ? make_node (RECORD_TYPE) : gnu_record_type); + int len = list_length (gnu_our_rep_list); + tree *gnu_arr = (tree *) alloca (sizeof (tree) * len); + int i; + + for (i = 0, gnu_field = gnu_our_rep_list; gnu_field; + gnu_field = TREE_CHAIN (gnu_field), i++) + gnu_arr[i] = gnu_field; + + qsort (gnu_arr, len, sizeof (tree), compare_field_bitpos); + + /* Put the fields in the list in order of increasing position, which + means we start from the end. */ + gnu_our_rep_list = NULL_TREE; + for (i = len - 1; i >= 0; i--) + { + TREE_CHAIN (gnu_arr[i]) = gnu_our_rep_list; + gnu_our_rep_list = gnu_arr[i]; + DECL_CONTEXT (gnu_arr[i]) = gnu_rep_type; + } + + if (gnu_field_list) + { + finish_record_type (gnu_rep_type, gnu_our_rep_list, 1, false); + gnu_field = create_field_decl (get_identifier ("REP"), gnu_rep_type, + gnu_record_type, 0, 0, 0, 1); + DECL_INTERNAL_P (gnu_field) = 1; + gnu_field_list = chainon (gnu_field_list, gnu_field); + } + else + { + layout_with_rep = true; + gnu_field_list = nreverse (gnu_our_rep_list); + } + } + + if (cancel_alignment) + TYPE_ALIGN (gnu_record_type) = 0; + + finish_record_type (gnu_record_type, nreverse (gnu_field_list), + layout_with_rep ? 1 : 0, do_not_finalize); +} + +/* Given GNU_SIZE, a GCC tree representing a size, return a Uint to be + placed into an Esize, Component_Bit_Offset, or Component_Size value + in the GNAT tree. */ + +static Uint +annotate_value (tree gnu_size) +{ + int len = TREE_CODE_LENGTH (TREE_CODE (gnu_size)); + TCode tcode; + Node_Ref_Or_Val ops[3], ret; + int i; + int size; + struct tree_int_map **h = NULL; + + /* See if we've already saved the value for this node. */ + if (EXPR_P (gnu_size)) + { + struct tree_int_map in; + if (!annotate_value_cache) + annotate_value_cache = htab_create_ggc (512, tree_int_map_hash, + tree_int_map_eq, 0); + in.base.from = gnu_size; + h = (struct tree_int_map **) + htab_find_slot (annotate_value_cache, &in, INSERT); + + if (*h) + return (Node_Ref_Or_Val) (*h)->to; + } + + /* If we do not return inside this switch, TCODE will be set to the + code to use for a Create_Node operand and LEN (set above) will be + the number of recursive calls for us to make. */ + + switch (TREE_CODE (gnu_size)) + { + case INTEGER_CST: + if (TREE_OVERFLOW (gnu_size)) + return No_Uint; + + /* This may have come from a conversion from some smaller type, + so ensure this is in bitsizetype. */ + gnu_size = convert (bitsizetype, gnu_size); + + /* For negative values, use NEGATE_EXPR of the supplied value. */ + if (tree_int_cst_sgn (gnu_size) < 0) + { + /* The ridiculous code below is to handle the case of the largest + negative integer. */ + tree negative_size = size_diffop (bitsize_zero_node, gnu_size); + bool adjust = false; + tree temp; + + if (TREE_OVERFLOW (negative_size)) + { + negative_size + = size_binop (MINUS_EXPR, bitsize_zero_node, + size_binop (PLUS_EXPR, gnu_size, + bitsize_one_node)); + adjust = true; + } + + temp = build1 (NEGATE_EXPR, bitsizetype, negative_size); + if (adjust) + temp = build2 (MINUS_EXPR, bitsizetype, temp, bitsize_one_node); + + return annotate_value (temp); + } + + if (!host_integerp (gnu_size, 1)) + return No_Uint; + + size = tree_low_cst (gnu_size, 1); + + /* This peculiar test is to make sure that the size fits in an int + on machines where HOST_WIDE_INT is not "int". */ + if (tree_low_cst (gnu_size, 1) == size) + return UI_From_Int (size); + else + return No_Uint; + + case COMPONENT_REF: + /* The only case we handle here is a simple discriminant reference. */ + if (TREE_CODE (TREE_OPERAND (gnu_size, 0)) == PLACEHOLDER_EXPR + && TREE_CODE (TREE_OPERAND (gnu_size, 1)) == FIELD_DECL + && DECL_DISCRIMINANT_NUMBER (TREE_OPERAND (gnu_size, 1))) + return Create_Node (Discrim_Val, + annotate_value (DECL_DISCRIMINANT_NUMBER + (TREE_OPERAND (gnu_size, 1))), + No_Uint, No_Uint); + else + return No_Uint; + + CASE_CONVERT: case NON_LVALUE_EXPR: + return annotate_value (TREE_OPERAND (gnu_size, 0)); + + /* Now just list the operations we handle. */ + case COND_EXPR: tcode = Cond_Expr; break; + case PLUS_EXPR: tcode = Plus_Expr; break; + case MINUS_EXPR: tcode = Minus_Expr; break; + case MULT_EXPR: tcode = Mult_Expr; break; + case TRUNC_DIV_EXPR: tcode = Trunc_Div_Expr; break; + case CEIL_DIV_EXPR: tcode = Ceil_Div_Expr; break; + case FLOOR_DIV_EXPR: tcode = Floor_Div_Expr; break; + case TRUNC_MOD_EXPR: tcode = Trunc_Mod_Expr; break; + case CEIL_MOD_EXPR: tcode = Ceil_Mod_Expr; break; + case FLOOR_MOD_EXPR: tcode = Floor_Mod_Expr; break; + case EXACT_DIV_EXPR: tcode = Exact_Div_Expr; break; + case NEGATE_EXPR: tcode = Negate_Expr; break; + case MIN_EXPR: tcode = Min_Expr; break; + case MAX_EXPR: tcode = Max_Expr; break; + case ABS_EXPR: tcode = Abs_Expr; break; + case TRUTH_ANDIF_EXPR: tcode = Truth_Andif_Expr; break; + case TRUTH_ORIF_EXPR: tcode = Truth_Orif_Expr; break; + case TRUTH_AND_EXPR: tcode = Truth_And_Expr; break; + case TRUTH_OR_EXPR: tcode = Truth_Or_Expr; break; + case TRUTH_XOR_EXPR: tcode = Truth_Xor_Expr; break; + case TRUTH_NOT_EXPR: tcode = Truth_Not_Expr; break; + case BIT_AND_EXPR: tcode = Bit_And_Expr; break; + case LT_EXPR: tcode = Lt_Expr; break; + case LE_EXPR: tcode = Le_Expr; break; + case GT_EXPR: tcode = Gt_Expr; break; + case GE_EXPR: tcode = Ge_Expr; break; + case EQ_EXPR: tcode = Eq_Expr; break; + case NE_EXPR: tcode = Ne_Expr; break; + + default: + return No_Uint; + } + + /* Now get each of the operands that's relevant for this code. If any + cannot be expressed as a repinfo node, say we can't. */ + for (i = 0; i < 3; i++) + ops[i] = No_Uint; + + for (i = 0; i < len; i++) + { + ops[i] = annotate_value (TREE_OPERAND (gnu_size, i)); + if (ops[i] == No_Uint) + return No_Uint; + } + + ret = Create_Node (tcode, ops[0], ops[1], ops[2]); + + /* Save the result in the cache. */ + if (h) + { + *h = GGC_NEW (struct tree_int_map); + (*h)->base.from = gnu_size; + (*h)->to = ret; + } + + return ret; +} + +/* Given GNAT_ENTITY, a record type, and GNU_TYPE, its corresponding + GCC type, set Component_Bit_Offset and Esize to the position and size + used by Gigi. */ + +static void +annotate_rep (Entity_Id gnat_entity, tree gnu_type) +{ + tree gnu_list; + tree gnu_entry; + Entity_Id gnat_field; + + /* We operate by first making a list of all fields and their positions + (we can get the sizes easily at any time) by a recursive call + and then update all the sizes into the tree. */ + gnu_list = compute_field_positions (gnu_type, NULL_TREE, + size_zero_node, bitsize_zero_node, + BIGGEST_ALIGNMENT); + + for (gnat_field = First_Entity (gnat_entity); Present (gnat_field); + gnat_field = Next_Entity (gnat_field)) + if ((Ekind (gnat_field) == E_Component + || (Ekind (gnat_field) == E_Discriminant + && !Is_Unchecked_Union (Scope (gnat_field))))) + { + tree parent_offset = bitsize_zero_node; + + gnu_entry = purpose_member (gnat_to_gnu_field_decl (gnat_field), + gnu_list); + + if (gnu_entry) + { + if (type_annotate_only && Is_Tagged_Type (gnat_entity)) + { + /* In this mode the tag and parent components have not been + generated, so we add the appropriate offset to each + component. For a component appearing in the current + extension, the offset is the size of the parent. */ + if (Is_Derived_Type (gnat_entity) + && Original_Record_Component (gnat_field) == gnat_field) + parent_offset + = UI_To_gnu (Esize (Etype (Base_Type (gnat_entity))), + bitsizetype); + else + parent_offset = bitsize_int (POINTER_SIZE); + } + + Set_Component_Bit_Offset + (gnat_field, + annotate_value + (size_binop (PLUS_EXPR, + bit_from_pos (TREE_PURPOSE (TREE_VALUE (gnu_entry)), + TREE_VALUE (TREE_VALUE + (TREE_VALUE (gnu_entry)))), + parent_offset))); + + Set_Esize (gnat_field, + annotate_value (DECL_SIZE (TREE_PURPOSE (gnu_entry)))); + } + else if (Is_Tagged_Type (gnat_entity) + && Is_Derived_Type (gnat_entity)) + { + /* If there is no gnu_entry, this is an inherited component whose + position is the same as in the parent type. */ + Set_Component_Bit_Offset + (gnat_field, + Component_Bit_Offset (Original_Record_Component (gnat_field))); + Set_Esize (gnat_field, + Esize (Original_Record_Component (gnat_field))); + } + } +} + +/* Scan all fields in GNU_TYPE and build entries where TREE_PURPOSE is the + FIELD_DECL and TREE_VALUE a TREE_LIST with TREE_PURPOSE being the byte + position and TREE_VALUE being a TREE_LIST with TREE_PURPOSE the value to be + placed into DECL_OFFSET_ALIGN and TREE_VALUE the bit position. GNU_POS is + to be added to the position, GNU_BITPOS to the bit position, OFFSET_ALIGN is + the present value of DECL_OFFSET_ALIGN and GNU_LIST is a list of the entries + so far. */ + +static tree +compute_field_positions (tree gnu_type, tree gnu_list, tree gnu_pos, + tree gnu_bitpos, unsigned int offset_align) +{ + tree gnu_field; + tree gnu_result = gnu_list; + + for (gnu_field = TYPE_FIELDS (gnu_type); gnu_field; + gnu_field = TREE_CHAIN (gnu_field)) + { + tree gnu_our_bitpos = size_binop (PLUS_EXPR, gnu_bitpos, + DECL_FIELD_BIT_OFFSET (gnu_field)); + tree gnu_our_offset = size_binop (PLUS_EXPR, gnu_pos, + DECL_FIELD_OFFSET (gnu_field)); + unsigned int our_offset_align + = MIN (offset_align, DECL_OFFSET_ALIGN (gnu_field)); + + gnu_result + = tree_cons (gnu_field, + tree_cons (gnu_our_offset, + tree_cons (size_int (our_offset_align), + gnu_our_bitpos, NULL_TREE), + NULL_TREE), + gnu_result); + + if (DECL_INTERNAL_P (gnu_field)) + gnu_result + = compute_field_positions (TREE_TYPE (gnu_field), gnu_result, + gnu_our_offset, gnu_our_bitpos, + our_offset_align); + } + + return gnu_result; +} + +/* UINT_SIZE is a Uint giving the specified size for an object of GNU_TYPE + corresponding to GNAT_OBJECT. If size is valid, return a tree corresponding + to its value. Otherwise return 0. KIND is VAR_DECL is we are specifying + the size for an object, TYPE_DECL for the size of a type, and FIELD_DECL + for the size of a field. COMPONENT_P is true if we are being called + to process the Component_Size of GNAT_OBJECT. This is used for error + message handling and to indicate to use the object size of GNU_TYPE. + ZERO_OK is true if a size of zero is permitted; if ZERO_OK is false, + it means that a size of zero should be treated as an unspecified size. */ + +static tree +validate_size (Uint uint_size, tree gnu_type, Entity_Id gnat_object, + enum tree_code kind, bool component_p, bool zero_ok) +{ + Node_Id gnat_error_node; + tree type_size, size; + + if (kind == VAR_DECL + /* If a type needs strict alignment, a component of this type in + a packed record cannot be packed and thus uses the type size. */ + || (kind == TYPE_DECL && Strict_Alignment (gnat_object))) + type_size = TYPE_SIZE (gnu_type); + else + type_size = rm_size (gnu_type); + + /* Find the node to use for errors. */ + if ((Ekind (gnat_object) == E_Component + || Ekind (gnat_object) == E_Discriminant) + && Present (Component_Clause (gnat_object))) + gnat_error_node = Last_Bit (Component_Clause (gnat_object)); + else if (Present (Size_Clause (gnat_object))) + gnat_error_node = Expression (Size_Clause (gnat_object)); + else + gnat_error_node = gnat_object; + + /* Return 0 if no size was specified, either because Esize was not Present or + the specified size was zero. */ + if (No (uint_size) || uint_size == No_Uint) + return NULL_TREE; + + /* Get the size as a tree. Give an error if a size was specified, but cannot + be represented as in sizetype. */ + size = UI_To_gnu (uint_size, bitsizetype); + if (TREE_OVERFLOW (size)) + { + post_error_ne (component_p ? "component size of & is too large" + : "size of & is too large", + gnat_error_node, gnat_object); + return NULL_TREE; + } + + /* Ignore a negative size since that corresponds to our back-annotation. + Also ignore a zero size unless a size clause exists. */ + else if (tree_int_cst_sgn (size) < 0 || (integer_zerop (size) && !zero_ok)) + return NULL_TREE; + + /* The size of objects is always a multiple of a byte. */ + if (kind == VAR_DECL + && !integer_zerop (size_binop (TRUNC_MOD_EXPR, size, bitsize_unit_node))) + { + if (component_p) + post_error_ne ("component size for& is not a multiple of Storage_Unit", + gnat_error_node, gnat_object); + else + post_error_ne ("size for& is not a multiple of Storage_Unit", + gnat_error_node, gnat_object); + return NULL_TREE; + } + + /* If this is an integral type or a packed array type, the front-end has + verified the size, so we need not do it here (which would entail + checking against the bounds). However, if this is an aliased object, it + may not be smaller than the type of the object. */ + if ((INTEGRAL_TYPE_P (gnu_type) || TYPE_IS_PACKED_ARRAY_TYPE_P (gnu_type)) + && !(kind == VAR_DECL && Is_Aliased (gnat_object))) + return size; + + /* If the object is a record that contains a template, add the size of + the template to the specified size. */ + if (TREE_CODE (gnu_type) == RECORD_TYPE + && TYPE_CONTAINS_TEMPLATE_P (gnu_type)) + size = size_binop (PLUS_EXPR, DECL_SIZE (TYPE_FIELDS (gnu_type)), size); + + /* Modify the size of the type to be that of the maximum size if it has a + discriminant. */ + if (type_size && CONTAINS_PLACEHOLDER_P (type_size)) + type_size = max_size (type_size, true); + + /* If this is an access type or a fat pointer, the minimum size is that given + by the smallest integral mode that's valid for pointers. */ + if ((TREE_CODE (gnu_type) == POINTER_TYPE) || TYPE_FAT_POINTER_P (gnu_type)) + { + enum machine_mode p_mode; + + for (p_mode = GET_CLASS_NARROWEST_MODE (MODE_INT); + !targetm.valid_pointer_mode (p_mode); + p_mode = GET_MODE_WIDER_MODE (p_mode)) + ; + + type_size = bitsize_int (GET_MODE_BITSIZE (p_mode)); + } + + /* If the size of the object is a constant, the new size must not be + smaller. */ + if (TREE_CODE (type_size) != INTEGER_CST + || TREE_OVERFLOW (type_size) + || tree_int_cst_lt (size, type_size)) + { + if (component_p) + post_error_ne_tree + ("component size for& too small{, minimum allowed is ^}", + gnat_error_node, gnat_object, type_size); + else + post_error_ne_tree ("size for& too small{, minimum allowed is ^}", + gnat_error_node, gnat_object, type_size); + + if (kind == VAR_DECL && !component_p + && TREE_CODE (rm_size (gnu_type)) == INTEGER_CST + && !tree_int_cst_lt (size, rm_size (gnu_type))) + post_error_ne_tree_2 + ("\\size of ^ is not a multiple of alignment (^ bits)", + gnat_error_node, gnat_object, rm_size (gnu_type), + TYPE_ALIGN (gnu_type)); + + else if (INTEGRAL_TYPE_P (gnu_type)) + post_error_ne ("\\size would be legal if & were not aliased!", + gnat_error_node, gnat_object); + + return NULL_TREE; + } + + return size; +} + +/* Similarly, but both validate and process a value of RM_Size. This + routine is only called for types. */ + +static void +set_rm_size (Uint uint_size, tree gnu_type, Entity_Id gnat_entity) +{ + /* Only give an error if a Value_Size clause was explicitly given. + Otherwise, we'd be duplicating an error on the Size clause. */ + Node_Id gnat_attr_node + = Get_Attribute_Definition_Clause (gnat_entity, Attr_Value_Size); + tree old_size = rm_size (gnu_type); + tree size; + + /* Get the size as a tree. Do nothing if none was specified, either + because RM_Size was not Present or if the specified size was zero. + Give an error if a size was specified, but cannot be represented as + in sizetype. */ + if (No (uint_size) || uint_size == No_Uint) + return; + + size = UI_To_gnu (uint_size, bitsizetype); + if (TREE_OVERFLOW (size)) + { + if (Present (gnat_attr_node)) + post_error_ne ("Value_Size of & is too large", gnat_attr_node, + gnat_entity); + + return; + } + + /* Ignore a negative size since that corresponds to our back-annotation. + Also ignore a zero size unless a size clause exists, a Value_Size + clause exists, or this is an integer type, in which case the + front end will have always set it. */ + else if (tree_int_cst_sgn (size) < 0 + || (integer_zerop (size) && No (gnat_attr_node) + && !Has_Size_Clause (gnat_entity) + && !Is_Discrete_Or_Fixed_Point_Type (gnat_entity))) + return; + + /* If the old size is self-referential, get the maximum size. */ + if (CONTAINS_PLACEHOLDER_P (old_size)) + old_size = max_size (old_size, true); + + /* If the size of the object is a constant, the new size must not be + smaller (the front end checks this for scalar types). */ + if (TREE_CODE (old_size) != INTEGER_CST + || TREE_OVERFLOW (old_size) + || (AGGREGATE_TYPE_P (gnu_type) + && tree_int_cst_lt (size, old_size))) + { + if (Present (gnat_attr_node)) + post_error_ne_tree + ("Value_Size for& too small{, minimum allowed is ^}", + gnat_attr_node, gnat_entity, old_size); + + return; + } + + /* Otherwise, set the RM_Size. */ + if (TREE_CODE (gnu_type) == INTEGER_TYPE + && Is_Discrete_Or_Fixed_Point_Type (gnat_entity)) + TYPE_RM_SIZE_NUM (gnu_type) = size; + else if (TREE_CODE (gnu_type) == ENUMERAL_TYPE) + TYPE_RM_SIZE_NUM (gnu_type) = size; + else if ((TREE_CODE (gnu_type) == RECORD_TYPE + || TREE_CODE (gnu_type) == UNION_TYPE + || TREE_CODE (gnu_type) == QUAL_UNION_TYPE) + && !TYPE_IS_FAT_POINTER_P (gnu_type)) + SET_TYPE_ADA_SIZE (gnu_type, size); +} + +/* Given a type TYPE, return a new type whose size is appropriate for SIZE. + If TYPE is the best type, return it. Otherwise, make a new type. We + only support new integral and pointer types. FOR_BIASED is nonzero if + we are making a biased type. */ + +static tree +make_type_from_size (tree type, tree size_tree, bool for_biased) +{ + unsigned HOST_WIDE_INT size; + bool biased_p; + tree new_type; + + /* If size indicates an error, just return TYPE to avoid propagating + the error. Likewise if it's too large to represent. */ + if (!size_tree || !host_integerp (size_tree, 1)) + return type; + + size = tree_low_cst (size_tree, 1); + + switch (TREE_CODE (type)) + { + case INTEGER_TYPE: + case ENUMERAL_TYPE: + biased_p = (TREE_CODE (type) == INTEGER_TYPE + && TYPE_BIASED_REPRESENTATION_P (type)); + + /* Only do something if the type is not a packed array type and + doesn't already have the proper size. */ + if (TYPE_PACKED_ARRAY_TYPE_P (type) + || (TYPE_PRECISION (type) == size && biased_p == for_biased)) + break; + + biased_p |= for_biased; + size = MIN (size, LONG_LONG_TYPE_SIZE); + + if (TYPE_UNSIGNED (type) || biased_p) + new_type = make_unsigned_type (size); + else + new_type = make_signed_type (size); + TREE_TYPE (new_type) = TREE_TYPE (type) ? TREE_TYPE (type) : type; + TYPE_MIN_VALUE (new_type) + = convert (TREE_TYPE (new_type), TYPE_MIN_VALUE (type)); + TYPE_MAX_VALUE (new_type) + = convert (TREE_TYPE (new_type), TYPE_MAX_VALUE (type)); + TYPE_BIASED_REPRESENTATION_P (new_type) = biased_p; + TYPE_RM_SIZE_NUM (new_type) = bitsize_int (size); + return new_type; + + case RECORD_TYPE: + /* Do something if this is a fat pointer, in which case we + may need to return the thin pointer. */ + if (TYPE_IS_FAT_POINTER_P (type) && size < POINTER_SIZE * 2) + return + build_pointer_type + (TYPE_OBJECT_RECORD_TYPE (TYPE_UNCONSTRAINED_ARRAY (type))); + break; + + case POINTER_TYPE: + /* Only do something if this is a thin pointer, in which case we + may need to return the fat pointer. */ + if (TYPE_THIN_POINTER_P (type) && size >= POINTER_SIZE * 2) + return + build_pointer_type (TYPE_UNCONSTRAINED_ARRAY (TREE_TYPE (type))); + break; + + default: + break; + } + + return type; +} + +/* ALIGNMENT is a Uint giving the alignment specified for GNAT_ENTITY, + a type or object whose present alignment is ALIGN. If this alignment is + valid, return it. Otherwise, give an error and return ALIGN. */ + +static unsigned int +validate_alignment (Uint alignment, Entity_Id gnat_entity, unsigned int align) +{ + unsigned int max_allowed_alignment = get_target_maximum_allowed_alignment (); + unsigned int new_align; + Node_Id gnat_error_node; + + /* Don't worry about checking alignment if alignment was not specified + by the source program and we already posted an error for this entity. */ + if (Error_Posted (gnat_entity) && !Has_Alignment_Clause (gnat_entity)) + return align; + + /* Post the error on the alignment clause if any. */ + if (Present (Alignment_Clause (gnat_entity))) + gnat_error_node = Expression (Alignment_Clause (gnat_entity)); + else + gnat_error_node = gnat_entity; + + /* Within GCC, an alignment is an integer, so we must make sure a value is + specified that fits in that range. Also, there is an upper bound to + alignments we can support/allow. */ + if (!UI_Is_In_Int_Range (alignment) + || ((new_align = UI_To_Int (alignment)) > max_allowed_alignment)) + post_error_ne_num ("largest supported alignment for& is ^", + gnat_error_node, gnat_entity, max_allowed_alignment); + else if (!(Present (Alignment_Clause (gnat_entity)) + && From_At_Mod (Alignment_Clause (gnat_entity))) + && new_align * BITS_PER_UNIT < align) + post_error_ne_num ("alignment for& must be at least ^", + gnat_error_node, gnat_entity, + align / BITS_PER_UNIT); + else + { + new_align = (new_align > 0 ? new_align * BITS_PER_UNIT : 1); + if (new_align > align) + align = new_align; + } + + return align; +} + +/* Return the smallest alignment not less than SIZE. */ + +static unsigned int +ceil_alignment (unsigned HOST_WIDE_INT size) +{ + return (unsigned int) 1 << (floor_log2 (size - 1) + 1); +} + +/* Verify that OBJECT, a type or decl, is something we can implement + atomically. If not, give an error for GNAT_ENTITY. COMP_P is true + if we require atomic components. */ + +static void +check_ok_for_atomic (tree object, Entity_Id gnat_entity, bool comp_p) +{ + Node_Id gnat_error_point = gnat_entity; + Node_Id gnat_node; + enum machine_mode mode; + unsigned int align; + tree size; + + /* There are three case of what OBJECT can be. It can be a type, in which + case we take the size, alignment and mode from the type. It can be a + declaration that was indirect, in which case the relevant values are + that of the type being pointed to, or it can be a normal declaration, + in which case the values are of the decl. The code below assumes that + OBJECT is either a type or a decl. */ + if (TYPE_P (object)) + { + mode = TYPE_MODE (object); + align = TYPE_ALIGN (object); + size = TYPE_SIZE (object); + } + else if (DECL_BY_REF_P (object)) + { + mode = TYPE_MODE (TREE_TYPE (TREE_TYPE (object))); + align = TYPE_ALIGN (TREE_TYPE (TREE_TYPE (object))); + size = TYPE_SIZE (TREE_TYPE (TREE_TYPE (object))); + } + else + { + mode = DECL_MODE (object); + align = DECL_ALIGN (object); + size = DECL_SIZE (object); + } + + /* Consider all floating-point types atomic and any types that that are + represented by integers no wider than a machine word. */ + if (GET_MODE_CLASS (mode) == MODE_FLOAT + || ((GET_MODE_CLASS (mode) == MODE_INT + || GET_MODE_CLASS (mode) == MODE_PARTIAL_INT) + && GET_MODE_BITSIZE (mode) <= BITS_PER_WORD)) + return; + + /* For the moment, also allow anything that has an alignment equal + to its size and which is smaller than a word. */ + if (size && TREE_CODE (size) == INTEGER_CST + && compare_tree_int (size, align) == 0 + && align <= BITS_PER_WORD) + return; + + for (gnat_node = First_Rep_Item (gnat_entity); Present (gnat_node); + gnat_node = Next_Rep_Item (gnat_node)) + { + if (!comp_p && Nkind (gnat_node) == N_Pragma + && (Get_Pragma_Id (Chars (Pragma_Identifier (gnat_node))) + == Pragma_Atomic)) + gnat_error_point = First (Pragma_Argument_Associations (gnat_node)); + else if (comp_p && Nkind (gnat_node) == N_Pragma + && (Get_Pragma_Id (Chars (Pragma_Identifier (gnat_node))) + == Pragma_Atomic_Components)) + gnat_error_point = First (Pragma_Argument_Associations (gnat_node)); + } + + if (comp_p) + post_error_ne ("atomic access to component of & cannot be guaranteed", + gnat_error_point, gnat_entity); + else + post_error_ne ("atomic access to & cannot be guaranteed", + gnat_error_point, gnat_entity); +} + +/* Check if FTYPE1 and FTYPE2, two potentially different function type nodes, + have compatible signatures so that a call using one type may be safely + issued if the actual target function type is the other. Return 1 if it is + the case, 0 otherwise, and post errors on the incompatibilities. + + This is used when an Ada subprogram is mapped onto a GCC builtin, to ensure + that calls to the subprogram will have arguments suitable for the later + underlying builtin expansion. */ + +static int +compatible_signatures_p (tree ftype1, tree ftype2) +{ + /* As of now, we only perform very trivial tests and consider it's the + programmer's responsibility to ensure the type correctness in the Ada + declaration, as in the regular Import cases. + + Mismatches typically result in either error messages from the builtin + expander, internal compiler errors, or in a real call sequence. This + should be refined to issue diagnostics helping error detection and + correction. */ + + /* Almost fake test, ensuring a use of each argument. */ + if (ftype1 == ftype2) + return 1; + + return 1; +} + +/* Given a type T, a FIELD_DECL F, and a replacement value R, return a new + type with all size expressions that contain F updated by replacing F + with R. If F is NULL_TREE, always make a new RECORD_TYPE, even if + nothing has changed. */ + +tree +substitute_in_type (tree t, tree f, tree r) +{ + tree new = t; + tree tem; + + switch (TREE_CODE (t)) + { + case INTEGER_TYPE: + case ENUMERAL_TYPE: + case BOOLEAN_TYPE: + if (CONTAINS_PLACEHOLDER_P (TYPE_MIN_VALUE (t)) + || CONTAINS_PLACEHOLDER_P (TYPE_MAX_VALUE (t))) + { + tree low = SUBSTITUTE_IN_EXPR (TYPE_MIN_VALUE (t), f, r); + tree high = SUBSTITUTE_IN_EXPR (TYPE_MAX_VALUE (t), f, r); + + if (low == TYPE_MIN_VALUE (t) && high == TYPE_MAX_VALUE (t)) + return t; + + new = build_range_type (TREE_TYPE (t), low, high); + if (TYPE_INDEX_TYPE (t)) + SET_TYPE_INDEX_TYPE + (new, substitute_in_type (TYPE_INDEX_TYPE (t), f, r)); + return new; + } + + return t; + + case REAL_TYPE: + if (CONTAINS_PLACEHOLDER_P (TYPE_MIN_VALUE (t)) + || CONTAINS_PLACEHOLDER_P (TYPE_MAX_VALUE (t))) + { + tree low = NULL_TREE, high = NULL_TREE; + + if (TYPE_MIN_VALUE (t)) + low = SUBSTITUTE_IN_EXPR (TYPE_MIN_VALUE (t), f, r); + if (TYPE_MAX_VALUE (t)) + high = SUBSTITUTE_IN_EXPR (TYPE_MAX_VALUE (t), f, r); + + if (low == TYPE_MIN_VALUE (t) && high == TYPE_MAX_VALUE (t)) + return t; + + t = copy_type (t); + TYPE_MIN_VALUE (t) = low; + TYPE_MAX_VALUE (t) = high; + } + return t; + + case COMPLEX_TYPE: + tem = substitute_in_type (TREE_TYPE (t), f, r); + if (tem == TREE_TYPE (t)) + return t; + + return build_complex_type (tem); + + case OFFSET_TYPE: + case METHOD_TYPE: + case FUNCTION_TYPE: + case LANG_TYPE: + /* Don't know how to do these yet. */ + gcc_unreachable (); + + case ARRAY_TYPE: + { + tree component = substitute_in_type (TREE_TYPE (t), f, r); + tree domain = substitute_in_type (TYPE_DOMAIN (t), f, r); + + if (component == TREE_TYPE (t) && domain == TYPE_DOMAIN (t)) + return t; + + new = build_array_type (component, domain); + TYPE_SIZE (new) = 0; + TYPE_MULTI_ARRAY_P (new) = TYPE_MULTI_ARRAY_P (t); + TYPE_CONVENTION_FORTRAN_P (new) = TYPE_CONVENTION_FORTRAN_P (t); + layout_type (new); + TYPE_ALIGN (new) = TYPE_ALIGN (t); + TYPE_USER_ALIGN (new) = TYPE_USER_ALIGN (t); + + /* If we had bounded the sizes of T by a constant, bound the sizes of + NEW by the same constant. */ + if (TREE_CODE (TYPE_SIZE (t)) == MIN_EXPR) + TYPE_SIZE (new) + = size_binop (MIN_EXPR, TREE_OPERAND (TYPE_SIZE (t), 1), + TYPE_SIZE (new)); + if (TREE_CODE (TYPE_SIZE_UNIT (t)) == MIN_EXPR) + TYPE_SIZE_UNIT (new) + = size_binop (MIN_EXPR, TREE_OPERAND (TYPE_SIZE_UNIT (t), 1), + TYPE_SIZE_UNIT (new)); + return new; + } + + case RECORD_TYPE: + case UNION_TYPE: + case QUAL_UNION_TYPE: + { + tree field; + bool changed_field + = (f == NULL_TREE && !TREE_CONSTANT (TYPE_SIZE (t))); + bool field_has_rep = false; + tree last_field = NULL_TREE; + + tree new = copy_type (t); + + /* Start out with no fields, make new fields, and chain them + in. If we haven't actually changed the type of any field, + discard everything we've done and return the old type. */ + + TYPE_FIELDS (new) = NULL_TREE; + TYPE_SIZE (new) = NULL_TREE; + + for (field = TYPE_FIELDS (t); field; field = TREE_CHAIN (field)) + { + tree new_field = copy_node (field); + + TREE_TYPE (new_field) + = substitute_in_type (TREE_TYPE (new_field), f, r); + + if (DECL_HAS_REP_P (field) && !DECL_INTERNAL_P (field)) + field_has_rep = true; + else if (TREE_TYPE (new_field) != TREE_TYPE (field)) + changed_field = true; + + /* If this is an internal field and the type of this field is + a UNION_TYPE or RECORD_TYPE with no elements, ignore it. If + the type just has one element, treat that as the field. + But don't do this if we are processing a QUAL_UNION_TYPE. */ + if (TREE_CODE (t) != QUAL_UNION_TYPE + && DECL_INTERNAL_P (new_field) + && (TREE_CODE (TREE_TYPE (new_field)) == UNION_TYPE + || TREE_CODE (TREE_TYPE (new_field)) == RECORD_TYPE)) + { + if (!TYPE_FIELDS (TREE_TYPE (new_field))) + continue; + + if (!TREE_CHAIN (TYPE_FIELDS (TREE_TYPE (new_field)))) + { + tree next_new_field + = copy_node (TYPE_FIELDS (TREE_TYPE (new_field))); + + /* Make sure omitting the union doesn't change + the layout. */ + DECL_ALIGN (next_new_field) = DECL_ALIGN (new_field); + new_field = next_new_field; + } + } + + DECL_CONTEXT (new_field) = new; + SET_DECL_ORIGINAL_FIELD (new_field, + (DECL_ORIGINAL_FIELD (field) + ? DECL_ORIGINAL_FIELD (field) : field)); + + /* If the size of the old field was set at a constant, + propagate the size in case the type's size was variable. + (This occurs in the case of a variant or discriminated + record with a default size used as a field of another + record.) */ + DECL_SIZE (new_field) + = TREE_CODE (DECL_SIZE (field)) == INTEGER_CST + ? DECL_SIZE (field) : NULL_TREE; + DECL_SIZE_UNIT (new_field) + = TREE_CODE (DECL_SIZE_UNIT (field)) == INTEGER_CST + ? DECL_SIZE_UNIT (field) : NULL_TREE; + + if (TREE_CODE (t) == QUAL_UNION_TYPE) + { + tree new_q = SUBSTITUTE_IN_EXPR (DECL_QUALIFIER (field), f, r); + + if (new_q != DECL_QUALIFIER (new_field)) + changed_field = true; + + /* Do the substitution inside the qualifier and if we find + that this field will not be present, omit it. */ + DECL_QUALIFIER (new_field) = new_q; + + if (integer_zerop (DECL_QUALIFIER (new_field))) + continue; + } + + if (!last_field) + TYPE_FIELDS (new) = new_field; + else + TREE_CHAIN (last_field) = new_field; + + last_field = new_field; + + /* If this is a qualified type and this field will always be + present, we are done. */ + if (TREE_CODE (t) == QUAL_UNION_TYPE + && integer_onep (DECL_QUALIFIER (new_field))) + break; + } + + /* If this used to be a qualified union type, but we now know what + field will be present, make this a normal union. */ + if (changed_field && TREE_CODE (new) == QUAL_UNION_TYPE + && (!TYPE_FIELDS (new) + || integer_onep (DECL_QUALIFIER (TYPE_FIELDS (new))))) + TREE_SET_CODE (new, UNION_TYPE); + else if (!changed_field) + return t; + + gcc_assert (!field_has_rep); + layout_type (new); + + /* If the size was originally a constant use it. */ + if (TYPE_SIZE (t) && TREE_CODE (TYPE_SIZE (t)) == INTEGER_CST + && TREE_CODE (TYPE_SIZE (new)) != INTEGER_CST) + { + TYPE_SIZE (new) = TYPE_SIZE (t); + TYPE_SIZE_UNIT (new) = TYPE_SIZE_UNIT (t); + SET_TYPE_ADA_SIZE (new, TYPE_ADA_SIZE (t)); + } + + return new; + } + + default: + return t; + } +} + +/* Return the "RM size" of GNU_TYPE. This is the actual number of bits + needed to represent the object. */ + +tree +rm_size (tree gnu_type) +{ + /* For integer types, this is the precision. For record types, we store + the size explicitly. For other types, this is just the size. */ + + if (INTEGRAL_TYPE_P (gnu_type) && TYPE_RM_SIZE (gnu_type)) + return TYPE_RM_SIZE (gnu_type); + else if (TREE_CODE (gnu_type) == RECORD_TYPE + && TYPE_CONTAINS_TEMPLATE_P (gnu_type)) + /* Return the rm_size of the actual data plus the size of the template. */ + return + size_binop (PLUS_EXPR, + rm_size (TREE_TYPE (TREE_CHAIN (TYPE_FIELDS (gnu_type)))), + DECL_SIZE (TYPE_FIELDS (gnu_type))); + else if ((TREE_CODE (gnu_type) == RECORD_TYPE + || TREE_CODE (gnu_type) == UNION_TYPE + || TREE_CODE (gnu_type) == QUAL_UNION_TYPE) + && !TYPE_IS_FAT_POINTER_P (gnu_type) + && TYPE_ADA_SIZE (gnu_type)) + return TYPE_ADA_SIZE (gnu_type); + else + return TYPE_SIZE (gnu_type); +} + +/* Return an identifier representing the external name to be used for + GNAT_ENTITY. If SUFFIX is specified, the name is followed by "___" + and the specified suffix. */ + +tree +create_concat_name (Entity_Id gnat_entity, const char *suffix) +{ + Entity_Kind kind = Ekind (gnat_entity); + + const char *str = (!suffix ? "" : suffix); + String_Template temp = {1, strlen (str)}; + Fat_Pointer fp = {str, &temp}; + + Get_External_Name_With_Suffix (gnat_entity, fp); + + /* A variable using the Stdcall convention (meaning we are running + on a Windows box) live in a DLL. Here we adjust its name to use + the jump-table, the _imp__NAME contains the address for the NAME + variable. */ + if ((kind == E_Variable || kind == E_Constant) + && Has_Stdcall_Convention (gnat_entity)) + { + const char *prefix = "_imp__"; + int k, plen = strlen (prefix); + + for (k = 0; k <= Name_Len; k++) + Name_Buffer [Name_Len - k + plen] = Name_Buffer [Name_Len - k]; + strncpy (Name_Buffer, prefix, plen); + } + + return get_identifier (Name_Buffer); +} + +/* Return the name to be used for GNAT_ENTITY. If a type, create a + fully-qualified name, possibly with type information encoding. + Otherwise, return the name. */ + +tree +get_entity_name (Entity_Id gnat_entity) +{ + Get_Encoded_Name (gnat_entity); + return get_identifier (Name_Buffer); +} + +/* Given GNU_ID, an IDENTIFIER_NODE containing a name and SUFFIX, a + string, return a new IDENTIFIER_NODE that is the concatenation of + the name in GNU_ID and SUFFIX. */ + +tree +concat_id_with_name (tree gnu_id, const char *suffix) +{ + int len = IDENTIFIER_LENGTH (gnu_id); + + strncpy (Name_Buffer, IDENTIFIER_POINTER (gnu_id), len); + strncpy (Name_Buffer + len, "___", 3); + len += 3; + strcpy (Name_Buffer + len, suffix); + return get_identifier (Name_Buffer); +} + +#include "gt-ada-decl.h" diff --git a/gcc/ada/gcc-interface/deftarg.c b/gcc/ada/gcc-interface/deftarg.c new file mode 100644 index 00000000000..28c7db5f702 --- /dev/null +++ b/gcc/ada/gcc-interface/deftarg.c @@ -0,0 +1,40 @@ +/**************************************************************************** + * * + * GNAT COMPILER COMPONENTS * + * * + * D E F T A R G * + * * + * Body * + * * + * Copyright (C) 1992-2003 Free Software Foundation, Inc. * + * * + * GNAT is free software; you can redistribute it and/or modify it under * + * terms of the GNU General Public License as published by the Free Soft- * + * ware Foundation; either version 2, or (at your option) any later ver- * + * sion. GNAT is distributed in the hope that it will be useful, but WITH- * + * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * + * for more details. You should have received a copy of the GNU General * + * Public License distributed with GNAT; see file COPYING. If not, write * + * to the Free Software Foundation, 51 Franklin Street, Fifth Floor, * + * Boston, MA 02110-1301, USA. * + * * + * As a special exception, if you link this file with other files to * + * produce an executable, this file does not by itself cause the resulting * + * executable to be covered by the GNU General Public License. This except- * + * ion does not however invalidate any other reasons why the executable * + * file might be covered by the GNU Public License. * + * * + * GNAT was originally developed by the GNAT team at New York University. * + * Extensive contributions were provided by Ada Core Technologies Inc. * + * * + ****************************************************************************/ + +/* Include a default definition for TARGET_FLAGS for gnatpsta. */ + +#include "config.h" +#include "system.h" +#include "coretypes.h" +#include "tm.h" + +int target_flags = TARGET_DEFAULT; diff --git a/gcc/ada/gcc-interface/gigi.h b/gcc/ada/gcc-interface/gigi.h new file mode 100644 index 00000000000..aaf5e7f8d8f --- /dev/null +++ b/gcc/ada/gcc-interface/gigi.h @@ -0,0 +1,905 @@ +/**************************************************************************** + * * + * GNAT COMPILER COMPONENTS * + * * + * G I G I * + * * + * C Header File * + * * + * Copyright (C) 1992-2008, Free Software Foundation, Inc. * + * * + * GNAT is free software; you can redistribute it and/or modify it under * + * terms of the GNU General Public License as published by the Free Soft- * + * ware Foundation; either version 2, or (at your option) any later ver- * + * sion. GNAT is distributed in the hope that it will be useful, but WITH- * + * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * + * for more details. You should have received a copy of the GNU General * + * Public License distributed with GNAT; see file COPYING. If not, write * + * to the Free Software Foundation, 51 Franklin Street, Fifth Floor, * + * Boston, MA 02110-1301, USA. * + * * + * As a special exception, if you link this file with other files to * + * produce an executable, this file does not by itself cause the resulting * + * executable to be covered by the GNU General Public License. This except- * + * ion does not however invalidate any other reasons why the executable * + * file might be covered by the GNU Public License. * + * * + * GNAT was originally developed by the GNAT team at New York University. * + * Extensive contributions were provided by Ada Core Technologies Inc. * + * * + ****************************************************************************/ + +/* Declare all functions and types used by gigi. */ + +/* The largest alignment, in bits, that is needed for using the widest + move instruction. */ +extern unsigned int largest_move_alignment; + +/* Compute the alignment of the largest mode that can be used for copying + objects. */ +extern void gnat_compute_largest_alignment (void); + +/* GNU_TYPE is a type. Determine if it should be passed by reference by + default. */ +extern bool default_pass_by_ref (tree gnu_type); + +/* GNU_TYPE is the type of a subprogram parameter. Determine from the type + if it should be passed by reference. */ +extern bool must_pass_by_ref (tree gnu_type); + +/* Initialize DUMMY_NODE_TABLE. */ +extern void init_dummy_type (void); + +/* Given GNAT_ENTITY, an entity in the incoming GNAT tree, return a + GCC type corresponding to that entity. GNAT_ENTITY is assumed to + refer to an Ada type. */ +extern tree gnat_to_gnu_type (Entity_Id gnat_entity); + +/* Given GNAT_ENTITY, a GNAT defining identifier node, which denotes some Ada + entity, this routine returns the equivalent GCC tree for that entity + (an ..._DECL node) and associates the ..._DECL node with the input GNAT + defining identifier. + + If GNAT_ENTITY is a variable or a constant declaration, GNU_EXPR gives its + initial value (in GCC tree form). This is optional for variables. + For renamed entities, GNU_EXPR gives the object being renamed. + + DEFINITION is nonzero if this call is intended for a definition. This is + used for separate compilation where it necessary to know whether an + external declaration or a definition should be created if the GCC equivalent + was not created previously. The value of 1 is normally used for a nonzero + DEFINITION, but a value of 2 is used in special circumstances, defined in + the code. */ +extern tree gnat_to_gnu_entity (Entity_Id gnat_entity, tree gnu_expr, + int definition); + +/* Similar, but if the returned value is a COMPONENT_REF, return the + FIELD_DECL. */ +extern tree gnat_to_gnu_field_decl (Entity_Id gnat_entity); + +/* Wrap up compilation of T, a TYPE_DECL, possibly deferring it. */ +extern void rest_of_type_decl_compilation (tree t); + +/* Start a new statement group chained to the previous group. */ +extern void start_stmt_group (void); + +/* Add GNU_STMT to the current BLOCK_STMT node. */ +extern void add_stmt (tree gnu_stmt); + +/* Similar, but set the location of GNU_STMT to that of GNAT_NODE. */ +extern void add_stmt_with_node (tree gnu_stmt, Node_Id gnat_node); + +/* Return code corresponding to the current code group. It is normally + a STATEMENT_LIST, but may also be a BIND_EXPR or TRY_FINALLY_EXPR if + BLOCK or cleanups were set. */ +extern tree end_stmt_group (void); + +/* Set the BLOCK node corresponding to the current code group to GNU_BLOCK. */ +extern void set_block_for_group (tree); + +/* Add a declaration statement for GNU_DECL to the current BLOCK_STMT node. + Get SLOC from GNAT_ENTITY. */ +extern void add_decl_expr (tree gnu_decl, Entity_Id gnat_entity); + +/* Mark nodes rooted at *TP with TREE_VISITED and types as having their + sized gimplified. We use this to indicate all variable sizes and + positions in global types may not be shared by any subprogram. */ +extern void mark_visited (tree *); + +/* Finalize any From_With_Type incomplete types. We do this after processing + our compilation unit and after processing its spec, if this is a body. */ +extern void finalize_from_with_types (void); + +/* Return the equivalent type to be used for GNAT_ENTITY, if it's a + kind of type (such E_Task_Type) that has a different type which Gigi + uses for its representation. If the type does not have a special type + for its representation, return GNAT_ENTITY. If a type is supposed to + exist, but does not, abort unless annotating types, in which case + return Empty. If GNAT_ENTITY is Empty, return Empty. */ +extern Entity_Id Gigi_Equivalent_Type (Entity_Id); + +/* Given GNAT_ENTITY, elaborate all expressions that are required to + be elaborated at the point of its definition, but do nothing else. */ +extern void elaborate_entity (Entity_Id gnat_entity); + +/* Mark GNAT_ENTITY as going out of scope at this point. Recursively mark + any entities on its entity chain similarly. */ +extern void mark_out_of_scope (Entity_Id gnat_entity); + +/* Make a dummy type corresponding to GNAT_TYPE. */ +extern tree make_dummy_type (Entity_Id gnat_type); + +/* Get the unpadded version of a GNAT type. */ +extern tree get_unpadded_type (Entity_Id gnat_entity); + +/* Called when we need to protect a variable object using a save_expr. */ +extern tree maybe_variable (tree gnu_operand); + +/* Create a record type that contains a SIZE bytes long field of TYPE with a + starting bit position so that it is aligned to ALIGN bits, and leaving at + least ROOM bytes free before the field. BASE_ALIGN is the alignment the + record is guaranteed to get. */ +extern tree make_aligning_type (tree type, unsigned int align, tree size, + unsigned int base_align, int room); + +/* Ensure that TYPE has SIZE and ALIGN. Make and return a new padded type + if needed. We have already verified that SIZE and TYPE are large enough. + + GNAT_ENTITY and NAME_TRAILER are used to name the resulting record and + to issue a warning. + + IS_USER_TYPE is true if we must be sure we complete the original type. + + DEFINITION is true if this type is being defined. + + SAME_RM_SIZE is true if the RM_Size of the resulting type is to be + set to its TYPE_SIZE; otherwise, it's set to the RM_Size of the original + type. */ +extern tree maybe_pad_type (tree type, tree size, unsigned int align, + Entity_Id gnat_entity, const char *name_trailer, + bool is_user_type, bool definition, + bool same_rm_size); + +/* Given a GNU tree and a GNAT list of choices, generate an expression to test + the value passed against the list of choices. */ +extern tree choices_to_gnu (tree operand, Node_Id choices); + +/* Given a type T, a FIELD_DECL F, and a replacement value R, return a new + type with all size expressions that contain F updated by replacing F + with R. If F is NULL_TREE, always make a new RECORD_TYPE, even if + nothing has changed. */ +extern tree substitute_in_type (tree t, tree f, tree r); + +/* Return the "RM size" of GNU_TYPE. This is the actual number of bits + needed to represent the object. */ +extern tree rm_size (tree gnu_type); + +/* Given GNU_ID, an IDENTIFIER_NODE containing a name, and SUFFIX, a + string, return a new IDENTIFIER_NODE that is the concatenation of + the name in GNU_ID and SUFFIX. */ +extern tree concat_id_with_name (tree gnu_id, const char *suffix); + +/* Return the name to be used for GNAT_ENTITY. If a type, create a + fully-qualified name, possibly with type information encoding. + Otherwise, return the name. */ +extern tree get_entity_name (Entity_Id gnat_entity); + +/* Return a name for GNAT_ENTITY concatenated with two underscores and + SUFFIX. */ +extern tree create_concat_name (Entity_Id gnat_entity, const char *suffix); + +/* If true, then gigi is being called on an analyzed but unexpanded tree, and + the only purpose of the call is to properly annotate types with + representation information. */ +extern bool type_annotate_only; + +/* Current file name without path */ +extern const char *ref_filename; + +/* This structure must be kept synchronized with Call_Back_End. */ +struct File_Info_Type +{ + File_Name_Type File_Name; + Nat Num_Source_Lines; +}; + +/* This is the main program of the back-end. It sets up all the table + structures and then generates code. + + ??? Needs parameter descriptions */ + +extern void gigi (Node_Id gnat_root, int max_gnat_node, int number_name, + struct Node *nodes_ptr, Node_Id *next_node_ptr, + Node_Id *prev_node_ptr, struct Elist_Header *elists_ptr, + struct Elmt_Item *elmts_ptr, + struct String_Entry *strings_ptr, + Char_Code *strings_chars_ptr, + struct List_Header *list_headers_ptr, + Nat number_file, + struct File_Info_Type *file_info_ptr, + Entity_Id standard_integer, + Entity_Id standard_long_long_float, + Entity_Id standard_exception_type, + Int gigi_operating_mode); + +/* GNAT_NODE is the root of some GNAT tree. Return the root of the + GCC tree corresponding to that GNAT tree. Normally, no code is generated; + we just return an equivalent tree which is used elsewhere to generate + code. */ +extern tree gnat_to_gnu (Node_Id gnat_node); + +/* GNU_STMT is a statement. We generate code for that statement. */ +extern void gnat_expand_stmt (tree gnu_stmt); + +/* ??? missing documentation */ +extern int gnat_gimplify_expr (tree *expr_p, gimple_seq *pre_p, + gimple_seq *post_p ATTRIBUTE_UNUSED); + +/* Do the processing for the declaration of a GNAT_ENTITY, a type. If + a separate Freeze node exists, delay the bulk of the processing. Otherwise + make a GCC type for GNAT_ENTITY and set up the correspondence. */ +extern void process_type (Entity_Id gnat_entity); + +/* Convert SLOC into LOCUS. Return true if SLOC corresponds to a source code + location and false if it doesn't. In the former case, set the Gigi global + variable REF_FILENAME to the simple debug file name as given by sinput. */ +extern bool Sloc_to_locus (Source_Ptr Sloc, location_t *locus); + +/* Post an error message. MSG is the error message, properly annotated. + NODE is the node at which to post the error and the node to use for the + "&" substitution. */ +extern void post_error (const char *, Node_Id); + +/* Similar, but NODE is the node at which to post the error and ENT + is the node to use for the "&" substitution. */ +extern void post_error_ne (const char *msg, Node_Id node, Entity_Id ent); + +/* Similar, but NODE is the node at which to post the error, ENT is the node + to use for the "&" substitution, and N is the number to use for the ^. */ +extern void post_error_ne_num (const char *msg, Node_Id node, Entity_Id ent, + int n); + +/* Similar to post_error_ne_num, but T is a GCC tree representing the number + to write. If the tree represents a constant that fits within a + host integer, the text inside curly brackets in MSG will be output + (presumably including a '^'). Otherwise that text will not be output + and the text inside square brackets will be output instead. */ +extern void post_error_ne_tree (const char *msg, Node_Id node, Entity_Id ent, + tree t); + +/* Similar to post_error_ne_tree, except that NUM is a second + integer to write in the message. */ +extern void post_error_ne_tree_2 (const char *msg, Node_Id node, Entity_Id ent, + tree t, int num); + +/* Protect EXP from multiple evaluation. This may make a SAVE_EXPR. */ +extern tree protect_multiple_eval (tree exp); + +/* Return a label to branch to for the exception type in KIND or NULL_TREE + if none. */ +extern tree get_exception_label (char); + +/* Current node being treated, in case gigi_abort or Check_Elaboration_Code + called. */ +extern Node_Id error_gnat_node; + +/* This is equivalent to stabilize_reference in tree.c, but we know how to + handle our own nodes and we take extra arguments. FORCE says whether to + force evaluation of everything. We set SUCCESS to true unless we walk + through something we don't know how to stabilize. */ +extern tree maybe_stabilize_reference (tree ref, bool force, bool *success); + +/* Highest number in the front-end node table. */ +extern int max_gnat_nodes; + +/* If nonzero, pretend we are allocating at global level. */ +extern int force_global; + +/* Standard data type sizes. Most of these are not used. */ + +#ifndef CHAR_TYPE_SIZE +#define CHAR_TYPE_SIZE BITS_PER_UNIT +#endif + +#ifndef SHORT_TYPE_SIZE +#define SHORT_TYPE_SIZE (BITS_PER_UNIT * MIN ((UNITS_PER_WORD + 1) / 2, 2)) +#endif + +#ifndef INT_TYPE_SIZE +#define INT_TYPE_SIZE BITS_PER_WORD +#endif + +#ifndef LONG_TYPE_SIZE +#define LONG_TYPE_SIZE BITS_PER_WORD +#endif + +#ifndef LONG_LONG_TYPE_SIZE +#define LONG_LONG_TYPE_SIZE (BITS_PER_WORD * 2) +#endif + +#ifndef FLOAT_TYPE_SIZE +#define FLOAT_TYPE_SIZE BITS_PER_WORD +#endif + +#ifndef DOUBLE_TYPE_SIZE +#define DOUBLE_TYPE_SIZE (BITS_PER_WORD * 2) +#endif + +#ifndef LONG_DOUBLE_TYPE_SIZE +#define LONG_DOUBLE_TYPE_SIZE (BITS_PER_WORD * 2) +#endif + +/* The choice of SIZE_TYPE here is very problematic. We need a signed + type whose bit width is Pmode. Assume "long" is such a type here. */ +#undef SIZE_TYPE +#define SIZE_TYPE "long int" + +/* Data structures used to represent attributes. */ + +enum attr_type +{ + ATTR_MACHINE_ATTRIBUTE, + ATTR_LINK_ALIAS, + ATTR_LINK_SECTION, + ATTR_LINK_CONSTRUCTOR, + ATTR_LINK_DESTRUCTOR, + ATTR_WEAK_EXTERNAL +}; + +struct attrib +{ + struct attrib *next; + enum attr_type type; + tree name; + tree args; + Node_Id error_point; +}; + +/* Table of machine-independent internal attributes. */ +extern const struct attribute_spec gnat_internal_attribute_table[]; + +/* Define the entries in the standard data array. */ +enum standard_datatypes +{ +/* Various standard data types and nodes. */ + ADT_longest_float_type, + ADT_void_type_decl, + + /* The type of an exception. */ + ADT_except_type, + + /* Type declaration node <==> typedef void *T */ + ADT_ptr_void_type, + + /* Function type declaration -- void T() */ + ADT_void_ftype, + + /* Type declaration node <==> typedef void *T() */ + ADT_ptr_void_ftype, + + /* Type declaration node <==> typedef virtual void *T() */ + ADT_fdesc_type, + + /* Null pointer for above type */ + ADT_null_fdesc, + + /* Function declaration nodes for run-time functions for allocating memory. + Ada allocators cause calls to these functions to be generated. Malloc32 + is used only on 64bit systems needing to allocate 32bit memory. */ + ADT_malloc_decl, + ADT_malloc32_decl, + + /* Likewise for freeing memory. */ + ADT_free_decl, + + /* Types and decls used by our temporary exception mechanism. See + init_gigi_decls for details. */ + ADT_jmpbuf_type, + ADT_jmpbuf_ptr_type, + ADT_get_jmpbuf_decl, + ADT_set_jmpbuf_decl, + ADT_get_excptr_decl, + ADT_setjmp_decl, + ADT_longjmp_decl, + ADT_update_setjmp_buf_decl, + ADT_raise_nodefer_decl, + ADT_begin_handler_decl, + ADT_end_handler_decl, + ADT_others_decl, + ADT_all_others_decl, + ADT_LAST}; + +extern GTY(()) tree gnat_std_decls[(int) ADT_LAST]; +extern GTY(()) tree gnat_raise_decls[(int) LAST_REASON_CODE + 1]; + +#define longest_float_type_node gnat_std_decls[(int) ADT_longest_float_type] +#define void_type_decl_node gnat_std_decls[(int) ADT_void_type_decl] +#define except_type_node gnat_std_decls[(int) ADT_except_type] +#define ptr_void_type_node gnat_std_decls[(int) ADT_ptr_void_type] +#define void_ftype gnat_std_decls[(int) ADT_void_ftype] +#define ptr_void_ftype gnat_std_decls[(int) ADT_ptr_void_ftype] +#define fdesc_type_node gnat_std_decls[(int) ADT_fdesc_type] +#define null_fdesc_node gnat_std_decls[(int) ADT_null_fdesc] +#define malloc_decl gnat_std_decls[(int) ADT_malloc_decl] +#define malloc32_decl gnat_std_decls[(int) ADT_malloc32_decl] +#define free_decl gnat_std_decls[(int) ADT_free_decl] +#define jmpbuf_type gnat_std_decls[(int) ADT_jmpbuf_type] +#define jmpbuf_ptr_type gnat_std_decls[(int) ADT_jmpbuf_ptr_type] +#define get_jmpbuf_decl gnat_std_decls[(int) ADT_get_jmpbuf_decl] +#define set_jmpbuf_decl gnat_std_decls[(int) ADT_set_jmpbuf_decl] +#define get_excptr_decl gnat_std_decls[(int) ADT_get_excptr_decl] +#define setjmp_decl gnat_std_decls[(int) ADT_setjmp_decl] +#define longjmp_decl gnat_std_decls[(int) ADT_longjmp_decl] +#define update_setjmp_buf_decl gnat_std_decls[(int) ADT_update_setjmp_buf_decl] +#define raise_nodefer_decl gnat_std_decls[(int) ADT_raise_nodefer_decl] +#define begin_handler_decl gnat_std_decls[(int) ADT_begin_handler_decl] +#define others_decl gnat_std_decls[(int) ADT_others_decl] +#define all_others_decl gnat_std_decls[(int) ADT_all_others_decl] +#define end_handler_decl gnat_std_decls[(int) ADT_end_handler_decl] + +/* Routines expected by the gcc back-end. They must have exactly the same + prototype and names as below. */ + +/* Returns nonzero if we are currently in the global binding level. */ +extern int global_bindings_p (void); + +/* Enter and exit a new binding level. */ +extern void gnat_pushlevel (void); +extern void gnat_poplevel (void); + +/* Set SUPERCONTEXT of the BLOCK for the current binding level to FNDECL + and point FNDECL to this BLOCK. */ +extern void set_current_block_context (tree fndecl); + +/* Set the jmpbuf_decl for the current binding level to DECL. */ +extern void set_block_jmpbuf_decl (tree decl); + +/* Get the setjmp_decl, if any, for the current binding level. */ +extern tree get_block_jmpbuf_decl (void); + +/* Records a ..._DECL node DECL as belonging to the current lexical scope + and uses GNAT_NODE for location information. */ +extern void gnat_pushdecl (tree decl, Node_Id gnat_node); + +extern void gnat_init_decl_processing (void); +extern void init_gigi_decls (tree long_long_float_type, tree exception_type); +extern void gnat_init_gcc_eh (void); + +/* Return an integer type with the number of bits of precision given by + PRECISION. UNSIGNEDP is nonzero if the type is unsigned; otherwise + it is a signed type. */ +extern tree gnat_type_for_size (unsigned precision, int unsignedp); + +/* Return a data type that has machine mode MODE. UNSIGNEDP selects + an unsigned type; otherwise a signed type is returned. */ +extern tree gnat_type_for_mode (enum machine_mode mode, int unsignedp); + +/* Emit debug info for all global variable declarations. */ +extern void gnat_write_global_declarations (void); + +/* Return the unsigned version of a TYPE_NODE, a scalar type. */ +extern tree gnat_unsigned_type (tree type_node); + +/* Return the signed version of a TYPE_NODE, a scalar type. */ +extern tree gnat_signed_type (tree type_node); + +/* Return 1 if the types T1 and T2 are compatible, i.e. if they can be + transparently converted to each other. */ +extern int gnat_types_compatible_p (tree t1, tree t2); + +/* Create an expression whose value is that of EXPR, + converted to type TYPE. The TREE_TYPE of the value + is always TYPE. This function implements all reasonable + conversions; callers should filter out those that are + not permitted by the language being compiled. */ +extern tree convert (tree type, tree expr); + +/* Routines created solely for the tree translator's sake. Their prototypes + can be changed as desired. */ + +/* GNAT_ENTITY is a GNAT tree node for a defining identifier. + GNU_DECL is the GCC tree which is to be associated with + GNAT_ENTITY. Such gnu tree node is always an ..._DECL node. + If NO_CHECK is nonzero, the latter check is suppressed. + If GNU_DECL is zero, a previous association is to be reset. */ +extern void save_gnu_tree (Entity_Id gnat_entity, tree gnu_decl, + bool no_check); + +/* GNAT_ENTITY is a GNAT tree node for a defining identifier. + Return the ..._DECL node that was associated with it. If there is no tree + node associated with GNAT_ENTITY, abort. */ +extern tree get_gnu_tree (Entity_Id gnat_entity); + +/* Return nonzero if a GCC tree has been associated with GNAT_ENTITY. */ +extern bool present_gnu_tree (Entity_Id gnat_entity); + +/* Initialize tables for above routines. */ +extern void init_gnat_to_gnu (void); + +/* Given a record type RECORD_TYPE and a chain of FIELD_DECL nodes FIELDLIST, + finish constructing the record or union type. If REP_LEVEL is zero, this + record has no representation clause and so will be entirely laid out here. + If REP_LEVEL is one, this record has a representation clause and has been + laid out already; only set the sizes and alignment. If REP_LEVEL is two, + this record is derived from a parent record and thus inherits its layout; + only make a pass on the fields to finalize them. If DO_NOT_FINALIZE is + true, the record type is expected to be modified afterwards so it will + not be sent to the back-end for finalization. */ +extern void finish_record_type (tree record_type, tree fieldlist, + int rep_level, bool do_not_finalize); + +/* Wrap up compilation of RECORD_TYPE, i.e. most notably output all + the debug information associated with it. It need not be invoked + directly in most cases since finish_record_type takes care of doing + so, unless explicitly requested not to through DO_NOT_FINALIZE. */ +extern void rest_of_record_type_compilation (tree record_type); + +/* Append PARALLEL_TYPE on the chain of parallel types for decl. */ +extern void add_parallel_type (tree decl, tree parallel_type); + +/* Return the parallel type associated to a type, if any. */ +extern tree get_parallel_type (tree type); + +/* Returns a FUNCTION_TYPE node. RETURN_TYPE is the type returned by the + subprogram. If it is void_type_node, then we are dealing with a procedure, + otherwise we are dealing with a function. PARAM_DECL_LIST is a list of + PARM_DECL nodes that are the subprogram arguments. CICO_LIST is the + copy-in/copy-out list to be stored into TYPE_CI_CO_LIST. + RETURNS_UNCONSTRAINED is true if the function returns an unconstrained + object. RETURNS_BY_REF is true if the function returns by reference. + RETURNS_BY_TARGET_PTR is true if the function is to be passed (as its + first parameter) the address of the place to copy its result. */ +extern tree create_subprog_type (tree return_type, tree param_decl_list, + tree cico_list, bool returns_unconstrained, + bool returns_by_ref, + bool returns_by_target_ptr); + +/* Return a copy of TYPE, but safe to modify in any way. */ +extern tree copy_type (tree type); + +/* Return an INTEGER_TYPE of SIZETYPE with range MIN to MAX and whose + TYPE_INDEX_TYPE is INDEX. GNAT_NODE is used for the position of + the decl. */ +extern tree create_index_type (tree min, tree max, tree index, + Node_Id gnat_node); + +/* Return a TYPE_DECL node. TYPE_NAME gives the name of the type (a character + string) and TYPE is a ..._TYPE node giving its data type. + ARTIFICIAL_P is true if this is a declaration that was generated + by the compiler. DEBUG_INFO_P is true if we need to write debugging + information about this type. GNAT_NODE is used for the position of + the decl. */ +extern tree create_type_decl (tree type_name, tree type, + struct attrib *attr_list, + bool artificial_p, bool debug_info_p, + Node_Id gnat_node); + +/* Return a VAR_DECL or CONST_DECL node. + + VAR_NAME gives the name of the variable. ASM_NAME is its assembler name + (if provided). TYPE is its data type (a GCC ..._TYPE node). VAR_INIT is + the GCC tree for an optional initial expression; NULL_TREE if none. + + CONST_FLAG is true if this variable is constant, in which case we might + return a CONST_DECL node unless CONST_DECL_ALLOWED_P is false. + + PUBLIC_FLAG is true if this definition is to be made visible outside of + the current compilation unit. This flag should be set when processing the + variable definitions in a package specification. + + EXTERN_FLAG is nonzero when processing an external variable declaration (as + opposed to a definition: no storage is to be allocated for the variable). + + STATIC_FLAG is only relevant when not at top level. In that case + it indicates whether to always allocate storage to the variable. + + GNAT_NODE is used for the position of the decl. */ +tree +create_var_decl_1 (tree var_name, tree asm_name, tree type, tree var_init, + bool const_flag, bool public_flag, bool extern_flag, + bool static_flag, bool const_decl_allowed_p, + struct attrib *attr_list, Node_Id gnat_node); + +/* Wrapper around create_var_decl_1 for cases where we don't care whether + a VAR or a CONST decl node is created. */ +#define create_var_decl(var_name, asm_name, type, var_init, \ + const_flag, public_flag, extern_flag, \ + static_flag, attr_list, gnat_node) \ + create_var_decl_1 (var_name, asm_name, type, var_init, \ + const_flag, public_flag, extern_flag, \ + static_flag, true, attr_list, gnat_node) + +/* Wrapper around create_var_decl_1 for cases where a VAR_DECL node is + required. The primary intent is for DECL_CONST_CORRESPONDING_VARs, which + must be VAR_DECLs and on which we want TREE_READONLY set to have them + possibly assigned to a readonly data section. */ +#define create_true_var_decl(var_name, asm_name, type, var_init, \ + const_flag, public_flag, extern_flag, \ + static_flag, attr_list, gnat_node) \ + create_var_decl_1 (var_name, asm_name, type, var_init, \ + const_flag, public_flag, extern_flag, \ + static_flag, false, attr_list, gnat_node) + +/* Given a DECL and ATTR_LIST, apply the listed attributes. */ +extern void process_attributes (tree decl, struct attrib *attr_list); + +/* Record a global renaming pointer. */ +void record_global_renaming_pointer (tree); + +/* Invalidate the global renaming pointers. */ +void invalidate_global_renaming_pointers (void); + +/* Returns a FIELD_DECL node. FIELD_NAME the field name, FIELD_TYPE is its + type, and RECORD_TYPE is the type of the parent. PACKED is nonzero if + this field is in a record type with a "pragma pack". If SIZE is nonzero + it is the specified size for this field. If POS is nonzero, it is the bit + position. If ADDRESSABLE is nonzero, it means we are allowed to take + the address of this field for aliasing purposes. */ +extern tree create_field_decl (tree field_name, tree field_type, + tree record_type, int packed, tree size, + tree pos, int addressable); + +/* Returns a PARM_DECL node. PARAM_NAME is the name of the parameter, + PARAM_TYPE is its type. READONLY is true if the parameter is + readonly (either an In parameter or an address of a pass-by-ref + parameter). */ +extern tree create_param_decl (tree param_name, tree param_type, + bool readonly); + +/* Returns a FUNCTION_DECL node. SUBPROG_NAME is the name of the subprogram, + ASM_NAME is its assembler name, SUBPROG_TYPE is its type (a FUNCTION_TYPE + node), PARAM_DECL_LIST is the list of the subprogram arguments (a list of + PARM_DECL nodes chained through the TREE_CHAIN field). + + INLINE_FLAG, PUBLIC_FLAG, EXTERN_FLAG, and ATTR_LIST are used to set the + appropriate fields in the FUNCTION_DECL. GNAT_NODE gives the location. */ +extern tree create_subprog_decl (tree subprog_name, tree asm_name, + tree subprog_type, tree param_decl_list, + bool inlinee_flag, bool public_flag, + bool extern_flag, + struct attrib *attr_list, Node_Id gnat_node); + +/* Returns a LABEL_DECL node for LABEL_NAME. */ +extern tree create_label_decl (tree label_name); + +/* Set up the framework for generating code for SUBPROG_DECL, a subprogram + body. This routine needs to be invoked before processing the declarations + appearing in the subprogram. */ +extern void begin_subprog_body (tree subprog_decl); + +/* Finish the definition of the current subprogram BODY and compile it all the + way to assembler language output. ELAB_P tells if this is called for an + elaboration routine, to be entirely discarded if empty. */ +extern void end_subprog_body (tree body, bool elab_p); + +/* Build a template of type TEMPLATE_TYPE from the array bounds of ARRAY_TYPE. + EXPR is an expression that we can use to locate any PLACEHOLDER_EXPRs. + Return a constructor for the template. */ +extern tree build_template (tree template_type, tree array_type, tree expr); + +/* Build a VMS descriptor from a Mechanism_Type, which must specify + a descriptor type, and the GCC type of an object. Each FIELD_DECL + in the type contains in its DECL_INITIAL the expression to use when + a constructor is made for the type. GNAT_ENTITY is a gnat node used + to print out an error message if the mechanism cannot be applied to + an object of that type and also for the name. */ +extern tree build_vms_descriptor (tree type, Mechanism_Type mech, + Entity_Id gnat_entity); + +/* Build a stub for the subprogram specified by the GCC tree GNU_SUBPROG + and the GNAT node GNAT_SUBPROG. */ +extern void build_function_stub (tree gnu_subprog, Entity_Id gnat_subprog); + +/* Build a type to be used to represent an aliased object whose nominal + type is an unconstrained array. This consists of a RECORD_TYPE containing + a field of TEMPLATE_TYPE and a field of OBJECT_TYPE, which is an + ARRAY_TYPE. If ARRAY_TYPE is that of the unconstrained array, this + is used to represent an arbitrary unconstrained object. Use NAME + as the name of the record. */ +extern tree build_unc_object_type (tree template_type, tree object_type, + tree name); + +/* Same as build_unc_object_type, but taking a thin or fat pointer type + instead of the template type. */ +extern tree build_unc_object_type_from_ptr (tree thin_fat_ptr_type, + tree object_type, tree name); + +/* Shift the component offsets within an unconstrained object TYPE to make it + suitable for use as a designated type for thin pointers. */ +extern void shift_unc_components_for_thin_pointers (tree type); + +/* Update anything previously pointing to OLD_TYPE to point to NEW_TYPE. In + the normal case this is just two adjustments, but we have more to do + if NEW is an UNCONSTRAINED_ARRAY_TYPE. */ +extern void update_pointer_to (tree old_type, tree new_type); + +/* EXP is an expression for the size of an object. If this size contains + discriminant references, replace them with the maximum (if MAX_P) or + minimum (if !MAX_P) possible value of the discriminant. */ +extern tree max_size (tree exp, bool max_p); + +/* Remove all conversions that are done in EXP. This includes converting + from a padded type or to a left-justified modular type. If TRUE_ADDRESS + is true, always return the address of the containing object even if + the address is not bit-aligned. */ +extern tree remove_conversions (tree exp, bool true_address); + +/* If EXP's type is an UNCONSTRAINED_ARRAY_TYPE, return an expression that + refers to the underlying array. If its type has TYPE_CONTAINS_TEMPLATE_P, + likewise return an expression pointing to the underlying array. */ +extern tree maybe_unconstrained_array (tree exp); + +/* Return an expression that does an unchecked conversion of EXPR to TYPE. + If NOTRUNC_P is true, truncation operations should be suppressed. */ +extern tree unchecked_convert (tree type, tree expr, bool notrunc_p); + +/* Return the appropriate GCC tree code for the specified GNAT type, + the latter being a record type as predicated by Is_Record_Type. */ +extern enum tree_code tree_code_for_record_type (Entity_Id); + +/* Return true if GNU_TYPE is suitable as the type of a non-aliased + component of an aggregate type. */ +extern bool type_for_nonaliased_component_p (tree); + +/* Prepare expr to be an argument of a TRUTH_NOT_EXPR or other logical + operation. + + This preparation consists of taking the ordinary + representation of an expression EXPR and producing a valid tree + boolean expression describing whether EXPR is nonzero. We could + simply always do build_binary_op (NE_EXPR, expr, integer_zero_node, 1), + but we optimize comparisons, &&, ||, and !. + + The resulting type should always be the same as the input type. + This function is simpler than the corresponding C version since + the only possible operands will be things of Boolean type. */ +extern tree gnat_truthvalue_conversion (tree expr); + +/* Return the base type of TYPE. */ +extern tree get_base_type (tree type); + +/* EXP is a GCC tree representing an address. See if we can find how + strictly the object at that address is aligned. Return that alignment + strictly the object at that address is aligned. Return that alignment + in bits. If we don't know anything about the alignment, return 0. */ +extern unsigned int known_alignment (tree exp); + +/* Return true if VALUE is a multiple of FACTOR. FACTOR must be a power + of 2. */ +extern bool value_factor_p (tree value, HOST_WIDE_INT factor); + +/* Make a binary operation of kind OP_CODE. RESULT_TYPE is the type + desired for the result. Usually the operation is to be performed + in that type. For MODIFY_EXPR and ARRAY_REF, RESULT_TYPE may be 0 + in which case the type to be used will be derived from the operands. */ +extern tree build_binary_op (enum tree_code op_code, tree retult_type, + tree left_operand, tree right_operand); + +/* Similar, but make unary operation. */ +extern tree build_unary_op (enum tree_code op_code, tree result_type, + tree operand); + +/* Similar, but for COND_EXPR. */ +extern tree build_cond_expr (tree result_type, tree condition_operand, + tree true_operand, tree false_operand); + +/* Similar, but for RETURN_EXPR. */ +extern tree build_return_expr (tree result_decl, tree ret_val); + +/* Build a CALL_EXPR to call FUNDECL with one argument, ARG. Return + the CALL_EXPR. */ +extern tree build_call_1_expr (tree fundecl, tree arg); + +/* Build a CALL_EXPR to call FUNDECL with two argument, ARG1 & ARG2. Return + the CALL_EXPR. */ +extern tree build_call_2_expr (tree fundecl, tree arg1, tree arg2); + +/* Likewise to call FUNDECL with no arguments. */ +extern tree build_call_0_expr (tree fundecl); + +/* Call a function that raises an exception and pass the line number and file + name, if requested. MSG says which exception function to call. + + GNAT_NODE is the gnat node conveying the source location for which the + error should be signaled, or Empty in which case the error is signaled on + the current ref_file_name/input_line. + + KIND says which kind of exception this is for + (N_Raise_{Constraint,Storage,Program}_Error). */ +extern tree build_call_raise (int msg, Node_Id gnat_node, char kind); + +/* Return a CONSTRUCTOR of TYPE whose list is LIST. This is not the + same as build_constructor in the language-independent tree.c. */ +extern tree gnat_build_constructor (tree type, tree list); + +/* Return a COMPONENT_REF to access a field that is given by COMPONENT, + an IDENTIFIER_NODE giving the name of the field, FIELD, a FIELD_DECL, + for the field, or both. Don't fold the result if NO_FOLD_P. */ +extern tree build_component_ref (tree record_variable, tree component, + tree field, bool no_fold_p); + +/* Build a GCC tree to call an allocation or deallocation function. + If GNU_OBJ is nonzero, it is an object to deallocate. Otherwise, + generate an allocator. + + GNU_SIZE is the size of the object and ALIGN is the alignment. + GNAT_PROC, if present is a procedure to call and GNAT_POOL is the + storage pool to use. If not preset, malloc and free will be used. */ +extern tree build_call_alloc_dealloc (tree gnu_obj, tree gnu_size, + unsigned align, Entity_Id gnat_proc, + Entity_Id gnat_pool, Node_Id gnat_node); + +/* Build a GCC tree to correspond to allocating an object of TYPE whose + initial value if INIT, if INIT is nonzero. Convert the expression to + RESULT_TYPE, which must be some type of pointer. Return the tree. + GNAT_PROC and GNAT_POOL optionally give the procedure to call and + the storage pool to use. GNAT_NODE is used to provide an error + location for restriction violations messages. If IGNORE_INIT_TYPE is + true, ignore the type of INIT for the purpose of determining the size; + this will cause the maximum size to be allocated if TYPE is of + self-referential size. */ +extern tree build_allocator (tree type, tree init, tree result_type, + Entity_Id gnat_proc, Entity_Id gnat_pool, + Node_Id gnat_node, bool); + +/* Fill in a VMS descriptor for EXPR and return a constructor for it. + GNAT_FORMAL is how we find the descriptor record. */ + +extern tree fill_vms_descriptor (tree expr, Entity_Id gnat_formal); + +/* Indicate that we need to make the address of EXPR_NODE and it therefore + should not be allocated in a register. Return true if successful. */ +extern bool gnat_mark_addressable (tree expr_node); + +/* Implementation of the builtin_function langhook. */ +extern tree gnat_builtin_function (tree decl); + +/* Search the chain of currently reachable declarations for a builtin + FUNCTION_DECL node corresponding to function NAME (an IDENTIFIER_NODE). + Return the first node found, if any, or NULL_TREE otherwise. */ +extern tree builtin_decl_for (tree name); + +/* This function is called by the front end to enumerate all the supported + modes for the machine. We pass a function which is called back with + the following integer parameters: + + FLOAT_P nonzero if this represents a floating-point mode + COMPLEX_P nonzero is this represents a complex mode + COUNT count of number of items, nonzero for vector mode + PRECISION number of bits in data representation + MANTISSA number of bits in mantissa, if FP and known, else zero. + SIZE number of bits used to store data + ALIGN number of bits to which mode is aligned. */ +extern void enumerate_modes (void (*f) (int, int, int, int, int, int, + unsigned int)); + +/* These are temporary function to deal with recent GCC changes related to + FP type sizes and precisions. */ +extern int fp_prec_to_size (int prec); +extern int fp_size_to_prec (int size); + +/* These functions return the basic data type sizes and related parameters + about the target machine. */ + +extern Pos get_target_bits_per_unit (void); +extern Pos get_target_bits_per_word (void); +extern Pos get_target_char_size (void); +extern Pos get_target_wchar_t_size (void); +extern Pos get_target_short_size (void); +extern Pos get_target_int_size (void); +extern Pos get_target_long_size (void); +extern Pos get_target_long_long_size (void); +extern Pos get_target_float_size (void); +extern Pos get_target_double_size (void); +extern Pos get_target_long_double_size (void); +extern Pos get_target_pointer_size (void); +extern Pos get_target_maximum_alignment (void); +extern Pos get_target_default_allocator_alignment (void); +extern Pos get_target_maximum_default_alignment (void); +extern Pos get_target_maximum_allowed_alignment (void); +extern Nat get_float_words_be (void); +extern Nat get_words_be (void); +extern Nat get_bytes_be (void); +extern Nat get_bits_be (void); +extern Nat get_strict_alignment (void); diff --git a/gcc/ada/gcc-interface/lang-specs.h b/gcc/ada/gcc-interface/lang-specs.h new file mode 100644 index 00000000000..65326d4c5b2 --- /dev/null +++ b/gcc/ada/gcc-interface/lang-specs.h @@ -0,0 +1,48 @@ +/**************************************************************************** + * * + * GNAT COMPILER COMPONENTS * + * * + * L A N G - S P E C S * + * * + * C Header File * + * * + * Copyright (C) 1992-2008, Free Software Foundation, Inc. * + * * + * GNAT is free software; you can redistribute it and/or modify it under * + * terms of the GNU General Public License as published by the Free Soft- * + * ware Foundation; either version 3, or (at your option) any later ver- * + * sion. GNAT is distributed in the hope that it will be useful, but WITH- * + * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * + * for more details. You should have received a copy of the GNU General * + * Public License along with GCC; see the file COPYING3. If not see * + * . * + * * + * GNAT was originally developed by the GNAT team at New York University. * + * Extensive contributions were provided by Ada Core Technologies Inc. * + * * + ****************************************************************************/ + +/* This is the contribution to the `default_compilers' array in gcc.c for + GNAT. */ + + {".ads", "@ada", 0, 0, 0}, + {".adb", "@ada", 0, 0, 0}, + {"@ada", + "\ + %{pg:%{fomit-frame-pointer:%e-pg and -fomit-frame-pointer are incompatible}}\ + %{!S:%{!c:%e-c or -S required for Ada}}\ + gnat1 %{I*} %{k8:-gnatk8} %{Wall:-gnatwa} %{w:-gnatws} %{!Q:-quiet}\ + %{nostdinc*} %{nostdlib*}\ + -dumpbase %{.adb:%b.adb}%{.ads:%b.ads}%{!.adb:%{!.ads:%b.ada}}\ + %{O*} %{W*} %{w} %{p} %{pg:-p} %{a} %{f*} %{d*} %{g*&m*} " +#if defined(TARGET_VXWORKS_RTP) + "%{fRTS=rtp:-mrtp} " +#endif +#if CONFIG_DUAL_EXCEPTIONS + "%{fRTS=sjlj:-fsjlj} " +#endif + "%1 %{!S:%{o*:%w%*-gnatO}} \ + %i %{S:%W{o*}%{!o*:-o %b.s}} \ + %{gnatc*|gnats*: -o %j} %{-param*} \ + %{!gnatc*:%{!gnats*:%(invoke_as)}}", 0, 0, 0}, diff --git a/gcc/ada/gcc-interface/lang.opt b/gcc/ada/gcc-interface/lang.opt new file mode 100644 index 00000000000..d10fc3ac087 --- /dev/null +++ b/gcc/ada/gcc-interface/lang.opt @@ -0,0 +1,102 @@ +; Options for the Ada front end. +; Copyright (C) 2003, 2007 Free Software Foundation, Inc. +; +; This file is part of GCC. +; +; GCC is free software; you can redistribute it and/or modify it under +; the terms of the GNU General Public License as published by the Free +; Software Foundation; either version 3, or (at your option) any later +; version. +; +; GCC is distributed in the hope that it will be useful, but WITHOUT ANY +; WARRANTY; without even the implied warranty of MERCHANTABILITY or +; FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License +; for more details. +; +; You should have received a copy of the GNU General Public License +; along with GCC; see the file COPYING3. If not see +; . + + +; See the GCC internals manual for a description of this file's format. + +; Please try to keep this file in ASCII collating order. + +Language +Ada + +I +Ada Joined Separate +; Documented for C + +Wall +Ada +; Documented for C + +Wmissing-prototypes +Ada +; Documented for C + +Wstrict-prototypes +Ada +; Documented for C + +Wwrite-strings +Ada +; Documented for C + +Wlong-long +Ada +; Documented for C + +Wvariadic-macros +Ada +; Documented for C + +Wold-style-definition +Ada +; Documented for C + +Wmissing-format-attribute +Ada +; Documented for C + +Woverlength-strings +Ada +; Documented for C + +nostdinc +Ada RejectNegative +; Don't look for source files + +nostdlib +Ada +; Don't look for object files + +feliminate-unused-debug-types +Ada +; Effect documented for C - intercepted for Ada to force the associated flag +; not to be set by default, as it currently eliminates unreferenced parallel +; types we need for encoding descriptions to the debugger. + +fRTS= +Ada Joined RejectNegative +; Selects the runtime + +gdwarf+ +Ada +; Explicit request for dwarf debug info with GNAT specific extensions. + +gant +Ada Joined Undocumented +; Catches typos + +gnatO +Ada Separate +; Sets name of output ALI file (internal switch) + +gnat +Ada Joined +-gnat Specify options to GNAT + +; This comment is to ensure we retain the blank line above. diff --git a/gcc/ada/gcc-interface/misc.c b/gcc/ada/gcc-interface/misc.c new file mode 100644 index 00000000000..02397d7f445 --- /dev/null +++ b/gcc/ada/gcc-interface/misc.c @@ -0,0 +1,876 @@ +/**************************************************************************** + * * + * GNAT COMPILER COMPONENTS * + * * + * M I S C * + * * + * C Implementation File * + * * + * Copyright (C) 1992-2008, Free Software Foundation, Inc. * + * * + * GNAT is free software; you can redistribute it and/or modify it under * + * terms of the GNU General Public License as published by the Free Soft- * + * ware Foundation; either version 2, or (at your option) any later ver- * + * sion. GNAT is distributed in the hope that it will be useful, but WITH- * + * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * + * for more details. You should have received a copy of the GNU General * + * Public License distributed with GNAT; see file COPYING. If not, write * + * to the Free Software Foundation, 51 Franklin Street, Fifth Floor, * + * Boston, MA 02110-1301, USA. * + * * + * As a special exception, if you link this file with other files to * + * produce an executable, this file does not by itself cause the resulting * + * executable to be covered by the GNU General Public License. This except- * + * ion does not however invalidate any other reasons why the executable * + * file might be covered by the GNU Public License. * + * * + * GNAT was originally developed by the GNAT team at New York University. * + * Extensive contributions were provided by Ada Core Technologies Inc. * + * * + ****************************************************************************/ + +/* This file contains parts of the compiler that are required for interfacing + with GCC but otherwise do nothing and parts of Gigi that need to know + about RTL. */ + +#include "config.h" +#include "system.h" +#include "coretypes.h" +#include "tm.h" +#include "tree.h" +#include "real.h" +#include "rtl.h" +#include "diagnostic.h" +#include "expr.h" +#include "libfuncs.h" +#include "ggc.h" +#include "flags.h" +#include "debug.h" +#include "cgraph.h" +#include "tree-inline.h" +#include "insn-codes.h" +#include "insn-flags.h" +#include "insn-config.h" +#include "optabs.h" +#include "recog.h" +#include "toplev.h" +#include "output.h" +#include "except.h" +#include "tm_p.h" +#include "langhooks.h" +#include "langhooks-def.h" +#include "target.h" + +#include "ada.h" +#include "types.h" +#include "atree.h" +#include "elists.h" +#include "namet.h" +#include "nlists.h" +#include "stringt.h" +#include "uintp.h" +#include "fe.h" +#include "sinfo.h" +#include "einfo.h" +#include "ada-tree.h" +#include "gigi.h" +#include "adadecode.h" +#include "opts.h" +#include "options.h" + +extern FILE *asm_out_file; + +/* The largest alignment, in bits, that is needed for using the widest + move instruction. */ +unsigned int largest_move_alignment; + +static bool gnat_init (void); +static void gnat_finish_incomplete_decl (tree); +static unsigned int gnat_init_options (unsigned int, const char **); +static int gnat_handle_option (size_t, const char *, int); +static bool gnat_post_options (const char **); +static alias_set_type gnat_get_alias_set (tree); +static void gnat_print_decl (FILE *, tree, int); +static void gnat_print_type (FILE *, tree, int); +static const char *gnat_printable_name (tree, int); +static const char *gnat_dwarf_name (tree, int); +static tree gnat_return_tree (tree); +static int gnat_eh_type_covers (tree, tree); +static void gnat_parse_file (int); +static rtx gnat_expand_expr (tree, rtx, enum machine_mode, int, + rtx *); +static void internal_error_function (const char *, va_list *); +static tree gnat_type_max_size (const_tree); + +/* Definitions for our language-specific hooks. */ + +#undef LANG_HOOKS_NAME +#define LANG_HOOKS_NAME "GNU Ada" +#undef LANG_HOOKS_IDENTIFIER_SIZE +#define LANG_HOOKS_IDENTIFIER_SIZE sizeof (struct tree_identifier) +#undef LANG_HOOKS_INIT +#define LANG_HOOKS_INIT gnat_init +#undef LANG_HOOKS_INIT_OPTIONS +#define LANG_HOOKS_INIT_OPTIONS gnat_init_options +#undef LANG_HOOKS_HANDLE_OPTION +#define LANG_HOOKS_HANDLE_OPTION gnat_handle_option +#undef LANG_HOOKS_POST_OPTIONS +#define LANG_HOOKS_POST_OPTIONS gnat_post_options +#undef LANG_HOOKS_PARSE_FILE +#define LANG_HOOKS_PARSE_FILE gnat_parse_file +#undef LANG_HOOKS_HASH_TYPES +#define LANG_HOOKS_HASH_TYPES false +#undef LANG_HOOKS_GETDECLS +#define LANG_HOOKS_GETDECLS lhd_return_null_tree_v +#undef LANG_HOOKS_PUSHDECL +#define LANG_HOOKS_PUSHDECL gnat_return_tree +#undef LANG_HOOKS_WRITE_GLOBALS +#define LANG_HOOKS_WRITE_GLOBALS gnat_write_global_declarations +#undef LANG_HOOKS_FINISH_INCOMPLETE_DECL +#define LANG_HOOKS_FINISH_INCOMPLETE_DECL gnat_finish_incomplete_decl +#undef LANG_HOOKS_GET_ALIAS_SET +#define LANG_HOOKS_GET_ALIAS_SET gnat_get_alias_set +#undef LANG_HOOKS_EXPAND_EXPR +#define LANG_HOOKS_EXPAND_EXPR gnat_expand_expr +#undef LANG_HOOKS_MARK_ADDRESSABLE +#define LANG_HOOKS_MARK_ADDRESSABLE gnat_mark_addressable +#undef LANG_HOOKS_PRINT_DECL +#define LANG_HOOKS_PRINT_DECL gnat_print_decl +#undef LANG_HOOKS_PRINT_TYPE +#define LANG_HOOKS_PRINT_TYPE gnat_print_type +#undef LANG_HOOKS_TYPE_MAX_SIZE +#define LANG_HOOKS_TYPE_MAX_SIZE gnat_type_max_size +#undef LANG_HOOKS_DECL_PRINTABLE_NAME +#define LANG_HOOKS_DECL_PRINTABLE_NAME gnat_printable_name +#undef LANG_HOOKS_DWARF_NAME +#define LANG_HOOKS_DWARF_NAME gnat_dwarf_name +#undef LANG_HOOKS_GIMPLIFY_EXPR +#define LANG_HOOKS_GIMPLIFY_EXPR gnat_gimplify_expr +#undef LANG_HOOKS_TYPE_FOR_MODE +#define LANG_HOOKS_TYPE_FOR_MODE gnat_type_for_mode +#undef LANG_HOOKS_TYPE_FOR_SIZE +#define LANG_HOOKS_TYPE_FOR_SIZE gnat_type_for_size +#undef LANG_HOOKS_TYPES_COMPATIBLE_P +#define LANG_HOOKS_TYPES_COMPATIBLE_P gnat_types_compatible_p +#undef LANG_HOOKS_ATTRIBUTE_TABLE +#define LANG_HOOKS_ATTRIBUTE_TABLE gnat_internal_attribute_table +#undef LANG_HOOKS_BUILTIN_FUNCTION +#define LANG_HOOKS_BUILTIN_FUNCTION gnat_builtin_function + +const struct lang_hooks lang_hooks = LANG_HOOKS_INITIALIZER; + +/* How much we want of our DWARF extensions. Some of our dwarf+ extensions + are incompatible with regular GDB versions, so we must make sure to only + produce them on explicit request. This is eventually reflected into the + use_gnu_debug_info_extensions common flag for later processing. */ + +static int gnat_dwarf_extensions = 0; + +/* Command-line argc and argv. + These variables are global, since they are imported and used in + back_end.adb */ + +unsigned int save_argc; +const char **save_argv; + +/* gnat standard argc argv */ + +extern int gnat_argc; +extern char **gnat_argv; + + +/* Declare functions we use as part of startup. */ +extern void __gnat_initialize (void *); +extern void __gnat_install_SEH_handler (void *); +extern void adainit (void); +extern void _ada_gnat1drv (void); + +/* The parser for the language. For us, we process the GNAT tree. */ + +static void +gnat_parse_file (int set_yydebug ATTRIBUTE_UNUSED) +{ + int seh[2]; + + /* Call the target specific initializations. */ + __gnat_initialize (NULL); + + /* ??? Call the SEH initialization routine. This is to workaround + a bootstrap path problem. The call below should be removed at some + point and the SEH pointer passed to __gnat_initialize() above. */ + __gnat_install_SEH_handler((void *)seh); + + /* Call the front-end elaboration procedures. */ + adainit (); + + /* Call the front end. */ + _ada_gnat1drv (); + + /* We always have a single compilation unit in Ada. */ + cgraph_finalize_compilation_unit (); +} + +/* Decode all the language specific options that cannot be decoded by GCC. + The option decoding phase of GCC calls this routine on the flags that + it cannot decode. This routine returns the number of consecutive arguments + from ARGV that it successfully decoded; 0 indicates failure. */ + +static int +gnat_handle_option (size_t scode, const char *arg, int value) +{ + const struct cl_option *option = &cl_options[scode]; + enum opt_code code = (enum opt_code) scode; + char *q; + + if (arg == NULL && (option->flags & (CL_JOINED | CL_SEPARATE))) + { + error ("missing argument to \"-%s\"", option->opt_text); + return 1; + } + + switch (code) + { + case OPT_I: + q = XNEWVEC (char, sizeof("-I") + strlen (arg)); + strcpy (q, "-I"); + strcat (q, arg); + gnat_argv[gnat_argc] = q; + gnat_argc++; + break; + + case OPT_Wall: + set_Wunused (value); + + /* We save the value of warn_uninitialized, since if they put + -Wuninitialized on the command line, we need to generate a + warning about not using it without also specifying -O. */ + if (warn_uninitialized != 1) + warn_uninitialized = (value ? 2 : 0); + break; + + /* These are used in the GCC Makefile. */ + case OPT_Wmissing_prototypes: + case OPT_Wstrict_prototypes: + case OPT_Wwrite_strings: + case OPT_Wlong_long: + case OPT_Wvariadic_macros: + case OPT_Wold_style_definition: + case OPT_Wmissing_format_attribute: + case OPT_Woverlength_strings: + break; + + /* This is handled by the front-end. */ + case OPT_nostdinc: + break; + + case OPT_nostdlib: + gnat_argv[gnat_argc] = xstrdup ("-nostdlib"); + gnat_argc++; + break; + + case OPT_feliminate_unused_debug_types: + /* We arrange for post_option to be able to only set the corresponding + flag to 1 when explicitly requested by the user. We expect the + default flag value to be either 0 or positive, and expose a positive + -f as a negative value to post_option. */ + flag_eliminate_unused_debug_types = -value; + break; + + case OPT_fRTS_: + gnat_argv[gnat_argc] = xstrdup ("-fRTS"); + gnat_argc++; + break; + + case OPT_gant: + warning (0, "%<-gnat%> misspelled as %<-gant%>"); + + /* ... fall through ... */ + + case OPT_gnat: + /* Recopy the switches without the 'gnat' prefix. */ + gnat_argv[gnat_argc] = XNEWVEC (char, strlen (arg) + 2); + gnat_argv[gnat_argc][0] = '-'; + strcpy (gnat_argv[gnat_argc] + 1, arg); + gnat_argc++; + break; + + case OPT_gnatO: + gnat_argv[gnat_argc] = xstrdup ("-O"); + gnat_argc++; + gnat_argv[gnat_argc] = xstrdup (arg); + gnat_argc++; + break; + + case OPT_gdwarf_: + gnat_dwarf_extensions ++; + break; + + default: + gcc_unreachable (); + } + + return 1; +} + +/* Initialize for option processing. */ + +static unsigned int +gnat_init_options (unsigned int argc, const char **argv) +{ + /* Initialize gnat_argv with save_argv size. */ + gnat_argv = (char **) xmalloc ((argc + 1) * sizeof (argv[0])); + gnat_argv[0] = xstrdup (argv[0]); /* name of the command */ + gnat_argc = 1; + + save_argc = argc; + save_argv = argv; + + /* Uninitialized really means uninitialized in Ada. */ + flag_zero_initialized_in_bss = 0; + + return CL_Ada; +} + +/* Post-switch processing. */ + +bool +gnat_post_options (const char **pfilename ATTRIBUTE_UNUSED) +{ + /* ??? The warning machinery is outsmarted by Ada. */ + warn_unused_parameter = 0; + + /* Force eliminate_unused_debug_types to 0 unless an explicit positive + -f has been passed. This forces the default to 0 for Ada, which might + differ from the common default. */ + if (flag_eliminate_unused_debug_types < 0) + flag_eliminate_unused_debug_types = 1; + else + flag_eliminate_unused_debug_types = 0; + + /* Reflect the explicit request of DWARF extensions into the common + flag for use by later passes. */ + if (write_symbols == DWARF2_DEBUG) + use_gnu_debug_info_extensions = gnat_dwarf_extensions > 0; + + return false; +} + +/* Here is the function to handle the compiler error processing in GCC. */ + +static void +internal_error_function (const char *msgid, va_list *ap) +{ + text_info tinfo; + char *buffer, *p, *loc; + String_Template temp, temp_loc; + Fat_Pointer fp, fp_loc; + expanded_location s; + + /* Reset the pretty-printer. */ + pp_clear_output_area (global_dc->printer); + + /* Format the message into the pretty-printer. */ + tinfo.format_spec = msgid; + tinfo.args_ptr = ap; + tinfo.err_no = errno; + pp_format_verbatim (global_dc->printer, &tinfo); + + /* Extract a (writable) pointer to the formatted text. */ + buffer = (char*) pp_formatted_text (global_dc->printer); + + /* Go up to the first newline. */ + for (p = buffer; *p; p++) + if (*p == '\n') + { + *p = '\0'; + break; + } + + temp.Low_Bound = 1; + temp.High_Bound = p - buffer; + fp.Bounds = &temp; + fp.Array = buffer; + + s = expand_location (input_location); + if (flag_show_column && s.column != 0) + asprintf (&loc, "%s:%d:%d", s.file, s.line, s.column); + else + asprintf (&loc, "%s:%d", s.file, s.line); + temp_loc.Low_Bound = 1; + temp_loc.High_Bound = strlen (loc); + fp_loc.Bounds = &temp_loc; + fp_loc.Array = loc; + + Current_Error_Node = error_gnat_node; + Compiler_Abort (fp, -1, fp_loc); +} + +/* Perform all the initialization steps that are language-specific. */ + +static bool +gnat_init (void) +{ + /* Performs whatever initialization steps needed by the language-dependent + lexical analyzer. */ + gnat_init_decl_processing (); + + /* Add the input filename as the last argument. */ + gnat_argv[gnat_argc] = (char *) main_input_filename; + gnat_argc++; + gnat_argv[gnat_argc] = 0; + + global_dc->internal_error = &internal_error_function; + + /* Show that REFERENCE_TYPEs are internal and should be Pmode. */ + internal_reference_types (); + + return true; +} + +/* This function is called indirectly from toplev.c to handle incomplete + declarations, i.e. VAR_DECL nodes whose DECL_SIZE is zero. To be precise, + compile_file in toplev.c makes an indirect call through the function pointer + incomplete_decl_finalize_hook which is initialized to this routine in + init_decl_processing. */ + +static void +gnat_finish_incomplete_decl (tree dont_care ATTRIBUTE_UNUSED) +{ + gcc_unreachable (); +} + +/* Compute the alignment of the largest mode that can be used for copying + objects. */ + +void +gnat_compute_largest_alignment (void) +{ + enum machine_mode mode; + + for (mode = GET_CLASS_NARROWEST_MODE (MODE_INT); mode != VOIDmode; + mode = GET_MODE_WIDER_MODE (mode)) + if (optab_handler (mov_optab, mode)->insn_code != CODE_FOR_nothing) + largest_move_alignment = MIN (BIGGEST_ALIGNMENT, + MAX (largest_move_alignment, + GET_MODE_ALIGNMENT (mode))); +} + +/* If we are using the GCC mechanism to process exception handling, we + have to register the personality routine for Ada and to initialize + various language dependent hooks. */ + +void +gnat_init_gcc_eh (void) +{ +#ifdef DWARF2_UNWIND_INFO + /* lang_dependent_init already called dwarf2out_frame_init if true. */ + int dwarf2out_frame_initialized = dwarf2out_do_frame (); +#endif + + /* We shouldn't do anything if the No_Exceptions_Handler pragma is set, + though. This could for instance lead to the emission of tables with + references to symbols (such as the Ada eh personality routine) within + libraries we won't link against. */ + if (No_Exception_Handlers_Set ()) + return; + + /* Tell GCC we are handling cleanup actions through exception propagation. + This opens possibilities that we don't take advantage of yet, but is + nonetheless necessary to ensure that fixup code gets assigned to the + right exception regions. */ + using_eh_for_cleanups (); + + eh_personality_libfunc = init_one_libfunc (USING_SJLJ_EXCEPTIONS + ? "__gnat_eh_personality_sj" + : "__gnat_eh_personality"); + lang_eh_type_covers = gnat_eh_type_covers; + lang_eh_runtime_type = gnat_return_tree; + default_init_unwind_resume_libfunc (); + + /* Turn on -fexceptions and -fnon-call-exceptions. The first one triggers + the generation of the necessary exception runtime tables. The second one + is useful for two reasons: 1/ we map some asynchronous signals like SEGV + to exceptions, so we need to ensure that the insns which can lead to such + signals are correctly attached to the exception region they pertain to, + 2/ Some calls to pure subprograms are handled as libcall blocks and then + marked as "cannot trap" if the flag is not set (see emit_libcall_block). + We should not let this be since it is possible for such calls to actually + raise in Ada. */ + flag_exceptions = 1; + flag_non_call_exceptions = 1; + + init_eh (); +#ifdef DWARF2_UNWIND_INFO + if (!dwarf2out_frame_initialized && dwarf2out_do_frame ()) + dwarf2out_frame_init (); +#endif +} + +/* Language hooks, first one to print language-specific items in a DECL. */ + +static void +gnat_print_decl (FILE *file, tree node, int indent) +{ + switch (TREE_CODE (node)) + { + case CONST_DECL: + print_node (file, "const_corresponding_var", + DECL_CONST_CORRESPONDING_VAR (node), indent + 4); + break; + + case FIELD_DECL: + print_node (file, "original_field", DECL_ORIGINAL_FIELD (node), + indent + 4); + break; + + case VAR_DECL: + print_node (file, "renamed_object", DECL_RENAMED_OBJECT (node), + indent + 4); + break; + + default: + break; + } +} + +static void +gnat_print_type (FILE *file, tree node, int indent) +{ + switch (TREE_CODE (node)) + { + case FUNCTION_TYPE: + print_node (file, "ci_co_list", TYPE_CI_CO_LIST (node), indent + 4); + break; + + case ENUMERAL_TYPE: + print_node (file, "RM size", TYPE_RM_SIZE_NUM (node), indent + 4); + break; + + case INTEGER_TYPE: + if (TYPE_MODULAR_P (node)) + print_node (file, "modulus", TYPE_MODULUS (node), indent + 4); + else if (TYPE_HAS_ACTUAL_BOUNDS_P (node)) + print_node (file, "actual bounds", TYPE_ACTUAL_BOUNDS (node), + indent + 4); + else if (TYPE_VAX_FLOATING_POINT_P (node)) + ; + else + print_node (file, "index type", TYPE_INDEX_TYPE (node), indent + 4); + + print_node (file, "RM size", TYPE_RM_SIZE_NUM (node), indent + 4); + break; + + case ARRAY_TYPE: + print_node (file,"actual bounds", TYPE_ACTUAL_BOUNDS (node), indent + 4); + break; + + case RECORD_TYPE: + if (TYPE_IS_FAT_POINTER_P (node) || TYPE_CONTAINS_TEMPLATE_P (node)) + print_node (file, "unconstrained array", + TYPE_UNCONSTRAINED_ARRAY (node), indent + 4); + else + print_node (file, "Ada size", TYPE_ADA_SIZE (node), indent + 4); + break; + + case UNION_TYPE: + case QUAL_UNION_TYPE: + print_node (file, "Ada size", TYPE_ADA_SIZE (node), indent + 4); + break; + + default: + break; + } +} + +static const char * +gnat_dwarf_name (tree t, int verbosity ATTRIBUTE_UNUSED) +{ + gcc_assert (DECL_P (t)); + + return (const char *) IDENTIFIER_POINTER (DECL_NAME (t)); +} + +static const char * +gnat_printable_name (tree decl, int verbosity) +{ + const char *coded_name = IDENTIFIER_POINTER (DECL_NAME (decl)); + char *ada_name = (char *) ggc_alloc (strlen (coded_name) * 2 + 60); + + __gnat_decode (coded_name, ada_name, 0); + + if (verbosity == 2) + { + Set_Identifier_Casing (ada_name, (char *) DECL_SOURCE_FILE (decl)); + ada_name = Name_Buffer; + } + + return (const char *) ada_name; +} + +/* Expands GNAT-specific GCC tree nodes. The only ones we support + here are and NULL_EXPR. */ + +static rtx +gnat_expand_expr (tree exp, rtx target, enum machine_mode tmode, + int modifier, rtx *alt_rtl) +{ + tree type = TREE_TYPE (exp); + tree new; + + /* Update EXP to be the new expression to expand. */ + switch (TREE_CODE (exp)) + { +#if 0 + case ALLOCATE_EXPR: + return + allocate_dynamic_stack_space + (expand_expr (TREE_OPERAND (exp, 0), NULL_RTX, TYPE_MODE (sizetype), + EXPAND_NORMAL), + NULL_RTX, tree_low_cst (TREE_OPERAND (exp, 1), 1)); +#endif + + case UNCONSTRAINED_ARRAY_REF: + /* If we are evaluating just for side-effects, just evaluate our + operand. Otherwise, abort since this code should never appear + in a tree to be evaluated (objects aren't unconstrained). */ + if (target == const0_rtx || TREE_CODE (type) == VOID_TYPE) + return expand_expr (TREE_OPERAND (exp, 0), const0_rtx, + VOIDmode, modifier); + + /* ... fall through ... */ + + default: + gcc_unreachable (); + } + + return expand_expr_real (new, target, tmode, modifier, alt_rtl); +} + +/* Do nothing (return the tree node passed). */ + +static tree +gnat_return_tree (tree t) +{ + return t; +} + +/* Return true if type A catches type B. Callback for flow analysis from + the exception handling part of the back-end. */ + +static int +gnat_eh_type_covers (tree a, tree b) +{ + /* a catches b if they represent the same exception id or if a + is an "others". + + ??? integer_zero_node for "others" is hardwired in too many places + currently. */ + return (a == b || a == integer_zero_node); +} + +/* Get the alias set corresponding to a type or expression. */ + +static alias_set_type +gnat_get_alias_set (tree type) +{ + /* If this is a padding type, use the type of the first field. */ + if (TREE_CODE (type) == RECORD_TYPE + && TYPE_IS_PADDING_P (type)) + return get_alias_set (TREE_TYPE (TYPE_FIELDS (type))); + + /* If the type is an unconstrained array, use the type of the + self-referential array we make. */ + else if (TREE_CODE (type) == UNCONSTRAINED_ARRAY_TYPE) + return + get_alias_set (TREE_TYPE (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (type))))); + + /* If the type can alias any other types, return the alias set 0. */ + else if (TYPE_P (type) + && TYPE_UNIVERSAL_ALIASING_P (TYPE_MAIN_VARIANT (type))) + return 0; + + return -1; +} + +/* GNU_TYPE is a type. Return its maximum size in bytes, if known, + as a constant when possible. */ + +static tree +gnat_type_max_size (const_tree gnu_type) +{ + /* First see what we can get from TYPE_SIZE_UNIT, which might not + be constant even for simple expressions if it has already been + elaborated and possibly replaced by a VAR_DECL. */ + tree max_unitsize = max_size (TYPE_SIZE_UNIT (gnu_type), true); + + /* If we don't have a constant, see what we can get from TYPE_ADA_SIZE, + which should stay untouched. */ + if (!host_integerp (max_unitsize, 1) + && (TREE_CODE (gnu_type) == RECORD_TYPE + || TREE_CODE (gnu_type) == UNION_TYPE + || TREE_CODE (gnu_type) == QUAL_UNION_TYPE) + && TYPE_ADA_SIZE (gnu_type)) + { + tree max_adasize = max_size (TYPE_ADA_SIZE (gnu_type), true); + + /* If we have succeeded in finding a constant, round it up to the + type's alignment and return the result in units. */ + if (host_integerp (max_adasize, 1)) + max_unitsize + = size_binop (CEIL_DIV_EXPR, + round_up (max_adasize, TYPE_ALIGN (gnu_type)), + bitsize_unit_node); + } + + return max_unitsize; +} + +/* GNU_TYPE is a type. Determine if it should be passed by reference by + default. */ + +bool +default_pass_by_ref (tree gnu_type) +{ + /* We pass aggregates by reference if they are sufficiently large. The + choice of constant here is somewhat arbitrary. We also pass by + reference if the target machine would either pass or return by + reference. Strictly speaking, we need only check the return if this + is an In Out parameter, but it's probably best to err on the side of + passing more things by reference. */ + + if (pass_by_reference (NULL, TYPE_MODE (gnu_type), gnu_type, 1)) + return true; + + if (targetm.calls.return_in_memory (gnu_type, NULL_TREE)) + return true; + + if (AGGREGATE_TYPE_P (gnu_type) + && (!host_integerp (TYPE_SIZE (gnu_type), 1) + || 0 < compare_tree_int (TYPE_SIZE (gnu_type), + 8 * TYPE_ALIGN (gnu_type)))) + return true; + + return false; +} + +/* GNU_TYPE is the type of a subprogram parameter. Determine from the type if + it should be passed by reference. */ + +bool +must_pass_by_ref (tree gnu_type) +{ + /* We pass only unconstrained objects, those required by the language + to be passed by reference, and objects of variable size. The latter + is more efficient, avoids problems with variable size temporaries, + and does not produce compatibility problems with C, since C does + not have such objects. */ + return (TREE_CODE (gnu_type) == UNCONSTRAINED_ARRAY_TYPE + || (AGGREGATE_TYPE_P (gnu_type) && TYPE_BY_REFERENCE_P (gnu_type)) + || (TYPE_SIZE (gnu_type) + && TREE_CODE (TYPE_SIZE (gnu_type)) != INTEGER_CST)); +} + +/* This function is called by the front end to enumerate all the supported + modes for the machine. We pass a function which is called back with + the following integer parameters: + + FLOAT_P nonzero if this represents a floating-point mode + COMPLEX_P nonzero is this represents a complex mode + COUNT count of number of items, nonzero for vector mode + PRECISION number of bits in data representation + MANTISSA number of bits in mantissa, if FP and known, else zero. + SIZE number of bits used to store data + ALIGN number of bits to which mode is aligned. */ + +void +enumerate_modes (void (*f) (int, int, int, int, int, int, unsigned int)) +{ + enum machine_mode i; + + for (i = 0; i < NUM_MACHINE_MODES; i++) + { + enum machine_mode j; + bool float_p = 0; + bool complex_p = 0; + bool vector_p = 0; + bool skip_p = 0; + int mantissa = 0; + enum machine_mode inner_mode = i; + + switch (GET_MODE_CLASS (i)) + { + case MODE_INT: + break; + case MODE_FLOAT: + float_p = 1; + break; + case MODE_COMPLEX_INT: + complex_p = 1; + inner_mode = GET_MODE_INNER (i); + break; + case MODE_COMPLEX_FLOAT: + float_p = 1; + complex_p = 1; + inner_mode = GET_MODE_INNER (i); + break; + case MODE_VECTOR_INT: + vector_p = 1; + inner_mode = GET_MODE_INNER (i); + break; + case MODE_VECTOR_FLOAT: + float_p = 1; + vector_p = 1; + inner_mode = GET_MODE_INNER (i); + break; + default: + skip_p = 1; + } + + /* Skip this mode if it's one the front end doesn't need to know about + (e.g., the CC modes) or if there is no add insn for that mode (or + any wider mode), meaning it is not supported by the hardware. If + this a complex or vector mode, we care about the inner mode. */ + for (j = inner_mode; j != VOIDmode; j = GET_MODE_WIDER_MODE (j)) + if (optab_handler (add_optab, j)->insn_code != CODE_FOR_nothing) + break; + + if (float_p) + { + const struct real_format *fmt = REAL_MODE_FORMAT (inner_mode); + + mantissa = fmt->p; + } + + if (!skip_p && j != VOIDmode) + (*f) (float_p, complex_p, vector_p ? GET_MODE_NUNITS (i) : 0, + GET_MODE_BITSIZE (i), mantissa, + GET_MODE_SIZE (i) * BITS_PER_UNIT, GET_MODE_ALIGNMENT (i)); + } +} + +int +fp_prec_to_size (int prec) +{ + enum machine_mode mode; + + for (mode = GET_CLASS_NARROWEST_MODE (MODE_FLOAT); mode != VOIDmode; + mode = GET_MODE_WIDER_MODE (mode)) + if (GET_MODE_PRECISION (mode) == prec) + return GET_MODE_BITSIZE (mode); + + gcc_unreachable (); +} + +int +fp_size_to_prec (int size) +{ + enum machine_mode mode; + + for (mode = GET_CLASS_NARROWEST_MODE (MODE_FLOAT); mode != VOIDmode; + mode = GET_MODE_WIDER_MODE (mode)) + if (GET_MODE_BITSIZE (mode) == size) + return GET_MODE_PRECISION (mode); + + gcc_unreachable (); +} diff --git a/gcc/ada/gcc-interface/targtyps.c b/gcc/ada/gcc-interface/targtyps.c new file mode 100644 index 00000000000..c4e3299667d --- /dev/null +++ b/gcc/ada/gcc-interface/targtyps.c @@ -0,0 +1,230 @@ +/**************************************************************************** + * * + * GNAT COMPILER COMPONENTS * + * * + * T A R G T Y P S * + * * + * Body * + * * + * Copyright (C) 1992-2007, Free Software Foundation, Inc. * + * * + * GNAT is free software; you can redistribute it and/or modify it under * + * terms of the GNU General Public License as published by the Free Soft- * + * ware Foundation; either version 2, or (at your option) any later ver- * + * sion. GNAT is distributed in the hope that it will be useful, but WITH- * + * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * + * for more details. You should have received a copy of the GNU General * + * Public License distributed with GNAT; see file COPYING. If not, write * + * to the Free Software Foundation, 51 Franklin Street, Fifth Floor, * + * Boston, MA 02110-1301, USA. * + * * + * As a special exception, if you link this file with other files to * + * produce an executable, this file does not by itself cause the resulting * + * executable to be covered by the GNU General Public License. This except- * + * ion does not however invalidate any other reasons why the executable * + * file might be covered by the GNU Public License. * + * * + * GNAT was originally developed by the GNAT team at New York University. * + * Extensive contributions were provided by Ada Core Technologies Inc. * + * * + ****************************************************************************/ + +/* Functions for retrieving target types. See Ada package Get_Targ */ + +#include "config.h" +#include "system.h" +#include "coretypes.h" +#include "tm.h" +#include "tree.h" +#include "real.h" +#include "rtl.h" +#include "ada.h" +#include "types.h" +#include "atree.h" +#include "elists.h" +#include "namet.h" +#include "nlists.h" +#include "snames.h" +#include "stringt.h" +#include "uintp.h" +#include "urealp.h" +#include "fe.h" +#include "sinfo.h" +#include "einfo.h" +#include "ada-tree.h" +#include "gigi.h" + +/* If we don't have a specific size for Ada's equivalent of `long', use that + of C. */ +#ifndef ADA_LONG_TYPE_SIZE +#define ADA_LONG_TYPE_SIZE LONG_TYPE_SIZE +#endif + +#ifndef WIDEST_HARDWARE_FP_SIZE +#define WIDEST_HARDWARE_FP_SIZE LONG_DOUBLE_TYPE_SIZE +#endif + +/* The following provide a functional interface for the front end Ada code + to determine the sizes that are used for various C types. */ + +Pos +get_target_bits_per_unit (void) +{ + return BITS_PER_UNIT; +} + +Pos +get_target_bits_per_word (void) +{ + return BITS_PER_WORD; +} + +Pos +get_target_char_size (void) +{ + return CHAR_TYPE_SIZE; +} + +Pos +get_target_wchar_t_size (void) +{ + /* We never want wide characters less than "short" in Ada. */ + return MAX (SHORT_TYPE_SIZE, WCHAR_TYPE_SIZE); +} + +Pos +get_target_short_size (void) +{ + return SHORT_TYPE_SIZE; +} + +Pos +get_target_int_size (void) +{ + return INT_TYPE_SIZE; +} + +Pos +get_target_long_size (void) +{ + return ADA_LONG_TYPE_SIZE; +} + +Pos +get_target_long_long_size (void) +{ + return LONG_LONG_TYPE_SIZE; +} + +Pos +get_target_float_size (void) +{ + return fp_prec_to_size (FLOAT_TYPE_SIZE); +} + +Pos +get_target_double_size (void) +{ + return fp_prec_to_size (DOUBLE_TYPE_SIZE); +} + +Pos +get_target_long_double_size (void) +{ + return fp_prec_to_size (WIDEST_HARDWARE_FP_SIZE); +} + + +Pos +get_target_pointer_size (void) +{ + return POINTER_SIZE; +} + +/* Alignment related values, mapped to attributes for functional and + documentation purposes. */ + +/* Standard'Maximum_Default_Alignment. Maximum alignment that the compiler + might choose by default for a type or object. + + Stricter alignment requests trigger gigi's aligning_type circuitry for + stack objects or objects allocated by the default allocator. */ + +Pos +get_target_maximum_default_alignment (void) +{ + return BIGGEST_ALIGNMENT / BITS_PER_UNIT; +} + +/* Standard'Default_Allocator_Alignment. Alignment guaranteed to be honored + by the default allocator (System.Memory.Alloc or malloc if we have no + run-time library at hand). + + Stricter alignment requests trigger gigi's aligning_type circuitry for + objects allocated by the default allocator. */ + +Pos +get_target_default_allocator_alignment (void) +{ + /* ??? Need a way to get info about __gnat_malloc from here (whether + it is handy and what alignment it honors). */ + + return MALLOC_ABI_ALIGNMENT / BITS_PER_UNIT; +} + +/* Standard'Maximum_Allowed_Alignment. Maximum alignment that we may + accept for any type or object. */ + +#ifndef MAX_OFILE_ALIGNMENT +#define MAX_OFILE_ALIGNMENT BIGGEST_ALIGNMENT +#endif + +Pos +get_target_maximum_allowed_alignment (void) +{ + return MAX_OFILE_ALIGNMENT / BITS_PER_UNIT; +} + +/* Standard'Maximum_Alignment. The single attribute initially made + available, now a synonym of Standard'Maximum_Default_Alignment. */ + +Pos +get_target_maximum_alignment (void) +{ + return get_target_maximum_default_alignment (); +} + +#ifndef FLOAT_WORDS_BIG_ENDIAN +#define FLOAT_WORDS_BIG_ENDIAN WORDS_BIG_ENDIAN +#endif + +Nat +get_float_words_be (void) +{ + return FLOAT_WORDS_BIG_ENDIAN; +} + +Nat +get_words_be (void) +{ + return WORDS_BIG_ENDIAN; +} + +Nat +get_bytes_be (void) +{ + return BYTES_BIG_ENDIAN; +} + +Nat +get_bits_be (void) +{ + return BITS_BIG_ENDIAN; +} + +Nat +get_strict_alignment (void) +{ + return STRICT_ALIGNMENT; +} diff --git a/gcc/ada/gcc-interface/trans.c b/gcc/ada/gcc-interface/trans.c new file mode 100644 index 00000000000..abc71f5e53e --- /dev/null +++ b/gcc/ada/gcc-interface/trans.c @@ -0,0 +1,7091 @@ +/**************************************************************************** + * * + * GNAT COMPILER COMPONENTS * + * * + * T R A N S * + * * + * C Implementation File * + * * + * Copyright (C) 1992-2008, Free Software Foundation, Inc. * + * * + * GNAT is free software; you can redistribute it and/or modify it under * + * terms of the GNU General Public License as published by the Free Soft- * + * ware Foundation; either version 2, or (at your option) any later ver- * + * sion. GNAT is distributed in the hope that it will be useful, but WITH- * + * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * + * for more details. You should have received a copy of the GNU General * + * Public License distributed with GNAT; see file COPYING. If not, write * + * to the Free Software Foundation, 51 Franklin Street, Fifth Floor, * + * Boston, MA 02110-1301, USA. * + * * + * GNAT was originally developed by the GNAT team at New York University. * + * Extensive contributions were provided by Ada Core Technologies Inc. * + * * + ****************************************************************************/ + +#include "config.h" +#include "system.h" +#include "coretypes.h" +#include "tm.h" +#include "tree.h" +#include "real.h" +#include "flags.h" +#include "toplev.h" +#include "rtl.h" +#include "expr.h" +#include "ggc.h" +#include "cgraph.h" +#include "function.h" +#include "except.h" +#include "debug.h" +#include "output.h" +#include "tree-iterator.h" +#include "gimple.h" +#include "ada.h" +#include "types.h" +#include "atree.h" +#include "elists.h" +#include "namet.h" +#include "nlists.h" +#include "snames.h" +#include "stringt.h" +#include "uintp.h" +#include "urealp.h" +#include "fe.h" +#include "sinfo.h" +#include "einfo.h" +#include "ada-tree.h" +#include "gigi.h" +#include "adadecode.h" + +#include "dwarf2.h" +#include "dwarf2out.h" + +/* We should avoid allocating more than ALLOCA_THRESHOLD bytes via alloca, + for fear of running out of stack space. If we need more, we use xmalloc + instead. */ +#define ALLOCA_THRESHOLD 1000 + +/* Let code below know whether we are targetting VMS without need of + intrusive preprocessor directives. */ +#ifndef TARGET_ABI_OPEN_VMS +#define TARGET_ABI_OPEN_VMS 0 +#endif + +extern char *__gnat_to_canonical_file_spec (char *); + +int max_gnat_nodes; +int number_names; +int number_files; +struct Node *Nodes_Ptr; +Node_Id *Next_Node_Ptr; +Node_Id *Prev_Node_Ptr; +struct Elist_Header *Elists_Ptr; +struct Elmt_Item *Elmts_Ptr; +struct String_Entry *Strings_Ptr; +Char_Code *String_Chars_Ptr; +struct List_Header *List_Headers_Ptr; + +/* Current filename without path. */ +const char *ref_filename; + +/* If true, then gigi is being called on an analyzed but unexpanded + tree, and the only purpose of the call is to properly annotate + types with representation information. */ +bool type_annotate_only; + +/* When not optimizing, we cache the 'First, 'Last and 'Length attributes + of unconstrained array IN parameters to avoid emitting a great deal of + redundant instructions to recompute them each time. */ +struct parm_attr GTY (()) +{ + int id; /* GTY doesn't like Entity_Id. */ + int dim; + tree first; + tree last; + tree length; +}; + +typedef struct parm_attr *parm_attr; + +DEF_VEC_P(parm_attr); +DEF_VEC_ALLOC_P(parm_attr,gc); + +struct language_function GTY(()) +{ + VEC(parm_attr,gc) *parm_attr_cache; +}; + +#define f_parm_attr_cache \ + DECL_STRUCT_FUNCTION (current_function_decl)->language->parm_attr_cache + +/* A structure used to gather together information about a statement group. + We use this to gather related statements, for example the "then" part + of a IF. In the case where it represents a lexical scope, we may also + have a BLOCK node corresponding to it and/or cleanups. */ + +struct stmt_group GTY((chain_next ("%h.previous"))) { + struct stmt_group *previous; /* Previous code group. */ + tree stmt_list; /* List of statements for this code group. */ + tree block; /* BLOCK for this code group, if any. */ + tree cleanups; /* Cleanups for this code group, if any. */ +}; + +static GTY(()) struct stmt_group *current_stmt_group; + +/* List of unused struct stmt_group nodes. */ +static GTY((deletable)) struct stmt_group *stmt_group_free_list; + +/* A structure used to record information on elaboration procedures + we've made and need to process. + + ??? gnat_node should be Node_Id, but gengtype gets confused. */ + +struct elab_info GTY((chain_next ("%h.next"))) { + struct elab_info *next; /* Pointer to next in chain. */ + tree elab_proc; /* Elaboration procedure. */ + int gnat_node; /* The N_Compilation_Unit. */ +}; + +static GTY(()) struct elab_info *elab_info_list; + +/* Free list of TREE_LIST nodes used for stacks. */ +static GTY((deletable)) tree gnu_stack_free_list; + +/* List of TREE_LIST nodes representing a stack of exception pointer + variables. TREE_VALUE is the VAR_DECL that stores the address of + the raised exception. Nonzero means we are in an exception + handler. Not used in the zero-cost case. */ +static GTY(()) tree gnu_except_ptr_stack; + +/* List of TREE_LIST nodes used to store the current elaboration procedure + decl. TREE_VALUE is the decl. */ +static GTY(()) tree gnu_elab_proc_stack; + +/* Variable that stores a list of labels to be used as a goto target instead of + a return in some functions. See processing for N_Subprogram_Body. */ +static GTY(()) tree gnu_return_label_stack; + +/* List of TREE_LIST nodes representing a stack of LOOP_STMT nodes. + TREE_VALUE of each entry is the label of the corresponding LOOP_STMT. */ +static GTY(()) tree gnu_loop_label_stack; + +/* List of TREE_LIST nodes representing labels for switch statements. + TREE_VALUE of each entry is the label at the end of the switch. */ +static GTY(()) tree gnu_switch_label_stack; + +/* List of TREE_LIST nodes containing the stacks for N_{Push,Pop}_*_Label. */ +static GTY(()) tree gnu_constraint_error_label_stack; +static GTY(()) tree gnu_storage_error_label_stack; +static GTY(()) tree gnu_program_error_label_stack; + +/* Map GNAT tree codes to GCC tree codes for simple expressions. */ +static enum tree_code gnu_codes[Number_Node_Kinds]; + +/* Current node being treated, in case abort called. */ +Node_Id error_gnat_node; + +static void init_code_table (void); +static void Compilation_Unit_to_gnu (Node_Id); +static void record_code_position (Node_Id); +static void insert_code_for (Node_Id); +static void add_cleanup (tree, Node_Id); +static tree unshare_save_expr (tree *, int *, void *); +static void add_stmt_list (List_Id); +static void push_exception_label_stack (tree *, Entity_Id); +static tree build_stmt_group (List_Id, bool); +static void push_stack (tree *, tree, tree); +static void pop_stack (tree *); +static enum gimplify_status gnat_gimplify_stmt (tree *); +static void elaborate_all_entities (Node_Id); +static void process_freeze_entity (Node_Id); +static void process_inlined_subprograms (Node_Id); +static void process_decls (List_Id, List_Id, Node_Id, bool, bool); +static tree emit_range_check (tree, Node_Id); +static tree emit_index_check (tree, tree, tree, tree); +static tree emit_check (tree, tree, int); +static tree convert_with_check (Entity_Id, tree, bool, bool, bool); +static bool smaller_packable_type_p (tree, tree); +static bool addressable_p (tree, tree); +static tree assoc_to_constructor (Entity_Id, Node_Id, tree); +static tree extract_values (tree, tree); +static tree pos_to_constructor (Node_Id, tree, Entity_Id); +static tree maybe_implicit_deref (tree); +static tree gnat_stabilize_reference (tree, bool); +static tree gnat_stabilize_reference_1 (tree, bool); +static void set_expr_location_from_node (tree, Node_Id); +static int lvalue_required_p (Node_Id, tree, int); + +/* Hooks for debug info back-ends, only supported and used in a restricted set + of configurations. */ +static const char *extract_encoding (const char *) ATTRIBUTE_UNUSED; +static const char *decode_name (const char *) ATTRIBUTE_UNUSED; + +/* This is the main program of the back-end. It sets up all the table + structures and then generates code. */ + +void +gigi (Node_Id gnat_root, int max_gnat_node, int number_name, + struct Node *nodes_ptr, Node_Id *next_node_ptr, Node_Id *prev_node_ptr, + struct Elist_Header *elists_ptr, struct Elmt_Item *elmts_ptr, + struct String_Entry *strings_ptr, Char_Code *string_chars_ptr, + struct List_Header *list_headers_ptr, Nat number_file, + struct File_Info_Type *file_info_ptr, + Entity_Id standard_integer, Entity_Id standard_long_long_float, + Entity_Id standard_exception_type, Int gigi_operating_mode) +{ + tree gnu_standard_long_long_float; + tree gnu_standard_exception_type; + struct elab_info *info; + int i; + + max_gnat_nodes = max_gnat_node; + number_names = number_name; + number_files = number_file; + Nodes_Ptr = nodes_ptr; + Next_Node_Ptr = next_node_ptr; + Prev_Node_Ptr = prev_node_ptr; + Elists_Ptr = elists_ptr; + Elmts_Ptr = elmts_ptr; + Strings_Ptr = strings_ptr; + String_Chars_Ptr = string_chars_ptr; + List_Headers_Ptr = list_headers_ptr; + + type_annotate_only = (gigi_operating_mode == 1); + + for (i = 0; i < number_files; i++) + { + /* Use the identifier table to make a permanent copy of the filename as + the name table gets reallocated after Gigi returns but before all the + debugging information is output. The __gnat_to_canonical_file_spec + call translates filenames from pragmas Source_Reference that contain + host style syntax not understood by gdb. */ + const char *filename + = IDENTIFIER_POINTER + (get_identifier + (__gnat_to_canonical_file_spec + (Get_Name_String (file_info_ptr[i].File_Name)))); + + /* We rely on the order isomorphism between files and line maps. */ + gcc_assert ((int) line_table->used == i); + + /* We create the line map for a source file at once, with a fixed number + of columns chosen to avoid jumping over the next power of 2. */ + linemap_add (line_table, LC_ENTER, 0, filename, 1); + linemap_line_start (line_table, file_info_ptr[i].Num_Source_Lines, 252); + linemap_position_for_column (line_table, 252 - 1); + linemap_add (line_table, LC_LEAVE, 0, NULL, 0); + } + + /* Initialize ourselves. */ + init_code_table (); + init_gnat_to_gnu (); + gnat_compute_largest_alignment (); + init_dummy_type (); + + /* If we are just annotating types, give VOID_TYPE zero sizes to avoid + errors. */ + if (type_annotate_only) + { + TYPE_SIZE (void_type_node) = bitsize_zero_node; + TYPE_SIZE_UNIT (void_type_node) = size_zero_node; + } + + /* If the GNU type extensions to DWARF are available, setup the hooks. */ +#if defined (DWARF2_DEBUGGING_INFO) && defined (DWARF2_GNU_TYPE_EXTENSIONS) + /* We condition the name demangling and the generation of type encoding + strings on -gdwarf+ and always set descriptive types on. */ + if (use_gnu_debug_info_extensions) + { + dwarf2out_set_type_encoding_func (extract_encoding); + dwarf2out_set_demangle_name_func (decode_name); + } + dwarf2out_set_descriptive_type_func (get_parallel_type); +#endif + + /* Enable GNAT stack checking method if needed */ + if (!Stack_Check_Probes_On_Target) + set_stack_check_libfunc (gen_rtx_SYMBOL_REF (Pmode, "_gnat_stack_check")); + + /* Give names and make TYPE_DECLs for common types. */ + create_type_decl (get_identifier (SIZE_TYPE), sizetype, + NULL, false, true, Empty); + create_type_decl (get_identifier ("integer"), integer_type_node, + NULL, false, true, Empty); + create_type_decl (get_identifier ("unsigned char"), char_type_node, + NULL, false, true, Empty); + create_type_decl (get_identifier ("long integer"), long_integer_type_node, + NULL, false, true, Empty); + + /* Save the type we made for integer as the type for Standard.Integer. + Then make the rest of the standard types. Note that some of these + may be subtypes. */ + save_gnu_tree (Base_Type (standard_integer), TYPE_NAME (integer_type_node), + false); + + gnu_except_ptr_stack = tree_cons (NULL_TREE, NULL_TREE, NULL_TREE); + gnu_constraint_error_label_stack + = tree_cons (NULL_TREE, NULL_TREE, NULL_TREE); + gnu_storage_error_label_stack = tree_cons (NULL_TREE, NULL_TREE, NULL_TREE); + gnu_program_error_label_stack = tree_cons (NULL_TREE, NULL_TREE, NULL_TREE); + + gnu_standard_long_long_float + = gnat_to_gnu_entity (Base_Type (standard_long_long_float), NULL_TREE, 0); + gnu_standard_exception_type + = gnat_to_gnu_entity (Base_Type (standard_exception_type), NULL_TREE, 0); + + init_gigi_decls (gnu_standard_long_long_float, gnu_standard_exception_type); + + /* Process any Pragma Ident for the main unit. */ +#ifdef ASM_OUTPUT_IDENT + if (Present (Ident_String (Main_Unit))) + ASM_OUTPUT_IDENT + (asm_out_file, + TREE_STRING_POINTER (gnat_to_gnu (Ident_String (Main_Unit)))); +#endif + + /* If we are using the GCC exception mechanism, let GCC know. */ + if (Exception_Mechanism == Back_End_Exceptions) + gnat_init_gcc_eh (); + + gcc_assert (Nkind (gnat_root) == N_Compilation_Unit); + start_stmt_group (); + Compilation_Unit_to_gnu (gnat_root); + + /* Now see if we have any elaboration procedures to deal with. */ + for (info = elab_info_list; info; info = info->next) + { + tree gnu_body = DECL_SAVED_TREE (info->elab_proc); + + /* Unshare SAVE_EXPRs between subprograms. These are not unshared by + the gimplifier for obvious reasons, but it turns out that we need to + unshare them for the global level because of SAVE_EXPRs made around + checks for global objects and around allocators for global objects + of variable size, in order to prevent node sharing in the underlying + expression. Note that this implicitly assumes that the SAVE_EXPR + nodes themselves are not shared between subprograms, which would be + an upstream bug for which we would not change the outcome. */ + walk_tree_without_duplicates (&gnu_body, unshare_save_expr, NULL); + + /* Process the function as others, but for indicating this is an + elab proc, to be discarded if empty, then propagate the status + up to the GNAT tree node. */ + begin_subprog_body (info->elab_proc); + end_subprog_body (gnu_body, true); + + if (empty_body_p (gimple_body (info->elab_proc))) + Set_Has_No_Elaboration_Code (info->gnat_node, 1); + } + + /* We cannot track the location of errors past this point. */ + error_gnat_node = Empty; +} + +/* Return a positive value if an lvalue is required for GNAT_NODE. + GNU_TYPE is the type that will be used for GNAT_NODE in the + translated GNU tree. ALIASED indicates whether the underlying + object represented by GNAT_NODE is aliased in the Ada sense. + + The function climbs up the GNAT tree starting from the node and + returns 1 upon encountering a node that effectively requires an + lvalue downstream. It returns int instead of bool to facilitate + usage in non purely binary logic contexts. */ + +static int +lvalue_required_p (Node_Id gnat_node, tree gnu_type, int aliased) +{ + Node_Id gnat_parent = Parent (gnat_node), gnat_temp; + + switch (Nkind (gnat_parent)) + { + case N_Reference: + return 1; + + case N_Attribute_Reference: + { + unsigned char id = Get_Attribute_Id (Attribute_Name (gnat_parent)); + return id == Attr_Address + || id == Attr_Access + || id == Attr_Unchecked_Access + || id == Attr_Unrestricted_Access; + } + + case N_Parameter_Association: + case N_Function_Call: + case N_Procedure_Call_Statement: + return (must_pass_by_ref (gnu_type) || default_pass_by_ref (gnu_type)); + + case N_Indexed_Component: + /* Only the array expression can require an lvalue. */ + if (Prefix (gnat_parent) != gnat_node) + return 0; + + /* ??? Consider that referencing an indexed component with a + non-constant index forces the whole aggregate to memory. + Note that N_Integer_Literal is conservative, any static + expression in the RM sense could probably be accepted. */ + for (gnat_temp = First (Expressions (gnat_parent)); + Present (gnat_temp); + gnat_temp = Next (gnat_temp)) + if (Nkind (gnat_temp) != N_Integer_Literal) + return 1; + + /* ... fall through ... */ + + case N_Slice: + /* Only the array expression can require an lvalue. */ + if (Prefix (gnat_parent) != gnat_node) + return 0; + + aliased |= Has_Aliased_Components (Etype (gnat_node)); + return lvalue_required_p (gnat_parent, gnu_type, aliased); + + case N_Selected_Component: + aliased |= Is_Aliased (Entity (Selector_Name (gnat_parent))); + return lvalue_required_p (gnat_parent, gnu_type, aliased); + + case N_Object_Renaming_Declaration: + /* We need to make a real renaming only if the constant object is + aliased or if we may use a renaming pointer; otherwise we can + optimize and return the rvalue. We make an exception if the object + is an identifier since in this case the rvalue can be propagated + attached to the CONST_DECL. */ + return (aliased != 0 + /* This should match the constant case of the renaming code. */ + || Is_Composite_Type (Etype (Name (gnat_parent))) + || Nkind (Name (gnat_parent)) == N_Identifier); + + default: + return 0; + } + + gcc_unreachable (); +} + +/* Subroutine of gnat_to_gnu to translate gnat_node, an N_Identifier, + to a GCC tree, which is returned. GNU_RESULT_TYPE_P is a pointer + to where we should place the result type. */ + +static tree +Identifier_to_gnu (Node_Id gnat_node, tree *gnu_result_type_p) +{ + Node_Id gnat_temp, gnat_temp_type; + tree gnu_result, gnu_result_type; + + /* Whether we should require an lvalue for GNAT_NODE. Needed in + specific circumstances only, so evaluated lazily. < 0 means + unknown, > 0 means known true, 0 means known false. */ + int require_lvalue = -1; + + /* If GNAT_NODE is a constant, whether we should use the initialization + value instead of the constant entity, typically for scalars with an + address clause when the parent doesn't require an lvalue. */ + bool use_constant_initializer = false; + + /* If the Etype of this node does not equal the Etype of the Entity, + something is wrong with the entity map, probably in generic + instantiation. However, this does not apply to types. Since we sometime + have strange Ekind's, just do this test for objects. Also, if the Etype of + the Entity is private, the Etype of the N_Identifier is allowed to be the + full type and also we consider a packed array type to be the same as the + original type. Similarly, a class-wide type is equivalent to a subtype of + itself. Finally, if the types are Itypes, one may be a copy of the other, + which is also legal. */ + gnat_temp = (Nkind (gnat_node) == N_Defining_Identifier + ? gnat_node : Entity (gnat_node)); + gnat_temp_type = Etype (gnat_temp); + + gcc_assert (Etype (gnat_node) == gnat_temp_type + || (Is_Packed (gnat_temp_type) + && Etype (gnat_node) == Packed_Array_Type (gnat_temp_type)) + || (Is_Class_Wide_Type (Etype (gnat_node))) + || (IN (Ekind (gnat_temp_type), Private_Kind) + && Present (Full_View (gnat_temp_type)) + && ((Etype (gnat_node) == Full_View (gnat_temp_type)) + || (Is_Packed (Full_View (gnat_temp_type)) + && (Etype (gnat_node) + == Packed_Array_Type (Full_View + (gnat_temp_type)))))) + || (Is_Itype (Etype (gnat_node)) && Is_Itype (gnat_temp_type)) + || !(Ekind (gnat_temp) == E_Variable + || Ekind (gnat_temp) == E_Component + || Ekind (gnat_temp) == E_Constant + || Ekind (gnat_temp) == E_Loop_Parameter + || IN (Ekind (gnat_temp), Formal_Kind))); + + /* If this is a reference to a deferred constant whose partial view is an + unconstrained private type, the proper type is on the full view of the + constant, not on the full view of the type, which may be unconstrained. + + This may be a reference to a type, for example in the prefix of the + attribute Position, generated for dispatching code (see Make_DT in + exp_disp,adb). In that case we need the type itself, not is parent, + in particular if it is a derived type */ + if (Is_Private_Type (gnat_temp_type) + && Has_Unknown_Discriminants (gnat_temp_type) + && Ekind (gnat_temp) == E_Constant + && Present (Full_View (gnat_temp))) + { + gnat_temp = Full_View (gnat_temp); + gnat_temp_type = Etype (gnat_temp); + } + else + { + /* We want to use the Actual_Subtype if it has already been elaborated, + otherwise the Etype. Avoid using Actual_Subtype for packed arrays to + simplify things. */ + if ((Ekind (gnat_temp) == E_Constant + || Ekind (gnat_temp) == E_Variable || Is_Formal (gnat_temp)) + && !(Is_Array_Type (Etype (gnat_temp)) + && Present (Packed_Array_Type (Etype (gnat_temp)))) + && Present (Actual_Subtype (gnat_temp)) + && present_gnu_tree (Actual_Subtype (gnat_temp))) + gnat_temp_type = Actual_Subtype (gnat_temp); + else + gnat_temp_type = Etype (gnat_node); + } + + /* Expand the type of this identifier first, in case it is an enumeral + literal, which only get made when the type is expanded. There is no + order-of-elaboration issue here. */ + gnu_result_type = get_unpadded_type (gnat_temp_type); + + /* If this is a non-imported scalar constant with an address clause, + retrieve the value instead of a pointer to be dereferenced unless + an lvalue is required. This is generally more efficient and actually + required if this is a static expression because it might be used + in a context where a dereference is inappropriate, such as a case + statement alternative or a record discriminant. There is no possible + volatile-ness short-circuit here since Volatile constants must be imported + per C.6. */ + if (Ekind (gnat_temp) == E_Constant && Is_Scalar_Type (gnat_temp_type) + && !Is_Imported (gnat_temp) + && Present (Address_Clause (gnat_temp))) + { + require_lvalue = lvalue_required_p (gnat_node, gnu_result_type, + Is_Aliased (gnat_temp)); + use_constant_initializer = !require_lvalue; + } + + if (use_constant_initializer) + { + /* If this is a deferred constant, the initializer is attached to + the full view. */ + if (Present (Full_View (gnat_temp))) + gnat_temp = Full_View (gnat_temp); + + gnu_result = gnat_to_gnu (Expression (Declaration_Node (gnat_temp))); + } + else + gnu_result = gnat_to_gnu_entity (gnat_temp, NULL_TREE, 0); + + /* If we are in an exception handler, force this variable into memory to + ensure optimization does not remove stores that appear redundant but are + actually needed in case an exception occurs. + + ??? Note that we need not do this if the variable is declared within the + handler, only if it is referenced in the handler and declared in an + enclosing block, but we have no way of testing that right now. + + ??? We used to essentially set the TREE_ADDRESSABLE flag on the variable + here, but it can now be removed by the Tree aliasing machinery if the + address of the variable is never taken. All we can do is to make the + variable volatile, which might incur the generation of temporaries just + to access the memory in some circumstances. This can be avoided for + variables of non-constant size because they are automatically allocated + to memory. There might be no way of allocating a proper temporary for + them in any case. We only do this for SJLJ though. */ + if (TREE_VALUE (gnu_except_ptr_stack) + && TREE_CODE (gnu_result) == VAR_DECL + && TREE_CODE (DECL_SIZE_UNIT (gnu_result)) == INTEGER_CST) + TREE_THIS_VOLATILE (gnu_result) = TREE_SIDE_EFFECTS (gnu_result) = 1; + + /* Some objects (such as parameters passed by reference, globals of + variable size, and renamed objects) actually represent the address + of the object. In that case, we must do the dereference. Likewise, + deal with parameters to foreign convention subprograms. */ + if (DECL_P (gnu_result) + && (DECL_BY_REF_P (gnu_result) + || (TREE_CODE (gnu_result) == PARM_DECL + && DECL_BY_COMPONENT_PTR_P (gnu_result)))) + { + bool ro = DECL_POINTS_TO_READONLY_P (gnu_result); + tree renamed_obj; + + if (TREE_CODE (gnu_result) == PARM_DECL + && DECL_BY_COMPONENT_PTR_P (gnu_result)) + gnu_result + = build_unary_op (INDIRECT_REF, NULL_TREE, + convert (build_pointer_type (gnu_result_type), + gnu_result)); + + /* If it's a renaming pointer and we are at the right binding level, + we can reference the renamed object directly, since the renamed + expression has been protected against multiple evaluations. */ + else if (TREE_CODE (gnu_result) == VAR_DECL + && (renamed_obj = DECL_RENAMED_OBJECT (gnu_result)) != 0 + && (! DECL_RENAMING_GLOBAL_P (gnu_result) + || global_bindings_p ())) + gnu_result = renamed_obj; + + /* Return the underlying CST for a CONST_DECL like a few lines below, + after dereferencing in this case. */ + else if (TREE_CODE (gnu_result) == CONST_DECL) + gnu_result = build_unary_op (INDIRECT_REF, NULL_TREE, + DECL_INITIAL (gnu_result)); + + else + gnu_result = build_unary_op (INDIRECT_REF, NULL_TREE, gnu_result); + + TREE_READONLY (gnu_result) = TREE_STATIC (gnu_result) = ro; + } + + /* The GNAT tree has the type of a function as the type of its result. Also + use the type of the result if the Etype is a subtype which is nominally + unconstrained. But remove any padding from the resulting type. */ + if (TREE_CODE (TREE_TYPE (gnu_result)) == FUNCTION_TYPE + || Is_Constr_Subt_For_UN_Aliased (gnat_temp_type)) + { + gnu_result_type = TREE_TYPE (gnu_result); + if (TREE_CODE (gnu_result_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (gnu_result_type)) + gnu_result_type = TREE_TYPE (TYPE_FIELDS (gnu_result_type)); + } + + /* If we have a constant declaration and its initializer at hand, + try to return the latter to avoid the need to call fold in lots + of places and the need of elaboration code if this Id is used as + an initializer itself. */ + if (TREE_CONSTANT (gnu_result) + && DECL_P (gnu_result) + && DECL_INITIAL (gnu_result)) + { + tree object + = (TREE_CODE (gnu_result) == CONST_DECL + ? DECL_CONST_CORRESPONDING_VAR (gnu_result) : gnu_result); + + /* If there is a corresponding variable, we only want to return + the CST value if an lvalue is not required. Evaluate this + now if we have not already done so. */ + if (object && require_lvalue < 0) + require_lvalue = lvalue_required_p (gnat_node, gnu_result_type, + Is_Aliased (gnat_temp)); + + if (!object || !require_lvalue) + gnu_result = unshare_expr (DECL_INITIAL (gnu_result)); + } + + *gnu_result_type_p = gnu_result_type; + return gnu_result; +} + +/* Subroutine of gnat_to_gnu to process gnat_node, an N_Pragma. Return + any statements we generate. */ + +static tree +Pragma_to_gnu (Node_Id gnat_node) +{ + Node_Id gnat_temp; + tree gnu_result = alloc_stmt_list (); + + /* Check for (and ignore) unrecognized pragma and do nothing if we are just + annotating types. */ + if (type_annotate_only + || !Is_Pragma_Name (Chars (Pragma_Identifier (gnat_node)))) + return gnu_result; + + switch (Get_Pragma_Id (Chars (Pragma_Identifier (gnat_node)))) + { + case Pragma_Inspection_Point: + /* Do nothing at top level: all such variables are already viewable. */ + if (global_bindings_p ()) + break; + + for (gnat_temp = First (Pragma_Argument_Associations (gnat_node)); + Present (gnat_temp); + gnat_temp = Next (gnat_temp)) + { + Node_Id gnat_expr = Expression (gnat_temp); + tree gnu_expr = gnat_to_gnu (gnat_expr); + int use_address; + enum machine_mode mode; + tree asm_constraint = NULL_TREE; +#ifdef ASM_COMMENT_START + char *comment; +#endif + + if (TREE_CODE (gnu_expr) == UNCONSTRAINED_ARRAY_REF) + gnu_expr = TREE_OPERAND (gnu_expr, 0); + + /* Use the value only if it fits into a normal register, + otherwise use the address. */ + mode = TYPE_MODE (TREE_TYPE (gnu_expr)); + use_address = ((GET_MODE_CLASS (mode) != MODE_INT + && GET_MODE_CLASS (mode) != MODE_PARTIAL_INT) + || GET_MODE_SIZE (mode) > UNITS_PER_WORD); + + if (use_address) + gnu_expr = build_unary_op (ADDR_EXPR, NULL_TREE, gnu_expr); + +#ifdef ASM_COMMENT_START + comment = concat (ASM_COMMENT_START, + " inspection point: ", + Get_Name_String (Chars (gnat_expr)), + use_address ? " address" : "", + " is in %0", + NULL); + asm_constraint = build_string (strlen (comment), comment); + free (comment); +#endif + gnu_expr = build4 (ASM_EXPR, void_type_node, + asm_constraint, + NULL_TREE, + tree_cons + (build_tree_list (NULL_TREE, + build_string (1, "g")), + gnu_expr, NULL_TREE), + NULL_TREE); + ASM_VOLATILE_P (gnu_expr) = 1; + set_expr_location_from_node (gnu_expr, gnat_node); + append_to_statement_list (gnu_expr, &gnu_result); + } + break; + + case Pragma_Optimize: + switch (Chars (Expression + (First (Pragma_Argument_Associations (gnat_node))))) + { + case Name_Time: case Name_Space: + if (optimize == 0) + post_error ("insufficient -O value?", gnat_node); + break; + + case Name_Off: + if (optimize != 0) + post_error ("must specify -O0?", gnat_node); + break; + + default: + gcc_unreachable (); + } + break; + + case Pragma_Reviewable: + if (write_symbols == NO_DEBUG) + post_error ("must specify -g?", gnat_node); + break; + } + + return gnu_result; +} +/* Subroutine of gnat_to_gnu to translate gnat_node, an N_Attribute, + to a GCC tree, which is returned. GNU_RESULT_TYPE_P is a pointer to + where we should place the result type. ATTRIBUTE is the attribute ID. */ + +static tree +Attribute_to_gnu (Node_Id gnat_node, tree *gnu_result_type_p, int attribute) +{ + tree gnu_result = error_mark_node; + tree gnu_result_type; + tree gnu_expr; + bool prefix_unused = false; + tree gnu_prefix = gnat_to_gnu (Prefix (gnat_node)); + tree gnu_type = TREE_TYPE (gnu_prefix); + + /* If the input is a NULL_EXPR, make a new one. */ + if (TREE_CODE (gnu_prefix) == NULL_EXPR) + { + *gnu_result_type_p = get_unpadded_type (Etype (gnat_node)); + return build1 (NULL_EXPR, *gnu_result_type_p, + TREE_OPERAND (gnu_prefix, 0)); + } + + switch (attribute) + { + case Attr_Pos: + case Attr_Val: + /* These are just conversions until since representation clauses for + enumerations are handled in the front end. */ + { + bool checkp = Do_Range_Check (First (Expressions (gnat_node))); + + gnu_result = gnat_to_gnu (First (Expressions (gnat_node))); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + gnu_result = convert_with_check (Etype (gnat_node), gnu_result, + checkp, checkp, true); + } + break; + + case Attr_Pred: + case Attr_Succ: + /* These just add or subject the constant 1. Representation clauses for + enumerations are handled in the front-end. */ + gnu_expr = gnat_to_gnu (First (Expressions (gnat_node))); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + + if (Do_Range_Check (First (Expressions (gnat_node)))) + { + gnu_expr = protect_multiple_eval (gnu_expr); + gnu_expr + = emit_check + (build_binary_op (EQ_EXPR, integer_type_node, + gnu_expr, + attribute == Attr_Pred + ? TYPE_MIN_VALUE (gnu_result_type) + : TYPE_MAX_VALUE (gnu_result_type)), + gnu_expr, CE_Range_Check_Failed); + } + + gnu_result + = build_binary_op (attribute == Attr_Pred + ? MINUS_EXPR : PLUS_EXPR, + gnu_result_type, gnu_expr, + convert (gnu_result_type, integer_one_node)); + break; + + case Attr_Address: + case Attr_Unrestricted_Access: + /* Conversions don't change something's address but can cause us to miss + the COMPONENT_REF case below, so strip them off. */ + gnu_prefix = remove_conversions (gnu_prefix, + !Must_Be_Byte_Aligned (gnat_node)); + + /* If we are taking 'Address of an unconstrained object, this is the + pointer to the underlying array. */ + if (attribute == Attr_Address) + gnu_prefix = maybe_unconstrained_array (gnu_prefix); + + /* If we are building a static dispatch table, we have to honor + TARGET_VTABLE_USES_DESCRIPTORS if we want to be compatible + with the C++ ABI. We do it in the non-static case as well, + see gnat_to_gnu_entity, case E_Access_Subprogram_Type. */ + else if (TARGET_VTABLE_USES_DESCRIPTORS + && Is_Dispatch_Table_Entity (Etype (gnat_node))) + { + tree gnu_field, gnu_list = NULL_TREE, t; + /* Descriptors can only be built here for top-level functions. */ + bool build_descriptor = (global_bindings_p () != 0); + int i; + + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + + /* If we're not going to build the descriptor, we have to retrieve + the one which will be built by the linker (or by the compiler + later if a static chain is requested). */ + if (!build_descriptor) + { + gnu_result = build_unary_op (ADDR_EXPR, NULL_TREE, gnu_prefix); + gnu_result = fold_convert (build_pointer_type (gnu_result_type), + gnu_result); + gnu_result = build1 (INDIRECT_REF, gnu_result_type, gnu_result); + } + + for (gnu_field = TYPE_FIELDS (gnu_result_type), i = 0; + i < TARGET_VTABLE_USES_DESCRIPTORS; + gnu_field = TREE_CHAIN (gnu_field), i++) + { + if (build_descriptor) + { + t = build2 (FDESC_EXPR, TREE_TYPE (gnu_field), gnu_prefix, + build_int_cst (NULL_TREE, i)); + TREE_CONSTANT (t) = 1; + } + else + t = build3 (COMPONENT_REF, ptr_void_ftype, gnu_result, + gnu_field, NULL_TREE); + + gnu_list = tree_cons (gnu_field, t, gnu_list); + } + + gnu_result = gnat_build_constructor (gnu_result_type, gnu_list); + break; + } + + /* ... fall through ... */ + + case Attr_Access: + case Attr_Unchecked_Access: + case Attr_Code_Address: + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + gnu_result + = build_unary_op (((attribute == Attr_Address + || attribute == Attr_Unrestricted_Access) + && !Must_Be_Byte_Aligned (gnat_node)) + ? ATTR_ADDR_EXPR : ADDR_EXPR, + gnu_result_type, gnu_prefix); + + /* For 'Code_Address, find an inner ADDR_EXPR and mark it so that we + don't try to build a trampoline. */ + if (attribute == Attr_Code_Address) + { + for (gnu_expr = gnu_result; + CONVERT_EXPR_P (gnu_expr); + gnu_expr = TREE_OPERAND (gnu_expr, 0)) + TREE_CONSTANT (gnu_expr) = 1; + + if (TREE_CODE (gnu_expr) == ADDR_EXPR) + TREE_NO_TRAMPOLINE (gnu_expr) = TREE_CONSTANT (gnu_expr) = 1; + } + + /* For other address attributes applied to a nested function, + find an inner ADDR_EXPR and annotate it so that we can issue + a useful warning with -Wtrampolines. */ + else if (TREE_CODE (TREE_TYPE (gnu_prefix)) == FUNCTION_TYPE) + { + for (gnu_expr = gnu_result; + CONVERT_EXPR_P (gnu_expr); + gnu_expr = TREE_OPERAND (gnu_expr, 0)) + ; + + if (TREE_CODE (gnu_expr) == ADDR_EXPR + && decl_function_context (TREE_OPERAND (gnu_expr, 0))) + { + set_expr_location_from_node (gnu_expr, gnat_node); + + /* Check that we're not violating the No_Implicit_Dynamic_Code + restriction. Be conservative if we don't know anything + about the trampoline strategy for the target. */ + Check_Implicit_Dynamic_Code_Allowed (gnat_node); + } + } + break; + + case Attr_Pool_Address: + { + tree gnu_obj_type; + tree gnu_ptr = gnu_prefix; + + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + + /* If this is an unconstrained array, we know the object must have been + allocated with the template in front of the object. So compute the + template address.*/ + if (TYPE_FAT_POINTER_P (TREE_TYPE (gnu_ptr))) + gnu_ptr + = convert (build_pointer_type + (TYPE_OBJECT_RECORD_TYPE + (TYPE_UNCONSTRAINED_ARRAY (TREE_TYPE (gnu_ptr)))), + gnu_ptr); + + gnu_obj_type = TREE_TYPE (TREE_TYPE (gnu_ptr)); + if (TREE_CODE (gnu_obj_type) == RECORD_TYPE + && TYPE_CONTAINS_TEMPLATE_P (gnu_obj_type)) + { + tree gnu_char_ptr_type = build_pointer_type (char_type_node); + tree gnu_pos = byte_position (TYPE_FIELDS (gnu_obj_type)); + tree gnu_byte_offset + = convert (sizetype, + size_diffop (size_zero_node, gnu_pos)); + gnu_byte_offset = fold_build1 (NEGATE_EXPR, sizetype, gnu_byte_offset); + + gnu_ptr = convert (gnu_char_ptr_type, gnu_ptr); + gnu_ptr = build_binary_op (POINTER_PLUS_EXPR, gnu_char_ptr_type, + gnu_ptr, gnu_byte_offset); + } + + gnu_result = convert (gnu_result_type, gnu_ptr); + } + break; + + case Attr_Size: + case Attr_Object_Size: + case Attr_Value_Size: + case Attr_Max_Size_In_Storage_Elements: + gnu_expr = gnu_prefix; + + /* Remove NOPS from gnu_expr and conversions from gnu_prefix. + We only use GNU_EXPR to see if a COMPONENT_REF was involved. */ + while (TREE_CODE (gnu_expr) == NOP_EXPR) + gnu_expr = TREE_OPERAND (gnu_expr, 0); + + gnu_prefix = remove_conversions (gnu_prefix, true); + prefix_unused = true; + gnu_type = TREE_TYPE (gnu_prefix); + + /* Replace an unconstrained array type with the type of the underlying + array. We can't do this with a call to maybe_unconstrained_array + since we may have a TYPE_DECL. For 'Max_Size_In_Storage_Elements, + use the record type that will be used to allocate the object and its + template. */ + if (TREE_CODE (gnu_type) == UNCONSTRAINED_ARRAY_TYPE) + { + gnu_type = TYPE_OBJECT_RECORD_TYPE (gnu_type); + if (attribute != Attr_Max_Size_In_Storage_Elements) + gnu_type = TREE_TYPE (TREE_CHAIN (TYPE_FIELDS (gnu_type))); + } + + /* If we're looking for the size of a field, return the field size. + Otherwise, if the prefix is an object, or if 'Object_Size or + 'Max_Size_In_Storage_Elements has been specified, the result is the + GCC size of the type. Otherwise, the result is the RM_Size of the + type. */ + if (TREE_CODE (gnu_prefix) == COMPONENT_REF) + gnu_result = DECL_SIZE (TREE_OPERAND (gnu_prefix, 1)); + else if (TREE_CODE (gnu_prefix) != TYPE_DECL + || attribute == Attr_Object_Size + || attribute == Attr_Max_Size_In_Storage_Elements) + { + /* If this is a padded type, the GCC size isn't relevant to the + programmer. Normally, what we want is the RM_Size, which was set + from the specified size, but if it was not set, we want the size + of the relevant field. Using the MAX of those two produces the + right result in all case. Don't use the size of the field if it's + a self-referential type, since that's never what's wanted. */ + if (TREE_CODE (gnu_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (gnu_type) + && TREE_CODE (gnu_expr) == COMPONENT_REF) + { + gnu_result = rm_size (gnu_type); + if (!(CONTAINS_PLACEHOLDER_P + (DECL_SIZE (TREE_OPERAND (gnu_expr, 1))))) + gnu_result + = size_binop (MAX_EXPR, gnu_result, + DECL_SIZE (TREE_OPERAND (gnu_expr, 1))); + } + else if (Nkind (Prefix (gnat_node)) == N_Explicit_Dereference) + { + Node_Id gnat_deref = Prefix (gnat_node); + Node_Id gnat_actual_subtype = Actual_Designated_Subtype (gnat_deref); + tree gnu_ptr_type = TREE_TYPE (gnat_to_gnu (Prefix (gnat_deref))); + if (TYPE_FAT_OR_THIN_POINTER_P (gnu_ptr_type) + && Present (gnat_actual_subtype)) + { + tree gnu_actual_obj_type = gnat_to_gnu_type (gnat_actual_subtype); + gnu_type = build_unc_object_type_from_ptr (gnu_ptr_type, + gnu_actual_obj_type, get_identifier ("SIZE")); + } + + gnu_result = TYPE_SIZE (gnu_type); + } + else + gnu_result = TYPE_SIZE (gnu_type); + } + else + gnu_result = rm_size (gnu_type); + + gcc_assert (gnu_result); + + /* Deal with a self-referential size by returning the maximum size for a + type and by qualifying the size with the object for 'Size of an + object. */ + if (CONTAINS_PLACEHOLDER_P (gnu_result)) + { + if (TREE_CODE (gnu_prefix) != TYPE_DECL) + gnu_result = substitute_placeholder_in_expr (gnu_result, gnu_expr); + else + gnu_result = max_size (gnu_result, true); + } + + /* If the type contains a template, subtract its size. */ + if (TREE_CODE (gnu_type) == RECORD_TYPE + && TYPE_CONTAINS_TEMPLATE_P (gnu_type)) + gnu_result = size_binop (MINUS_EXPR, gnu_result, + DECL_SIZE (TYPE_FIELDS (gnu_type))); + + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + + /* Always perform division using unsigned arithmetic as the size cannot + be negative, but may be an overflowed positive value. This provides + correct results for sizes up to 512 MB. + + ??? Size should be calculated in storage elements directly. */ + + if (attribute == Attr_Max_Size_In_Storage_Elements) + gnu_result = convert (sizetype, + fold_build2 (CEIL_DIV_EXPR, bitsizetype, + gnu_result, bitsize_unit_node)); + break; + + case Attr_Alignment: + if (TREE_CODE (gnu_prefix) == COMPONENT_REF + && (TREE_CODE (TREE_TYPE (TREE_OPERAND (gnu_prefix, 0))) + == RECORD_TYPE) + && (TYPE_IS_PADDING_P (TREE_TYPE (TREE_OPERAND (gnu_prefix, 0))))) + gnu_prefix = TREE_OPERAND (gnu_prefix, 0); + + gnu_type = TREE_TYPE (gnu_prefix); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + prefix_unused = true; + + gnu_result = size_int ((TREE_CODE (gnu_prefix) == COMPONENT_REF + ? DECL_ALIGN (TREE_OPERAND (gnu_prefix, 1)) + : TYPE_ALIGN (gnu_type)) / BITS_PER_UNIT); + break; + + case Attr_First: + case Attr_Last: + case Attr_Range_Length: + prefix_unused = true; + + if (INTEGRAL_TYPE_P (gnu_type) || TREE_CODE (gnu_type) == REAL_TYPE) + { + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + + if (attribute == Attr_First) + gnu_result = TYPE_MIN_VALUE (gnu_type); + else if (attribute == Attr_Last) + gnu_result = TYPE_MAX_VALUE (gnu_type); + else + gnu_result + = build_binary_op + (MAX_EXPR, get_base_type (gnu_result_type), + build_binary_op + (PLUS_EXPR, get_base_type (gnu_result_type), + build_binary_op (MINUS_EXPR, + get_base_type (gnu_result_type), + convert (gnu_result_type, + TYPE_MAX_VALUE (gnu_type)), + convert (gnu_result_type, + TYPE_MIN_VALUE (gnu_type))), + convert (gnu_result_type, integer_one_node)), + convert (gnu_result_type, integer_zero_node)); + + break; + } + + /* ... fall through ... */ + + case Attr_Length: + { + int Dimension = (Present (Expressions (gnat_node)) + ? UI_To_Int (Intval (First (Expressions (gnat_node)))) + : 1), i; + struct parm_attr *pa = NULL; + Entity_Id gnat_param = Empty; + + /* Make sure any implicit dereference gets done. */ + gnu_prefix = maybe_implicit_deref (gnu_prefix); + gnu_prefix = maybe_unconstrained_array (gnu_prefix); + /* We treat unconstrained array In parameters specially. */ + if (Nkind (Prefix (gnat_node)) == N_Identifier + && !Is_Constrained (Etype (Prefix (gnat_node))) + && Ekind (Entity (Prefix (gnat_node))) == E_In_Parameter) + gnat_param = Entity (Prefix (gnat_node)); + gnu_type = TREE_TYPE (gnu_prefix); + prefix_unused = true; + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + + if (TYPE_CONVENTION_FORTRAN_P (gnu_type)) + { + int ndim; + tree gnu_type_temp; + + for (ndim = 1, gnu_type_temp = gnu_type; + TREE_CODE (TREE_TYPE (gnu_type_temp)) == ARRAY_TYPE + && TYPE_MULTI_ARRAY_P (TREE_TYPE (gnu_type_temp)); + ndim++, gnu_type_temp = TREE_TYPE (gnu_type_temp)) + ; + + Dimension = ndim + 1 - Dimension; + } + + for (i = 1; i < Dimension; i++) + gnu_type = TREE_TYPE (gnu_type); + + gcc_assert (TREE_CODE (gnu_type) == ARRAY_TYPE); + + /* When not optimizing, look up the slot associated with the parameter + and the dimension in the cache and create a new one on failure. */ + if (!optimize && Present (gnat_param)) + { + for (i = 0; VEC_iterate (parm_attr, f_parm_attr_cache, i, pa); i++) + if (pa->id == gnat_param && pa->dim == Dimension) + break; + + if (!pa) + { + pa = GGC_CNEW (struct parm_attr); + pa->id = gnat_param; + pa->dim = Dimension; + VEC_safe_push (parm_attr, gc, f_parm_attr_cache, pa); + } + } + + /* Return the cached expression or build a new one. */ + if (attribute == Attr_First) + { + if (pa && pa->first) + { + gnu_result = pa->first; + break; + } + + gnu_result + = TYPE_MIN_VALUE (TYPE_INDEX_TYPE (TYPE_DOMAIN (gnu_type))); + } + + else if (attribute == Attr_Last) + { + if (pa && pa->last) + { + gnu_result = pa->last; + break; + } + + gnu_result + = TYPE_MAX_VALUE (TYPE_INDEX_TYPE (TYPE_DOMAIN (gnu_type))); + } + + else /* attribute == Attr_Range_Length || attribute == Attr_Length */ + { + if (pa && pa->length) + { + gnu_result = pa->length; + break; + } + else + { + /* We used to compute the length as max (hb - lb + 1, 0), + which could overflow for some cases of empty arrays, e.g. + when lb == index_type'first. We now compute the length as + (hb < lb) ? 0 : hb - lb + 1, which would only overflow in + much rarer cases, for extremely large arrays we expect + never to encounter in practice. In addition, the former + computation required the use of potentially constraining + signed arithmetic while the latter doesn't. */ + + tree gnu_compute_type = get_base_type (gnu_result_type); + + tree index_type + = TYPE_INDEX_TYPE (TYPE_DOMAIN (gnu_type)); + tree lb + = convert (gnu_compute_type, TYPE_MIN_VALUE (index_type)); + tree hb + = convert (gnu_compute_type, TYPE_MAX_VALUE (index_type)); + + gnu_result + = build3 + (COND_EXPR, gnu_compute_type, + build_binary_op (LT_EXPR, gnu_compute_type, hb, lb), + convert (gnu_compute_type, integer_zero_node), + build_binary_op + (PLUS_EXPR, gnu_compute_type, + build_binary_op (MINUS_EXPR, gnu_compute_type, hb, lb), + convert (gnu_compute_type, integer_one_node))); + } + } + + /* If this has a PLACEHOLDER_EXPR, qualify it by the object we are + handling. Note that these attributes could not have been used on + an unconstrained array type. */ + gnu_result = SUBSTITUTE_PLACEHOLDER_IN_EXPR (gnu_result, + gnu_prefix); + + /* Cache the expression we have just computed. Since we want to do it + at runtime, we force the use of a SAVE_EXPR and let the gimplifier + create the temporary. */ + if (pa) + { + gnu_result + = build1 (SAVE_EXPR, TREE_TYPE (gnu_result), gnu_result); + TREE_SIDE_EFFECTS (gnu_result) = 1; + if (attribute == Attr_First) + pa->first = gnu_result; + else if (attribute == Attr_Last) + pa->last = gnu_result; + else + pa->length = gnu_result; + } + break; + } + + case Attr_Bit_Position: + case Attr_Position: + case Attr_First_Bit: + case Attr_Last_Bit: + case Attr_Bit: + { + HOST_WIDE_INT bitsize; + HOST_WIDE_INT bitpos; + tree gnu_offset; + tree gnu_field_bitpos; + tree gnu_field_offset; + tree gnu_inner; + enum machine_mode mode; + int unsignedp, volatilep; + + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + gnu_prefix = remove_conversions (gnu_prefix, true); + prefix_unused = true; + + /* We can have 'Bit on any object, but if it isn't a COMPONENT_REF, + the result is 0. Don't allow 'Bit on a bare component, though. */ + if (attribute == Attr_Bit + && TREE_CODE (gnu_prefix) != COMPONENT_REF + && TREE_CODE (gnu_prefix) != FIELD_DECL) + { + gnu_result = integer_zero_node; + break; + } + + else + gcc_assert (TREE_CODE (gnu_prefix) == COMPONENT_REF + || (attribute == Attr_Bit_Position + && TREE_CODE (gnu_prefix) == FIELD_DECL)); + + get_inner_reference (gnu_prefix, &bitsize, &bitpos, &gnu_offset, + &mode, &unsignedp, &volatilep, false); + + if (TREE_CODE (gnu_prefix) == COMPONENT_REF) + { + gnu_field_bitpos = bit_position (TREE_OPERAND (gnu_prefix, 1)); + gnu_field_offset = byte_position (TREE_OPERAND (gnu_prefix, 1)); + + for (gnu_inner = TREE_OPERAND (gnu_prefix, 0); + TREE_CODE (gnu_inner) == COMPONENT_REF + && DECL_INTERNAL_P (TREE_OPERAND (gnu_inner, 1)); + gnu_inner = TREE_OPERAND (gnu_inner, 0)) + { + gnu_field_bitpos + = size_binop (PLUS_EXPR, gnu_field_bitpos, + bit_position (TREE_OPERAND (gnu_inner, 1))); + gnu_field_offset + = size_binop (PLUS_EXPR, gnu_field_offset, + byte_position (TREE_OPERAND (gnu_inner, 1))); + } + } + else if (TREE_CODE (gnu_prefix) == FIELD_DECL) + { + gnu_field_bitpos = bit_position (gnu_prefix); + gnu_field_offset = byte_position (gnu_prefix); + } + else + { + gnu_field_bitpos = bitsize_zero_node; + gnu_field_offset = size_zero_node; + } + + switch (attribute) + { + case Attr_Position: + gnu_result = gnu_field_offset; + break; + + case Attr_First_Bit: + case Attr_Bit: + gnu_result = size_int (bitpos % BITS_PER_UNIT); + break; + + case Attr_Last_Bit: + gnu_result = bitsize_int (bitpos % BITS_PER_UNIT); + gnu_result = size_binop (PLUS_EXPR, gnu_result, + TYPE_SIZE (TREE_TYPE (gnu_prefix))); + gnu_result = size_binop (MINUS_EXPR, gnu_result, + bitsize_one_node); + break; + + case Attr_Bit_Position: + gnu_result = gnu_field_bitpos; + break; + } + + /* If this has a PLACEHOLDER_EXPR, qualify it by the object + we are handling. */ + gnu_result = SUBSTITUTE_PLACEHOLDER_IN_EXPR (gnu_result, gnu_prefix); + break; + } + + case Attr_Min: + case Attr_Max: + { + tree gnu_lhs = gnat_to_gnu (First (Expressions (gnat_node))); + tree gnu_rhs = gnat_to_gnu (Next (First (Expressions (gnat_node)))); + + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + gnu_result = build_binary_op (attribute == Attr_Min + ? MIN_EXPR : MAX_EXPR, + gnu_result_type, gnu_lhs, gnu_rhs); + } + break; + + case Attr_Passed_By_Reference: + gnu_result = size_int (default_pass_by_ref (gnu_type) + || must_pass_by_ref (gnu_type)); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + break; + + case Attr_Component_Size: + if (TREE_CODE (gnu_prefix) == COMPONENT_REF + && (TREE_CODE (TREE_TYPE (TREE_OPERAND (gnu_prefix, 0))) + == RECORD_TYPE) + && (TYPE_IS_PADDING_P (TREE_TYPE (TREE_OPERAND (gnu_prefix, 0))))) + gnu_prefix = TREE_OPERAND (gnu_prefix, 0); + + gnu_prefix = maybe_implicit_deref (gnu_prefix); + gnu_type = TREE_TYPE (gnu_prefix); + + if (TREE_CODE (gnu_type) == UNCONSTRAINED_ARRAY_TYPE) + gnu_type = TREE_TYPE (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (gnu_type)))); + + while (TREE_CODE (TREE_TYPE (gnu_type)) == ARRAY_TYPE + && TYPE_MULTI_ARRAY_P (TREE_TYPE (gnu_type))) + gnu_type = TREE_TYPE (gnu_type); + + gcc_assert (TREE_CODE (gnu_type) == ARRAY_TYPE); + + /* Note this size cannot be self-referential. */ + gnu_result = TYPE_SIZE (TREE_TYPE (gnu_type)); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + prefix_unused = true; + break; + + case Attr_Null_Parameter: + /* This is just a zero cast to the pointer type for + our prefix and dereferenced. */ + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + gnu_result + = build_unary_op (INDIRECT_REF, NULL_TREE, + convert (build_pointer_type (gnu_result_type), + integer_zero_node)); + TREE_PRIVATE (gnu_result) = 1; + break; + + case Attr_Mechanism_Code: + { + int code; + Entity_Id gnat_obj = Entity (Prefix (gnat_node)); + + prefix_unused = true; + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + if (Present (Expressions (gnat_node))) + { + int i = UI_To_Int (Intval (First (Expressions (gnat_node)))); + + for (gnat_obj = First_Formal (gnat_obj); i > 1; + i--, gnat_obj = Next_Formal (gnat_obj)) + ; + } + + code = Mechanism (gnat_obj); + if (code == Default) + code = ((present_gnu_tree (gnat_obj) + && (DECL_BY_REF_P (get_gnu_tree (gnat_obj)) + || ((TREE_CODE (get_gnu_tree (gnat_obj)) + == PARM_DECL) + && (DECL_BY_COMPONENT_PTR_P + (get_gnu_tree (gnat_obj)))))) + ? By_Reference : By_Copy); + gnu_result = convert (gnu_result_type, size_int (- code)); + } + break; + + default: + /* Say we have an unimplemented attribute. Then set the value to be + returned to be a zero and hope that's something we can convert to the + type of this attribute. */ + post_error ("unimplemented attribute", gnat_node); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + gnu_result = integer_zero_node; + break; + } + + /* If this is an attribute where the prefix was unused, force a use of it if + it has a side-effect. But don't do it if the prefix is just an entity + name. However, if an access check is needed, we must do it. See second + example in AARM 11.6(5.e). */ + if (prefix_unused && TREE_SIDE_EFFECTS (gnu_prefix) + && !Is_Entity_Name (Prefix (gnat_node))) + gnu_result = fold_build2 (COMPOUND_EXPR, TREE_TYPE (gnu_result), + gnu_prefix, gnu_result); + + *gnu_result_type_p = gnu_result_type; + return gnu_result; +} + +/* Subroutine of gnat_to_gnu to translate gnat_node, an N_Case_Statement, + to a GCC tree, which is returned. */ + +static tree +Case_Statement_to_gnu (Node_Id gnat_node) +{ + tree gnu_result; + tree gnu_expr; + Node_Id gnat_when; + + gnu_expr = gnat_to_gnu (Expression (gnat_node)); + gnu_expr = convert (get_base_type (TREE_TYPE (gnu_expr)), gnu_expr); + + /* The range of values in a case statement is determined by the rules in + RM 5.4(7-9). In almost all cases, this range is represented by the Etype + of the expression. One exception arises in the case of a simple name that + is parenthesized. This still has the Etype of the name, but since it is + not a name, para 7 does not apply, and we need to go to the base type. + This is the only case where parenthesization affects the dynamic + semantics (i.e. the range of possible values at runtime that is covered + by the others alternative. + + Another exception is if the subtype of the expression is non-static. In + that case, we also have to use the base type. */ + if (Paren_Count (Expression (gnat_node)) != 0 + || !Is_OK_Static_Subtype (Underlying_Type + (Etype (Expression (gnat_node))))) + gnu_expr = convert (get_base_type (TREE_TYPE (gnu_expr)), gnu_expr); + + /* We build a SWITCH_EXPR that contains the code with interspersed + CASE_LABEL_EXPRs for each label. */ + + push_stack (&gnu_switch_label_stack, NULL_TREE, create_artificial_label ()); + start_stmt_group (); + for (gnat_when = First_Non_Pragma (Alternatives (gnat_node)); + Present (gnat_when); + gnat_when = Next_Non_Pragma (gnat_when)) + { + Node_Id gnat_choice; + int choices_added = 0; + + /* First compile all the different case choices for the current WHEN + alternative. */ + for (gnat_choice = First (Discrete_Choices (gnat_when)); + Present (gnat_choice); gnat_choice = Next (gnat_choice)) + { + tree gnu_low = NULL_TREE, gnu_high = NULL_TREE; + + switch (Nkind (gnat_choice)) + { + case N_Range: + gnu_low = gnat_to_gnu (Low_Bound (gnat_choice)); + gnu_high = gnat_to_gnu (High_Bound (gnat_choice)); + break; + + case N_Subtype_Indication: + gnu_low = gnat_to_gnu (Low_Bound (Range_Expression + (Constraint (gnat_choice)))); + gnu_high = gnat_to_gnu (High_Bound (Range_Expression + (Constraint (gnat_choice)))); + break; + + case N_Identifier: + case N_Expanded_Name: + /* This represents either a subtype range or a static value of + some kind; Ekind says which. */ + if (IN (Ekind (Entity (gnat_choice)), Type_Kind)) + { + tree gnu_type = get_unpadded_type (Entity (gnat_choice)); + + gnu_low = fold (TYPE_MIN_VALUE (gnu_type)); + gnu_high = fold (TYPE_MAX_VALUE (gnu_type)); + break; + } + + /* ... fall through ... */ + + case N_Character_Literal: + case N_Integer_Literal: + gnu_low = gnat_to_gnu (gnat_choice); + break; + + case N_Others_Choice: + break; + + default: + gcc_unreachable (); + } + + /* If the case value is a subtype that raises Constraint_Error at + run-time because of a wrong bound, then gnu_low or gnu_high is + not transtaleted into an INTEGER_CST. In such a case, we need + to ensure that the when statement is not added in the tree, + otherwise it will crash the gimplifier. */ + if ((!gnu_low || TREE_CODE (gnu_low) == INTEGER_CST) + && (!gnu_high || TREE_CODE (gnu_high) == INTEGER_CST)) + { + add_stmt_with_node (build3 (CASE_LABEL_EXPR, void_type_node, + gnu_low, gnu_high, + create_artificial_label ()), + gnat_choice); + choices_added++; + } + } + + /* Push a binding level here in case variables are declared as we want + them to be local to this set of statements instead of to the block + containing the Case statement. */ + if (choices_added > 0) + { + add_stmt (build_stmt_group (Statements (gnat_when), true)); + add_stmt (build1 (GOTO_EXPR, void_type_node, + TREE_VALUE (gnu_switch_label_stack))); + } + } + + /* Now emit a definition of the label all the cases branched to. */ + add_stmt (build1 (LABEL_EXPR, void_type_node, + TREE_VALUE (gnu_switch_label_stack))); + gnu_result = build3 (SWITCH_EXPR, TREE_TYPE (gnu_expr), gnu_expr, + end_stmt_group (), NULL_TREE); + pop_stack (&gnu_switch_label_stack); + + return gnu_result; +} + +/* Subroutine of gnat_to_gnu to translate gnat_node, an N_Loop_Statement, + to a GCC tree, which is returned. */ + +static tree +Loop_Statement_to_gnu (Node_Id gnat_node) +{ + /* ??? It would be nice to use "build" here, but there's no build5. */ + tree gnu_loop_stmt = build_nt (LOOP_STMT, NULL_TREE, NULL_TREE, + NULL_TREE, NULL_TREE, NULL_TREE); + tree gnu_loop_var = NULL_TREE; + Node_Id gnat_iter_scheme = Iteration_Scheme (gnat_node); + tree gnu_cond_expr = NULL_TREE; + tree gnu_result; + + TREE_TYPE (gnu_loop_stmt) = void_type_node; + TREE_SIDE_EFFECTS (gnu_loop_stmt) = 1; + LOOP_STMT_LABEL (gnu_loop_stmt) = create_artificial_label (); + set_expr_location_from_node (gnu_loop_stmt, gnat_node); + Sloc_to_locus (Sloc (End_Label (gnat_node)), + &DECL_SOURCE_LOCATION (LOOP_STMT_LABEL (gnu_loop_stmt))); + + /* Save the end label of this LOOP_STMT in a stack so that the corresponding + N_Exit_Statement can find it. */ + push_stack (&gnu_loop_label_stack, NULL_TREE, + LOOP_STMT_LABEL (gnu_loop_stmt)); + + /* Set the condition that under which the loop should continue. + For "LOOP .... END LOOP;" the condition is always true. */ + if (No (gnat_iter_scheme)) + ; + /* The case "WHILE condition LOOP ..... END LOOP;" */ + else if (Present (Condition (gnat_iter_scheme))) + LOOP_STMT_TOP_COND (gnu_loop_stmt) + = gnat_to_gnu (Condition (gnat_iter_scheme)); + else + { + /* We have an iteration scheme. */ + Node_Id gnat_loop_spec = Loop_Parameter_Specification (gnat_iter_scheme); + Entity_Id gnat_loop_var = Defining_Entity (gnat_loop_spec); + Entity_Id gnat_type = Etype (gnat_loop_var); + tree gnu_type = get_unpadded_type (gnat_type); + tree gnu_low = TYPE_MIN_VALUE (gnu_type); + tree gnu_high = TYPE_MAX_VALUE (gnu_type); + bool reversep = Reverse_Present (gnat_loop_spec); + tree gnu_first = reversep ? gnu_high : gnu_low; + tree gnu_last = reversep ? gnu_low : gnu_high; + enum tree_code end_code = reversep ? GE_EXPR : LE_EXPR; + tree gnu_base_type = get_base_type (gnu_type); + tree gnu_limit = (reversep ? TYPE_MIN_VALUE (gnu_base_type) + : TYPE_MAX_VALUE (gnu_base_type)); + + /* We know the loop variable will not overflow if GNU_LAST is a constant + and is not equal to GNU_LIMIT. If it might overflow, we have to move + the limit test to the end of the loop. In that case, we have to test + for an empty loop outside the loop. */ + if (TREE_CODE (gnu_last) != INTEGER_CST + || TREE_CODE (gnu_limit) != INTEGER_CST + || tree_int_cst_equal (gnu_last, gnu_limit)) + { + gnu_cond_expr + = build3 (COND_EXPR, void_type_node, + build_binary_op (LE_EXPR, integer_type_node, + gnu_low, gnu_high), + NULL_TREE, alloc_stmt_list ()); + set_expr_location_from_node (gnu_cond_expr, gnat_loop_spec); + } + + /* Open a new nesting level that will surround the loop to declare the + loop index variable. */ + start_stmt_group (); + gnat_pushlevel (); + + /* Declare the loop index and set it to its initial value. */ + gnu_loop_var = gnat_to_gnu_entity (gnat_loop_var, gnu_first, 1); + if (DECL_BY_REF_P (gnu_loop_var)) + gnu_loop_var = build_unary_op (INDIRECT_REF, NULL_TREE, gnu_loop_var); + + /* The loop variable might be a padded type, so use `convert' to get a + reference to the inner variable if so. */ + gnu_loop_var = convert (get_base_type (gnu_type), gnu_loop_var); + + /* Set either the top or bottom exit condition as appropriate depending + on whether or not we know an overflow cannot occur. */ + if (gnu_cond_expr) + LOOP_STMT_BOT_COND (gnu_loop_stmt) + = build_binary_op (NE_EXPR, integer_type_node, + gnu_loop_var, gnu_last); + else + LOOP_STMT_TOP_COND (gnu_loop_stmt) + = build_binary_op (end_code, integer_type_node, + gnu_loop_var, gnu_last); + + LOOP_STMT_UPDATE (gnu_loop_stmt) + = build_binary_op (reversep ? PREDECREMENT_EXPR + : PREINCREMENT_EXPR, + TREE_TYPE (gnu_loop_var), + gnu_loop_var, + convert (TREE_TYPE (gnu_loop_var), + integer_one_node)); + set_expr_location_from_node (LOOP_STMT_UPDATE (gnu_loop_stmt), + gnat_iter_scheme); + } + + /* If the loop was named, have the name point to this loop. In this case, + the association is not a ..._DECL node, but the end label from this + LOOP_STMT. */ + if (Present (Identifier (gnat_node))) + save_gnu_tree (Entity (Identifier (gnat_node)), + LOOP_STMT_LABEL (gnu_loop_stmt), true); + + /* Make the loop body into its own block, so any allocated storage will be + released every iteration. This is needed for stack allocation. */ + LOOP_STMT_BODY (gnu_loop_stmt) + = build_stmt_group (Statements (gnat_node), true); + + /* If we declared a variable, then we are in a statement group for that + declaration. Add the LOOP_STMT to it and make that the "loop". */ + if (gnu_loop_var) + { + add_stmt (gnu_loop_stmt); + gnat_poplevel (); + gnu_loop_stmt = end_stmt_group (); + } + + /* If we have an outer COND_EXPR, that's our result and this loop is its + "true" statement. Otherwise, the result is the LOOP_STMT. */ + if (gnu_cond_expr) + { + COND_EXPR_THEN (gnu_cond_expr) = gnu_loop_stmt; + gnu_result = gnu_cond_expr; + recalculate_side_effects (gnu_cond_expr); + } + else + gnu_result = gnu_loop_stmt; + + pop_stack (&gnu_loop_label_stack); + + return gnu_result; +} + +/* Emit statements to establish __gnat_handle_vms_condition as a VMS condition + handler for the current function. */ + +/* This is implemented by issuing a call to the appropriate VMS specific + builtin. To avoid having VMS specific sections in the global gigi decls + array, we maintain the decls of interest here. We can't declare them + inside the function because we must mark them never to be GC'd, which we + can only do at the global level. */ + +static GTY(()) tree vms_builtin_establish_handler_decl = NULL_TREE; +static GTY(()) tree gnat_vms_condition_handler_decl = NULL_TREE; + +static void +establish_gnat_vms_condition_handler (void) +{ + tree establish_stmt; + + /* Elaborate the required decls on the first call. Check on the decl for + the gnat condition handler to decide, as this is one we create so we are + sure that it will be non null on subsequent calls. The builtin decl is + looked up so remains null on targets where it is not implemented yet. */ + if (gnat_vms_condition_handler_decl == NULL_TREE) + { + vms_builtin_establish_handler_decl + = builtin_decl_for + (get_identifier ("__builtin_establish_vms_condition_handler")); + + gnat_vms_condition_handler_decl + = create_subprog_decl (get_identifier ("__gnat_handle_vms_condition"), + NULL_TREE, + build_function_type_list (integer_type_node, + ptr_void_type_node, + ptr_void_type_node, + NULL_TREE), + NULL_TREE, 0, 1, 1, 0, Empty); + } + + /* Do nothing if the establish builtin is not available, which might happen + on targets where the facility is not implemented. */ + if (vms_builtin_establish_handler_decl == NULL_TREE) + return; + + establish_stmt + = build_call_1_expr (vms_builtin_establish_handler_decl, + build_unary_op + (ADDR_EXPR, NULL_TREE, + gnat_vms_condition_handler_decl)); + + add_stmt (establish_stmt); +} + +/* Subroutine of gnat_to_gnu to process gnat_node, an N_Subprogram_Body. We + don't return anything. */ + +static void +Subprogram_Body_to_gnu (Node_Id gnat_node) +{ + /* Defining identifier of a parameter to the subprogram. */ + Entity_Id gnat_param; + /* The defining identifier for the subprogram body. Note that if a + specification has appeared before for this body, then the identifier + occurring in that specification will also be a defining identifier and all + the calls to this subprogram will point to that specification. */ + Entity_Id gnat_subprog_id + = (Present (Corresponding_Spec (gnat_node)) + ? Corresponding_Spec (gnat_node) : Defining_Entity (gnat_node)); + /* The FUNCTION_DECL node corresponding to the subprogram spec. */ + tree gnu_subprog_decl; + /* The FUNCTION_TYPE node corresponding to the subprogram spec. */ + tree gnu_subprog_type; + tree gnu_cico_list; + tree gnu_result; + VEC(parm_attr,gc) *cache; + + /* If this is a generic object or if it has been eliminated, + ignore it. */ + if (Ekind (gnat_subprog_id) == E_Generic_Procedure + || Ekind (gnat_subprog_id) == E_Generic_Function + || Is_Eliminated (gnat_subprog_id)) + return; + + /* If this subprogram acts as its own spec, define it. Otherwise, just get + the already-elaborated tree node. However, if this subprogram had its + elaboration deferred, we will already have made a tree node for it. So + treat it as not being defined in that case. Such a subprogram cannot + have an address clause or a freeze node, so this test is safe, though it + does disable some otherwise-useful error checking. */ + gnu_subprog_decl + = gnat_to_gnu_entity (gnat_subprog_id, NULL_TREE, + Acts_As_Spec (gnat_node) + && !present_gnu_tree (gnat_subprog_id)); + + gnu_subprog_type = TREE_TYPE (gnu_subprog_decl); + + /* Propagate the debug mode. */ + if (!Needs_Debug_Info (gnat_subprog_id)) + DECL_IGNORED_P (gnu_subprog_decl) = 1; + + /* Set the line number in the decl to correspond to that of the body so that + the line number notes are written correctly. */ + Sloc_to_locus (Sloc (gnat_node), &DECL_SOURCE_LOCATION (gnu_subprog_decl)); + + /* Initialize the information structure for the function. */ + allocate_struct_function (gnu_subprog_decl, false); + DECL_STRUCT_FUNCTION (gnu_subprog_decl)->language + = GGC_CNEW (struct language_function); + + begin_subprog_body (gnu_subprog_decl); + gnu_cico_list = TYPE_CI_CO_LIST (gnu_subprog_type); + + /* If there are Out parameters, we need to ensure that the return statement + properly copies them out. We do this by making a new block and converting + any inner return into a goto to a label at the end of the block. */ + push_stack (&gnu_return_label_stack, NULL_TREE, + gnu_cico_list ? create_artificial_label () : NULL_TREE); + + /* Get a tree corresponding to the code for the subprogram. */ + start_stmt_group (); + gnat_pushlevel (); + + /* See if there are any parameters for which we don't yet have GCC entities. + These must be for Out parameters for which we will be making VAR_DECL + nodes here. Fill them in to TYPE_CI_CO_LIST, which must contain the empty + entry as well. We can match up the entries because TYPE_CI_CO_LIST is in + the order of the parameters. */ + for (gnat_param = First_Formal_With_Extras (gnat_subprog_id); + Present (gnat_param); + gnat_param = Next_Formal_With_Extras (gnat_param)) + if (!present_gnu_tree (gnat_param)) + { + /* Skip any entries that have been already filled in; they must + correspond to In Out parameters. */ + for (; gnu_cico_list && TREE_VALUE (gnu_cico_list); + gnu_cico_list = TREE_CHAIN (gnu_cico_list)) + ; + + /* Do any needed references for padded types. */ + TREE_VALUE (gnu_cico_list) + = convert (TREE_TYPE (TREE_PURPOSE (gnu_cico_list)), + gnat_to_gnu_entity (gnat_param, NULL_TREE, 1)); + } + + /* On VMS, establish our condition handler to possibly turn a condition into + the corresponding exception if the subprogram has a foreign convention or + is exported. + + To ensure proper execution of local finalizations on condition instances, + we must turn a condition into the corresponding exception even if there + is no applicable Ada handler, and need at least one condition handler per + possible call chain involving GNAT code. OTOH, establishing the handler + has a cost so we want to minimize the number of subprograms into which + this happens. The foreign or exported condition is expected to satisfy + all the constraints. */ + if (TARGET_ABI_OPEN_VMS + && (Has_Foreign_Convention (gnat_node) || Is_Exported (gnat_node))) + establish_gnat_vms_condition_handler (); + + process_decls (Declarations (gnat_node), Empty, Empty, true, true); + + /* Generate the code of the subprogram itself. A return statement will be + present and any Out parameters will be handled there. */ + add_stmt (gnat_to_gnu (Handled_Statement_Sequence (gnat_node))); + gnat_poplevel (); + gnu_result = end_stmt_group (); + + /* If we populated the parameter attributes cache, we need to make sure + that the cached expressions are evaluated on all possible paths. */ + cache = DECL_STRUCT_FUNCTION (gnu_subprog_decl)->language->parm_attr_cache; + if (cache) + { + struct parm_attr *pa; + int i; + + start_stmt_group (); + + for (i = 0; VEC_iterate (parm_attr, cache, i, pa); i++) + { + if (pa->first) + add_stmt (pa->first); + if (pa->last) + add_stmt (pa->last); + if (pa->length) + add_stmt (pa->length); + } + + add_stmt (gnu_result); + gnu_result = end_stmt_group (); + } + + /* If we made a special return label, we need to make a block that contains + the definition of that label and the copying to the return value. That + block first contains the function, then the label and copy statement. */ + if (TREE_VALUE (gnu_return_label_stack)) + { + tree gnu_retval; + + start_stmt_group (); + gnat_pushlevel (); + add_stmt (gnu_result); + add_stmt (build1 (LABEL_EXPR, void_type_node, + TREE_VALUE (gnu_return_label_stack))); + + gnu_cico_list = TYPE_CI_CO_LIST (gnu_subprog_type); + if (list_length (gnu_cico_list) == 1) + gnu_retval = TREE_VALUE (gnu_cico_list); + else + gnu_retval = gnat_build_constructor (TREE_TYPE (gnu_subprog_type), + gnu_cico_list); + + if (DECL_P (gnu_retval) && DECL_BY_REF_P (gnu_retval)) + gnu_retval = build_unary_op (INDIRECT_REF, NULL_TREE, gnu_retval); + + add_stmt_with_node + (build_return_expr (DECL_RESULT (gnu_subprog_decl), gnu_retval), + gnat_node); + gnat_poplevel (); + gnu_result = end_stmt_group (); + } + + pop_stack (&gnu_return_label_stack); + + /* Set the end location. */ + Sloc_to_locus + ((Present (End_Label (Handled_Statement_Sequence (gnat_node))) + ? Sloc (End_Label (Handled_Statement_Sequence (gnat_node))) + : Sloc (gnat_node)), + &DECL_STRUCT_FUNCTION (gnu_subprog_decl)->function_end_locus); + + end_subprog_body (gnu_result, false); + + /* Disconnect the trees for parameters that we made variables for from the + GNAT entities since these are unusable after we end the function. */ + for (gnat_param = First_Formal_With_Extras (gnat_subprog_id); + Present (gnat_param); + gnat_param = Next_Formal_With_Extras (gnat_param)) + if (TREE_CODE (get_gnu_tree (gnat_param)) == VAR_DECL) + save_gnu_tree (gnat_param, NULL_TREE, false); + + if (DECL_FUNCTION_STUB (gnu_subprog_decl)) + build_function_stub (gnu_subprog_decl, gnat_subprog_id); + + mark_out_of_scope (Defining_Unit_Name (Specification (gnat_node))); +} + +/* Subroutine of gnat_to_gnu to translate gnat_node, either an N_Function_Call + or an N_Procedure_Call_Statement, to a GCC tree, which is returned. + GNU_RESULT_TYPE_P is a pointer to where we should place the result type. + If GNU_TARGET is non-null, this must be a function call and the result + of the call is to be placed into that object. */ + +static tree +call_to_gnu (Node_Id gnat_node, tree *gnu_result_type_p, tree gnu_target) +{ + tree gnu_result; + /* The GCC node corresponding to the GNAT subprogram name. This can either + be a FUNCTION_DECL node if we are dealing with a standard subprogram call, + or an indirect reference expression (an INDIRECT_REF node) pointing to a + subprogram. */ + tree gnu_subprog_node = gnat_to_gnu (Name (gnat_node)); + /* The FUNCTION_TYPE node giving the GCC type of the subprogram. */ + tree gnu_subprog_type = TREE_TYPE (gnu_subprog_node); + tree gnu_subprog_addr = build_unary_op (ADDR_EXPR, NULL_TREE, + gnu_subprog_node); + Entity_Id gnat_formal; + Node_Id gnat_actual; + tree gnu_actual_list = NULL_TREE; + tree gnu_name_list = NULL_TREE; + tree gnu_before_list = NULL_TREE; + tree gnu_after_list = NULL_TREE; + tree gnu_subprog_call; + + switch (Nkind (Name (gnat_node))) + { + case N_Identifier: + case N_Operator_Symbol: + case N_Expanded_Name: + case N_Attribute_Reference: + if (Is_Eliminated (Entity (Name (gnat_node)))) + Eliminate_Error_Msg (gnat_node, Entity (Name (gnat_node))); + } + + gcc_assert (TREE_CODE (gnu_subprog_type) == FUNCTION_TYPE); + + /* If we are calling a stubbed function, make this into a raise of + Program_Error. Elaborate all our args first. */ + if (TREE_CODE (gnu_subprog_node) == FUNCTION_DECL + && DECL_STUBBED_P (gnu_subprog_node)) + { + for (gnat_actual = First_Actual (gnat_node); + Present (gnat_actual); + gnat_actual = Next_Actual (gnat_actual)) + add_stmt (gnat_to_gnu (gnat_actual)); + + { + tree call_expr + = build_call_raise (PE_Stubbed_Subprogram_Called, gnat_node, + N_Raise_Program_Error); + + if (Nkind (gnat_node) == N_Function_Call && !gnu_target) + { + *gnu_result_type_p = TREE_TYPE (gnu_subprog_type); + return build1 (NULL_EXPR, *gnu_result_type_p, call_expr); + } + else + return call_expr; + } + } + + /* If we are calling by supplying a pointer to a target, set up that + pointer as the first argument. Use GNU_TARGET if one was passed; + otherwise, make a target by building a variable of the maximum size + of the type. */ + if (TYPE_RETURNS_BY_TARGET_PTR_P (gnu_subprog_type)) + { + tree gnu_real_ret_type + = TREE_TYPE (TREE_VALUE (TYPE_ARG_TYPES (gnu_subprog_type))); + + if (!gnu_target) + { + tree gnu_obj_type + = maybe_pad_type (gnu_real_ret_type, + max_size (TYPE_SIZE (gnu_real_ret_type), true), + 0, Etype (Name (gnat_node)), "PAD", false, + false, false); + + /* ??? We may be about to create a static temporary if we happen to + be at the global binding level. That's a regression from what + the 3.x back-end would generate in the same situation, but we + don't have a mechanism in Gigi for creating automatic variables + in the elaboration routines. */ + gnu_target + = create_var_decl (create_tmp_var_name ("LR"), NULL, gnu_obj_type, + NULL, false, false, false, false, NULL, + gnat_node); + } + + gnu_actual_list + = tree_cons (NULL_TREE, + build_unary_op (ADDR_EXPR, NULL_TREE, + unchecked_convert (gnu_real_ret_type, + gnu_target, + false)), + NULL_TREE); + + } + + /* The only way we can be making a call via an access type is if Name is an + explicit dereference. In that case, get the list of formal args from the + type the access type is pointing to. Otherwise, get the formals from + entity being called. */ + if (Nkind (Name (gnat_node)) == N_Explicit_Dereference) + gnat_formal = First_Formal_With_Extras (Etype (Name (gnat_node))); + else if (Nkind (Name (gnat_node)) == N_Attribute_Reference) + /* Assume here that this must be 'Elab_Body or 'Elab_Spec. */ + gnat_formal = 0; + else + gnat_formal = First_Formal_With_Extras (Entity (Name (gnat_node))); + + /* Create the list of the actual parameters as GCC expects it, namely a chain + of TREE_LIST nodes in which the TREE_VALUE field of each node is a + parameter-expression and the TREE_PURPOSE field is null. Skip Out + parameters not passed by reference and don't need to be copied in. */ + for (gnat_actual = First_Actual (gnat_node); + Present (gnat_actual); + gnat_formal = Next_Formal_With_Extras (gnat_formal), + gnat_actual = Next_Actual (gnat_actual)) + { + tree gnu_formal + = (present_gnu_tree (gnat_formal) + ? get_gnu_tree (gnat_formal) : NULL_TREE); + tree gnu_formal_type = gnat_to_gnu_type (Etype (gnat_formal)); + /* We must suppress conversions that can cause the creation of a + temporary in the Out or In Out case because we need the real + object in this case, either to pass its address if it's passed + by reference or as target of the back copy done after the call + if it uses the copy-in copy-out mechanism. We do it in the In + case too, except for an unchecked conversion because it alone + can cause the actual to be misaligned and the addressability + test is applied to the real object. */ + bool suppress_type_conversion + = ((Nkind (gnat_actual) == N_Unchecked_Type_Conversion + && Ekind (gnat_formal) != E_In_Parameter) + || (Nkind (gnat_actual) == N_Type_Conversion + && Is_Composite_Type (Underlying_Type (Etype (gnat_formal))))); + Node_Id gnat_name = (suppress_type_conversion + ? Expression (gnat_actual) : gnat_actual); + tree gnu_name = gnat_to_gnu (gnat_name), gnu_name_type; + tree gnu_actual; + + /* If it's possible we may need to use this expression twice, make sure + that any side-effects are handled via SAVE_EXPRs. Likewise if we need + to force side-effects before the call. + ??? This is more conservative than we need since we don't need to do + this for pass-by-ref with no conversion. */ + if (Ekind (gnat_formal) != E_In_Parameter) + gnu_name = gnat_stabilize_reference (gnu_name, true); + + /* If we are passing a non-addressable parameter by reference, pass the + address of a copy. In the Out or In Out case, set up to copy back + out after the call. */ + if (gnu_formal + && (DECL_BY_REF_P (gnu_formal) + || (TREE_CODE (gnu_formal) == PARM_DECL + && (DECL_BY_COMPONENT_PTR_P (gnu_formal) + || (DECL_BY_DESCRIPTOR_P (gnu_formal))))) + && (gnu_name_type = gnat_to_gnu_type (Etype (gnat_name))) + && !addressable_p (gnu_name, gnu_name_type)) + { + tree gnu_copy = gnu_name, gnu_temp; + + /* If the type is by_reference, a copy is not allowed. */ + if (Is_By_Reference_Type (Etype (gnat_formal))) + post_error + ("misaligned actual cannot be passed by reference", gnat_actual); + + /* For users of Starlet we issue a warning because the + interface apparently assumes that by-ref parameters + outlive the procedure invocation. The code still + will not work as intended, but we cannot do much + better since other low-level parts of the back-end + would allocate temporaries at will because of the + misalignment if we did not do so here. */ + else if (Is_Valued_Procedure (Entity (Name (gnat_node)))) + { + post_error + ("?possible violation of implicit assumption", gnat_actual); + post_error_ne + ("?made by pragma Import_Valued_Procedure on &", gnat_actual, + Entity (Name (gnat_node))); + post_error_ne ("?because of misalignment of &", gnat_actual, + gnat_formal); + } + + /* Remove any unpadding from the object and reset the copy. */ + if (TREE_CODE (gnu_name) == COMPONENT_REF + && ((TREE_CODE (TREE_TYPE (TREE_OPERAND (gnu_name, 0))) + == RECORD_TYPE) + && (TYPE_IS_PADDING_P + (TREE_TYPE (TREE_OPERAND (gnu_name, 0)))))) + gnu_name = gnu_copy = TREE_OPERAND (gnu_name, 0); + + /* Otherwise convert to the nominal type of the object if it's + a record type. There are several cases in which we need to + make the temporary using this type instead of the actual type + of the object if they are distinct, because the expectations + of the callee would otherwise not be met: + - if it's a justified modular type, + - if the actual type is a smaller packable version of it. */ + else if (TREE_CODE (gnu_name_type) == RECORD_TYPE + && (TYPE_JUSTIFIED_MODULAR_P (gnu_name_type) + || smaller_packable_type_p (TREE_TYPE (gnu_name), + gnu_name_type))) + gnu_name = convert (gnu_name_type, gnu_name); + + /* Make a SAVE_EXPR to both properly account for potential side + effects and handle the creation of a temporary copy. Special + code in gnat_gimplify_expr ensures that the same temporary is + used as the object and copied back after the call if needed. */ + gnu_name = build1 (SAVE_EXPR, TREE_TYPE (gnu_name), gnu_name); + TREE_SIDE_EFFECTS (gnu_name) = 1; + + /* Set up to move the copy back to the original. */ + if (Ekind (gnat_formal) != E_In_Parameter) + { + gnu_temp = build_binary_op (MODIFY_EXPR, NULL_TREE, gnu_copy, + gnu_name); + set_expr_location_from_node (gnu_temp, gnat_actual); + append_to_statement_list (gnu_temp, &gnu_after_list); + } + } + + /* Start from the real object and build the actual. */ + gnu_actual = gnu_name; + + /* If this was a procedure call, we may not have removed any padding. + So do it here for the part we will use as an input, if any. */ + if (Ekind (gnat_formal) != E_Out_Parameter + && TREE_CODE (TREE_TYPE (gnu_actual)) == RECORD_TYPE + && TYPE_IS_PADDING_P (TREE_TYPE (gnu_actual))) + gnu_actual = convert (get_unpadded_type (Etype (gnat_actual)), + gnu_actual); + + /* Do any needed conversions for the actual and make sure that it is + in range of the formal's type. */ + if (suppress_type_conversion) + { + /* Put back the conversion we suppressed above in the computation + of the real object. Note that we treat a conversion between + aggregate types as if it is an unchecked conversion here. */ + gnu_actual + = unchecked_convert (gnat_to_gnu_type (Etype (gnat_actual)), + gnu_actual, + (Nkind (gnat_actual) + == N_Unchecked_Type_Conversion) + && No_Truncation (gnat_actual)); + + if (Ekind (gnat_formal) != E_Out_Parameter + && Do_Range_Check (gnat_actual)) + gnu_actual = emit_range_check (gnu_actual, Etype (gnat_formal)); + } + else + { + if (Ekind (gnat_formal) != E_Out_Parameter + && Do_Range_Check (gnat_actual)) + gnu_actual = emit_range_check (gnu_actual, Etype (gnat_formal)); + + /* We may have suppressed a conversion to the Etype of the actual + since the parent is a procedure call. So put it back here. + ??? We use the reverse order compared to the case above because + of an awkward interaction with the check and actually don't put + back the conversion at all if a check is emitted. This is also + done for the conversion to the formal's type just below. */ + if (TREE_CODE (gnu_actual) != SAVE_EXPR) + gnu_actual = convert (gnat_to_gnu_type (Etype (gnat_actual)), + gnu_actual); + } + + if (TREE_CODE (gnu_actual) != SAVE_EXPR) + gnu_actual = convert (gnu_formal_type, gnu_actual); + + /* Unless this is an In parameter, we must remove any justified modular + building from GNU_NAME to get an lvalue. */ + if (Ekind (gnat_formal) != E_In_Parameter + && TREE_CODE (gnu_name) == CONSTRUCTOR + && TREE_CODE (TREE_TYPE (gnu_name)) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (TREE_TYPE (gnu_name))) + gnu_name = convert (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (gnu_name))), + gnu_name); + + /* If we have not saved a GCC object for the formal, it means it is an + Out parameter not passed by reference and that does not need to be + copied in. Otherwise, look at the PARM_DECL to see if it is passed by + reference. */ + if (gnu_formal + && TREE_CODE (gnu_formal) == PARM_DECL + && DECL_BY_REF_P (gnu_formal)) + { + if (Ekind (gnat_formal) != E_In_Parameter) + { + /* In Out or Out parameters passed by reference don't use the + copy-in copy-out mechanism so the address of the real object + must be passed to the function. */ + gnu_actual = gnu_name; + + /* If we have a padded type, be sure we've removed padding. */ + if (TREE_CODE (TREE_TYPE (gnu_actual)) == RECORD_TYPE + && TYPE_IS_PADDING_P (TREE_TYPE (gnu_actual)) + && TREE_CODE (gnu_actual) != SAVE_EXPR) + gnu_actual = convert (get_unpadded_type (Etype (gnat_actual)), + gnu_actual); + + /* If we have the constructed subtype of an aliased object + with an unconstrained nominal subtype, the type of the + actual includes the template, although it is formally + constrained. So we need to convert it back to the real + constructed subtype to retrieve the constrained part + and takes its address. */ + if (TREE_CODE (TREE_TYPE (gnu_actual)) == RECORD_TYPE + && TYPE_CONTAINS_TEMPLATE_P (TREE_TYPE (gnu_actual)) + && TREE_CODE (gnu_actual) != SAVE_EXPR + && Is_Constr_Subt_For_UN_Aliased (Etype (gnat_actual)) + && Is_Array_Type (Etype (gnat_actual))) + gnu_actual = convert (gnat_to_gnu_type (Etype (gnat_actual)), + gnu_actual); + } + + /* The symmetry of the paths to the type of an entity is broken here + since arguments don't know that they will be passed by ref. */ + gnu_formal_type = TREE_TYPE (get_gnu_tree (gnat_formal)); + gnu_actual = build_unary_op (ADDR_EXPR, gnu_formal_type, gnu_actual); + } + else if (gnu_formal + && TREE_CODE (gnu_formal) == PARM_DECL + && DECL_BY_COMPONENT_PTR_P (gnu_formal)) + { + gnu_formal_type = TREE_TYPE (get_gnu_tree (gnat_formal)); + gnu_actual = maybe_implicit_deref (gnu_actual); + gnu_actual = maybe_unconstrained_array (gnu_actual); + + if (TREE_CODE (gnu_formal_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (gnu_formal_type)) + { + gnu_formal_type = TREE_TYPE (TYPE_FIELDS (gnu_formal_type)); + gnu_actual = convert (gnu_formal_type, gnu_actual); + } + + /* Take the address of the object and convert to the proper pointer + type. We'd like to actually compute the address of the beginning + of the array using an ADDR_EXPR of an ARRAY_REF, but there's a + possibility that the ARRAY_REF might return a constant and we'd be + getting the wrong address. Neither approach is exactly correct, + but this is the most likely to work in all cases. */ + gnu_actual = convert (gnu_formal_type, + build_unary_op (ADDR_EXPR, NULL_TREE, + gnu_actual)); + } + else if (gnu_formal + && TREE_CODE (gnu_formal) == PARM_DECL + && DECL_BY_DESCRIPTOR_P (gnu_formal)) + { + /* If arg is 'Null_Parameter, pass zero descriptor. */ + if ((TREE_CODE (gnu_actual) == INDIRECT_REF + || TREE_CODE (gnu_actual) == UNCONSTRAINED_ARRAY_REF) + && TREE_PRIVATE (gnu_actual)) + gnu_actual = convert (DECL_ARG_TYPE (get_gnu_tree (gnat_formal)), + integer_zero_node); + else + gnu_actual = build_unary_op (ADDR_EXPR, NULL_TREE, + fill_vms_descriptor (gnu_actual, + gnat_formal)); + } + else + { + tree gnu_actual_size = TYPE_SIZE (TREE_TYPE (gnu_actual)); + + if (Ekind (gnat_formal) != E_In_Parameter) + gnu_name_list = tree_cons (NULL_TREE, gnu_name, gnu_name_list); + + if (!gnu_formal || TREE_CODE (gnu_formal) != PARM_DECL) + continue; + + /* If this is 'Null_Parameter, pass a zero even though we are + dereferencing it. */ + else if (TREE_CODE (gnu_actual) == INDIRECT_REF + && TREE_PRIVATE (gnu_actual) + && host_integerp (gnu_actual_size, 1) + && 0 >= compare_tree_int (gnu_actual_size, + BITS_PER_WORD)) + gnu_actual + = unchecked_convert (DECL_ARG_TYPE (gnu_formal), + convert (gnat_type_for_size + (tree_low_cst (gnu_actual_size, 1), + 1), + integer_zero_node), + false); + else + gnu_actual = convert (DECL_ARG_TYPE (gnu_formal), gnu_actual); + } + + gnu_actual_list = tree_cons (NULL_TREE, gnu_actual, gnu_actual_list); + } + + gnu_subprog_call = build_call_list (TREE_TYPE (gnu_subprog_type), + gnu_subprog_addr, + nreverse (gnu_actual_list)); + set_expr_location_from_node (gnu_subprog_call, gnat_node); + + /* If we return by passing a target, the result is the target after the + call. We must not emit the call directly here because this might be + evaluated as part of an expression with conditions to control whether + the call should be emitted or not. */ + if (TYPE_RETURNS_BY_TARGET_PTR_P (gnu_subprog_type)) + { + /* Conceptually, what we need is a COMPOUND_EXPR with the call followed + by the target object converted to the proper type. Doing so would + potentially be very inefficient, however, as this expression might + end up wrapped into an outer SAVE_EXPR later on, which would incur a + pointless temporary copy of the whole object. + + What we do instead is build a COMPOUND_EXPR returning the address of + the target, and then dereference. Wrapping the COMPOUND_EXPR into a + SAVE_EXPR later on then only incurs a pointer copy. */ + + tree gnu_result_type + = TREE_TYPE (TREE_VALUE (TYPE_ARG_TYPES (gnu_subprog_type))); + + /* Build and return + (result_type) *[gnu_subprog_call (&gnu_target, ...), &gnu_target] */ + + tree gnu_target_address + = build_unary_op (ADDR_EXPR, NULL_TREE, gnu_target); + set_expr_location_from_node (gnu_target_address, gnat_node); + + gnu_result + = build2 (COMPOUND_EXPR, TREE_TYPE (gnu_target_address), + gnu_subprog_call, gnu_target_address); + + gnu_result + = unchecked_convert (gnu_result_type, + build_unary_op (INDIRECT_REF, NULL_TREE, + gnu_result), + false); + + *gnu_result_type_p = gnu_result_type; + return gnu_result; + } + + /* If it is a function call, the result is the call expression unless + a target is specified, in which case we copy the result into the target + and return the assignment statement. */ + else if (Nkind (gnat_node) == N_Function_Call) + { + gnu_result = gnu_subprog_call; + + /* If the function returns an unconstrained array or by reference, + we have to de-dereference the pointer. */ + if (TYPE_RETURNS_UNCONSTRAINED_P (gnu_subprog_type) + || TYPE_RETURNS_BY_REF_P (gnu_subprog_type)) + gnu_result = build_unary_op (INDIRECT_REF, NULL_TREE, gnu_result); + + if (gnu_target) + gnu_result = build_binary_op (MODIFY_EXPR, NULL_TREE, + gnu_target, gnu_result); + else + *gnu_result_type_p = get_unpadded_type (Etype (gnat_node)); + + return gnu_result; + } + + /* If this is the case where the GNAT tree contains a procedure call + but the Ada procedure has copy in copy out parameters, the special + parameter passing mechanism must be used. */ + else if (TYPE_CI_CO_LIST (gnu_subprog_type) != NULL_TREE) + { + /* List of FIELD_DECLs associated with the PARM_DECLs of the copy + in copy out parameters. */ + tree scalar_return_list = TYPE_CI_CO_LIST (gnu_subprog_type); + int length = list_length (scalar_return_list); + + if (length > 1) + { + tree gnu_name; + + gnu_subprog_call = save_expr (gnu_subprog_call); + gnu_name_list = nreverse (gnu_name_list); + + /* If any of the names had side-effects, ensure they are all + evaluated before the call. */ + for (gnu_name = gnu_name_list; gnu_name; + gnu_name = TREE_CHAIN (gnu_name)) + if (TREE_SIDE_EFFECTS (TREE_VALUE (gnu_name))) + append_to_statement_list (TREE_VALUE (gnu_name), + &gnu_before_list); + } + + if (Nkind (Name (gnat_node)) == N_Explicit_Dereference) + gnat_formal = First_Formal_With_Extras (Etype (Name (gnat_node))); + else + gnat_formal = First_Formal_With_Extras (Entity (Name (gnat_node))); + + for (gnat_actual = First_Actual (gnat_node); + Present (gnat_actual); + gnat_formal = Next_Formal_With_Extras (gnat_formal), + gnat_actual = Next_Actual (gnat_actual)) + /* If we are dealing with a copy in copy out parameter, we must + retrieve its value from the record returned in the call. */ + if (!(present_gnu_tree (gnat_formal) + && TREE_CODE (get_gnu_tree (gnat_formal)) == PARM_DECL + && (DECL_BY_REF_P (get_gnu_tree (gnat_formal)) + || (TREE_CODE (get_gnu_tree (gnat_formal)) == PARM_DECL + && ((DECL_BY_COMPONENT_PTR_P (get_gnu_tree (gnat_formal)) + || (DECL_BY_DESCRIPTOR_P + (get_gnu_tree (gnat_formal)))))))) + && Ekind (gnat_formal) != E_In_Parameter) + { + /* Get the value to assign to this Out or In Out parameter. It is + either the result of the function if there is only a single such + parameter or the appropriate field from the record returned. */ + tree gnu_result + = length == 1 ? gnu_subprog_call + : build_component_ref (gnu_subprog_call, NULL_TREE, + TREE_PURPOSE (scalar_return_list), + false); + + /* If the actual is a conversion, get the inner expression, which + will be the real destination, and convert the result to the + type of the actual parameter. */ + tree gnu_actual + = maybe_unconstrained_array (TREE_VALUE (gnu_name_list)); + + /* If the result is a padded type, remove the padding. */ + if (TREE_CODE (TREE_TYPE (gnu_result)) == RECORD_TYPE + && TYPE_IS_PADDING_P (TREE_TYPE (gnu_result))) + gnu_result = convert (TREE_TYPE (TYPE_FIELDS + (TREE_TYPE (gnu_result))), + gnu_result); + + /* If the actual is a type conversion, the real target object is + denoted by the inner Expression and we need to convert the + result to the associated type. + We also need to convert our gnu assignment target to this type + if the corresponding GNU_NAME was constructed from the GNAT + conversion node and not from the inner Expression. */ + if (Nkind (gnat_actual) == N_Type_Conversion) + { + gnu_result + = convert_with_check + (Etype (Expression (gnat_actual)), gnu_result, + Do_Overflow_Check (gnat_actual), + Do_Range_Check (Expression (gnat_actual)), + Float_Truncate (gnat_actual)); + + if (!Is_Composite_Type (Underlying_Type (Etype (gnat_formal)))) + gnu_actual = convert (TREE_TYPE (gnu_result), gnu_actual); + } + + /* Unchecked conversions as actuals for Out parameters are not + allowed in user code because they are not variables, but do + occur in front-end expansions. The associated GNU_NAME is + always obtained from the inner expression in such cases. */ + else if (Nkind (gnat_actual) == N_Unchecked_Type_Conversion) + gnu_result = unchecked_convert (TREE_TYPE (gnu_actual), + gnu_result, + No_Truncation (gnat_actual)); + else + { + if (Do_Range_Check (gnat_actual)) + gnu_result = emit_range_check (gnu_result, + Etype (gnat_actual)); + + if (!(!TREE_CONSTANT (TYPE_SIZE (TREE_TYPE (gnu_actual))) + && TREE_CONSTANT (TYPE_SIZE (TREE_TYPE (gnu_result))))) + gnu_result = convert (TREE_TYPE (gnu_actual), gnu_result); + } + + gnu_result = build_binary_op (MODIFY_EXPR, NULL_TREE, + gnu_actual, gnu_result); + set_expr_location_from_node (gnu_result, gnat_actual); + append_to_statement_list (gnu_result, &gnu_before_list); + scalar_return_list = TREE_CHAIN (scalar_return_list); + gnu_name_list = TREE_CHAIN (gnu_name_list); + } + } + else + append_to_statement_list (gnu_subprog_call, &gnu_before_list); + + append_to_statement_list (gnu_after_list, &gnu_before_list); + return gnu_before_list; +} + +/* Subroutine of gnat_to_gnu to translate gnat_node, an + N_Handled_Sequence_Of_Statements, to a GCC tree, which is returned. */ + +static tree +Handled_Sequence_Of_Statements_to_gnu (Node_Id gnat_node) +{ + tree gnu_jmpsave_decl = NULL_TREE; + tree gnu_jmpbuf_decl = NULL_TREE; + /* If just annotating, ignore all EH and cleanups. */ + bool gcc_zcx = (!type_annotate_only + && Present (Exception_Handlers (gnat_node)) + && Exception_Mechanism == Back_End_Exceptions); + bool setjmp_longjmp + = (!type_annotate_only && Present (Exception_Handlers (gnat_node)) + && Exception_Mechanism == Setjmp_Longjmp); + bool at_end = !type_annotate_only && Present (At_End_Proc (gnat_node)); + bool binding_for_block = (at_end || gcc_zcx || setjmp_longjmp); + tree gnu_inner_block; /* The statement(s) for the block itself. */ + tree gnu_result; + tree gnu_expr; + Node_Id gnat_temp; + + /* The GCC exception handling mechanism can handle both ZCX and SJLJ schemes + and we have our own SJLJ mechanism. To call the GCC mechanism, we call + add_cleanup, and when we leave the binding, end_stmt_group will create + the TRY_FINALLY_EXPR. + + ??? The region level calls down there have been specifically put in place + for a ZCX context and currently the order in which things are emitted + (region/handlers) is different from the SJLJ case. Instead of putting + other calls with different conditions at other places for the SJLJ case, + it seems cleaner to reorder things for the SJLJ case and generalize the + condition to make it not ZCX specific. + + If there are any exceptions or cleanup processing involved, we need an + outer statement group (for Setjmp_Longjmp) and binding level. */ + if (binding_for_block) + { + start_stmt_group (); + gnat_pushlevel (); + } + + /* If using setjmp_longjmp, make the variables for the setjmp buffer and save + area for address of previous buffer. Do this first since we need to have + the setjmp buf known for any decls in this block. */ + if (setjmp_longjmp) + { + gnu_jmpsave_decl = create_var_decl (get_identifier ("JMPBUF_SAVE"), + NULL_TREE, jmpbuf_ptr_type, + build_call_0_expr (get_jmpbuf_decl), + false, false, false, false, NULL, + gnat_node); + DECL_ARTIFICIAL (gnu_jmpsave_decl) = 1; + + /* The __builtin_setjmp receivers will immediately reinstall it. Now + because of the unstructured form of EH used by setjmp_longjmp, there + might be forward edges going to __builtin_setjmp receivers on which + it is uninitialized, although they will never be actually taken. */ + TREE_NO_WARNING (gnu_jmpsave_decl) = 1; + gnu_jmpbuf_decl = create_var_decl (get_identifier ("JMP_BUF"), + NULL_TREE, jmpbuf_type, + NULL_TREE, false, false, false, false, + NULL, gnat_node); + DECL_ARTIFICIAL (gnu_jmpbuf_decl) = 1; + + set_block_jmpbuf_decl (gnu_jmpbuf_decl); + + /* When we exit this block, restore the saved value. */ + add_cleanup (build_call_1_expr (set_jmpbuf_decl, gnu_jmpsave_decl), + End_Label (gnat_node)); + } + + /* If we are to call a function when exiting this block, add a cleanup + to the binding level we made above. Note that add_cleanup is FIFO + so we must register this cleanup after the EH cleanup just above. */ + if (at_end) + add_cleanup (build_call_0_expr (gnat_to_gnu (At_End_Proc (gnat_node))), + End_Label (gnat_node)); + + /* Now build the tree for the declarations and statements inside this block. + If this is SJLJ, set our jmp_buf as the current buffer. */ + start_stmt_group (); + + if (setjmp_longjmp) + add_stmt (build_call_1_expr (set_jmpbuf_decl, + build_unary_op (ADDR_EXPR, NULL_TREE, + gnu_jmpbuf_decl))); + + if (Present (First_Real_Statement (gnat_node))) + process_decls (Statements (gnat_node), Empty, + First_Real_Statement (gnat_node), true, true); + + /* Generate code for each statement in the block. */ + for (gnat_temp = (Present (First_Real_Statement (gnat_node)) + ? First_Real_Statement (gnat_node) + : First (Statements (gnat_node))); + Present (gnat_temp); gnat_temp = Next (gnat_temp)) + add_stmt (gnat_to_gnu (gnat_temp)); + gnu_inner_block = end_stmt_group (); + + /* Now generate code for the two exception models, if either is relevant for + this block. */ + if (setjmp_longjmp) + { + tree *gnu_else_ptr = 0; + tree gnu_handler; + + /* Make a binding level for the exception handling declarations and code + and set up gnu_except_ptr_stack for the handlers to use. */ + start_stmt_group (); + gnat_pushlevel (); + + push_stack (&gnu_except_ptr_stack, NULL_TREE, + create_var_decl (get_identifier ("EXCEPT_PTR"), + NULL_TREE, + build_pointer_type (except_type_node), + build_call_0_expr (get_excptr_decl), false, + false, false, false, NULL, gnat_node)); + + /* Generate code for each handler. The N_Exception_Handler case does the + real work and returns a COND_EXPR for each handler, which we chain + together here. */ + for (gnat_temp = First_Non_Pragma (Exception_Handlers (gnat_node)); + Present (gnat_temp); gnat_temp = Next_Non_Pragma (gnat_temp)) + { + gnu_expr = gnat_to_gnu (gnat_temp); + + /* If this is the first one, set it as the outer one. Otherwise, + point the "else" part of the previous handler to us. Then point + to our "else" part. */ + if (!gnu_else_ptr) + add_stmt (gnu_expr); + else + *gnu_else_ptr = gnu_expr; + + gnu_else_ptr = &COND_EXPR_ELSE (gnu_expr); + } + + /* If none of the exception handlers did anything, re-raise but do not + defer abortion. */ + gnu_expr = build_call_1_expr (raise_nodefer_decl, + TREE_VALUE (gnu_except_ptr_stack)); + set_expr_location_from_node (gnu_expr, gnat_node); + + if (gnu_else_ptr) + *gnu_else_ptr = gnu_expr; + else + add_stmt (gnu_expr); + + /* End the binding level dedicated to the exception handlers and get the + whole statement group. */ + pop_stack (&gnu_except_ptr_stack); + gnat_poplevel (); + gnu_handler = end_stmt_group (); + + /* If the setjmp returns 1, we restore our incoming longjmp value and + then check the handlers. */ + start_stmt_group (); + add_stmt_with_node (build_call_1_expr (set_jmpbuf_decl, + gnu_jmpsave_decl), + gnat_node); + add_stmt (gnu_handler); + gnu_handler = end_stmt_group (); + + /* This block is now "if (setjmp) ... else ". */ + gnu_result = build3 (COND_EXPR, void_type_node, + (build_call_1_expr + (setjmp_decl, + build_unary_op (ADDR_EXPR, NULL_TREE, + gnu_jmpbuf_decl))), + gnu_handler, gnu_inner_block); + } + else if (gcc_zcx) + { + tree gnu_handlers; + + /* First make a block containing the handlers. */ + start_stmt_group (); + for (gnat_temp = First_Non_Pragma (Exception_Handlers (gnat_node)); + Present (gnat_temp); + gnat_temp = Next_Non_Pragma (gnat_temp)) + add_stmt (gnat_to_gnu (gnat_temp)); + gnu_handlers = end_stmt_group (); + + /* Now make the TRY_CATCH_EXPR for the block. */ + gnu_result = build2 (TRY_CATCH_EXPR, void_type_node, + gnu_inner_block, gnu_handlers); + } + else + gnu_result = gnu_inner_block; + + /* Now close our outer block, if we had to make one. */ + if (binding_for_block) + { + add_stmt (gnu_result); + gnat_poplevel (); + gnu_result = end_stmt_group (); + } + + return gnu_result; +} + +/* Subroutine of gnat_to_gnu to translate gnat_node, an N_Exception_Handler, + to a GCC tree, which is returned. This is the variant for Setjmp_Longjmp + exception handling. */ + +static tree +Exception_Handler_to_gnu_sjlj (Node_Id gnat_node) +{ + /* Unless this is "Others" or the special "Non-Ada" exception for Ada, make + an "if" statement to select the proper exceptions. For "Others", exclude + exceptions where Handled_By_Others is nonzero unless the All_Others flag + is set. For "Non-ada", accept an exception if "Lang" is 'V'. */ + tree gnu_choice = integer_zero_node; + tree gnu_body = build_stmt_group (Statements (gnat_node), false); + Node_Id gnat_temp; + + for (gnat_temp = First (Exception_Choices (gnat_node)); + gnat_temp; gnat_temp = Next (gnat_temp)) + { + tree this_choice; + + if (Nkind (gnat_temp) == N_Others_Choice) + { + if (All_Others (gnat_temp)) + this_choice = integer_one_node; + else + this_choice + = build_binary_op + (EQ_EXPR, integer_type_node, + convert + (integer_type_node, + build_component_ref + (build_unary_op + (INDIRECT_REF, NULL_TREE, + TREE_VALUE (gnu_except_ptr_stack)), + get_identifier ("not_handled_by_others"), NULL_TREE, + false)), + integer_zero_node); + } + + else if (Nkind (gnat_temp) == N_Identifier + || Nkind (gnat_temp) == N_Expanded_Name) + { + Entity_Id gnat_ex_id = Entity (gnat_temp); + tree gnu_expr; + + /* Exception may be a renaming. Recover original exception which is + the one elaborated and registered. */ + if (Present (Renamed_Object (gnat_ex_id))) + gnat_ex_id = Renamed_Object (gnat_ex_id); + + gnu_expr = gnat_to_gnu_entity (gnat_ex_id, NULL_TREE, 0); + + this_choice + = build_binary_op + (EQ_EXPR, integer_type_node, TREE_VALUE (gnu_except_ptr_stack), + convert (TREE_TYPE (TREE_VALUE (gnu_except_ptr_stack)), + build_unary_op (ADDR_EXPR, NULL_TREE, gnu_expr))); + + /* If this is the distinguished exception "Non_Ada_Error" (and we are + in VMS mode), also allow a non-Ada exception (a VMS condition) t + match. */ + if (Is_Non_Ada_Error (Entity (gnat_temp))) + { + tree gnu_comp + = build_component_ref + (build_unary_op (INDIRECT_REF, NULL_TREE, + TREE_VALUE (gnu_except_ptr_stack)), + get_identifier ("lang"), NULL_TREE, false); + + this_choice + = build_binary_op + (TRUTH_ORIF_EXPR, integer_type_node, + build_binary_op (EQ_EXPR, integer_type_node, gnu_comp, + build_int_cst (TREE_TYPE (gnu_comp), 'V')), + this_choice); + } + } + else + gcc_unreachable (); + + gnu_choice = build_binary_op (TRUTH_ORIF_EXPR, integer_type_node, + gnu_choice, this_choice); + } + + return build3 (COND_EXPR, void_type_node, gnu_choice, gnu_body, NULL_TREE); +} + +/* Subroutine of gnat_to_gnu to translate gnat_node, an N_Exception_Handler, + to a GCC tree, which is returned. This is the variant for ZCX. */ + +static tree +Exception_Handler_to_gnu_zcx (Node_Id gnat_node) +{ + tree gnu_etypes_list = NULL_TREE; + tree gnu_expr; + tree gnu_etype; + tree gnu_current_exc_ptr; + tree gnu_incoming_exc_ptr; + Node_Id gnat_temp; + + /* We build a TREE_LIST of nodes representing what exception types this + handler can catch, with special cases for others and all others cases. + + Each exception type is actually identified by a pointer to the exception + id, or to a dummy object for "others" and "all others". + + Care should be taken to ensure that the control flow impact of "others" + and "all others" is known to GCC. lang_eh_type_covers is doing the trick + currently. */ + for (gnat_temp = First (Exception_Choices (gnat_node)); + gnat_temp; gnat_temp = Next (gnat_temp)) + { + if (Nkind (gnat_temp) == N_Others_Choice) + { + tree gnu_expr + = All_Others (gnat_temp) ? all_others_decl : others_decl; + + gnu_etype + = build_unary_op (ADDR_EXPR, NULL_TREE, gnu_expr); + } + else if (Nkind (gnat_temp) == N_Identifier + || Nkind (gnat_temp) == N_Expanded_Name) + { + Entity_Id gnat_ex_id = Entity (gnat_temp); + + /* Exception may be a renaming. Recover original exception which is + the one elaborated and registered. */ + if (Present (Renamed_Object (gnat_ex_id))) + gnat_ex_id = Renamed_Object (gnat_ex_id); + + gnu_expr = gnat_to_gnu_entity (gnat_ex_id, NULL_TREE, 0); + gnu_etype = build_unary_op (ADDR_EXPR, NULL_TREE, gnu_expr); + + /* The Non_Ada_Error case for VMS exceptions is handled + by the personality routine. */ + } + else + gcc_unreachable (); + + /* The GCC interface expects NULL to be passed for catch all handlers, so + it would be quite tempting to set gnu_etypes_list to NULL if gnu_etype + is integer_zero_node. It would not work, however, because GCC's + notion of "catch all" is stronger than our notion of "others". Until + we correctly use the cleanup interface as well, doing that would + prevent the "all others" handlers from being seen, because nothing + can be caught beyond a catch all from GCC's point of view. */ + gnu_etypes_list = tree_cons (NULL_TREE, gnu_etype, gnu_etypes_list); + } + + start_stmt_group (); + gnat_pushlevel (); + + /* Expand a call to the begin_handler hook at the beginning of the handler, + and arrange for a call to the end_handler hook to occur on every possible + exit path. + + The hooks expect a pointer to the low level occurrence. This is required + for our stack management scheme because a raise inside the handler pushes + a new occurrence on top of the stack, which means that this top does not + necessarily match the occurrence this handler was dealing with. + + The EXC_PTR_EXPR object references the exception occurrence being + propagated. Upon handler entry, this is the exception for which the + handler is triggered. This might not be the case upon handler exit, + however, as we might have a new occurrence propagated by the handler's + body, and the end_handler hook called as a cleanup in this context. + + We use a local variable to retrieve the incoming value at handler entry + time, and reuse it to feed the end_handler hook's argument at exit. */ + gnu_current_exc_ptr = build0 (EXC_PTR_EXPR, ptr_type_node); + gnu_incoming_exc_ptr = create_var_decl (get_identifier ("EXPTR"), NULL_TREE, + ptr_type_node, gnu_current_exc_ptr, + false, false, false, false, NULL, + gnat_node); + + add_stmt_with_node (build_call_1_expr (begin_handler_decl, + gnu_incoming_exc_ptr), + gnat_node); + /* ??? We don't seem to have an End_Label at hand to set the location. */ + add_cleanup (build_call_1_expr (end_handler_decl, gnu_incoming_exc_ptr), + Empty); + add_stmt_list (Statements (gnat_node)); + gnat_poplevel (); + + return build2 (CATCH_EXPR, void_type_node, gnu_etypes_list, + end_stmt_group ()); +} + +/* Subroutine of gnat_to_gnu to generate code for an N_Compilation unit. */ + +static void +Compilation_Unit_to_gnu (Node_Id gnat_node) +{ + /* Make the decl for the elaboration procedure. */ + bool body_p = (Defining_Entity (Unit (gnat_node)), + Nkind (Unit (gnat_node)) == N_Package_Body + || Nkind (Unit (gnat_node)) == N_Subprogram_Body); + Entity_Id gnat_unit_entity = Defining_Entity (Unit (gnat_node)); + tree gnu_elab_proc_decl + = create_subprog_decl + (create_concat_name (gnat_unit_entity, + body_p ? "elabb" : "elabs"), + NULL_TREE, void_ftype, NULL_TREE, false, true, false, NULL, + gnat_unit_entity); + struct elab_info *info; + + push_stack (&gnu_elab_proc_stack, NULL_TREE, gnu_elab_proc_decl); + + DECL_ELABORATION_PROC_P (gnu_elab_proc_decl) = 1; + allocate_struct_function (gnu_elab_proc_decl, false); + Sloc_to_locus (Sloc (gnat_unit_entity), &cfun->function_end_locus); + set_cfun (NULL); + + /* For a body, first process the spec if there is one. */ + if (Nkind (Unit (gnat_node)) == N_Package_Body + || (Nkind (Unit (gnat_node)) == N_Subprogram_Body + && !Acts_As_Spec (gnat_node))) + { + add_stmt (gnat_to_gnu (Library_Unit (gnat_node))); + finalize_from_with_types (); + } + + process_inlined_subprograms (gnat_node); + + if (type_annotate_only && gnat_node == Cunit (Main_Unit)) + { + elaborate_all_entities (gnat_node); + + if (Nkind (Unit (gnat_node)) == N_Subprogram_Declaration + || Nkind (Unit (gnat_node)) == N_Generic_Package_Declaration + || Nkind (Unit (gnat_node)) == N_Generic_Subprogram_Declaration) + return; + } + + process_decls (Declarations (Aux_Decls_Node (gnat_node)), Empty, Empty, + true, true); + add_stmt (gnat_to_gnu (Unit (gnat_node))); + + /* Process any pragmas and actions following the unit. */ + add_stmt_list (Pragmas_After (Aux_Decls_Node (gnat_node))); + add_stmt_list (Actions (Aux_Decls_Node (gnat_node))); + finalize_from_with_types (); + + /* Save away what we've made so far and record this potential elaboration + procedure. */ + info = (struct elab_info *) ggc_alloc (sizeof (struct elab_info)); + set_current_block_context (gnu_elab_proc_decl); + gnat_poplevel (); + DECL_SAVED_TREE (gnu_elab_proc_decl) = end_stmt_group (); + info->next = elab_info_list; + info->elab_proc = gnu_elab_proc_decl; + info->gnat_node = gnat_node; + elab_info_list = info; + + /* Generate elaboration code for this unit, if necessary, and say whether + we did or not. */ + pop_stack (&gnu_elab_proc_stack); + + /* Invalidate the global renaming pointers. This is necessary because + stabilization of the renamed entities may create SAVE_EXPRs which + have been tied to a specific elaboration routine just above. */ + invalidate_global_renaming_pointers (); +} + +/* This function is the driver of the GNAT to GCC tree transformation + process. It is the entry point of the tree transformer. GNAT_NODE is the + root of some GNAT tree. Return the root of the corresponding GCC tree. + If this is an expression, return the GCC equivalent of the expression. If + it is a statement, return the statement. In the case when called for a + statement, it may also add statements to the current statement group, in + which case anything it returns is to be interpreted as occurring after + anything `it already added. */ + +tree +gnat_to_gnu (Node_Id gnat_node) +{ + bool went_into_elab_proc = false; + tree gnu_result = error_mark_node; /* Default to no value. */ + tree gnu_result_type = void_type_node; + tree gnu_expr; + tree gnu_lhs, gnu_rhs; + Node_Id gnat_temp; + + /* Save node number for error message and set location information. */ + error_gnat_node = gnat_node; + Sloc_to_locus (Sloc (gnat_node), &input_location); + + if (type_annotate_only + && IN (Nkind (gnat_node), N_Statement_Other_Than_Procedure_Call)) + return alloc_stmt_list (); + + /* If this node is a non-static subexpression and we are only + annotating types, make this into a NULL_EXPR. */ + if (type_annotate_only + && IN (Nkind (gnat_node), N_Subexpr) + && Nkind (gnat_node) != N_Identifier + && !Compile_Time_Known_Value (gnat_node)) + return build1 (NULL_EXPR, get_unpadded_type (Etype (gnat_node)), + build_call_raise (CE_Range_Check_Failed, gnat_node, + N_Raise_Constraint_Error)); + + /* If this is a Statement and we are at top level, it must be part of the + elaboration procedure, so mark us as being in that procedure and push our + context. + + If we are in the elaboration procedure, check if we are violating a + No_Elaboration_Code restriction by having a statement there. */ + if ((IN (Nkind (gnat_node), N_Statement_Other_Than_Procedure_Call) + && Nkind (gnat_node) != N_Null_Statement) + || Nkind (gnat_node) == N_Procedure_Call_Statement + || Nkind (gnat_node) == N_Label + || Nkind (gnat_node) == N_Implicit_Label_Declaration + || Nkind (gnat_node) == N_Handled_Sequence_Of_Statements + || ((Nkind (gnat_node) == N_Raise_Constraint_Error + || Nkind (gnat_node) == N_Raise_Storage_Error + || Nkind (gnat_node) == N_Raise_Program_Error) + && (Ekind (Etype (gnat_node)) == E_Void))) + { + if (!current_function_decl) + { + current_function_decl = TREE_VALUE (gnu_elab_proc_stack); + start_stmt_group (); + gnat_pushlevel (); + went_into_elab_proc = true; + } + + /* Don't check for a possible No_Elaboration_Code restriction violation + on N_Handled_Sequence_Of_Statements, as we want to signal an error on + every nested real statement instead. This also avoids triggering + spurious errors on dummy (empty) sequences created by the front-end + for package bodies in some cases. */ + + if (current_function_decl == TREE_VALUE (gnu_elab_proc_stack) + && Nkind (gnat_node) != N_Handled_Sequence_Of_Statements) + Check_Elaboration_Code_Allowed (gnat_node); + } + + switch (Nkind (gnat_node)) + { + /********************************/ + /* Chapter 2: Lexical Elements: */ + /********************************/ + + case N_Identifier: + case N_Expanded_Name: + case N_Operator_Symbol: + case N_Defining_Identifier: + gnu_result = Identifier_to_gnu (gnat_node, &gnu_result_type); + break; + + case N_Integer_Literal: + { + tree gnu_type; + + /* Get the type of the result, looking inside any padding and + justified modular types. Then get the value in that type. */ + gnu_type = gnu_result_type = get_unpadded_type (Etype (gnat_node)); + + if (TREE_CODE (gnu_type) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (gnu_type)) + gnu_type = TREE_TYPE (TYPE_FIELDS (gnu_type)); + + gnu_result = UI_To_gnu (Intval (gnat_node), gnu_type); + + /* If the result overflows (meaning it doesn't fit in its base type), + abort. We would like to check that the value is within the range + of the subtype, but that causes problems with subtypes whose usage + will raise Constraint_Error and with biased representation, so + we don't. */ + gcc_assert (!TREE_OVERFLOW (gnu_result)); + } + break; + + case N_Character_Literal: + /* If a Entity is present, it means that this was one of the + literals in a user-defined character type. In that case, + just return the value in the CONST_DECL. Otherwise, use the + character code. In that case, the base type should be an + INTEGER_TYPE, but we won't bother checking for that. */ + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + if (Present (Entity (gnat_node))) + gnu_result = DECL_INITIAL (get_gnu_tree (Entity (gnat_node))); + else + gnu_result + = build_int_cst_type + (gnu_result_type, UI_To_CC (Char_Literal_Value (gnat_node))); + break; + + case N_Real_Literal: + /* If this is of a fixed-point type, the value we want is the + value of the corresponding integer. */ + if (IN (Ekind (Underlying_Type (Etype (gnat_node))), Fixed_Point_Kind)) + { + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + gnu_result = UI_To_gnu (Corresponding_Integer_Value (gnat_node), + gnu_result_type); + gcc_assert (!TREE_OVERFLOW (gnu_result)); + } + + /* We should never see a Vax_Float type literal, since the front end + is supposed to transform these using appropriate conversions */ + else if (Vax_Float (Underlying_Type (Etype (gnat_node)))) + gcc_unreachable (); + + else + { + Ureal ur_realval = Realval (gnat_node); + + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + + /* If the real value is zero, so is the result. Otherwise, + convert it to a machine number if it isn't already. That + forces BASE to 0 or 2 and simplifies the rest of our logic. */ + if (UR_Is_Zero (ur_realval)) + gnu_result = convert (gnu_result_type, integer_zero_node); + else + { + if (!Is_Machine_Number (gnat_node)) + ur_realval + = Machine (Base_Type (Underlying_Type (Etype (gnat_node))), + ur_realval, Round_Even, gnat_node); + + gnu_result + = UI_To_gnu (Numerator (ur_realval), gnu_result_type); + + /* If we have a base of zero, divide by the denominator. + Otherwise, the base must be 2 and we scale the value, which + we know can fit in the mantissa of the type (hence the use + of that type above). */ + if (No (Rbase (ur_realval))) + gnu_result + = build_binary_op (RDIV_EXPR, + get_base_type (gnu_result_type), + gnu_result, + UI_To_gnu (Denominator (ur_realval), + gnu_result_type)); + else + { + REAL_VALUE_TYPE tmp; + + gcc_assert (Rbase (ur_realval) == 2); + real_ldexp (&tmp, &TREE_REAL_CST (gnu_result), + - UI_To_Int (Denominator (ur_realval))); + gnu_result = build_real (gnu_result_type, tmp); + } + } + + /* Now see if we need to negate the result. Do it this way to + properly handle -0. */ + if (UR_Is_Negative (Realval (gnat_node))) + gnu_result + = build_unary_op (NEGATE_EXPR, get_base_type (gnu_result_type), + gnu_result); + } + + break; + + case N_String_Literal: + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + if (TYPE_PRECISION (TREE_TYPE (gnu_result_type)) == HOST_BITS_PER_CHAR) + { + String_Id gnat_string = Strval (gnat_node); + int length = String_Length (gnat_string); + int i; + char *string; + if (length >= ALLOCA_THRESHOLD) + string = XNEWVEC (char, length + 1); /* in case of large strings */ + else + string = (char *) alloca (length + 1); + + /* Build the string with the characters in the literal. Note + that Ada strings are 1-origin. */ + for (i = 0; i < length; i++) + string[i] = Get_String_Char (gnat_string, i + 1); + + /* Put a null at the end of the string in case it's in a context + where GCC will want to treat it as a C string. */ + string[i] = 0; + + gnu_result = build_string (length, string); + + /* Strings in GCC don't normally have types, but we want + this to not be converted to the array type. */ + TREE_TYPE (gnu_result) = gnu_result_type; + + if (length >= ALLOCA_THRESHOLD) /* free if heap-allocated */ + free (string); + } + else + { + /* Build a list consisting of each character, then make + the aggregate. */ + String_Id gnat_string = Strval (gnat_node); + int length = String_Length (gnat_string); + int i; + tree gnu_list = NULL_TREE; + tree gnu_idx = TYPE_MIN_VALUE (TYPE_DOMAIN (gnu_result_type)); + + for (i = 0; i < length; i++) + { + gnu_list + = tree_cons (gnu_idx, + build_int_cst (TREE_TYPE (gnu_result_type), + Get_String_Char (gnat_string, + i + 1)), + gnu_list); + + gnu_idx = int_const_binop (PLUS_EXPR, gnu_idx, integer_one_node, + 0); + } + + gnu_result + = gnat_build_constructor (gnu_result_type, nreverse (gnu_list)); + } + break; + + case N_Pragma: + gnu_result = Pragma_to_gnu (gnat_node); + break; + + /**************************************/ + /* Chapter 3: Declarations and Types: */ + /**************************************/ + + case N_Subtype_Declaration: + case N_Full_Type_Declaration: + case N_Incomplete_Type_Declaration: + case N_Private_Type_Declaration: + case N_Private_Extension_Declaration: + case N_Task_Type_Declaration: + process_type (Defining_Entity (gnat_node)); + gnu_result = alloc_stmt_list (); + break; + + case N_Object_Declaration: + case N_Exception_Declaration: + gnat_temp = Defining_Entity (gnat_node); + gnu_result = alloc_stmt_list (); + + /* If we are just annotating types and this object has an unconstrained + or task type, don't elaborate it. */ + if (type_annotate_only + && (((Is_Array_Type (Etype (gnat_temp)) + || Is_Record_Type (Etype (gnat_temp))) + && !Is_Constrained (Etype (gnat_temp))) + || Is_Concurrent_Type (Etype (gnat_temp)))) + break; + + if (Present (Expression (gnat_node)) + && !(Nkind (gnat_node) == N_Object_Declaration + && No_Initialization (gnat_node)) + && (!type_annotate_only + || Compile_Time_Known_Value (Expression (gnat_node)))) + { + gnu_expr = gnat_to_gnu (Expression (gnat_node)); + if (Do_Range_Check (Expression (gnat_node))) + gnu_expr = emit_range_check (gnu_expr, Etype (gnat_temp)); + + /* If this object has its elaboration delayed, we must force + evaluation of GNU_EXPR right now and save it for when the object + is frozen. */ + if (Present (Freeze_Node (gnat_temp))) + { + if ((Is_Public (gnat_temp) || global_bindings_p ()) + && !TREE_CONSTANT (gnu_expr)) + gnu_expr + = create_var_decl (create_concat_name (gnat_temp, "init"), + NULL_TREE, TREE_TYPE (gnu_expr), + gnu_expr, false, Is_Public (gnat_temp), + false, false, NULL, gnat_temp); + else + gnu_expr = maybe_variable (gnu_expr); + + save_gnu_tree (gnat_node, gnu_expr, true); + } + } + else + gnu_expr = NULL_TREE; + + if (type_annotate_only && gnu_expr && TREE_CODE (gnu_expr) == ERROR_MARK) + gnu_expr = NULL_TREE; + + if (No (Freeze_Node (gnat_temp))) + gnat_to_gnu_entity (gnat_temp, gnu_expr, 1); + break; + + case N_Object_Renaming_Declaration: + gnat_temp = Defining_Entity (gnat_node); + + /* Don't do anything if this renaming is handled by the front end or if + we are just annotating types and this object has a composite or task + type, don't elaborate it. We return the result in case it has any + SAVE_EXPRs in it that need to be evaluated here. */ + if (!Is_Renaming_Of_Object (gnat_temp) + && ! (type_annotate_only + && (Is_Array_Type (Etype (gnat_temp)) + || Is_Record_Type (Etype (gnat_temp)) + || Is_Concurrent_Type (Etype (gnat_temp))))) + gnu_result + = gnat_to_gnu_entity (gnat_temp, + gnat_to_gnu (Renamed_Object (gnat_temp)), 1); + else + gnu_result = alloc_stmt_list (); + break; + + case N_Implicit_Label_Declaration: + gnat_to_gnu_entity (Defining_Entity (gnat_node), NULL_TREE, 1); + gnu_result = alloc_stmt_list (); + break; + + case N_Exception_Renaming_Declaration: + case N_Number_Declaration: + case N_Package_Renaming_Declaration: + case N_Subprogram_Renaming_Declaration: + /* These are fully handled in the front end. */ + gnu_result = alloc_stmt_list (); + break; + + /*************************************/ + /* Chapter 4: Names and Expressions: */ + /*************************************/ + + case N_Explicit_Dereference: + gnu_result = gnat_to_gnu (Prefix (gnat_node)); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + gnu_result = build_unary_op (INDIRECT_REF, NULL_TREE, gnu_result); + break; + + case N_Indexed_Component: + { + tree gnu_array_object = gnat_to_gnu (Prefix (gnat_node)); + tree gnu_type; + int ndim; + int i; + Node_Id *gnat_expr_array; + + gnu_array_object = maybe_implicit_deref (gnu_array_object); + gnu_array_object = maybe_unconstrained_array (gnu_array_object); + + /* If we got a padded type, remove it too. */ + if (TREE_CODE (TREE_TYPE (gnu_array_object)) == RECORD_TYPE + && TYPE_IS_PADDING_P (TREE_TYPE (gnu_array_object))) + gnu_array_object + = convert (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (gnu_array_object))), + gnu_array_object); + + gnu_result = gnu_array_object; + + /* First compute the number of dimensions of the array, then + fill the expression array, the order depending on whether + this is a Convention_Fortran array or not. */ + for (ndim = 1, gnu_type = TREE_TYPE (gnu_array_object); + TREE_CODE (TREE_TYPE (gnu_type)) == ARRAY_TYPE + && TYPE_MULTI_ARRAY_P (TREE_TYPE (gnu_type)); + ndim++, gnu_type = TREE_TYPE (gnu_type)) + ; + + gnat_expr_array = (Node_Id *) alloca (ndim * sizeof (Node_Id)); + + if (TYPE_CONVENTION_FORTRAN_P (TREE_TYPE (gnu_array_object))) + for (i = ndim - 1, gnat_temp = First (Expressions (gnat_node)); + i >= 0; + i--, gnat_temp = Next (gnat_temp)) + gnat_expr_array[i] = gnat_temp; + else + for (i = 0, gnat_temp = First (Expressions (gnat_node)); + i < ndim; + i++, gnat_temp = Next (gnat_temp)) + gnat_expr_array[i] = gnat_temp; + + for (i = 0, gnu_type = TREE_TYPE (gnu_array_object); + i < ndim; i++, gnu_type = TREE_TYPE (gnu_type)) + { + gcc_assert (TREE_CODE (gnu_type) == ARRAY_TYPE); + gnat_temp = gnat_expr_array[i]; + gnu_expr = gnat_to_gnu (gnat_temp); + + if (Do_Range_Check (gnat_temp)) + gnu_expr + = emit_index_check + (gnu_array_object, gnu_expr, + TYPE_MIN_VALUE (TYPE_INDEX_TYPE (TYPE_DOMAIN (gnu_type))), + TYPE_MAX_VALUE (TYPE_INDEX_TYPE (TYPE_DOMAIN (gnu_type)))); + + gnu_result = build_binary_op (ARRAY_REF, NULL_TREE, + gnu_result, gnu_expr); + } + } + + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + break; + + case N_Slice: + { + tree gnu_type; + Node_Id gnat_range_node = Discrete_Range (gnat_node); + + gnu_result = gnat_to_gnu (Prefix (gnat_node)); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + + /* Do any implicit dereferences of the prefix and do any needed + range check. */ + gnu_result = maybe_implicit_deref (gnu_result); + gnu_result = maybe_unconstrained_array (gnu_result); + gnu_type = TREE_TYPE (gnu_result); + if (Do_Range_Check (gnat_range_node)) + { + /* Get the bounds of the slice. */ + tree gnu_index_type + = TYPE_INDEX_TYPE (TYPE_DOMAIN (gnu_result_type)); + tree gnu_min_expr = TYPE_MIN_VALUE (gnu_index_type); + tree gnu_max_expr = TYPE_MAX_VALUE (gnu_index_type); + /* Get the permitted bounds. */ + tree gnu_base_index_type + = TYPE_INDEX_TYPE (TYPE_DOMAIN (gnu_type)); + tree gnu_base_min_expr = TYPE_MIN_VALUE (gnu_base_index_type); + tree gnu_base_max_expr = TYPE_MAX_VALUE (gnu_base_index_type); + tree gnu_expr_l, gnu_expr_h, gnu_expr_type; + + /* Check to see that the minimum slice value is in range. */ + gnu_expr_l = emit_index_check (gnu_result, + gnu_min_expr, + gnu_base_min_expr, + gnu_base_max_expr); + + /* Check to see that the maximum slice value is in range. */ + gnu_expr_h = emit_index_check (gnu_result, + gnu_max_expr, + gnu_base_min_expr, + gnu_base_max_expr); + + /* Derive a good type to convert everything to. */ + gnu_expr_type = get_base_type (TREE_TYPE (gnu_expr_l)); + + /* Build a compound expression that does the range checks and + returns the low bound. */ + gnu_expr = build_binary_op (COMPOUND_EXPR, gnu_expr_type, + convert (gnu_expr_type, gnu_expr_h), + convert (gnu_expr_type, gnu_expr_l)); + + /* Build a conditional expression that does the range check and + returns the low bound if the slice is not empty (max >= min), + and returns the naked low bound otherwise (max < min), unless + it is non-constant and the high bound is; this prevents VRP + from inferring bogus ranges on the unlikely path. */ + gnu_expr = fold_build3 (COND_EXPR, gnu_expr_type, + build_binary_op (GE_EXPR, gnu_expr_type, + convert (gnu_expr_type, + gnu_max_expr), + convert (gnu_expr_type, + gnu_min_expr)), + gnu_expr, + TREE_CODE (gnu_min_expr) != INTEGER_CST + && TREE_CODE (gnu_max_expr) == INTEGER_CST + ? gnu_max_expr : gnu_min_expr); + } + else + /* Simply return the naked low bound. */ + gnu_expr = TYPE_MIN_VALUE (TYPE_DOMAIN (gnu_result_type)); + + gnu_result = build_binary_op (ARRAY_RANGE_REF, gnu_result_type, + gnu_result, gnu_expr); + } + break; + + case N_Selected_Component: + { + tree gnu_prefix = gnat_to_gnu (Prefix (gnat_node)); + Entity_Id gnat_field = Entity (Selector_Name (gnat_node)); + Entity_Id gnat_pref_type = Etype (Prefix (gnat_node)); + tree gnu_field; + + while (IN (Ekind (gnat_pref_type), Incomplete_Or_Private_Kind) + || IN (Ekind (gnat_pref_type), Access_Kind)) + { + if (IN (Ekind (gnat_pref_type), Incomplete_Or_Private_Kind)) + gnat_pref_type = Underlying_Type (gnat_pref_type); + else if (IN (Ekind (gnat_pref_type), Access_Kind)) + gnat_pref_type = Designated_Type (gnat_pref_type); + } + + gnu_prefix = maybe_implicit_deref (gnu_prefix); + + /* For discriminant references in tagged types always substitute the + corresponding discriminant as the actual selected component. */ + + if (Is_Tagged_Type (gnat_pref_type)) + while (Present (Corresponding_Discriminant (gnat_field))) + gnat_field = Corresponding_Discriminant (gnat_field); + + /* For discriminant references of untagged types always substitute the + corresponding stored discriminant. */ + + else if (Present (Corresponding_Discriminant (gnat_field))) + gnat_field = Original_Record_Component (gnat_field); + + /* Handle extracting the real or imaginary part of a complex. + The real part is the first field and the imaginary the last. */ + + if (TREE_CODE (TREE_TYPE (gnu_prefix)) == COMPLEX_TYPE) + gnu_result = build_unary_op (Present (Next_Entity (gnat_field)) + ? REALPART_EXPR : IMAGPART_EXPR, + NULL_TREE, gnu_prefix); + else + { + gnu_field = gnat_to_gnu_field_decl (gnat_field); + + /* If there are discriminants, the prefix might be + evaluated more than once, which is a problem if it has + side-effects. */ + if (Has_Discriminants (Is_Access_Type (Etype (Prefix (gnat_node))) + ? Designated_Type (Etype + (Prefix (gnat_node))) + : Etype (Prefix (gnat_node)))) + gnu_prefix = gnat_stabilize_reference (gnu_prefix, false); + + gnu_result + = build_component_ref (gnu_prefix, NULL_TREE, gnu_field, + (Nkind (Parent (gnat_node)) + == N_Attribute_Reference)); + } + + gcc_assert (gnu_result); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + } + break; + + case N_Attribute_Reference: + { + /* The attribute designator (like an enumeration value). */ + int attribute = Get_Attribute_Id (Attribute_Name (gnat_node)); + + /* The Elab_Spec and Elab_Body attributes are special in that + Prefix is a unit, not an object with a GCC equivalent. Similarly + for Elaborated, since that variable isn't otherwise known. */ + if (attribute == Attr_Elab_Body || attribute == Attr_Elab_Spec) + return (create_subprog_decl + (create_concat_name (Entity (Prefix (gnat_node)), + attribute == Attr_Elab_Body + ? "elabb" : "elabs"), + NULL_TREE, void_ftype, NULL_TREE, false, true, true, NULL, + gnat_node)); + + gnu_result = Attribute_to_gnu (gnat_node, &gnu_result_type, attribute); + } + break; + + case N_Reference: + /* Like 'Access as far as we are concerned. */ + gnu_result = gnat_to_gnu (Prefix (gnat_node)); + gnu_result = build_unary_op (ADDR_EXPR, NULL_TREE, gnu_result); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + break; + + case N_Aggregate: + case N_Extension_Aggregate: + { + tree gnu_aggr_type; + + /* ??? It is wrong to evaluate the type now, but there doesn't + seem to be any other practical way of doing it. */ + + gcc_assert (!Expansion_Delayed (gnat_node)); + + gnu_aggr_type = gnu_result_type + = get_unpadded_type (Etype (gnat_node)); + + if (TREE_CODE (gnu_result_type) == RECORD_TYPE + && TYPE_CONTAINS_TEMPLATE_P (gnu_result_type)) + gnu_aggr_type + = TREE_TYPE (TREE_CHAIN (TYPE_FIELDS (gnu_result_type))); + + if (Null_Record_Present (gnat_node)) + gnu_result = gnat_build_constructor (gnu_aggr_type, NULL_TREE); + + else if (TREE_CODE (gnu_aggr_type) == RECORD_TYPE + || TREE_CODE (gnu_aggr_type) == UNION_TYPE) + gnu_result + = assoc_to_constructor (Etype (gnat_node), + First (Component_Associations (gnat_node)), + gnu_aggr_type); + else if (TREE_CODE (gnu_aggr_type) == ARRAY_TYPE) + gnu_result = pos_to_constructor (First (Expressions (gnat_node)), + gnu_aggr_type, + Component_Type (Etype (gnat_node))); + else if (TREE_CODE (gnu_aggr_type) == COMPLEX_TYPE) + gnu_result + = build_binary_op + (COMPLEX_EXPR, gnu_aggr_type, + gnat_to_gnu (Expression (First + (Component_Associations (gnat_node)))), + gnat_to_gnu (Expression + (Next + (First (Component_Associations (gnat_node)))))); + else + gcc_unreachable (); + + gnu_result = convert (gnu_result_type, gnu_result); + } + break; + + case N_Null: + if (TARGET_VTABLE_USES_DESCRIPTORS + && Ekind (Etype (gnat_node)) == E_Access_Subprogram_Type + && Is_Dispatch_Table_Entity (Etype (gnat_node))) + gnu_result = null_fdesc_node; + else + gnu_result = null_pointer_node; + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + break; + + case N_Type_Conversion: + case N_Qualified_Expression: + /* Get the operand expression. */ + gnu_result = gnat_to_gnu (Expression (gnat_node)); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + + gnu_result + = convert_with_check (Etype (gnat_node), gnu_result, + Do_Overflow_Check (gnat_node), + Do_Range_Check (Expression (gnat_node)), + Nkind (gnat_node) == N_Type_Conversion + && Float_Truncate (gnat_node)); + break; + + case N_Unchecked_Type_Conversion: + gnu_result = gnat_to_gnu (Expression (gnat_node)); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + + /* If the result is a pointer type, see if we are improperly + converting to a stricter alignment. */ + if (STRICT_ALIGNMENT && POINTER_TYPE_P (gnu_result_type) + && IN (Ekind (Etype (gnat_node)), Access_Kind)) + { + unsigned int align = known_alignment (gnu_result); + tree gnu_obj_type = TREE_TYPE (gnu_result_type); + unsigned int oalign = TYPE_ALIGN (gnu_obj_type); + + if (align != 0 && align < oalign && !TYPE_ALIGN_OK (gnu_obj_type)) + post_error_ne_tree_2 + ("?source alignment (^) '< alignment of & (^)", + gnat_node, Designated_Type (Etype (gnat_node)), + size_int (align / BITS_PER_UNIT), oalign / BITS_PER_UNIT); + } + + /* If we are converting a descriptor to a function pointer, first + build the pointer. */ + if (TARGET_VTABLE_USES_DESCRIPTORS + && TREE_TYPE (gnu_result) == fdesc_type_node + && POINTER_TYPE_P (gnu_result_type)) + gnu_result = build_unary_op (ADDR_EXPR, NULL_TREE, gnu_result); + + gnu_result = unchecked_convert (gnu_result_type, gnu_result, + No_Truncation (gnat_node)); + break; + + case N_In: + case N_Not_In: + { + tree gnu_object = gnat_to_gnu (Left_Opnd (gnat_node)); + Node_Id gnat_range = Right_Opnd (gnat_node); + tree gnu_low; + tree gnu_high; + + /* GNAT_RANGE is either an N_Range node or an identifier + denoting a subtype. */ + if (Nkind (gnat_range) == N_Range) + { + gnu_low = gnat_to_gnu (Low_Bound (gnat_range)); + gnu_high = gnat_to_gnu (High_Bound (gnat_range)); + } + else if (Nkind (gnat_range) == N_Identifier + || Nkind (gnat_range) == N_Expanded_Name) + { + tree gnu_range_type = get_unpadded_type (Entity (gnat_range)); + + gnu_low = TYPE_MIN_VALUE (gnu_range_type); + gnu_high = TYPE_MAX_VALUE (gnu_range_type); + } + else + gcc_unreachable (); + + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + + /* If LOW and HIGH are identical, perform an equality test. + Otherwise, ensure that GNU_OBJECT is only evaluated once + and perform a full range test. */ + if (operand_equal_p (gnu_low, gnu_high, 0)) + gnu_result = build_binary_op (EQ_EXPR, gnu_result_type, + gnu_object, gnu_low); + else + { + gnu_object = protect_multiple_eval (gnu_object); + gnu_result + = build_binary_op (TRUTH_ANDIF_EXPR, gnu_result_type, + build_binary_op (GE_EXPR, gnu_result_type, + gnu_object, gnu_low), + build_binary_op (LE_EXPR, gnu_result_type, + gnu_object, gnu_high)); + } + + if (Nkind (gnat_node) == N_Not_In) + gnu_result = invert_truthvalue (gnu_result); + } + break; + + case N_Op_Divide: + gnu_lhs = gnat_to_gnu (Left_Opnd (gnat_node)); + gnu_rhs = gnat_to_gnu (Right_Opnd (gnat_node)); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + gnu_result = build_binary_op (FLOAT_TYPE_P (gnu_result_type) + ? RDIV_EXPR + : (Rounded_Result (gnat_node) + ? ROUND_DIV_EXPR : TRUNC_DIV_EXPR), + gnu_result_type, gnu_lhs, gnu_rhs); + break; + + case N_Op_Or: case N_Op_And: case N_Op_Xor: + /* These can either be operations on booleans or on modular types. + Fall through for boolean types since that's the way GNU_CODES is + set up. */ + if (IN (Ekind (Underlying_Type (Etype (gnat_node))), + Modular_Integer_Kind)) + { + enum tree_code code + = (Nkind (gnat_node) == N_Op_Or ? BIT_IOR_EXPR + : Nkind (gnat_node) == N_Op_And ? BIT_AND_EXPR + : BIT_XOR_EXPR); + + gnu_lhs = gnat_to_gnu (Left_Opnd (gnat_node)); + gnu_rhs = gnat_to_gnu (Right_Opnd (gnat_node)); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + gnu_result = build_binary_op (code, gnu_result_type, + gnu_lhs, gnu_rhs); + break; + } + + /* ... fall through ... */ + + case N_Op_Eq: case N_Op_Ne: case N_Op_Lt: + case N_Op_Le: case N_Op_Gt: case N_Op_Ge: + case N_Op_Add: case N_Op_Subtract: case N_Op_Multiply: + case N_Op_Mod: case N_Op_Rem: + case N_Op_Rotate_Left: + case N_Op_Rotate_Right: + case N_Op_Shift_Left: + case N_Op_Shift_Right: + case N_Op_Shift_Right_Arithmetic: + case N_And_Then: case N_Or_Else: + { + enum tree_code code = gnu_codes[Nkind (gnat_node)]; + bool ignore_lhs_overflow = false; + tree gnu_type; + + gnu_lhs = gnat_to_gnu (Left_Opnd (gnat_node)); + gnu_rhs = gnat_to_gnu (Right_Opnd (gnat_node)); + gnu_type = gnu_result_type = get_unpadded_type (Etype (gnat_node)); + + /* If this is a comparison operator, convert any references to + an unconstrained array value into a reference to the + actual array. */ + if (TREE_CODE_CLASS (code) == tcc_comparison) + { + gnu_lhs = maybe_unconstrained_array (gnu_lhs); + gnu_rhs = maybe_unconstrained_array (gnu_rhs); + } + + /* If the result type is a private type, its full view may be a + numeric subtype. The representation we need is that of its base + type, given that it is the result of an arithmetic operation. */ + else if (Is_Private_Type (Etype (gnat_node))) + gnu_type = gnu_result_type + = get_unpadded_type (Base_Type (Full_View (Etype (gnat_node)))); + + /* If this is a shift whose count is not guaranteed to be correct, + we need to adjust the shift count. */ + if (IN (Nkind (gnat_node), N_Op_Shift) + && !Shift_Count_OK (gnat_node)) + { + tree gnu_count_type = get_base_type (TREE_TYPE (gnu_rhs)); + tree gnu_max_shift + = convert (gnu_count_type, TYPE_SIZE (gnu_type)); + + if (Nkind (gnat_node) == N_Op_Rotate_Left + || Nkind (gnat_node) == N_Op_Rotate_Right) + gnu_rhs = build_binary_op (TRUNC_MOD_EXPR, gnu_count_type, + gnu_rhs, gnu_max_shift); + else if (Nkind (gnat_node) == N_Op_Shift_Right_Arithmetic) + gnu_rhs + = build_binary_op + (MIN_EXPR, gnu_count_type, + build_binary_op (MINUS_EXPR, + gnu_count_type, + gnu_max_shift, + convert (gnu_count_type, + integer_one_node)), + gnu_rhs); + } + + /* For right shifts, the type says what kind of shift to do, + so we may need to choose a different type. In this case, + we have to ignore integer overflow lest it propagates all + the way down and causes a CE to be explicitly raised. */ + if (Nkind (gnat_node) == N_Op_Shift_Right + && !TYPE_UNSIGNED (gnu_type)) + { + gnu_type = gnat_unsigned_type (gnu_type); + ignore_lhs_overflow = true; + } + else if (Nkind (gnat_node) == N_Op_Shift_Right_Arithmetic + && TYPE_UNSIGNED (gnu_type)) + { + gnu_type = gnat_signed_type (gnu_type); + ignore_lhs_overflow = true; + } + + if (gnu_type != gnu_result_type) + { + tree gnu_old_lhs = gnu_lhs; + gnu_lhs = convert (gnu_type, gnu_lhs); + if (TREE_CODE (gnu_lhs) == INTEGER_CST && ignore_lhs_overflow) + TREE_OVERFLOW (gnu_lhs) = TREE_OVERFLOW (gnu_old_lhs); + gnu_rhs = convert (gnu_type, gnu_rhs); + } + + gnu_result = build_binary_op (code, gnu_type, gnu_lhs, gnu_rhs); + + /* If this is a logical shift with the shift count not verified, + we must return zero if it is too large. We cannot compensate + above in this case. */ + if ((Nkind (gnat_node) == N_Op_Shift_Left + || Nkind (gnat_node) == N_Op_Shift_Right) + && !Shift_Count_OK (gnat_node)) + gnu_result + = build_cond_expr + (gnu_type, + build_binary_op (GE_EXPR, integer_type_node, + gnu_rhs, + convert (TREE_TYPE (gnu_rhs), + TYPE_SIZE (gnu_type))), + convert (gnu_type, integer_zero_node), + gnu_result); + } + break; + + case N_Conditional_Expression: + { + tree gnu_cond = gnat_to_gnu (First (Expressions (gnat_node))); + tree gnu_true = gnat_to_gnu (Next (First (Expressions (gnat_node)))); + tree gnu_false + = gnat_to_gnu (Next (Next (First (Expressions (gnat_node))))); + + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + gnu_result = build_cond_expr (gnu_result_type, + gnat_truthvalue_conversion (gnu_cond), + gnu_true, gnu_false); + } + break; + + case N_Op_Plus: + gnu_result = gnat_to_gnu (Right_Opnd (gnat_node)); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + break; + + case N_Op_Not: + /* This case can apply to a boolean or a modular type. + Fall through for a boolean operand since GNU_CODES is set + up to handle this. */ + if (Is_Modular_Integer_Type (Etype (gnat_node)) + || (Ekind (Etype (gnat_node)) == E_Private_Type + && Is_Modular_Integer_Type (Full_View (Etype (gnat_node))))) + { + gnu_expr = gnat_to_gnu (Right_Opnd (gnat_node)); + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + gnu_result = build_unary_op (BIT_NOT_EXPR, gnu_result_type, + gnu_expr); + break; + } + + /* ... fall through ... */ + + case N_Op_Minus: case N_Op_Abs: + gnu_expr = gnat_to_gnu (Right_Opnd (gnat_node)); + + if (Ekind (Etype (gnat_node)) != E_Private_Type) + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + else + gnu_result_type = get_unpadded_type (Base_Type + (Full_View (Etype (gnat_node)))); + + gnu_result = build_unary_op (gnu_codes[Nkind (gnat_node)], + gnu_result_type, gnu_expr); + break; + + case N_Allocator: + { + tree gnu_init = 0; + tree gnu_type; + bool ignore_init_type = false; + + gnat_temp = Expression (gnat_node); + + /* The Expression operand can either be an N_Identifier or + Expanded_Name, which must represent a type, or a + N_Qualified_Expression, which contains both the object type and an + initial value for the object. */ + if (Nkind (gnat_temp) == N_Identifier + || Nkind (gnat_temp) == N_Expanded_Name) + gnu_type = gnat_to_gnu_type (Entity (gnat_temp)); + else if (Nkind (gnat_temp) == N_Qualified_Expression) + { + Entity_Id gnat_desig_type + = Designated_Type (Underlying_Type (Etype (gnat_node))); + + ignore_init_type = Has_Constrained_Partial_View (gnat_desig_type); + gnu_init = gnat_to_gnu (Expression (gnat_temp)); + + gnu_init = maybe_unconstrained_array (gnu_init); + if (Do_Range_Check (Expression (gnat_temp))) + gnu_init = emit_range_check (gnu_init, gnat_desig_type); + + if (Is_Elementary_Type (gnat_desig_type) + || Is_Constrained (gnat_desig_type)) + { + gnu_type = gnat_to_gnu_type (gnat_desig_type); + gnu_init = convert (gnu_type, gnu_init); + } + else + { + gnu_type = gnat_to_gnu_type (Etype (Expression (gnat_temp))); + if (TREE_CODE (gnu_type) == UNCONSTRAINED_ARRAY_TYPE) + gnu_type = TREE_TYPE (gnu_init); + + gnu_init = convert (gnu_type, gnu_init); + } + } + else + gcc_unreachable (); + + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + return build_allocator (gnu_type, gnu_init, gnu_result_type, + Procedure_To_Call (gnat_node), + Storage_Pool (gnat_node), gnat_node, + ignore_init_type); + } + break; + + /***************************/ + /* Chapter 5: Statements: */ + /***************************/ + + case N_Label: + gnu_result = build1 (LABEL_EXPR, void_type_node, + gnat_to_gnu (Identifier (gnat_node))); + break; + + case N_Null_Statement: + gnu_result = alloc_stmt_list (); + break; + + case N_Assignment_Statement: + /* Get the LHS and RHS of the statement and convert any reference to an + unconstrained array into a reference to the underlying array. + If we are not to do range checking and the RHS is an N_Function_Call, + pass the LHS to the call function. */ + gnu_lhs = maybe_unconstrained_array (gnat_to_gnu (Name (gnat_node))); + + /* If the type has a size that overflows, convert this into raise of + Storage_Error: execution shouldn't have gotten here anyway. */ + if (TREE_CODE (TYPE_SIZE_UNIT (TREE_TYPE (gnu_lhs))) == INTEGER_CST + && TREE_OVERFLOW (TYPE_SIZE_UNIT (TREE_TYPE (gnu_lhs)))) + gnu_result = build_call_raise (SE_Object_Too_Large, gnat_node, + N_Raise_Storage_Error); + else if (Nkind (Expression (gnat_node)) == N_Function_Call + && !Do_Range_Check (Expression (gnat_node))) + gnu_result = call_to_gnu (Expression (gnat_node), + &gnu_result_type, gnu_lhs); + else + { + gnu_rhs + = maybe_unconstrained_array (gnat_to_gnu (Expression (gnat_node))); + + /* If range check is needed, emit code to generate it */ + if (Do_Range_Check (Expression (gnat_node))) + gnu_rhs = emit_range_check (gnu_rhs, Etype (Name (gnat_node))); + + gnu_result + = build_binary_op (MODIFY_EXPR, NULL_TREE, gnu_lhs, gnu_rhs); + } + break; + + case N_If_Statement: + { + tree *gnu_else_ptr; /* Point to put next "else if" or "else". */ + + /* Make the outer COND_EXPR. Avoid non-determinism. */ + gnu_result = build3 (COND_EXPR, void_type_node, + gnat_to_gnu (Condition (gnat_node)), + NULL_TREE, NULL_TREE); + COND_EXPR_THEN (gnu_result) + = build_stmt_group (Then_Statements (gnat_node), false); + TREE_SIDE_EFFECTS (gnu_result) = 1; + gnu_else_ptr = &COND_EXPR_ELSE (gnu_result); + + /* Now make a COND_EXPR for each of the "else if" parts. Put each + into the previous "else" part and point to where to put any + outer "else". Also avoid non-determinism. */ + if (Present (Elsif_Parts (gnat_node))) + for (gnat_temp = First (Elsif_Parts (gnat_node)); + Present (gnat_temp); gnat_temp = Next (gnat_temp)) + { + gnu_expr = build3 (COND_EXPR, void_type_node, + gnat_to_gnu (Condition (gnat_temp)), + NULL_TREE, NULL_TREE); + COND_EXPR_THEN (gnu_expr) + = build_stmt_group (Then_Statements (gnat_temp), false); + TREE_SIDE_EFFECTS (gnu_expr) = 1; + set_expr_location_from_node (gnu_expr, gnat_temp); + *gnu_else_ptr = gnu_expr; + gnu_else_ptr = &COND_EXPR_ELSE (gnu_expr); + } + + *gnu_else_ptr = build_stmt_group (Else_Statements (gnat_node), false); + } + break; + + case N_Case_Statement: + gnu_result = Case_Statement_to_gnu (gnat_node); + break; + + case N_Loop_Statement: + gnu_result = Loop_Statement_to_gnu (gnat_node); + break; + + case N_Block_Statement: + start_stmt_group (); + gnat_pushlevel (); + process_decls (Declarations (gnat_node), Empty, Empty, true, true); + add_stmt (gnat_to_gnu (Handled_Statement_Sequence (gnat_node))); + gnat_poplevel (); + gnu_result = end_stmt_group (); + + if (Present (Identifier (gnat_node))) + mark_out_of_scope (Entity (Identifier (gnat_node))); + break; + + case N_Exit_Statement: + gnu_result + = build2 (EXIT_STMT, void_type_node, + (Present (Condition (gnat_node)) + ? gnat_to_gnu (Condition (gnat_node)) : NULL_TREE), + (Present (Name (gnat_node)) + ? get_gnu_tree (Entity (Name (gnat_node))) + : TREE_VALUE (gnu_loop_label_stack))); + break; + + case N_Return_Statement: + { + /* The gnu function type of the subprogram currently processed. */ + tree gnu_subprog_type = TREE_TYPE (current_function_decl); + /* The return value from the subprogram. */ + tree gnu_ret_val = NULL_TREE; + /* The place to put the return value. */ + tree gnu_lhs; + + /* If we are dealing with a "return;" from an Ada procedure with + parameters passed by copy in copy out, we need to return a record + containing the final values of these parameters. If the list + contains only one entry, return just that entry. + + For a full description of the copy in copy out parameter mechanism, + see the part of the gnat_to_gnu_entity routine dealing with the + translation of subprograms. + + But if we have a return label defined, convert this into + a branch to that label. */ + + if (TREE_VALUE (gnu_return_label_stack)) + { + gnu_result = build1 (GOTO_EXPR, void_type_node, + TREE_VALUE (gnu_return_label_stack)); + break; + } + + else if (TYPE_CI_CO_LIST (gnu_subprog_type)) + { + gnu_lhs = DECL_RESULT (current_function_decl); + if (list_length (TYPE_CI_CO_LIST (gnu_subprog_type)) == 1) + gnu_ret_val = TREE_VALUE (TYPE_CI_CO_LIST (gnu_subprog_type)); + else + gnu_ret_val + = gnat_build_constructor (TREE_TYPE (gnu_subprog_type), + TYPE_CI_CO_LIST (gnu_subprog_type)); + } + + /* If the Ada subprogram is a function, we just need to return the + expression. If the subprogram returns an unconstrained + array, we have to allocate a new version of the result and + return it. If we return by reference, return a pointer. */ + + else if (Present (Expression (gnat_node))) + { + /* If the current function returns by target pointer and we + are doing a call, pass that target to the call. */ + if (TYPE_RETURNS_BY_TARGET_PTR_P (gnu_subprog_type) + && Nkind (Expression (gnat_node)) == N_Function_Call) + { + gnu_lhs + = build_unary_op (INDIRECT_REF, NULL_TREE, + DECL_ARGUMENTS (current_function_decl)); + gnu_result = call_to_gnu (Expression (gnat_node), + &gnu_result_type, gnu_lhs); + } + else + { + gnu_ret_val = gnat_to_gnu (Expression (gnat_node)); + + if (TYPE_RETURNS_BY_TARGET_PTR_P (gnu_subprog_type)) + /* The original return type was unconstrained so dereference + the TARGET pointer in the actual return value's type. */ + gnu_lhs + = build_unary_op (INDIRECT_REF, TREE_TYPE (gnu_ret_val), + DECL_ARGUMENTS (current_function_decl)); + else + gnu_lhs = DECL_RESULT (current_function_decl); + + /* Do not remove the padding from GNU_RET_VAL if the inner + type is self-referential since we want to allocate the fixed + size in that case. */ + if (TREE_CODE (gnu_ret_val) == COMPONENT_REF + && (TREE_CODE (TREE_TYPE (TREE_OPERAND (gnu_ret_val, 0))) + == RECORD_TYPE) + && (TYPE_IS_PADDING_P + (TREE_TYPE (TREE_OPERAND (gnu_ret_val, 0)))) + && (CONTAINS_PLACEHOLDER_P + (TYPE_SIZE (TREE_TYPE (gnu_ret_val))))) + gnu_ret_val = TREE_OPERAND (gnu_ret_val, 0); + + if (TYPE_RETURNS_BY_REF_P (gnu_subprog_type) + || By_Ref (gnat_node)) + gnu_ret_val + = build_unary_op (ADDR_EXPR, NULL_TREE, gnu_ret_val); + + else if (TYPE_RETURNS_UNCONSTRAINED_P (gnu_subprog_type)) + { + gnu_ret_val = maybe_unconstrained_array (gnu_ret_val); + gnu_ret_val + = build_allocator (TREE_TYPE (gnu_ret_val), + gnu_ret_val, + TREE_TYPE (gnu_subprog_type), + Procedure_To_Call (gnat_node), + Storage_Pool (gnat_node), + gnat_node, false); + } + } + } + else + /* If the Ada subprogram is a regular procedure, just return. */ + gnu_lhs = NULL_TREE; + + if (TYPE_RETURNS_BY_TARGET_PTR_P (gnu_subprog_type)) + { + if (gnu_ret_val) + gnu_result = build_binary_op (MODIFY_EXPR, NULL_TREE, + gnu_lhs, gnu_ret_val); + add_stmt_with_node (gnu_result, gnat_node); + gnu_lhs = NULL_TREE; + } + + gnu_result = build_return_expr (gnu_lhs, gnu_ret_val); + } + break; + + case N_Goto_Statement: + gnu_result = build1 (GOTO_EXPR, void_type_node, + gnat_to_gnu (Name (gnat_node))); + break; + + /****************************/ + /* Chapter 6: Subprograms: */ + /****************************/ + + case N_Subprogram_Declaration: + /* Unless there is a freeze node, declare the subprogram. We consider + this a "definition" even though we're not generating code for + the subprogram because we will be making the corresponding GCC + node here. */ + + if (No (Freeze_Node (Defining_Entity (Specification (gnat_node))))) + gnat_to_gnu_entity (Defining_Entity (Specification (gnat_node)), + NULL_TREE, 1); + gnu_result = alloc_stmt_list (); + break; + + case N_Abstract_Subprogram_Declaration: + /* This subprogram doesn't exist for code generation purposes, but we + have to elaborate the types of any parameters and result, unless + they are imported types (nothing to generate in this case). */ + + /* Process the parameter types first. */ + + for (gnat_temp + = First_Formal_With_Extras + (Defining_Entity (Specification (gnat_node))); + Present (gnat_temp); + gnat_temp = Next_Formal_With_Extras (gnat_temp)) + if (Is_Itype (Etype (gnat_temp)) + && !From_With_Type (Etype (gnat_temp))) + gnat_to_gnu_entity (Etype (gnat_temp), NULL_TREE, 0); + + + /* Then the result type, set to Standard_Void_Type for procedures. */ + + { + Entity_Id gnat_temp_type + = Etype (Defining_Entity (Specification (gnat_node))); + + if (Is_Itype (gnat_temp_type) && !From_With_Type (gnat_temp_type)) + gnat_to_gnu_entity (Etype (gnat_temp_type), NULL_TREE, 0); + } + + gnu_result = alloc_stmt_list (); + break; + + case N_Defining_Program_Unit_Name: + /* For a child unit identifier go up a level to get the + specification. We get this when we try to find the spec of + a child unit package that is the compilation unit being compiled. */ + gnu_result = gnat_to_gnu (Parent (gnat_node)); + break; + + case N_Subprogram_Body: + Subprogram_Body_to_gnu (gnat_node); + gnu_result = alloc_stmt_list (); + break; + + case N_Function_Call: + case N_Procedure_Call_Statement: + gnu_result = call_to_gnu (gnat_node, &gnu_result_type, NULL_TREE); + break; + + /*************************/ + /* Chapter 7: Packages: */ + /*************************/ + + case N_Package_Declaration: + gnu_result = gnat_to_gnu (Specification (gnat_node)); + break; + + case N_Package_Specification: + + start_stmt_group (); + process_decls (Visible_Declarations (gnat_node), + Private_Declarations (gnat_node), Empty, true, true); + gnu_result = end_stmt_group (); + break; + + case N_Package_Body: + + /* If this is the body of a generic package - do nothing */ + if (Ekind (Corresponding_Spec (gnat_node)) == E_Generic_Package) + { + gnu_result = alloc_stmt_list (); + break; + } + + start_stmt_group (); + process_decls (Declarations (gnat_node), Empty, Empty, true, true); + + if (Present (Handled_Statement_Sequence (gnat_node))) + add_stmt (gnat_to_gnu (Handled_Statement_Sequence (gnat_node))); + + gnu_result = end_stmt_group (); + break; + + /*********************************/ + /* Chapter 8: Visibility Rules: */ + /*********************************/ + + case N_Use_Package_Clause: + case N_Use_Type_Clause: + /* Nothing to do here - but these may appear in list of declarations */ + gnu_result = alloc_stmt_list (); + break; + + /***********************/ + /* Chapter 9: Tasks: */ + /***********************/ + + case N_Protected_Type_Declaration: + gnu_result = alloc_stmt_list (); + break; + + case N_Single_Task_Declaration: + gnat_to_gnu_entity (Defining_Entity (gnat_node), NULL_TREE, 1); + gnu_result = alloc_stmt_list (); + break; + + /***********************************************************/ + /* Chapter 10: Program Structure and Compilation Issues: */ + /***********************************************************/ + + case N_Compilation_Unit: + + /* This is not called for the main unit, which is handled in function + gigi above. */ + start_stmt_group (); + gnat_pushlevel (); + + Compilation_Unit_to_gnu (gnat_node); + gnu_result = alloc_stmt_list (); + break; + + case N_Subprogram_Body_Stub: + case N_Package_Body_Stub: + case N_Protected_Body_Stub: + case N_Task_Body_Stub: + /* Simply process whatever unit is being inserted. */ + gnu_result = gnat_to_gnu (Unit (Library_Unit (gnat_node))); + break; + + case N_Subunit: + gnu_result = gnat_to_gnu (Proper_Body (gnat_node)); + break; + + /***************************/ + /* Chapter 11: Exceptions: */ + /***************************/ + + case N_Handled_Sequence_Of_Statements: + /* If there is an At_End procedure attached to this node, and the EH + mechanism is SJLJ, we must have at least a corresponding At_End + handler, unless the No_Exception_Handlers restriction is set. */ + gcc_assert (type_annotate_only + || Exception_Mechanism != Setjmp_Longjmp + || No (At_End_Proc (gnat_node)) + || Present (Exception_Handlers (gnat_node)) + || No_Exception_Handlers_Set ()); + + gnu_result = Handled_Sequence_Of_Statements_to_gnu (gnat_node); + break; + + case N_Exception_Handler: + if (Exception_Mechanism == Setjmp_Longjmp) + gnu_result = Exception_Handler_to_gnu_sjlj (gnat_node); + else if (Exception_Mechanism == Back_End_Exceptions) + gnu_result = Exception_Handler_to_gnu_zcx (gnat_node); + else + gcc_unreachable (); + + break; + + case N_Push_Constraint_Error_Label: + push_exception_label_stack (&gnu_constraint_error_label_stack, + Exception_Label (gnat_node)); + break; + + case N_Push_Storage_Error_Label: + push_exception_label_stack (&gnu_storage_error_label_stack, + Exception_Label (gnat_node)); + break; + + case N_Push_Program_Error_Label: + push_exception_label_stack (&gnu_program_error_label_stack, + Exception_Label (gnat_node)); + break; + + case N_Pop_Constraint_Error_Label: + gnu_constraint_error_label_stack + = TREE_CHAIN (gnu_constraint_error_label_stack); + break; + + case N_Pop_Storage_Error_Label: + gnu_storage_error_label_stack + = TREE_CHAIN (gnu_storage_error_label_stack); + break; + + case N_Pop_Program_Error_Label: + gnu_program_error_label_stack + = TREE_CHAIN (gnu_program_error_label_stack); + break; + + /*******************************/ + /* Chapter 12: Generic Units: */ + /*******************************/ + + case N_Generic_Function_Renaming_Declaration: + case N_Generic_Package_Renaming_Declaration: + case N_Generic_Procedure_Renaming_Declaration: + case N_Generic_Package_Declaration: + case N_Generic_Subprogram_Declaration: + case N_Package_Instantiation: + case N_Procedure_Instantiation: + case N_Function_Instantiation: + /* These nodes can appear on a declaration list but there is nothing to + to be done with them. */ + gnu_result = alloc_stmt_list (); + break; + + /***************************************************/ + /* Chapter 13: Representation Clauses and */ + /* Implementation-Dependent Features: */ + /***************************************************/ + + case N_Attribute_Definition_Clause: + + gnu_result = alloc_stmt_list (); + + /* The only one we need deal with is for 'Address. For the others, SEM + puts the information elsewhere. We need only deal with 'Address + if the object has a Freeze_Node (which it never will currently). */ + if (Get_Attribute_Id (Chars (gnat_node)) != Attr_Address + || No (Freeze_Node (Entity (Name (gnat_node))))) + break; + + /* Get the value to use as the address and save it as the + equivalent for GNAT_TEMP. When the object is frozen, + gnat_to_gnu_entity will do the right thing. */ + save_gnu_tree (Entity (Name (gnat_node)), + gnat_to_gnu (Expression (gnat_node)), true); + break; + + case N_Enumeration_Representation_Clause: + case N_Record_Representation_Clause: + case N_At_Clause: + /* We do nothing with these. SEM puts the information elsewhere. */ + gnu_result = alloc_stmt_list (); + break; + + case N_Code_Statement: + if (!type_annotate_only) + { + tree gnu_template = gnat_to_gnu (Asm_Template (gnat_node)); + tree gnu_inputs = NULL_TREE, gnu_outputs = NULL_TREE; + tree gnu_clobbers = NULL_TREE, tail; + bool allows_mem, allows_reg, fake; + int ninputs, noutputs, i; + const char **oconstraints; + const char *constraint; + char *clobber; + + /* First retrieve the 3 operand lists built by the front-end. */ + Setup_Asm_Outputs (gnat_node); + while (Present (gnat_temp = Asm_Output_Variable ())) + { + tree gnu_value = gnat_to_gnu (gnat_temp); + tree gnu_constr = build_tree_list (NULL_TREE, gnat_to_gnu + (Asm_Output_Constraint ())); + + gnu_outputs = tree_cons (gnu_constr, gnu_value, gnu_outputs); + Next_Asm_Output (); + } + + Setup_Asm_Inputs (gnat_node); + while (Present (gnat_temp = Asm_Input_Value ())) + { + tree gnu_value = gnat_to_gnu (gnat_temp); + tree gnu_constr = build_tree_list (NULL_TREE, gnat_to_gnu + (Asm_Input_Constraint ())); + + gnu_inputs = tree_cons (gnu_constr, gnu_value, gnu_inputs); + Next_Asm_Input (); + } + + Clobber_Setup (gnat_node); + while ((clobber = Clobber_Get_Next ())) + gnu_clobbers + = tree_cons (NULL_TREE, + build_string (strlen (clobber) + 1, clobber), + gnu_clobbers); + + /* Then perform some standard checking and processing on the + operands. In particular, mark them addressable if needed. */ + gnu_outputs = nreverse (gnu_outputs); + noutputs = list_length (gnu_outputs); + gnu_inputs = nreverse (gnu_inputs); + ninputs = list_length (gnu_inputs); + oconstraints + = (const char **) alloca (noutputs * sizeof (const char *)); + + for (i = 0, tail = gnu_outputs; tail; ++i, tail = TREE_CHAIN (tail)) + { + tree output = TREE_VALUE (tail); + constraint + = TREE_STRING_POINTER (TREE_VALUE (TREE_PURPOSE (tail))); + oconstraints[i] = constraint; + + if (parse_output_constraint (&constraint, i, ninputs, noutputs, + &allows_mem, &allows_reg, &fake)) + { + /* If the operand is going to end up in memory, + mark it addressable. Note that we don't test + allows_mem like in the input case below; this + is modelled on the C front-end. */ + if (!allows_reg + && !gnat_mark_addressable (output)) + output = error_mark_node; + } + else + output = error_mark_node; + + TREE_VALUE (tail) = output; + } + + for (i = 0, tail = gnu_inputs; tail; ++i, tail = TREE_CHAIN (tail)) + { + tree input = TREE_VALUE (tail); + constraint + = TREE_STRING_POINTER (TREE_VALUE (TREE_PURPOSE (tail))); + + if (parse_input_constraint (&constraint, i, ninputs, noutputs, + 0, oconstraints, + &allows_mem, &allows_reg)) + { + /* If the operand is going to end up in memory, + mark it addressable. */ + if (!allows_reg && allows_mem + && !gnat_mark_addressable (input)) + input = error_mark_node; + } + else + input = error_mark_node; + + TREE_VALUE (tail) = input; + } + + gnu_result = build4 (ASM_EXPR, void_type_node, + gnu_template, gnu_outputs, + gnu_inputs, gnu_clobbers); + ASM_VOLATILE_P (gnu_result) = Is_Asm_Volatile (gnat_node); + } + else + gnu_result = alloc_stmt_list (); + + break; + + /***************************************************/ + /* Added Nodes */ + /***************************************************/ + + case N_Freeze_Entity: + start_stmt_group (); + process_freeze_entity (gnat_node); + process_decls (Actions (gnat_node), Empty, Empty, true, true); + gnu_result = end_stmt_group (); + break; + + case N_Itype_Reference: + if (!present_gnu_tree (Itype (gnat_node))) + process_type (Itype (gnat_node)); + + gnu_result = alloc_stmt_list (); + break; + + case N_Free_Statement: + if (!type_annotate_only) + { + tree gnu_ptr = gnat_to_gnu (Expression (gnat_node)); + tree gnu_ptr_type = TREE_TYPE (gnu_ptr); + tree gnu_obj_type; + tree gnu_actual_obj_type = 0; + tree gnu_obj_size; + unsigned int align; + unsigned int default_allocator_alignment + = get_target_default_allocator_alignment () * BITS_PER_UNIT; + + /* If this is a thin pointer, we must dereference it to create + a fat pointer, then go back below to a thin pointer. The + reason for this is that we need a fat pointer someplace in + order to properly compute the size. */ + if (TYPE_THIN_POINTER_P (TREE_TYPE (gnu_ptr))) + gnu_ptr = build_unary_op (ADDR_EXPR, NULL_TREE, + build_unary_op (INDIRECT_REF, NULL_TREE, + gnu_ptr)); + + /* If this is an unconstrained array, we know the object must + have been allocated with the template in front of the object. + So pass the template address, but get the total size. Do this + by converting to a thin pointer. */ + if (TYPE_FAT_POINTER_P (TREE_TYPE (gnu_ptr))) + gnu_ptr + = convert (build_pointer_type + (TYPE_OBJECT_RECORD_TYPE + (TYPE_UNCONSTRAINED_ARRAY (TREE_TYPE (gnu_ptr)))), + gnu_ptr); + + gnu_obj_type = TREE_TYPE (TREE_TYPE (gnu_ptr)); + + if (Present (Actual_Designated_Subtype (gnat_node))) + { + gnu_actual_obj_type + = gnat_to_gnu_type (Actual_Designated_Subtype (gnat_node)); + + if (TYPE_FAT_OR_THIN_POINTER_P (gnu_ptr_type)) + gnu_actual_obj_type + = build_unc_object_type_from_ptr (gnu_ptr_type, + gnu_actual_obj_type, + get_identifier ("DEALLOC")); + } + else + gnu_actual_obj_type = gnu_obj_type; + + gnu_obj_size = TYPE_SIZE_UNIT (gnu_actual_obj_type); + align = TYPE_ALIGN (gnu_obj_type); + + if (TREE_CODE (gnu_obj_type) == RECORD_TYPE + && TYPE_CONTAINS_TEMPLATE_P (gnu_obj_type)) + { + tree gnu_char_ptr_type = build_pointer_type (char_type_node); + tree gnu_pos = byte_position (TYPE_FIELDS (gnu_obj_type)); + tree gnu_byte_offset + = convert (sizetype, + size_diffop (size_zero_node, gnu_pos)); + gnu_byte_offset = fold_build1 (NEGATE_EXPR, sizetype, gnu_byte_offset); + + gnu_ptr = convert (gnu_char_ptr_type, gnu_ptr); + gnu_ptr = build_binary_op (POINTER_PLUS_EXPR, gnu_char_ptr_type, + gnu_ptr, gnu_byte_offset); + } + + /* If the object was allocated from the default storage pool, the + alignment was greater than what the allocator provides, and this + is not a fat or thin pointer, what we have in gnu_ptr here is an + address dynamically adjusted to match the alignment requirement + (see build_allocator). What we need to pass to free is the + initial allocator's return value, which has been stored just in + front of the block we have. */ + + if (No (Procedure_To_Call (gnat_node)) + && align > default_allocator_alignment + && ! TYPE_FAT_OR_THIN_POINTER_P (gnu_ptr_type)) + { + /* We set GNU_PTR + as * (void **)((void *)GNU_PTR - (void *)sizeof(void *)) + in two steps: */ + + /* GNU_PTR (void *) + = (void *)GNU_PTR - (void *)sizeof (void *)) */ + gnu_ptr + = build_binary_op + (POINTER_PLUS_EXPR, ptr_void_type_node, + convert (ptr_void_type_node, gnu_ptr), + size_int (-POINTER_SIZE/BITS_PER_UNIT)); + + /* GNU_PTR (void *) = *(void **)GNU_PTR */ + gnu_ptr + = build_unary_op + (INDIRECT_REF, NULL_TREE, + convert (build_pointer_type (ptr_void_type_node), + gnu_ptr)); + } + + gnu_result = build_call_alloc_dealloc (gnu_ptr, gnu_obj_size, align, + Procedure_To_Call (gnat_node), + Storage_Pool (gnat_node), + gnat_node); + } + break; + + case N_Raise_Constraint_Error: + case N_Raise_Program_Error: + case N_Raise_Storage_Error: + if (type_annotate_only) + { + gnu_result = alloc_stmt_list (); + break; + } + + gnu_result_type = get_unpadded_type (Etype (gnat_node)); + gnu_result + = build_call_raise (UI_To_Int (Reason (gnat_node)), gnat_node, + Nkind (gnat_node)); + + /* If the type is VOID, this is a statement, so we need to + generate the code for the call. Handle a Condition, if there + is one. */ + if (TREE_CODE (gnu_result_type) == VOID_TYPE) + { + set_expr_location_from_node (gnu_result, gnat_node); + + if (Present (Condition (gnat_node))) + gnu_result = build3 (COND_EXPR, void_type_node, + gnat_to_gnu (Condition (gnat_node)), + gnu_result, alloc_stmt_list ()); + } + else + gnu_result = build1 (NULL_EXPR, gnu_result_type, gnu_result); + break; + + case N_Validate_Unchecked_Conversion: + { + Entity_Id gnat_target_type = Target_Type (gnat_node); + tree gnu_source_type = gnat_to_gnu_type (Source_Type (gnat_node)); + tree gnu_target_type = gnat_to_gnu_type (gnat_target_type); + + /* No need for any warning in this case. */ + if (!flag_strict_aliasing) + ; + + /* If the result is a pointer type, see if we are either converting + from a non-pointer or from a pointer to a type with a different + alias set and warn if so. If the result is defined in the same + unit as this unchecked conversion, we can allow this because we + can know to make the pointer type behave properly. */ + else if (POINTER_TYPE_P (gnu_target_type) + && !In_Same_Source_Unit (gnat_target_type, gnat_node) + && !No_Strict_Aliasing (Underlying_Type (gnat_target_type))) + { + tree gnu_source_desig_type = POINTER_TYPE_P (gnu_source_type) + ? TREE_TYPE (gnu_source_type) + : NULL_TREE; + tree gnu_target_desig_type = TREE_TYPE (gnu_target_type); + + if ((TYPE_DUMMY_P (gnu_target_desig_type) + || get_alias_set (gnu_target_desig_type) != 0) + && (!POINTER_TYPE_P (gnu_source_type) + || (TYPE_DUMMY_P (gnu_source_desig_type) + != TYPE_DUMMY_P (gnu_target_desig_type)) + || (TYPE_DUMMY_P (gnu_source_desig_type) + && gnu_source_desig_type != gnu_target_desig_type) + || (get_alias_set (gnu_source_desig_type) + != get_alias_set (gnu_target_desig_type)))) + { + post_error_ne + ("?possible aliasing problem for type&", + gnat_node, Target_Type (gnat_node)); + post_error + ("\\?use -fno-strict-aliasing switch for references", + gnat_node); + post_error_ne + ("\\?or use `pragma No_Strict_Aliasing (&);`", + gnat_node, Target_Type (gnat_node)); + } + } + + /* But if the result is a fat pointer type, we have no mechanism to + do that, so we unconditionally warn in problematic cases. */ + else if (TYPE_FAT_POINTER_P (gnu_target_type)) + { + tree gnu_source_array_type + = TYPE_FAT_POINTER_P (gnu_source_type) + ? TREE_TYPE (TREE_TYPE (TYPE_FIELDS (gnu_source_type))) + : NULL_TREE; + tree gnu_target_array_type + = TREE_TYPE (TREE_TYPE (TYPE_FIELDS (gnu_target_type))); + + if ((TYPE_DUMMY_P (gnu_target_array_type) + || get_alias_set (gnu_target_array_type) != 0) + && (!TYPE_FAT_POINTER_P (gnu_source_type) + || (TYPE_DUMMY_P (gnu_source_array_type) + != TYPE_DUMMY_P (gnu_target_array_type)) + || (TYPE_DUMMY_P (gnu_source_array_type) + && gnu_source_array_type != gnu_target_array_type) + || (get_alias_set (gnu_source_array_type) + != get_alias_set (gnu_target_array_type)))) + { + post_error_ne + ("?possible aliasing problem for type&", + gnat_node, Target_Type (gnat_node)); + post_error + ("\\?use -fno-strict-aliasing switch for references", + gnat_node); + } + } + } + gnu_result = alloc_stmt_list (); + break; + + case N_Raise_Statement: + case N_Function_Specification: + case N_Procedure_Specification: + case N_Op_Concat: + case N_Component_Association: + case N_Task_Body: + default: + gcc_assert (type_annotate_only); + gnu_result = alloc_stmt_list (); + } + + /* If we pushed our level as part of processing the elaboration routine, + pop it back now. */ + if (went_into_elab_proc) + { + add_stmt (gnu_result); + gnat_poplevel (); + gnu_result = end_stmt_group (); + current_function_decl = NULL_TREE; + } + + /* Set the location information on the result if it is a real expression. + References can be reused for multiple GNAT nodes and they would get + the location information of their last use. Note that we may have + no result if we tried to build a CALL_EXPR node to a procedure with + no side-effects and optimization is enabled. */ + if (gnu_result + && EXPR_P (gnu_result) + && TREE_CODE (gnu_result) != NOP_EXPR + && !REFERENCE_CLASS_P (gnu_result)) + set_expr_location_from_node (gnu_result, gnat_node); + + /* If we're supposed to return something of void_type, it means we have + something we're elaborating for effect, so just return. */ + if (TREE_CODE (gnu_result_type) == VOID_TYPE) + return gnu_result; + + /* If the result is a constant that overflows, raise constraint error. */ + else if (TREE_CODE (gnu_result) == INTEGER_CST + && TREE_OVERFLOW (gnu_result)) + { + post_error ("Constraint_Error will be raised at run-time?", gnat_node); + + gnu_result + = build1 (NULL_EXPR, gnu_result_type, + build_call_raise (CE_Overflow_Check_Failed, gnat_node, + N_Raise_Constraint_Error)); + } + + /* If our result has side-effects and is of an unconstrained type, + make a SAVE_EXPR so that we can be sure it will only be referenced + once. Note we must do this before any conversions. */ + if (TREE_SIDE_EFFECTS (gnu_result) + && (TREE_CODE (gnu_result_type) == UNCONSTRAINED_ARRAY_TYPE + || CONTAINS_PLACEHOLDER_P (TYPE_SIZE (gnu_result_type)))) + gnu_result = gnat_stabilize_reference (gnu_result, false); + + /* Now convert the result to the result type, unless we are in one of the + following cases: + + 1. If this is the Name of an assignment statement or a parameter of + a procedure call, return the result almost unmodified since the + RHS will have to be converted to our type in that case, unless + the result type has a simpler size. Similarly, don't convert + integral types that are the operands of an unchecked conversion + since we need to ignore those conversions (for 'Valid). + + 2. If we have a label (which doesn't have any well-defined type), a + field or an error, return the result almost unmodified. Also don't + do the conversion if the result type involves a PLACEHOLDER_EXPR in + its size since those are the cases where the front end may have the + type wrong due to "instantiating" the unconstrained record with + discriminant values. Similarly, if the two types are record types + with the same name don't convert. This will be the case when we are + converting from a packable version of a type to its original type and + we need those conversions to be NOPs in order for assignments into + these types to work properly. + + 3. If the type is void or if we have no result, return error_mark_node + to show we have no result. + + 4. Finally, if the type of the result is already correct. */ + + if (Present (Parent (gnat_node)) + && ((Nkind (Parent (gnat_node)) == N_Assignment_Statement + && Name (Parent (gnat_node)) == gnat_node) + || (Nkind (Parent (gnat_node)) == N_Procedure_Call_Statement + && Name (Parent (gnat_node)) != gnat_node) + || Nkind (Parent (gnat_node)) == N_Parameter_Association + || (Nkind (Parent (gnat_node)) == N_Unchecked_Type_Conversion + && !AGGREGATE_TYPE_P (gnu_result_type) + && !AGGREGATE_TYPE_P (TREE_TYPE (gnu_result)))) + && !(TYPE_SIZE (gnu_result_type) + && TYPE_SIZE (TREE_TYPE (gnu_result)) + && (AGGREGATE_TYPE_P (gnu_result_type) + == AGGREGATE_TYPE_P (TREE_TYPE (gnu_result))) + && ((TREE_CODE (TYPE_SIZE (gnu_result_type)) == INTEGER_CST + && (TREE_CODE (TYPE_SIZE (TREE_TYPE (gnu_result))) + != INTEGER_CST)) + || (TREE_CODE (TYPE_SIZE (gnu_result_type)) != INTEGER_CST + && !CONTAINS_PLACEHOLDER_P (TYPE_SIZE (gnu_result_type)) + && (CONTAINS_PLACEHOLDER_P + (TYPE_SIZE (TREE_TYPE (gnu_result)))))) + && !(TREE_CODE (gnu_result_type) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (gnu_result_type)))) + { + /* Remove padding only if the inner object is of self-referential + size: in that case it must be an object of unconstrained type + with a default discriminant and we want to avoid copying too + much data. */ + if (TREE_CODE (TREE_TYPE (gnu_result)) == RECORD_TYPE + && TYPE_IS_PADDING_P (TREE_TYPE (gnu_result)) + && CONTAINS_PLACEHOLDER_P (TYPE_SIZE (TREE_TYPE (TYPE_FIELDS + (TREE_TYPE (gnu_result)))))) + gnu_result = convert (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (gnu_result))), + gnu_result); + } + + else if (TREE_CODE (gnu_result) == LABEL_DECL + || TREE_CODE (gnu_result) == FIELD_DECL + || TREE_CODE (gnu_result) == ERROR_MARK + || (TYPE_SIZE (gnu_result_type) + && TREE_CODE (TYPE_SIZE (gnu_result_type)) != INTEGER_CST + && TREE_CODE (gnu_result) != INDIRECT_REF + && CONTAINS_PLACEHOLDER_P (TYPE_SIZE (gnu_result_type))) + || ((TYPE_NAME (gnu_result_type) + == TYPE_NAME (TREE_TYPE (gnu_result))) + && TREE_CODE (gnu_result_type) == RECORD_TYPE + && TREE_CODE (TREE_TYPE (gnu_result)) == RECORD_TYPE)) + { + /* Remove any padding. */ + if (TREE_CODE (TREE_TYPE (gnu_result)) == RECORD_TYPE + && TYPE_IS_PADDING_P (TREE_TYPE (gnu_result))) + gnu_result = convert (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (gnu_result))), + gnu_result); + } + + else if (gnu_result == error_mark_node || gnu_result_type == void_type_node) + gnu_result = error_mark_node; + + else if (gnu_result_type != TREE_TYPE (gnu_result)) + gnu_result = convert (gnu_result_type, gnu_result); + + /* We don't need any NOP_EXPR or NON_LVALUE_EXPR on the result. */ + while ((TREE_CODE (gnu_result) == NOP_EXPR + || TREE_CODE (gnu_result) == NON_LVALUE_EXPR) + && TREE_TYPE (TREE_OPERAND (gnu_result, 0)) == TREE_TYPE (gnu_result)) + gnu_result = TREE_OPERAND (gnu_result, 0); + + return gnu_result; +} + +/* Subroutine of above to push the exception label stack. GNU_STACK is + a pointer to the stack to update and GNAT_LABEL, if present, is the + label to push onto the stack. */ + +static void +push_exception_label_stack (tree *gnu_stack, Entity_Id gnat_label) +{ + tree gnu_label = (Present (gnat_label) + ? gnat_to_gnu_entity (gnat_label, NULL_TREE, 0) + : NULL_TREE); + + *gnu_stack = tree_cons (NULL_TREE, gnu_label, *gnu_stack); +} + +/* Record the current code position in GNAT_NODE. */ + +static void +record_code_position (Node_Id gnat_node) +{ + tree stmt_stmt = build1 (STMT_STMT, void_type_node, NULL_TREE); + + add_stmt_with_node (stmt_stmt, gnat_node); + save_gnu_tree (gnat_node, stmt_stmt, true); +} + +/* Insert the code for GNAT_NODE at the position saved for that node. */ + +static void +insert_code_for (Node_Id gnat_node) +{ + STMT_STMT_STMT (get_gnu_tree (gnat_node)) = gnat_to_gnu (gnat_node); + save_gnu_tree (gnat_node, NULL_TREE, true); +} + +/* Start a new statement group chained to the previous group. */ + +void +start_stmt_group (void) +{ + struct stmt_group *group = stmt_group_free_list; + + /* First see if we can get one from the free list. */ + if (group) + stmt_group_free_list = group->previous; + else + group = (struct stmt_group *) ggc_alloc (sizeof (struct stmt_group)); + + group->previous = current_stmt_group; + group->stmt_list = group->block = group->cleanups = NULL_TREE; + current_stmt_group = group; +} + +/* Add GNU_STMT to the current statement group. */ + +void +add_stmt (tree gnu_stmt) +{ + append_to_statement_list (gnu_stmt, ¤t_stmt_group->stmt_list); +} + +/* Similar, but set the location of GNU_STMT to that of GNAT_NODE. */ + +void +add_stmt_with_node (tree gnu_stmt, Node_Id gnat_node) +{ + if (Present (gnat_node)) + set_expr_location_from_node (gnu_stmt, gnat_node); + add_stmt (gnu_stmt); +} + +/* Add a declaration statement for GNU_DECL to the current statement group. + Get SLOC from Entity_Id. */ + +void +add_decl_expr (tree gnu_decl, Entity_Id gnat_entity) +{ + tree type = TREE_TYPE (gnu_decl); + tree gnu_stmt, gnu_init, t; + + /* If this is a variable that Gigi is to ignore, we may have been given + an ERROR_MARK. So test for it. We also might have been given a + reference for a renaming. So only do something for a decl. Also + ignore a TYPE_DECL for an UNCONSTRAINED_ARRAY_TYPE. */ + if (!DECL_P (gnu_decl) + || (TREE_CODE (gnu_decl) == TYPE_DECL + && TREE_CODE (type) == UNCONSTRAINED_ARRAY_TYPE)) + return; + + gnu_stmt = build1 (DECL_EXPR, void_type_node, gnu_decl); + + /* If we are global, we don't want to actually output the DECL_EXPR for + this decl since we already have evaluated the expressions in the + sizes and positions as globals and doing it again would be wrong. */ + if (global_bindings_p ()) + { + /* Mark everything as used to prevent node sharing with subprograms. + Note that walk_tree knows how to deal with TYPE_DECL, but neither + VAR_DECL nor CONST_DECL. This appears to be somewhat arbitrary. */ + mark_visited (&gnu_stmt); + if (TREE_CODE (gnu_decl) == VAR_DECL + || TREE_CODE (gnu_decl) == CONST_DECL) + { + mark_visited (&DECL_SIZE (gnu_decl)); + mark_visited (&DECL_SIZE_UNIT (gnu_decl)); + mark_visited (&DECL_INITIAL (gnu_decl)); + } + /* In any case, we have to deal with our own TYPE_ADA_SIZE field. */ + if (TREE_CODE (gnu_decl) == TYPE_DECL + && (TREE_CODE (type) == RECORD_TYPE + || TREE_CODE (type) == UNION_TYPE + || TREE_CODE (type) == QUAL_UNION_TYPE) + && (t = TYPE_ADA_SIZE (type))) + mark_visited (&t); + } + else + add_stmt_with_node (gnu_stmt, gnat_entity); + + /* If this is a variable and an initializer is attached to it, it must be + valid for the context. Similar to init_const in create_var_decl_1. */ + if (TREE_CODE (gnu_decl) == VAR_DECL + && (gnu_init = DECL_INITIAL (gnu_decl)) != NULL_TREE + && (!gnat_types_compatible_p (type, TREE_TYPE (gnu_init)) + || (TREE_STATIC (gnu_decl) + && !initializer_constant_valid_p (gnu_init, + TREE_TYPE (gnu_init))))) + { + /* If GNU_DECL has a padded type, convert it to the unpadded + type so the assignment is done properly. */ + if (TREE_CODE (type) == RECORD_TYPE && TYPE_IS_PADDING_P (type)) + t = convert (TREE_TYPE (TYPE_FIELDS (type)), gnu_decl); + else + t = gnu_decl; + + gnu_stmt = build_binary_op (MODIFY_EXPR, NULL_TREE, t, gnu_init); + + DECL_INITIAL (gnu_decl) = NULL_TREE; + if (TREE_READONLY (gnu_decl)) + { + TREE_READONLY (gnu_decl) = 0; + DECL_READONLY_ONCE_ELAB (gnu_decl) = 1; + } + + add_stmt_with_node (gnu_stmt, gnat_entity); + } +} + +/* Callback for walk_tree to mark the visited trees rooted at *TP. */ + +static tree +mark_visited_r (tree *tp, int *walk_subtrees, void *data ATTRIBUTE_UNUSED) +{ + if (TREE_VISITED (*tp)) + *walk_subtrees = 0; + + /* Don't mark a dummy type as visited because we want to mark its sizes + and fields once it's filled in. */ + else if (!TYPE_IS_DUMMY_P (*tp)) + TREE_VISITED (*tp) = 1; + + if (TYPE_P (*tp)) + TYPE_SIZES_GIMPLIFIED (*tp) = 1; + + return NULL_TREE; +} + +/* Utility function to unshare expressions wrapped up in a SAVE_EXPR. */ + +static tree +unshare_save_expr (tree *tp, int *walk_subtrees ATTRIBUTE_UNUSED, + void *data ATTRIBUTE_UNUSED) +{ + tree t = *tp; + + if (TREE_CODE (t) == SAVE_EXPR) + TREE_OPERAND (t, 0) = unshare_expr (TREE_OPERAND (t, 0)); + + return NULL_TREE; +} + +/* Mark nodes rooted at *TP with TREE_VISITED and types as having their + sized gimplified. We use this to indicate all variable sizes and + positions in global types may not be shared by any subprogram. */ + +void +mark_visited (tree *tp) +{ + walk_tree (tp, mark_visited_r, NULL, NULL); +} + +/* Add GNU_CLEANUP, a cleanup action, to the current code group and + set its location to that of GNAT_NODE if present. */ + +static void +add_cleanup (tree gnu_cleanup, Node_Id gnat_node) +{ + if (Present (gnat_node)) + set_expr_location_from_node (gnu_cleanup, gnat_node); + append_to_statement_list (gnu_cleanup, ¤t_stmt_group->cleanups); +} + +/* Set the BLOCK node corresponding to the current code group to GNU_BLOCK. */ + +void +set_block_for_group (tree gnu_block) +{ + gcc_assert (!current_stmt_group->block); + current_stmt_group->block = gnu_block; +} + +/* Return code corresponding to the current code group. It is normally + a STATEMENT_LIST, but may also be a BIND_EXPR or TRY_FINALLY_EXPR if + BLOCK or cleanups were set. */ + +tree +end_stmt_group (void) +{ + struct stmt_group *group = current_stmt_group; + tree gnu_retval = group->stmt_list; + + /* If this is a null list, allocate a new STATEMENT_LIST. Then, if there + are cleanups, make a TRY_FINALLY_EXPR. Last, if there is a BLOCK, + make a BIND_EXPR. Note that we nest in that because the cleanup may + reference variables in the block. */ + if (gnu_retval == NULL_TREE) + gnu_retval = alloc_stmt_list (); + + if (group->cleanups) + gnu_retval = build2 (TRY_FINALLY_EXPR, void_type_node, gnu_retval, + group->cleanups); + + if (current_stmt_group->block) + gnu_retval = build3 (BIND_EXPR, void_type_node, BLOCK_VARS (group->block), + gnu_retval, group->block); + + /* Remove this group from the stack and add it to the free list. */ + current_stmt_group = group->previous; + group->previous = stmt_group_free_list; + stmt_group_free_list = group; + + return gnu_retval; +} + +/* Add a list of statements from GNAT_LIST, a possibly-empty list of + statements.*/ + +static void +add_stmt_list (List_Id gnat_list) +{ + Node_Id gnat_node; + + if (Present (gnat_list)) + for (gnat_node = First (gnat_list); Present (gnat_node); + gnat_node = Next (gnat_node)) + add_stmt (gnat_to_gnu (gnat_node)); +} + +/* Build a tree from GNAT_LIST, a possibly-empty list of statements. + If BINDING_P is true, push and pop a binding level around the list. */ + +static tree +build_stmt_group (List_Id gnat_list, bool binding_p) +{ + start_stmt_group (); + if (binding_p) + gnat_pushlevel (); + + add_stmt_list (gnat_list); + if (binding_p) + gnat_poplevel (); + + return end_stmt_group (); +} + +/* Push and pop routines for stacks. We keep a free list around so we + don't waste tree nodes. */ + +static void +push_stack (tree *gnu_stack_ptr, tree gnu_purpose, tree gnu_value) +{ + tree gnu_node = gnu_stack_free_list; + + if (gnu_node) + { + gnu_stack_free_list = TREE_CHAIN (gnu_node); + TREE_CHAIN (gnu_node) = *gnu_stack_ptr; + TREE_PURPOSE (gnu_node) = gnu_purpose; + TREE_VALUE (gnu_node) = gnu_value; + } + else + gnu_node = tree_cons (gnu_purpose, gnu_value, *gnu_stack_ptr); + + *gnu_stack_ptr = gnu_node; +} + +static void +pop_stack (tree *gnu_stack_ptr) +{ + tree gnu_node = *gnu_stack_ptr; + + *gnu_stack_ptr = TREE_CHAIN (gnu_node); + TREE_CHAIN (gnu_node) = gnu_stack_free_list; + gnu_stack_free_list = gnu_node; +} + +/* Generate GIMPLE in place for the expression at *EXPR_P. */ + +int +gnat_gimplify_expr (tree *expr_p, gimple_seq *pre_p, + gimple_seq *post_p ATTRIBUTE_UNUSED) +{ + tree expr = *expr_p; + tree op; + + if (IS_ADA_STMT (expr)) + return gnat_gimplify_stmt (expr_p); + + switch (TREE_CODE (expr)) + { + case NULL_EXPR: + /* If this is for a scalar, just make a VAR_DECL for it. If for + an aggregate, get a null pointer of the appropriate type and + dereference it. */ + if (AGGREGATE_TYPE_P (TREE_TYPE (expr))) + *expr_p = build1 (INDIRECT_REF, TREE_TYPE (expr), + convert (build_pointer_type (TREE_TYPE (expr)), + integer_zero_node)); + else + { + *expr_p = create_tmp_var (TREE_TYPE (expr), NULL); + TREE_NO_WARNING (*expr_p) = 1; + } + + gimplify_and_add (TREE_OPERAND (expr, 0), pre_p); + return GS_OK; + + case UNCONSTRAINED_ARRAY_REF: + /* We should only do this if we are just elaborating for side-effects, + but we can't know that yet. */ + *expr_p = TREE_OPERAND (*expr_p, 0); + return GS_OK; + + case ADDR_EXPR: + op = TREE_OPERAND (expr, 0); + + /* If we're taking the address of a constant CONSTRUCTOR, force it to + be put into static memory. We know it's going to be readonly given + the semantics we have and it's required to be static memory in + the case when the reference is in an elaboration procedure. */ + if (TREE_CODE (op) == CONSTRUCTOR && TREE_CONSTANT (op)) + { + tree new_var = create_tmp_var (TREE_TYPE (op), "C"); + + TREE_READONLY (new_var) = 1; + TREE_STATIC (new_var) = 1; + TREE_ADDRESSABLE (new_var) = 1; + DECL_INITIAL (new_var) = op; + + TREE_OPERAND (expr, 0) = new_var; + recompute_tree_invariant_for_addr_expr (expr); + return GS_ALL_DONE; + } + + /* If we are taking the address of a SAVE_EXPR, we are typically + processing a misaligned argument to be passed by reference in a + procedure call. We just mark the operand as addressable + not + readonly here and let the common gimplifier code perform the + temporary creation, initialization, and "instantiation" in place of + the SAVE_EXPR in further operands, in particular in the copy back + code inserted after the call. */ + else if (TREE_CODE (op) == SAVE_EXPR) + { + TREE_ADDRESSABLE (op) = 1; + TREE_READONLY (op) = 0; + } + + /* We let the gimplifier process &COND_EXPR and expect it to yield the + address of the selected operand when it is addressable. Besides, we + also expect addressable_p to only let COND_EXPRs where both arms are + addressable reach here. */ + else if (TREE_CODE (op) == COND_EXPR) + ; + + /* Otherwise, if we are taking the address of something that is neither + reference, declaration, or constant, make a variable for the operand + here and then take its address. If we don't do it this way, we may + confuse the gimplifier because it needs to know the variable is + addressable at this point. This duplicates code in + internal_get_tmp_var, which is unfortunate. */ + else if (TREE_CODE_CLASS (TREE_CODE (op)) != tcc_reference + && TREE_CODE_CLASS (TREE_CODE (op)) != tcc_declaration + && TREE_CODE_CLASS (TREE_CODE (op)) != tcc_constant) + { + tree new_var = create_tmp_var (TREE_TYPE (op), "A"); + gimple stmt; + + TREE_ADDRESSABLE (new_var) = 1; + + stmt = gimplify_assign (new_var, op, pre_p); + if (EXPR_HAS_LOCATION (op)) + gimple_set_location (stmt, *EXPR_LOCUS (op)); + + TREE_OPERAND (expr, 0) = new_var; + recompute_tree_invariant_for_addr_expr (expr); + return GS_ALL_DONE; + } + + /* ... fall through ... */ + + default: + return GS_UNHANDLED; + } +} + +/* Generate GIMPLE in place for the statement at *STMT_P. */ + +static enum gimplify_status +gnat_gimplify_stmt (tree *stmt_p) +{ + tree stmt = *stmt_p; + + switch (TREE_CODE (stmt)) + { + case STMT_STMT: + *stmt_p = STMT_STMT_STMT (stmt); + return GS_OK; + + case LOOP_STMT: + { + tree gnu_start_label = create_artificial_label (); + tree gnu_end_label = LOOP_STMT_LABEL (stmt); + tree t; + + /* Set to emit the statements of the loop. */ + *stmt_p = NULL_TREE; + + /* We first emit the start label and then a conditional jump to + the end label if there's a top condition, then the body of the + loop, then a conditional branch to the end label, then the update, + if any, and finally a jump to the start label and the definition + of the end label. */ + append_to_statement_list (build1 (LABEL_EXPR, void_type_node, + gnu_start_label), + stmt_p); + + if (LOOP_STMT_TOP_COND (stmt)) + append_to_statement_list (build3 (COND_EXPR, void_type_node, + LOOP_STMT_TOP_COND (stmt), + alloc_stmt_list (), + build1 (GOTO_EXPR, + void_type_node, + gnu_end_label)), + stmt_p); + + append_to_statement_list (LOOP_STMT_BODY (stmt), stmt_p); + + if (LOOP_STMT_BOT_COND (stmt)) + append_to_statement_list (build3 (COND_EXPR, void_type_node, + LOOP_STMT_BOT_COND (stmt), + alloc_stmt_list (), + build1 (GOTO_EXPR, + void_type_node, + gnu_end_label)), + stmt_p); + + if (LOOP_STMT_UPDATE (stmt)) + append_to_statement_list (LOOP_STMT_UPDATE (stmt), stmt_p); + + t = build1 (GOTO_EXPR, void_type_node, gnu_start_label); + SET_EXPR_LOCATION (t, DECL_SOURCE_LOCATION (gnu_end_label)); + append_to_statement_list (t, stmt_p); + + append_to_statement_list (build1 (LABEL_EXPR, void_type_node, + gnu_end_label), + stmt_p); + return GS_OK; + } + + case EXIT_STMT: + /* Build a statement to jump to the corresponding end label, then + see if it needs to be conditional. */ + *stmt_p = build1 (GOTO_EXPR, void_type_node, EXIT_STMT_LABEL (stmt)); + if (EXIT_STMT_COND (stmt)) + *stmt_p = build3 (COND_EXPR, void_type_node, + EXIT_STMT_COND (stmt), *stmt_p, alloc_stmt_list ()); + return GS_OK; + + default: + gcc_unreachable (); + } +} + +/* Force references to each of the entities in packages withed by GNAT_NODE. + Operate recursively but check that we aren't elaborating something more + than once. + + This routine is exclusively called in type_annotate mode, to compute DDA + information for types in withed units, for ASIS use. */ + +static void +elaborate_all_entities (Node_Id gnat_node) +{ + Entity_Id gnat_with_clause, gnat_entity; + + /* Process each unit only once. As we trace the context of all relevant + units transitively, including generic bodies, we may encounter the + same generic unit repeatedly. */ + if (!present_gnu_tree (gnat_node)) + save_gnu_tree (gnat_node, integer_zero_node, true); + + /* Save entities in all context units. A body may have an implicit_with + on its own spec, if the context includes a child unit, so don't save + the spec twice. */ + for (gnat_with_clause = First (Context_Items (gnat_node)); + Present (gnat_with_clause); + gnat_with_clause = Next (gnat_with_clause)) + if (Nkind (gnat_with_clause) == N_With_Clause + && !present_gnu_tree (Library_Unit (gnat_with_clause)) + && Library_Unit (gnat_with_clause) != Library_Unit (Cunit (Main_Unit))) + { + elaborate_all_entities (Library_Unit (gnat_with_clause)); + + if (Ekind (Entity (Name (gnat_with_clause))) == E_Package) + { + for (gnat_entity = First_Entity (Entity (Name (gnat_with_clause))); + Present (gnat_entity); + gnat_entity = Next_Entity (gnat_entity)) + if (Is_Public (gnat_entity) + && Convention (gnat_entity) != Convention_Intrinsic + && Ekind (gnat_entity) != E_Package + && Ekind (gnat_entity) != E_Package_Body + && Ekind (gnat_entity) != E_Operator + && !(IN (Ekind (gnat_entity), Type_Kind) + && !Is_Frozen (gnat_entity)) + && !((Ekind (gnat_entity) == E_Procedure + || Ekind (gnat_entity) == E_Function) + && Is_Intrinsic_Subprogram (gnat_entity)) + && !IN (Ekind (gnat_entity), Named_Kind) + && !IN (Ekind (gnat_entity), Generic_Unit_Kind)) + gnat_to_gnu_entity (gnat_entity, NULL_TREE, 0); + } + else if (Ekind (Entity (Name (gnat_with_clause))) == E_Generic_Package) + { + Node_Id gnat_body + = Corresponding_Body (Unit (Library_Unit (gnat_with_clause))); + + /* Retrieve compilation unit node of generic body. */ + while (Present (gnat_body) + && Nkind (gnat_body) != N_Compilation_Unit) + gnat_body = Parent (gnat_body); + + /* If body is available, elaborate its context. */ + if (Present (gnat_body)) + elaborate_all_entities (gnat_body); + } + } + + if (Nkind (Unit (gnat_node)) == N_Package_Body) + elaborate_all_entities (Library_Unit (gnat_node)); +} + +/* Do the processing of N_Freeze_Entity, GNAT_NODE. */ + +static void +process_freeze_entity (Node_Id gnat_node) +{ + Entity_Id gnat_entity = Entity (gnat_node); + tree gnu_old; + tree gnu_new; + tree gnu_init + = (Nkind (Declaration_Node (gnat_entity)) == N_Object_Declaration + && present_gnu_tree (Declaration_Node (gnat_entity))) + ? get_gnu_tree (Declaration_Node (gnat_entity)) : NULL_TREE; + + /* If this is a package, need to generate code for the package. */ + if (Ekind (gnat_entity) == E_Package) + { + insert_code_for + (Parent (Corresponding_Body + (Parent (Declaration_Node (gnat_entity))))); + return; + } + + /* Check for old definition after the above call. This Freeze_Node + might be for one its Itypes. */ + gnu_old + = present_gnu_tree (gnat_entity) ? get_gnu_tree (gnat_entity) : 0; + + /* If this entity has an Address representation clause, GNU_OLD is the + address, so discard it here. */ + if (Present (Address_Clause (gnat_entity))) + gnu_old = 0; + + /* Don't do anything for class-wide types they are always + transformed into their root type. */ + if (Ekind (gnat_entity) == E_Class_Wide_Type + || (Ekind (gnat_entity) == E_Class_Wide_Subtype + && Present (Equivalent_Type (gnat_entity)))) + return; + + /* Don't do anything for subprograms that may have been elaborated before + their freeze nodes. This can happen, for example because of an inner call + in an instance body, or a previous compilation of a spec for inlining + purposes. */ + if (gnu_old + && ((TREE_CODE (gnu_old) == FUNCTION_DECL + && (Ekind (gnat_entity) == E_Function + || Ekind (gnat_entity) == E_Procedure)) + || (gnu_old + && TREE_CODE (TREE_TYPE (gnu_old)) == FUNCTION_TYPE + && Ekind (gnat_entity) == E_Subprogram_Type))) + return; + + /* If we have a non-dummy type old tree, we have nothing to do, except + aborting if this is the public view of a private type whose full view was + not delayed, as this node was never delayed as it should have been. We + let this happen for concurrent types and their Corresponding_Record_Type, + however, because each might legitimately be elaborated before it's own + freeze node, e.g. while processing the other. */ + if (gnu_old + && !(TREE_CODE (gnu_old) == TYPE_DECL + && TYPE_IS_DUMMY_P (TREE_TYPE (gnu_old)))) + { + gcc_assert ((IN (Ekind (gnat_entity), Incomplete_Or_Private_Kind) + && Present (Full_View (gnat_entity)) + && No (Freeze_Node (Full_View (gnat_entity)))) + || Is_Concurrent_Type (gnat_entity) + || (IN (Ekind (gnat_entity), Record_Kind) + && Is_Concurrent_Record_Type (gnat_entity))); + return; + } + + /* Reset the saved tree, if any, and elaborate the object or type for real. + If there is a full declaration, elaborate it and copy the type to + GNAT_ENTITY. Likewise if this is the record subtype corresponding to + a class wide type or subtype. */ + if (gnu_old) + { + save_gnu_tree (gnat_entity, NULL_TREE, false); + if (IN (Ekind (gnat_entity), Incomplete_Or_Private_Kind) + && Present (Full_View (gnat_entity)) + && present_gnu_tree (Full_View (gnat_entity))) + save_gnu_tree (Full_View (gnat_entity), NULL_TREE, false); + if (Present (Class_Wide_Type (gnat_entity)) + && Class_Wide_Type (gnat_entity) != gnat_entity) + save_gnu_tree (Class_Wide_Type (gnat_entity), NULL_TREE, false); + } + + if (IN (Ekind (gnat_entity), Incomplete_Or_Private_Kind) + && Present (Full_View (gnat_entity))) + { + gnu_new = gnat_to_gnu_entity (Full_View (gnat_entity), NULL_TREE, 1); + + /* Propagate back-annotations from full view to partial view. */ + if (Unknown_Alignment (gnat_entity)) + Set_Alignment (gnat_entity, Alignment (Full_View (gnat_entity))); + + if (Unknown_Esize (gnat_entity)) + Set_Esize (gnat_entity, Esize (Full_View (gnat_entity))); + + if (Unknown_RM_Size (gnat_entity)) + Set_RM_Size (gnat_entity, RM_Size (Full_View (gnat_entity))); + + /* The above call may have defined this entity (the simplest example + of this is when we have a private enumeral type since the bounds + will have the public view. */ + if (!present_gnu_tree (gnat_entity)) + save_gnu_tree (gnat_entity, gnu_new, false); + if (Present (Class_Wide_Type (gnat_entity)) + && Class_Wide_Type (gnat_entity) != gnat_entity) + save_gnu_tree (Class_Wide_Type (gnat_entity), gnu_new, false); + } + else + gnu_new = gnat_to_gnu_entity (gnat_entity, gnu_init, 1); + + /* If we've made any pointers to the old version of this type, we + have to update them. */ + if (gnu_old) + update_pointer_to (TYPE_MAIN_VARIANT (TREE_TYPE (gnu_old)), + TREE_TYPE (gnu_new)); +} + +/* Process the list of inlined subprograms of GNAT_NODE, which is an + N_Compilation_Unit. */ + +static void +process_inlined_subprograms (Node_Id gnat_node) +{ + Entity_Id gnat_entity; + Node_Id gnat_body; + + /* If we can inline, generate RTL for all the inlined subprograms. + Define the entity first so we set DECL_EXTERNAL. */ + if (optimize > 0 && !flag_really_no_inline) + for (gnat_entity = First_Inlined_Subprogram (gnat_node); + Present (gnat_entity); + gnat_entity = Next_Inlined_Subprogram (gnat_entity)) + { + gnat_body = Parent (Declaration_Node (gnat_entity)); + + if (Nkind (gnat_body) != N_Subprogram_Body) + { + /* ??? This really should always be Present. */ + if (No (Corresponding_Body (gnat_body))) + continue; + + gnat_body + = Parent (Declaration_Node (Corresponding_Body (gnat_body))); + } + + if (Present (gnat_body)) + { + gnat_to_gnu_entity (gnat_entity, NULL_TREE, 0); + add_stmt (gnat_to_gnu (gnat_body)); + } + } +} + +/* Elaborate decls in the lists GNAT_DECLS and GNAT_DECLS2, if present. + We make two passes, one to elaborate anything other than bodies (but + we declare a function if there was no spec). The second pass + elaborates the bodies. + + GNAT_END_LIST gives the element in the list past the end. Normally, + this is Empty, but can be First_Real_Statement for a + Handled_Sequence_Of_Statements. + + We make a complete pass through both lists if PASS1P is true, then make + the second pass over both lists if PASS2P is true. The lists usually + correspond to the public and private parts of a package. */ + +static void +process_decls (List_Id gnat_decls, List_Id gnat_decls2, + Node_Id gnat_end_list, bool pass1p, bool pass2p) +{ + List_Id gnat_decl_array[2]; + Node_Id gnat_decl; + int i; + + gnat_decl_array[0] = gnat_decls, gnat_decl_array[1] = gnat_decls2; + + if (pass1p) + for (i = 0; i <= 1; i++) + if (Present (gnat_decl_array[i])) + for (gnat_decl = First (gnat_decl_array[i]); + gnat_decl != gnat_end_list; gnat_decl = Next (gnat_decl)) + { + /* For package specs, we recurse inside the declarations, + thus taking the two pass approach inside the boundary. */ + if (Nkind (gnat_decl) == N_Package_Declaration + && (Nkind (Specification (gnat_decl) + == N_Package_Specification))) + process_decls (Visible_Declarations (Specification (gnat_decl)), + Private_Declarations (Specification (gnat_decl)), + Empty, true, false); + + /* Similarly for any declarations in the actions of a + freeze node. */ + else if (Nkind (gnat_decl) == N_Freeze_Entity) + { + process_freeze_entity (gnat_decl); + process_decls (Actions (gnat_decl), Empty, Empty, true, false); + } + + /* Package bodies with freeze nodes get their elaboration deferred + until the freeze node, but the code must be placed in the right + place, so record the code position now. */ + else if (Nkind (gnat_decl) == N_Package_Body + && Present (Freeze_Node (Corresponding_Spec (gnat_decl)))) + record_code_position (gnat_decl); + + else if (Nkind (gnat_decl) == N_Package_Body_Stub + && Present (Library_Unit (gnat_decl)) + && Present (Freeze_Node + (Corresponding_Spec + (Proper_Body (Unit + (Library_Unit (gnat_decl))))))) + record_code_position + (Proper_Body (Unit (Library_Unit (gnat_decl)))); + + /* We defer most subprogram bodies to the second pass. */ + else if (Nkind (gnat_decl) == N_Subprogram_Body) + { + if (Acts_As_Spec (gnat_decl)) + { + Node_Id gnat_subprog_id = Defining_Entity (gnat_decl); + + if (Ekind (gnat_subprog_id) != E_Generic_Procedure + && Ekind (gnat_subprog_id) != E_Generic_Function) + gnat_to_gnu_entity (gnat_subprog_id, NULL_TREE, 1); + } + } + /* For bodies and stubs that act as their own specs, the entity + itself must be elaborated in the first pass, because it may + be used in other declarations. */ + else if (Nkind (gnat_decl) == N_Subprogram_Body_Stub) + { + Node_Id gnat_subprog_id = + Defining_Entity (Specification (gnat_decl)); + + if (Ekind (gnat_subprog_id) != E_Subprogram_Body + && Ekind (gnat_subprog_id) != E_Generic_Procedure + && Ekind (gnat_subprog_id) != E_Generic_Function) + gnat_to_gnu_entity (gnat_subprog_id, NULL_TREE, 1); + } + + /* Concurrent stubs stand for the corresponding subprogram bodies, + which are deferred like other bodies. */ + else if (Nkind (gnat_decl) == N_Task_Body_Stub + || Nkind (gnat_decl) == N_Protected_Body_Stub) + ; + else + add_stmt (gnat_to_gnu (gnat_decl)); + } + + /* Here we elaborate everything we deferred above except for package bodies, + which are elaborated at their freeze nodes. Note that we must also + go inside things (package specs and freeze nodes) the first pass did. */ + if (pass2p) + for (i = 0; i <= 1; i++) + if (Present (gnat_decl_array[i])) + for (gnat_decl = First (gnat_decl_array[i]); + gnat_decl != gnat_end_list; gnat_decl = Next (gnat_decl)) + { + if (Nkind (gnat_decl) == N_Subprogram_Body + || Nkind (gnat_decl) == N_Subprogram_Body_Stub + || Nkind (gnat_decl) == N_Task_Body_Stub + || Nkind (gnat_decl) == N_Protected_Body_Stub) + add_stmt (gnat_to_gnu (gnat_decl)); + + else if (Nkind (gnat_decl) == N_Package_Declaration + && (Nkind (Specification (gnat_decl) + == N_Package_Specification))) + process_decls (Visible_Declarations (Specification (gnat_decl)), + Private_Declarations (Specification (gnat_decl)), + Empty, false, true); + + else if (Nkind (gnat_decl) == N_Freeze_Entity) + process_decls (Actions (gnat_decl), Empty, Empty, false, true); + } +} + +/* Emit code for a range check. GNU_EXPR is the expression to be checked, + GNAT_RANGE_TYPE the gnat type or subtype containing the bounds against + which we have to check. */ + +static tree +emit_range_check (tree gnu_expr, Entity_Id gnat_range_type) +{ + tree gnu_range_type = get_unpadded_type (gnat_range_type); + tree gnu_low = TYPE_MIN_VALUE (gnu_range_type); + tree gnu_high = TYPE_MAX_VALUE (gnu_range_type); + tree gnu_compare_type = get_base_type (TREE_TYPE (gnu_expr)); + + /* If GNU_EXPR has GNAT_RANGE_TYPE as its base type, no check is needed. + This can for example happen when translating 'Val or 'Value. */ + if (gnu_compare_type == gnu_range_type) + return gnu_expr; + + /* If GNU_EXPR has an integral type that is narrower than GNU_RANGE_TYPE, + we can't do anything since we might be truncating the bounds. No + check is needed in this case. */ + if (INTEGRAL_TYPE_P (TREE_TYPE (gnu_expr)) + && (TYPE_PRECISION (gnu_compare_type) + < TYPE_PRECISION (get_base_type (gnu_range_type)))) + return gnu_expr; + + /* Checked expressions must be evaluated only once. */ + gnu_expr = protect_multiple_eval (gnu_expr); + + /* There's no good type to use here, so we might as well use + integer_type_node. Note that the form of the check is + (not (expr >= lo)) or (not (expr <= hi)) + the reason for this slightly convoluted form is that NaNs + are not considered to be in range in the float case. */ + return emit_check + (build_binary_op (TRUTH_ORIF_EXPR, integer_type_node, + invert_truthvalue + (build_binary_op (GE_EXPR, integer_type_node, + convert (gnu_compare_type, gnu_expr), + convert (gnu_compare_type, gnu_low))), + invert_truthvalue + (build_binary_op (LE_EXPR, integer_type_node, + convert (gnu_compare_type, gnu_expr), + convert (gnu_compare_type, + gnu_high)))), + gnu_expr, CE_Range_Check_Failed); +} + +/* Emit code for an index check. GNU_ARRAY_OBJECT is the array object + which we are about to index, GNU_EXPR is the index expression to be + checked, GNU_LOW and GNU_HIGH are the lower and upper bounds + against which GNU_EXPR has to be checked. Note that for index + checking we cannot use the emit_range_check function (although very + similar code needs to be generated in both cases) since for index + checking the array type against which we are checking the indices + may be unconstrained and consequently we need to retrieve the + actual index bounds from the array object itself + (GNU_ARRAY_OBJECT). The place where we need to do that is in + subprograms having unconstrained array formal parameters */ + +static tree +emit_index_check (tree gnu_array_object, + tree gnu_expr, + tree gnu_low, + tree gnu_high) +{ + tree gnu_expr_check; + + /* Checked expressions must be evaluated only once. */ + gnu_expr = protect_multiple_eval (gnu_expr); + + /* Must do this computation in the base type in case the expression's + type is an unsigned subtypes. */ + gnu_expr_check = convert (get_base_type (TREE_TYPE (gnu_expr)), gnu_expr); + + /* If GNU_LOW or GNU_HIGH are a PLACEHOLDER_EXPR, qualify them by + the object we are handling. */ + gnu_low = SUBSTITUTE_PLACEHOLDER_IN_EXPR (gnu_low, gnu_array_object); + gnu_high = SUBSTITUTE_PLACEHOLDER_IN_EXPR (gnu_high, gnu_array_object); + + /* There's no good type to use here, so we might as well use + integer_type_node. */ + return emit_check + (build_binary_op (TRUTH_ORIF_EXPR, integer_type_node, + build_binary_op (LT_EXPR, integer_type_node, + gnu_expr_check, + convert (TREE_TYPE (gnu_expr_check), + gnu_low)), + build_binary_op (GT_EXPR, integer_type_node, + gnu_expr_check, + convert (TREE_TYPE (gnu_expr_check), + gnu_high))), + gnu_expr, CE_Index_Check_Failed); +} + +/* GNU_COND contains the condition corresponding to an access, discriminant or + range check of value GNU_EXPR. Build a COND_EXPR that returns GNU_EXPR if + GNU_COND is false and raises a CONSTRAINT_ERROR if GNU_COND is true. + REASON is the code that says why the exception was raised. */ + +static tree +emit_check (tree gnu_cond, tree gnu_expr, int reason) +{ + tree gnu_call; + tree gnu_result; + + gnu_call = build_call_raise (reason, Empty, N_Raise_Constraint_Error); + + /* Use an outer COMPOUND_EXPR to make sure that GNU_EXPR will get evaluated + in front of the comparison in case it ends up being a SAVE_EXPR. Put the + whole thing inside its own SAVE_EXPR so the inner SAVE_EXPR doesn't leak + out. */ + gnu_result = fold_build3 (COND_EXPR, TREE_TYPE (gnu_expr), gnu_cond, + build2 (COMPOUND_EXPR, TREE_TYPE (gnu_expr), + gnu_call, gnu_expr), + gnu_expr); + + /* If GNU_EXPR has side effects, make the outer COMPOUND_EXPR and + protect it. Otherwise, show GNU_RESULT has no side effects: we + don't need to evaluate it just for the check. */ + if (TREE_SIDE_EFFECTS (gnu_expr)) + gnu_result + = build2 (COMPOUND_EXPR, TREE_TYPE (gnu_expr), gnu_expr, gnu_result); + else + TREE_SIDE_EFFECTS (gnu_result) = 0; + + /* ??? Unfortunately, if we don't put a SAVE_EXPR around this whole thing, + we will repeatedly do the test. It would be nice if GCC was able + to optimize this and only do it once. */ + return save_expr (gnu_result); +} + +/* Return an expression that converts GNU_EXPR to GNAT_TYPE, doing + overflow checks if OVERFLOW_P is nonzero and range checks if + RANGE_P is nonzero. GNAT_TYPE is known to be an integral type. + If TRUNCATE_P is nonzero, do a float to integer conversion with + truncation; otherwise round. */ + +static tree +convert_with_check (Entity_Id gnat_type, tree gnu_expr, bool overflowp, + bool rangep, bool truncatep) +{ + tree gnu_type = get_unpadded_type (gnat_type); + tree gnu_in_type = TREE_TYPE (gnu_expr); + tree gnu_in_basetype = get_base_type (gnu_in_type); + tree gnu_base_type = get_base_type (gnu_type); + tree gnu_result = gnu_expr; + + /* If we are not doing any checks, the output is an integral type, and + the input is not a floating type, just do the conversion. This + shortcut is required to avoid problems with packed array types + and simplifies code in all cases anyway. */ + if (!rangep && !overflowp && INTEGRAL_TYPE_P (gnu_base_type) + && !FLOAT_TYPE_P (gnu_in_type)) + return convert (gnu_type, gnu_expr); + + /* First convert the expression to its base type. This + will never generate code, but makes the tests below much simpler. + But don't do this if converting from an integer type to an unconstrained + array type since then we need to get the bounds from the original + (unpacked) type. */ + if (TREE_CODE (gnu_type) != UNCONSTRAINED_ARRAY_TYPE) + gnu_result = convert (gnu_in_basetype, gnu_result); + + /* If overflow checks are requested, we need to be sure the result will + fit in the output base type. But don't do this if the input + is integer and the output floating-point. */ + if (overflowp + && !(FLOAT_TYPE_P (gnu_base_type) && INTEGRAL_TYPE_P (gnu_in_basetype))) + { + /* Ensure GNU_EXPR only gets evaluated once. */ + tree gnu_input = protect_multiple_eval (gnu_result); + tree gnu_cond = integer_zero_node; + tree gnu_in_lb = TYPE_MIN_VALUE (gnu_in_basetype); + tree gnu_in_ub = TYPE_MAX_VALUE (gnu_in_basetype); + tree gnu_out_lb = TYPE_MIN_VALUE (gnu_base_type); + tree gnu_out_ub = TYPE_MAX_VALUE (gnu_base_type); + + /* Convert the lower bounds to signed types, so we're sure we're + comparing them properly. Likewise, convert the upper bounds + to unsigned types. */ + if (INTEGRAL_TYPE_P (gnu_in_basetype) && TYPE_UNSIGNED (gnu_in_basetype)) + gnu_in_lb = convert (gnat_signed_type (gnu_in_basetype), gnu_in_lb); + + if (INTEGRAL_TYPE_P (gnu_in_basetype) + && !TYPE_UNSIGNED (gnu_in_basetype)) + gnu_in_ub = convert (gnat_unsigned_type (gnu_in_basetype), gnu_in_ub); + + if (INTEGRAL_TYPE_P (gnu_base_type) && TYPE_UNSIGNED (gnu_base_type)) + gnu_out_lb = convert (gnat_signed_type (gnu_base_type), gnu_out_lb); + + if (INTEGRAL_TYPE_P (gnu_base_type) && !TYPE_UNSIGNED (gnu_base_type)) + gnu_out_ub = convert (gnat_unsigned_type (gnu_base_type), gnu_out_ub); + + /* Check each bound separately and only if the result bound + is tighter than the bound on the input type. Note that all the + types are base types, so the bounds must be constant. Also, + the comparison is done in the base type of the input, which + always has the proper signedness. First check for input + integer (which means output integer), output float (which means + both float), or mixed, in which case we always compare. + Note that we have to do the comparison which would *fail* in the + case of an error since if it's an FP comparison and one of the + values is a NaN or Inf, the comparison will fail. */ + if (INTEGRAL_TYPE_P (gnu_in_basetype) + ? tree_int_cst_lt (gnu_in_lb, gnu_out_lb) + : (FLOAT_TYPE_P (gnu_base_type) + ? REAL_VALUES_LESS (TREE_REAL_CST (gnu_in_lb), + TREE_REAL_CST (gnu_out_lb)) + : 1)) + gnu_cond + = invert_truthvalue + (build_binary_op (GE_EXPR, integer_type_node, + gnu_input, convert (gnu_in_basetype, + gnu_out_lb))); + + if (INTEGRAL_TYPE_P (gnu_in_basetype) + ? tree_int_cst_lt (gnu_out_ub, gnu_in_ub) + : (FLOAT_TYPE_P (gnu_base_type) + ? REAL_VALUES_LESS (TREE_REAL_CST (gnu_out_ub), + TREE_REAL_CST (gnu_in_lb)) + : 1)) + gnu_cond + = build_binary_op (TRUTH_ORIF_EXPR, integer_type_node, gnu_cond, + invert_truthvalue + (build_binary_op (LE_EXPR, integer_type_node, + gnu_input, + convert (gnu_in_basetype, + gnu_out_ub)))); + + if (!integer_zerop (gnu_cond)) + gnu_result = emit_check (gnu_cond, gnu_input, + CE_Overflow_Check_Failed); + } + + /* Now convert to the result base type. If this is a non-truncating + float-to-integer conversion, round. */ + if (INTEGRAL_TYPE_P (gnu_base_type) && FLOAT_TYPE_P (gnu_in_basetype) + && !truncatep) + { + REAL_VALUE_TYPE half_minus_pred_half, pred_half; + tree gnu_conv, gnu_zero, gnu_comp, gnu_saved_result, calc_type; + tree gnu_pred_half, gnu_add_pred_half, gnu_subtract_pred_half; + const struct real_format *fmt; + + /* The following calculations depend on proper rounding to even + of each arithmetic operation. In order to prevent excess + precision from spoiling this property, use the widest hardware + floating-point type. + + FIXME: For maximum efficiency, this should only be done for machines + and types where intermediates may have extra precision. */ + + calc_type = longest_float_type_node; + /* FIXME: Should not have padding in the first place */ + if (TREE_CODE (calc_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (calc_type)) + calc_type = TREE_TYPE (TYPE_FIELDS (calc_type)); + + /* Compute the exact value calc_type'Pred (0.5) at compile time. */ + fmt = REAL_MODE_FORMAT (TYPE_MODE (calc_type)); + real_2expN (&half_minus_pred_half, -(fmt->p) - 1, TYPE_MODE (calc_type)); + REAL_ARITHMETIC (pred_half, MINUS_EXPR, dconsthalf, + half_minus_pred_half); + gnu_pred_half = build_real (calc_type, pred_half); + + /* If the input is strictly negative, subtract this value + and otherwise add it from the input. For 0.5, the result + is exactly between 1.0 and the machine number preceding 1.0 + (for calc_type). Since the last bit of 1.0 is even, this 0.5 + will round to 1.0, while all other number with an absolute + value less than 0.5 round to 0.0. For larger numbers exactly + halfway between integers, rounding will always be correct as + the true mathematical result will be closer to the higher + integer compared to the lower one. So, this constant works + for all floating-point numbers. + + The reason to use the same constant with subtract/add instead + of a positive and negative constant is to allow the comparison + to be scheduled in parallel with retrieval of the constant and + conversion of the input to the calc_type (if necessary). + */ + + gnu_zero = convert (gnu_in_basetype, integer_zero_node); + gnu_saved_result = save_expr (gnu_result); + gnu_conv = convert (calc_type, gnu_saved_result); + gnu_comp = build2 (GE_EXPR, integer_type_node, + gnu_saved_result, gnu_zero); + gnu_add_pred_half + = build2 (PLUS_EXPR, calc_type, gnu_conv, gnu_pred_half); + gnu_subtract_pred_half + = build2 (MINUS_EXPR, calc_type, gnu_conv, gnu_pred_half); + gnu_result = build3 (COND_EXPR, calc_type, gnu_comp, + gnu_add_pred_half, gnu_subtract_pred_half); + } + + if (TREE_CODE (gnu_base_type) == INTEGER_TYPE + && TYPE_HAS_ACTUAL_BOUNDS_P (gnu_base_type) + && TREE_CODE (gnu_result) == UNCONSTRAINED_ARRAY_REF) + gnu_result = unchecked_convert (gnu_base_type, gnu_result, false); + else + gnu_result = convert (gnu_base_type, gnu_result); + + /* Finally, do the range check if requested. Note that if the + result type is a modular type, the range check is actually + an overflow check. */ + + if (rangep + || (TREE_CODE (gnu_base_type) == INTEGER_TYPE + && TYPE_MODULAR_P (gnu_base_type) && overflowp)) + gnu_result = emit_range_check (gnu_result, gnat_type); + + return convert (gnu_type, gnu_result); +} + +/* Return true if TYPE is a smaller packable version of RECORD_TYPE. */ + +static bool +smaller_packable_type_p (tree type, tree record_type) +{ + tree size, rsize; + + /* We're not interested in variants here. */ + if (TYPE_MAIN_VARIANT (type) == TYPE_MAIN_VARIANT (record_type)) + return false; + + /* Like a variant, a packable version keeps the original TYPE_NAME. */ + if (TYPE_NAME (type) != TYPE_NAME (record_type)) + return false; + + size = TYPE_SIZE (type); + rsize = TYPE_SIZE (record_type); + + if (!(TREE_CODE (size) == INTEGER_CST && TREE_CODE (rsize) == INTEGER_CST)) + return false; + + return tree_int_cst_lt (size, rsize) != 0; +} + +/* Return true if GNU_EXPR can be directly addressed. This is the case + unless it is an expression involving computation or if it involves a + reference to a bitfield or to an object not sufficiently aligned for + its type. If GNU_TYPE is non-null, return true only if GNU_EXPR can + be directly addressed as an object of this type. + + *** Notes on addressability issues in the Ada compiler *** + + This predicate is necessary in order to bridge the gap between Gigi + and the middle-end about addressability of GENERIC trees. A tree + is said to be addressable if it can be directly addressed, i.e. if + its address can be taken, is a multiple of the type's alignment on + strict-alignment architectures and returns the first storage unit + assigned to the object represented by the tree. + + In the C family of languages, everything is in practice addressable + at the language level, except for bit-fields. This means that these + compilers will take the address of any tree that doesn't represent + a bit-field reference and expect the result to be the first storage + unit assigned to the object. Even in cases where this will result + in unaligned accesses at run time, nothing is supposed to be done + and the program is considered as erroneous instead (see PR c/18287). + + The implicit assumptions made in the middle-end are in keeping with + the C viewpoint described above: + - the address of a bit-field reference is supposed to be never + taken; the compiler (generally) will stop on such a construct, + - any other tree is addressable if it is formally addressable, + i.e. if it is formally allowed to be the operand of ADDR_EXPR. + + In Ada, the viewpoint is the opposite one: nothing is addressable + at the language level unless explicitly declared so. This means + that the compiler will both make sure that the trees representing + references to addressable ("aliased" in Ada parlance) objects are + addressable and make no real attempts at ensuring that the trees + representing references to non-addressable objects are addressable. + + In the first case, Ada is effectively equivalent to C and handing + down the direct result of applying ADDR_EXPR to these trees to the + middle-end works flawlessly. In the second case, Ada cannot afford + to consider the program as erroneous if the address of trees that + are not addressable is requested for technical reasons, unlike C; + as a consequence, the Ada compiler must arrange for either making + sure that this address is not requested in the middle-end or for + compensating by inserting temporaries if it is requested in Gigi. + + The first goal can be achieved because the middle-end should not + request the address of non-addressable trees on its own; the only + exception is for the invocation of low-level block operations like + memcpy, for which the addressability requirements are lower since + the type's alignment can be disregarded. In practice, this means + that Gigi must make sure that such operations cannot be applied to + non-BLKmode bit-fields. + + The second goal is achieved by means of the addressable_p predicate + and by inserting SAVE_EXPRs around trees deemed non-addressable. + They will be turned during gimplification into proper temporaries + whose address will be used in lieu of that of the original tree. */ + +static bool +addressable_p (tree gnu_expr, tree gnu_type) +{ + /* The size of the real type of the object must not be smaller than + that of the expected type, otherwise an indirect access in the + latter type would be larger than the object. Only records need + to be considered in practice. */ + if (gnu_type + && TREE_CODE (gnu_type) == RECORD_TYPE + && smaller_packable_type_p (TREE_TYPE (gnu_expr), gnu_type)) + return false; + + switch (TREE_CODE (gnu_expr)) + { + case VAR_DECL: + case PARM_DECL: + case FUNCTION_DECL: + case RESULT_DECL: + /* All DECLs are addressable: if they are in a register, we can force + them to memory. */ + return true; + + case UNCONSTRAINED_ARRAY_REF: + case INDIRECT_REF: + case CONSTRUCTOR: + case STRING_CST: + case INTEGER_CST: + case NULL_EXPR: + case SAVE_EXPR: + case CALL_EXPR: + return true; + + case COND_EXPR: + /* We accept &COND_EXPR as soon as both operands are addressable and + expect the outcome to be the address of the selected operand. */ + return (addressable_p (TREE_OPERAND (gnu_expr, 1), NULL_TREE) + && addressable_p (TREE_OPERAND (gnu_expr, 2), NULL_TREE)); + + case COMPONENT_REF: + return (((!DECL_BIT_FIELD (TREE_OPERAND (gnu_expr, 1)) + /* Even with DECL_BIT_FIELD cleared, we have to ensure that + the field is sufficiently aligned, in case it is subject + to a pragma Component_Alignment. But we don't need to + check the alignment of the containing record, as it is + guaranteed to be not smaller than that of its most + aligned field that is not a bit-field. */ + && (!STRICT_ALIGNMENT + || DECL_ALIGN (TREE_OPERAND (gnu_expr, 1)) + >= TYPE_ALIGN (TREE_TYPE (gnu_expr)))) + /* The field of a padding record is always addressable. */ + || TYPE_IS_PADDING_P (TREE_TYPE (TREE_OPERAND (gnu_expr, 0)))) + && addressable_p (TREE_OPERAND (gnu_expr, 0), NULL_TREE)); + + case ARRAY_REF: case ARRAY_RANGE_REF: + case REALPART_EXPR: case IMAGPART_EXPR: + case NOP_EXPR: + return addressable_p (TREE_OPERAND (gnu_expr, 0), NULL_TREE); + + case CONVERT_EXPR: + return (AGGREGATE_TYPE_P (TREE_TYPE (gnu_expr)) + && addressable_p (TREE_OPERAND (gnu_expr, 0), NULL_TREE)); + + case VIEW_CONVERT_EXPR: + { + /* This is addressable if we can avoid a copy. */ + tree type = TREE_TYPE (gnu_expr); + tree inner_type = TREE_TYPE (TREE_OPERAND (gnu_expr, 0)); + return (((TYPE_MODE (type) == TYPE_MODE (inner_type) + && (!STRICT_ALIGNMENT + || TYPE_ALIGN (type) <= TYPE_ALIGN (inner_type) + || TYPE_ALIGN (inner_type) >= BIGGEST_ALIGNMENT)) + || ((TYPE_MODE (type) == BLKmode + || TYPE_MODE (inner_type) == BLKmode) + && (!STRICT_ALIGNMENT + || TYPE_ALIGN (type) <= TYPE_ALIGN (inner_type) + || TYPE_ALIGN (inner_type) >= BIGGEST_ALIGNMENT + || TYPE_ALIGN_OK (type) + || TYPE_ALIGN_OK (inner_type)))) + && addressable_p (TREE_OPERAND (gnu_expr, 0), NULL_TREE)); + } + + default: + return false; + } +} + +/* Do the processing for the declaration of a GNAT_ENTITY, a type. If + a separate Freeze node exists, delay the bulk of the processing. Otherwise + make a GCC type for GNAT_ENTITY and set up the correspondence. */ + +void +process_type (Entity_Id gnat_entity) +{ + tree gnu_old + = present_gnu_tree (gnat_entity) ? get_gnu_tree (gnat_entity) : 0; + tree gnu_new; + + /* If we are to delay elaboration of this type, just do any + elaborations needed for expressions within the declaration and + make a dummy type entry for this node and its Full_View (if + any) in case something points to it. Don't do this if it + has already been done (the only way that can happen is if + the private completion is also delayed). */ + if (Present (Freeze_Node (gnat_entity)) + || (IN (Ekind (gnat_entity), Incomplete_Or_Private_Kind) + && Present (Full_View (gnat_entity)) + && Freeze_Node (Full_View (gnat_entity)) + && !present_gnu_tree (Full_View (gnat_entity)))) + { + elaborate_entity (gnat_entity); + + if (!gnu_old) + { + tree gnu_decl = create_type_decl (get_entity_name (gnat_entity), + make_dummy_type (gnat_entity), + NULL, false, false, gnat_entity); + + save_gnu_tree (gnat_entity, gnu_decl, false); + if (IN (Ekind (gnat_entity), Incomplete_Or_Private_Kind) + && Present (Full_View (gnat_entity))) + save_gnu_tree (Full_View (gnat_entity), gnu_decl, false); + } + + return; + } + + /* If we saved away a dummy type for this node it means that this + made the type that corresponds to the full type of an incomplete + type. Clear that type for now and then update the type in the + pointers. */ + if (gnu_old) + { + gcc_assert (TREE_CODE (gnu_old) == TYPE_DECL + && TYPE_IS_DUMMY_P (TREE_TYPE (gnu_old))); + + save_gnu_tree (gnat_entity, NULL_TREE, false); + } + + /* Now fully elaborate the type. */ + gnu_new = gnat_to_gnu_entity (gnat_entity, NULL_TREE, 1); + gcc_assert (TREE_CODE (gnu_new) == TYPE_DECL); + + /* If we have an old type and we've made pointers to this type, + update those pointers. */ + if (gnu_old) + update_pointer_to (TYPE_MAIN_VARIANT (TREE_TYPE (gnu_old)), + TREE_TYPE (gnu_new)); + + /* If this is a record type corresponding to a task or protected type + that is a completion of an incomplete type, perform a similar update + on the type. */ + /* ??? Including protected types here is a guess. */ + + if (IN (Ekind (gnat_entity), Record_Kind) + && Is_Concurrent_Record_Type (gnat_entity) + && present_gnu_tree (Corresponding_Concurrent_Type (gnat_entity))) + { + tree gnu_task_old + = get_gnu_tree (Corresponding_Concurrent_Type (gnat_entity)); + + save_gnu_tree (Corresponding_Concurrent_Type (gnat_entity), + NULL_TREE, false); + save_gnu_tree (Corresponding_Concurrent_Type (gnat_entity), + gnu_new, false); + + update_pointer_to (TYPE_MAIN_VARIANT (TREE_TYPE (gnu_task_old)), + TREE_TYPE (gnu_new)); + } +} + +/* GNAT_ENTITY is the type of the resulting constructors, + GNAT_ASSOC is the front of the Component_Associations of an N_Aggregate, + and GNU_TYPE is the GCC type of the corresponding record. + + Return a CONSTRUCTOR to build the record. */ + +static tree +assoc_to_constructor (Entity_Id gnat_entity, Node_Id gnat_assoc, tree gnu_type) +{ + tree gnu_list, gnu_result; + + /* We test for GNU_FIELD being empty in the case where a variant + was the last thing since we don't take things off GNAT_ASSOC in + that case. We check GNAT_ASSOC in case we have a variant, but it + has no fields. */ + + for (gnu_list = NULL_TREE; Present (gnat_assoc); + gnat_assoc = Next (gnat_assoc)) + { + Node_Id gnat_field = First (Choices (gnat_assoc)); + tree gnu_field = gnat_to_gnu_field_decl (Entity (gnat_field)); + tree gnu_expr = gnat_to_gnu (Expression (gnat_assoc)); + + /* The expander is supposed to put a single component selector name + in every record component association */ + gcc_assert (No (Next (gnat_field))); + + /* Ignore fields that have Corresponding_Discriminants since we'll + be setting that field in the parent. */ + if (Present (Corresponding_Discriminant (Entity (gnat_field))) + && Is_Tagged_Type (Scope (Entity (gnat_field)))) + continue; + + /* Also ignore discriminants of Unchecked_Unions. */ + else if (Is_Unchecked_Union (gnat_entity) + && Ekind (Entity (gnat_field)) == E_Discriminant) + continue; + + /* Before assigning a value in an aggregate make sure range checks + are done if required. Then convert to the type of the field. */ + if (Do_Range_Check (Expression (gnat_assoc))) + gnu_expr = emit_range_check (gnu_expr, Etype (gnat_field)); + + gnu_expr = convert (TREE_TYPE (gnu_field), gnu_expr); + + /* Add the field and expression to the list. */ + gnu_list = tree_cons (gnu_field, gnu_expr, gnu_list); + } + + gnu_result = extract_values (gnu_list, gnu_type); + +#ifdef ENABLE_CHECKING + { + tree gnu_field; + + /* Verify every entry in GNU_LIST was used. */ + for (gnu_field = gnu_list; gnu_field; gnu_field = TREE_CHAIN (gnu_field)) + gcc_assert (TREE_ADDRESSABLE (gnu_field)); + } +#endif + + return gnu_result; +} + +/* Builds a possibly nested constructor for array aggregates. GNAT_EXPR + is the first element of an array aggregate. It may itself be an + aggregate (an array or record aggregate). GNU_ARRAY_TYPE is the gnu type + corresponding to the array aggregate. GNAT_COMPONENT_TYPE is the type + of the array component. It is needed for range checking. */ + +static tree +pos_to_constructor (Node_Id gnat_expr, tree gnu_array_type, + Entity_Id gnat_component_type) +{ + tree gnu_expr_list = NULL_TREE; + tree gnu_index = TYPE_MIN_VALUE (TYPE_DOMAIN (gnu_array_type)); + tree gnu_expr; + + for ( ; Present (gnat_expr); gnat_expr = Next (gnat_expr)) + { + /* If the expression is itself an array aggregate then first build the + innermost constructor if it is part of our array (multi-dimensional + case). */ + + if (Nkind (gnat_expr) == N_Aggregate + && TREE_CODE (TREE_TYPE (gnu_array_type)) == ARRAY_TYPE + && TYPE_MULTI_ARRAY_P (TREE_TYPE (gnu_array_type))) + gnu_expr = pos_to_constructor (First (Expressions (gnat_expr)), + TREE_TYPE (gnu_array_type), + gnat_component_type); + else + { + gnu_expr = gnat_to_gnu (gnat_expr); + + /* before assigning the element to the array make sure it is + in range */ + if (Do_Range_Check (gnat_expr)) + gnu_expr = emit_range_check (gnu_expr, gnat_component_type); + } + + gnu_expr_list + = tree_cons (gnu_index, convert (TREE_TYPE (gnu_array_type), gnu_expr), + gnu_expr_list); + + gnu_index = int_const_binop (PLUS_EXPR, gnu_index, integer_one_node, 0); + } + + return gnat_build_constructor (gnu_array_type, nreverse (gnu_expr_list)); +} + +/* Subroutine of assoc_to_constructor: VALUES is a list of field associations, + some of which are from RECORD_TYPE. Return a CONSTRUCTOR consisting + of the associations that are from RECORD_TYPE. If we see an internal + record, make a recursive call to fill it in as well. */ + +static tree +extract_values (tree values, tree record_type) +{ + tree result = NULL_TREE; + tree field, tem; + + for (field = TYPE_FIELDS (record_type); field; field = TREE_CHAIN (field)) + { + tree value = 0; + + /* _Parent is an internal field, but may have values in the aggregate, + so check for values first. */ + if ((tem = purpose_member (field, values))) + { + value = TREE_VALUE (tem); + TREE_ADDRESSABLE (tem) = 1; + } + + else if (DECL_INTERNAL_P (field)) + { + value = extract_values (values, TREE_TYPE (field)); + if (TREE_CODE (value) == CONSTRUCTOR + && VEC_empty (constructor_elt, CONSTRUCTOR_ELTS (value))) + value = 0; + } + else + /* If we have a record subtype, the names will match, but not the + actual FIELD_DECLs. */ + for (tem = values; tem; tem = TREE_CHAIN (tem)) + if (DECL_NAME (TREE_PURPOSE (tem)) == DECL_NAME (field)) + { + value = convert (TREE_TYPE (field), TREE_VALUE (tem)); + TREE_ADDRESSABLE (tem) = 1; + } + + if (!value) + continue; + + result = tree_cons (field, value, result); + } + + return gnat_build_constructor (record_type, nreverse (result)); +} + +/* EXP is to be treated as an array or record. Handle the cases when it is + an access object and perform the required dereferences. */ + +static tree +maybe_implicit_deref (tree exp) +{ + /* If the type is a pointer, dereference it. */ + + if (POINTER_TYPE_P (TREE_TYPE (exp)) || TYPE_FAT_POINTER_P (TREE_TYPE (exp))) + exp = build_unary_op (INDIRECT_REF, NULL_TREE, exp); + + /* If we got a padded type, remove it too. */ + if (TREE_CODE (TREE_TYPE (exp)) == RECORD_TYPE + && TYPE_IS_PADDING_P (TREE_TYPE (exp))) + exp = convert (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (exp))), exp); + + return exp; +} + +/* Protect EXP from multiple evaluation. This may make a SAVE_EXPR. */ + +tree +protect_multiple_eval (tree exp) +{ + tree type = TREE_TYPE (exp); + + /* If this has no side effects, we don't need to do anything. */ + if (!TREE_SIDE_EFFECTS (exp)) + return exp; + + /* If it is a conversion, protect what's inside the conversion. + Similarly, if we're indirectly referencing something, we only + actually need to protect the address since the data itself can't + change in these situations. */ + else if (TREE_CODE (exp) == NON_LVALUE_EXPR + || CONVERT_EXPR_P (exp) + || TREE_CODE (exp) == VIEW_CONVERT_EXPR + || TREE_CODE (exp) == INDIRECT_REF + || TREE_CODE (exp) == UNCONSTRAINED_ARRAY_REF) + return build1 (TREE_CODE (exp), type, + protect_multiple_eval (TREE_OPERAND (exp, 0))); + + /* If EXP is a fat pointer or something that can be placed into a register, + just make a SAVE_EXPR. */ + if (TYPE_FAT_POINTER_P (type) || TYPE_MODE (type) != BLKmode) + return save_expr (exp); + + /* Otherwise, dereference, protect the address, and re-reference. */ + else + return + build_unary_op (INDIRECT_REF, type, + save_expr (build_unary_op (ADDR_EXPR, + build_reference_type (type), + exp))); +} + +/* This is equivalent to stabilize_reference in tree.c, but we know how to + handle our own nodes and we take extra arguments. FORCE says whether to + force evaluation of everything. We set SUCCESS to true unless we walk + through something we don't know how to stabilize. */ + +tree +maybe_stabilize_reference (tree ref, bool force, bool *success) +{ + tree type = TREE_TYPE (ref); + enum tree_code code = TREE_CODE (ref); + tree result; + + /* Assume we'll success unless proven otherwise. */ + *success = true; + + switch (code) + { + case CONST_DECL: + case VAR_DECL: + case PARM_DECL: + case RESULT_DECL: + /* No action is needed in this case. */ + return ref; + + case ADDR_EXPR: + CASE_CONVERT: + case FLOAT_EXPR: + case FIX_TRUNC_EXPR: + case VIEW_CONVERT_EXPR: + result + = build1 (code, type, + maybe_stabilize_reference (TREE_OPERAND (ref, 0), force, + success)); + break; + + case INDIRECT_REF: + case UNCONSTRAINED_ARRAY_REF: + result = build1 (code, type, + gnat_stabilize_reference_1 (TREE_OPERAND (ref, 0), + force)); + break; + + case COMPONENT_REF: + result = build3 (COMPONENT_REF, type, + maybe_stabilize_reference (TREE_OPERAND (ref, 0), force, + success), + TREE_OPERAND (ref, 1), NULL_TREE); + break; + + case BIT_FIELD_REF: + result = build3 (BIT_FIELD_REF, type, + maybe_stabilize_reference (TREE_OPERAND (ref, 0), force, + success), + gnat_stabilize_reference_1 (TREE_OPERAND (ref, 1), + force), + gnat_stabilize_reference_1 (TREE_OPERAND (ref, 2), + force)); + break; + + case ARRAY_REF: + case ARRAY_RANGE_REF: + result = build4 (code, type, + maybe_stabilize_reference (TREE_OPERAND (ref, 0), force, + success), + gnat_stabilize_reference_1 (TREE_OPERAND (ref, 1), + force), + NULL_TREE, NULL_TREE); + break; + + case COMPOUND_EXPR: + result = gnat_stabilize_reference_1 (ref, force); + break; + + case CALL_EXPR: + /* This generates better code than the scheme in protect_multiple_eval + because large objects will be returned via invisible reference in + most ABIs so the temporary will directly be filled by the callee. */ + result = gnat_stabilize_reference_1 (ref, force); + break; + + case CONSTRUCTOR: + /* Constructors with 1 element are used extensively to formally + convert objects to special wrapping types. */ + if (TREE_CODE (type) == RECORD_TYPE + && VEC_length (constructor_elt, CONSTRUCTOR_ELTS (ref)) == 1) + { + tree index + = VEC_index (constructor_elt, CONSTRUCTOR_ELTS (ref), 0)->index; + tree value + = VEC_index (constructor_elt, CONSTRUCTOR_ELTS (ref), 0)->value; + result + = build_constructor_single (type, index, + gnat_stabilize_reference_1 (value, + force)); + } + else + { + *success = false; + return ref; + } + break; + + case ERROR_MARK: + ref = error_mark_node; + + /* ... Fallthru to failure ... */ + + /* If arg isn't a kind of lvalue we recognize, make no change. + Caller should recognize the error for an invalid lvalue. */ + default: + *success = false; + return ref; + } + + TREE_READONLY (result) = TREE_READONLY (ref); + + /* TREE_THIS_VOLATILE and TREE_SIDE_EFFECTS attached to the initial + expression may not be sustained across some paths, such as the way via + build1 for INDIRECT_REF. We re-populate those flags here for the general + case, which is consistent with the GCC version of this routine. + + Special care should be taken regarding TREE_SIDE_EFFECTS, because some + paths introduce side effects where there was none initially (e.g. calls + to save_expr), and we also want to keep track of that. */ + + TREE_THIS_VOLATILE (result) = TREE_THIS_VOLATILE (ref); + TREE_SIDE_EFFECTS (result) |= TREE_SIDE_EFFECTS (ref); + + return result; +} + +/* Wrapper around maybe_stabilize_reference, for common uses without + lvalue restrictions and without need to examine the success + indication. */ + +static tree +gnat_stabilize_reference (tree ref, bool force) +{ + bool dummy; + return maybe_stabilize_reference (ref, force, &dummy); +} + +/* Similar to stabilize_reference_1 in tree.c, but supports an extra + arg to force a SAVE_EXPR for everything. */ + +static tree +gnat_stabilize_reference_1 (tree e, bool force) +{ + enum tree_code code = TREE_CODE (e); + tree type = TREE_TYPE (e); + tree result; + + /* We cannot ignore const expressions because it might be a reference + to a const array but whose index contains side-effects. But we can + ignore things that are actual constant or that already have been + handled by this function. */ + + if (TREE_CONSTANT (e) || code == SAVE_EXPR) + return e; + + switch (TREE_CODE_CLASS (code)) + { + case tcc_exceptional: + case tcc_type: + case tcc_declaration: + case tcc_comparison: + case tcc_statement: + case tcc_expression: + case tcc_reference: + case tcc_vl_exp: + /* If this is a COMPONENT_REF of a fat pointer, save the entire + fat pointer. This may be more efficient, but will also allow + us to more easily find the match for the PLACEHOLDER_EXPR. */ + if (code == COMPONENT_REF + && TYPE_FAT_POINTER_P (TREE_TYPE (TREE_OPERAND (e, 0)))) + result = build3 (COMPONENT_REF, type, + gnat_stabilize_reference_1 (TREE_OPERAND (e, 0), + force), + TREE_OPERAND (e, 1), TREE_OPERAND (e, 2)); + else if (TREE_SIDE_EFFECTS (e) || force) + return save_expr (e); + else + return e; + break; + + case tcc_constant: + /* Constants need no processing. In fact, we should never reach + here. */ + return e; + + case tcc_binary: + /* Recursively stabilize each operand. */ + result = build2 (code, type, + gnat_stabilize_reference_1 (TREE_OPERAND (e, 0), force), + gnat_stabilize_reference_1 (TREE_OPERAND (e, 1), + force)); + break; + + case tcc_unary: + /* Recursively stabilize each operand. */ + result = build1 (code, type, + gnat_stabilize_reference_1 (TREE_OPERAND (e, 0), + force)); + break; + + default: + gcc_unreachable (); + } + + TREE_READONLY (result) = TREE_READONLY (e); + + TREE_THIS_VOLATILE (result) = TREE_THIS_VOLATILE (e); + TREE_SIDE_EFFECTS (result) |= TREE_SIDE_EFFECTS (e); + return result; +} + +/* Convert SLOC into LOCUS. Return true if SLOC corresponds to a source code + location and false if it doesn't. In the former case, set the Gigi global + variable REF_FILENAME to the simple debug file name as given by sinput. */ + +bool +Sloc_to_locus (Source_Ptr Sloc, location_t *locus) +{ + if (Sloc == No_Location) + return false; + + if (Sloc <= Standard_Location) + { + if (*locus == UNKNOWN_LOCATION) + *locus = BUILTINS_LOCATION; + return false; + } + else + { + Source_File_Index file = Get_Source_File_Index (Sloc); + Logical_Line_Number line = Get_Logical_Line_Number (Sloc); + Column_Number column = Get_Column_Number (Sloc); + struct line_map *map = &line_table->maps[file - 1]; + + /* Translate the location according to the line-map.h formula. */ + *locus = map->start_location + + ((line - map->to_line) << map->column_bits) + + (column & ((1 << map->column_bits) - 1)); + } + + ref_filename + = IDENTIFIER_POINTER + (get_identifier + (Get_Name_String (Debug_Source_Name (Get_Source_File_Index (Sloc)))));; + + return true; +} + +/* Similar to set_expr_location, but start with the Sloc of GNAT_NODE and + don't do anything if it doesn't correspond to a source location. */ + +static void +set_expr_location_from_node (tree node, Node_Id gnat_node) +{ + location_t locus; + + if (!Sloc_to_locus (Sloc (gnat_node), &locus)) + return; + + SET_EXPR_LOCATION (node, locus); +} + +/* Return a colon-separated list of encodings contained in encoded Ada + name. */ + +static const char * +extract_encoding (const char *name) +{ + char *encoding = GGC_NEWVEC (char, strlen (name)); + + get_encoding (name, encoding); + + return encoding; +} + +/* Extract the Ada name from an encoded name. */ + +static const char * +decode_name (const char *name) +{ + char *decoded = GGC_NEWVEC (char, strlen (name) * 2 + 60); + + __gnat_decode (name, decoded, 0); + + return decoded; +} + +/* Post an error message. MSG is the error message, properly annotated. + NODE is the node at which to post the error and the node to use for the + "&" substitution. */ + +void +post_error (const char *msg, Node_Id node) +{ + String_Template temp; + Fat_Pointer fp; + + temp.Low_Bound = 1, temp.High_Bound = strlen (msg); + fp.Array = msg, fp.Bounds = &temp; + if (Present (node)) + Error_Msg_N (fp, node); +} + +/* Similar, but NODE is the node at which to post the error and ENT + is the node to use for the "&" substitution. */ + +void +post_error_ne (const char *msg, Node_Id node, Entity_Id ent) +{ + String_Template temp; + Fat_Pointer fp; + + temp.Low_Bound = 1, temp.High_Bound = strlen (msg); + fp.Array = msg, fp.Bounds = &temp; + if (Present (node)) + Error_Msg_NE (fp, node, ent); +} + +/* Similar, but NODE is the node at which to post the error, ENT is the node + to use for the "&" substitution, and N is the number to use for the ^. */ + +void +post_error_ne_num (const char *msg, Node_Id node, Entity_Id ent, int n) +{ + String_Template temp; + Fat_Pointer fp; + + temp.Low_Bound = 1, temp.High_Bound = strlen (msg); + fp.Array = msg, fp.Bounds = &temp; + Error_Msg_Uint_1 = UI_From_Int (n); + + if (Present (node)) + Error_Msg_NE (fp, node, ent); +} + +/* Similar to post_error_ne_num, but T is a GCC tree representing the + number to write. If the tree represents a constant that fits within + a host integer, the text inside curly brackets in MSG will be output + (presumably including a '^'). Otherwise that text will not be output + and the text inside square brackets will be output instead. */ + +void +post_error_ne_tree (const char *msg, Node_Id node, Entity_Id ent, tree t) +{ + char *newmsg = XALLOCAVEC (char, strlen (msg) + 1); + String_Template temp = {1, 0}; + Fat_Pointer fp; + char start_yes, end_yes, start_no, end_no; + const char *p; + char *q; + + fp.Array = newmsg, fp.Bounds = &temp; + + if (host_integerp (t, 1) +#if HOST_BITS_PER_WIDE_INT > HOST_BITS_PER_INT + && + compare_tree_int + (t, (((unsigned HOST_WIDE_INT) 1 << (HOST_BITS_PER_INT - 1)) - 1)) < 0 +#endif + ) + { + Error_Msg_Uint_1 = UI_From_Int (tree_low_cst (t, 1)); + start_yes = '{', end_yes = '}', start_no = '[', end_no = ']'; + } + else + start_yes = '[', end_yes = ']', start_no = '{', end_no = '}'; + + for (p = msg, q = newmsg; *p; p++) + { + if (*p == start_yes) + for (p++; *p != end_yes; p++) + *q++ = *p; + else if (*p == start_no) + for (p++; *p != end_no; p++) + ; + else + *q++ = *p; + } + + *q = 0; + + temp.High_Bound = strlen (newmsg); + if (Present (node)) + Error_Msg_NE (fp, node, ent); +} + +/* Similar to post_error_ne_tree, except that NUM is a second + integer to write in the message. */ + +void +post_error_ne_tree_2 (const char *msg, + Node_Id node, + Entity_Id ent, + tree t, + int num) +{ + Error_Msg_Uint_2 = UI_From_Int (num); + post_error_ne_tree (msg, node, ent, t); +} + +/* Initialize the table that maps GNAT codes to GCC codes for simple + binary and unary operations. */ + +static void +init_code_table (void) +{ + gnu_codes[N_And_Then] = TRUTH_ANDIF_EXPR; + gnu_codes[N_Or_Else] = TRUTH_ORIF_EXPR; + + gnu_codes[N_Op_And] = TRUTH_AND_EXPR; + gnu_codes[N_Op_Or] = TRUTH_OR_EXPR; + gnu_codes[N_Op_Xor] = TRUTH_XOR_EXPR; + gnu_codes[N_Op_Eq] = EQ_EXPR; + gnu_codes[N_Op_Ne] = NE_EXPR; + gnu_codes[N_Op_Lt] = LT_EXPR; + gnu_codes[N_Op_Le] = LE_EXPR; + gnu_codes[N_Op_Gt] = GT_EXPR; + gnu_codes[N_Op_Ge] = GE_EXPR; + gnu_codes[N_Op_Add] = PLUS_EXPR; + gnu_codes[N_Op_Subtract] = MINUS_EXPR; + gnu_codes[N_Op_Multiply] = MULT_EXPR; + gnu_codes[N_Op_Mod] = FLOOR_MOD_EXPR; + gnu_codes[N_Op_Rem] = TRUNC_MOD_EXPR; + gnu_codes[N_Op_Minus] = NEGATE_EXPR; + gnu_codes[N_Op_Abs] = ABS_EXPR; + gnu_codes[N_Op_Not] = TRUTH_NOT_EXPR; + gnu_codes[N_Op_Rotate_Left] = LROTATE_EXPR; + gnu_codes[N_Op_Rotate_Right] = RROTATE_EXPR; + gnu_codes[N_Op_Shift_Left] = LSHIFT_EXPR; + gnu_codes[N_Op_Shift_Right] = RSHIFT_EXPR; + gnu_codes[N_Op_Shift_Right_Arithmetic] = RSHIFT_EXPR; +} + +/* Return a label to branch to for the exception type in KIND or NULL_TREE + if none. */ + +tree +get_exception_label (char kind) +{ + if (kind == N_Raise_Constraint_Error) + return TREE_VALUE (gnu_constraint_error_label_stack); + else if (kind == N_Raise_Storage_Error) + return TREE_VALUE (gnu_storage_error_label_stack); + else if (kind == N_Raise_Program_Error) + return TREE_VALUE (gnu_program_error_label_stack); + else + return NULL_TREE; +} + +#include "gt-ada-trans.h" diff --git a/gcc/ada/gcc-interface/utils.c b/gcc/ada/gcc-interface/utils.c new file mode 100644 index 00000000000..4188d38831e --- /dev/null +++ b/gcc/ada/gcc-interface/utils.c @@ -0,0 +1,4895 @@ +/**************************************************************************** + * * + * GNAT COMPILER COMPONENTS * + * * + * U T I L S * + * * + * C Implementation File * + * * + * Copyright (C) 1992-2008, Free Software Foundation, Inc. * + * * + * GNAT is free software; you can redistribute it and/or modify it under * + * terms of the GNU General Public License as published by the Free Soft- * + * ware Foundation; either version 3, or (at your option) any later ver- * + * sion. GNAT is distributed in the hope that it will be useful, but WITH- * + * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * + * for more details. You should have received a copy of the GNU General * + * Public License along with GCC; see the file COPYING3. If not see * + * . * + * * + * GNAT was originally developed by the GNAT team at New York University. * + * Extensive contributions were provided by Ada Core Technologies Inc. * + * * + ****************************************************************************/ + +/* We have attribute handlers using C specific format specifiers in warning + messages. Make sure they are properly recognized. */ +#define GCC_DIAG_STYLE __gcc_cdiag__ + +#include "config.h" +#include "system.h" +#include "coretypes.h" +#include "tm.h" +#include "tree.h" +#include "flags.h" +#include "defaults.h" +#include "toplev.h" +#include "output.h" +#include "ggc.h" +#include "debug.h" +#include "convert.h" +#include "target.h" +#include "function.h" +#include "cgraph.h" +#include "tree-inline.h" +#include "tree-iterator.h" +#include "gimple.h" +#include "tree-dump.h" +#include "pointer-set.h" +#include "langhooks.h" + +#include "ada.h" +#include "types.h" +#include "atree.h" +#include "elists.h" +#include "namet.h" +#include "nlists.h" +#include "stringt.h" +#include "uintp.h" +#include "fe.h" +#include "sinfo.h" +#include "einfo.h" +#include "ada-tree.h" +#include "gigi.h" + +#ifndef MAX_FIXED_MODE_SIZE +#define MAX_FIXED_MODE_SIZE GET_MODE_BITSIZE (DImode) +#endif + +#ifndef MAX_BITS_PER_WORD +#define MAX_BITS_PER_WORD BITS_PER_WORD +#endif + +/* If nonzero, pretend we are allocating at global level. */ +int force_global; + +/* Tree nodes for the various types and decls we create. */ +tree gnat_std_decls[(int) ADT_LAST]; + +/* Functions to call for each of the possible raise reasons. */ +tree gnat_raise_decls[(int) LAST_REASON_CODE + 1]; + +/* Forward declarations for handlers of attributes. */ +static tree handle_const_attribute (tree *, tree, tree, int, bool *); +static tree handle_nothrow_attribute (tree *, tree, tree, int, bool *); +static tree handle_pure_attribute (tree *, tree, tree, int, bool *); +static tree handle_novops_attribute (tree *, tree, tree, int, bool *); +static tree handle_nonnull_attribute (tree *, tree, tree, int, bool *); +static tree handle_sentinel_attribute (tree *, tree, tree, int, bool *); +static tree handle_noreturn_attribute (tree *, tree, tree, int, bool *); +static tree handle_malloc_attribute (tree *, tree, tree, int, bool *); +static tree handle_type_generic_attribute (tree *, tree, tree, int, bool *); + +/* Fake handler for attributes we don't properly support, typically because + they'd require dragging a lot of the common-c front-end circuitry. */ +static tree fake_attribute_handler (tree *, tree, tree, int, bool *); + +/* Table of machine-independent internal attributes for Ada. We support + this minimal set of attributes to accommodate the needs of builtins. */ +const struct attribute_spec gnat_internal_attribute_table[] = +{ + /* { name, min_len, max_len, decl_req, type_req, fn_type_req, handler } */ + { "const", 0, 0, true, false, false, handle_const_attribute }, + { "nothrow", 0, 0, true, false, false, handle_nothrow_attribute }, + { "pure", 0, 0, true, false, false, handle_pure_attribute }, + { "no vops", 0, 0, true, false, false, handle_novops_attribute }, + { "nonnull", 0, -1, false, true, true, handle_nonnull_attribute }, + { "sentinel", 0, 1, false, true, true, handle_sentinel_attribute }, + { "noreturn", 0, 0, true, false, false, handle_noreturn_attribute }, + { "malloc", 0, 0, true, false, false, handle_malloc_attribute }, + { "type generic", 0, 0, false, true, true, handle_type_generic_attribute }, + + /* ??? format and format_arg are heavy and not supported, which actually + prevents support for stdio builtins, which we however declare as part + of the common builtins.def contents. */ + { "format", 3, 3, false, true, true, fake_attribute_handler }, + { "format_arg", 1, 1, false, true, true, fake_attribute_handler }, + + { NULL, 0, 0, false, false, false, NULL } +}; + +/* Associates a GNAT tree node to a GCC tree node. It is used in + `save_gnu_tree', `get_gnu_tree' and `present_gnu_tree'. See documentation + of `save_gnu_tree' for more info. */ +static GTY((length ("max_gnat_nodes"))) tree *associate_gnat_to_gnu; + +#define GET_GNU_TREE(GNAT_ENTITY) \ + associate_gnat_to_gnu[(GNAT_ENTITY) - First_Node_Id] + +#define SET_GNU_TREE(GNAT_ENTITY,VAL) \ + associate_gnat_to_gnu[(GNAT_ENTITY) - First_Node_Id] = (VAL) + +#define PRESENT_GNU_TREE(GNAT_ENTITY) \ + (associate_gnat_to_gnu[(GNAT_ENTITY) - First_Node_Id] != NULL_TREE) + +/* Associates a GNAT entity to a GCC tree node used as a dummy, if any. */ +static GTY((length ("max_gnat_nodes"))) tree *dummy_node_table; + +#define GET_DUMMY_NODE(GNAT_ENTITY) \ + dummy_node_table[(GNAT_ENTITY) - First_Node_Id] + +#define SET_DUMMY_NODE(GNAT_ENTITY,VAL) \ + dummy_node_table[(GNAT_ENTITY) - First_Node_Id] = (VAL) + +#define PRESENT_DUMMY_NODE(GNAT_ENTITY) \ + (dummy_node_table[(GNAT_ENTITY) - First_Node_Id] != NULL_TREE) + +/* This variable keeps a table for types for each precision so that we only + allocate each of them once. Signed and unsigned types are kept separate. + + Note that these types are only used when fold-const requests something + special. Perhaps we should NOT share these types; we'll see how it + goes later. */ +static GTY(()) tree signed_and_unsigned_types[2 * MAX_BITS_PER_WORD + 1][2]; + +/* Likewise for float types, but record these by mode. */ +static GTY(()) tree float_types[NUM_MACHINE_MODES]; + +/* For each binding contour we allocate a binding_level structure to indicate + the binding depth. */ + +struct gnat_binding_level GTY((chain_next ("%h.chain"))) +{ + /* The binding level containing this one (the enclosing binding level). */ + struct gnat_binding_level *chain; + /* The BLOCK node for this level. */ + tree block; + /* If nonzero, the setjmp buffer that needs to be updated for any + variable-sized definition within this context. */ + tree jmpbuf_decl; +}; + +/* The binding level currently in effect. */ +static GTY(()) struct gnat_binding_level *current_binding_level; + +/* A chain of gnat_binding_level structures awaiting reuse. */ +static GTY((deletable)) struct gnat_binding_level *free_binding_level; + +/* An array of global declarations. */ +static GTY(()) VEC(tree,gc) *global_decls; + +/* An array of builtin function declarations. */ +static GTY(()) VEC(tree,gc) *builtin_decls; + +/* An array of global renaming pointers. */ +static GTY(()) VEC(tree,gc) *global_renaming_pointers; + +/* A chain of unused BLOCK nodes. */ +static GTY((deletable)) tree free_block_chain; + +static void gnat_install_builtins (void); +static tree merge_sizes (tree, tree, tree, bool, bool); +static tree compute_related_constant (tree, tree); +static tree split_plus (tree, tree *); +static void gnat_gimplify_function (tree); +static tree float_type_for_precision (int, enum machine_mode); +static tree convert_to_fat_pointer (tree, tree); +static tree convert_to_thin_pointer (tree, tree); +static tree make_descriptor_field (const char *,tree, tree, tree); +static bool potential_alignment_gap (tree, tree, tree); + +/* Initialize the association of GNAT nodes to GCC trees. */ + +void +init_gnat_to_gnu (void) +{ + associate_gnat_to_gnu + = (tree *) ggc_alloc_cleared (max_gnat_nodes * sizeof (tree)); +} + +/* GNAT_ENTITY is a GNAT tree node for an entity. GNU_DECL is the GCC tree + which is to be associated with GNAT_ENTITY. Such GCC tree node is always + a ..._DECL node. If NO_CHECK is nonzero, the latter check is suppressed. + + If GNU_DECL is zero, a previous association is to be reset. */ + +void +save_gnu_tree (Entity_Id gnat_entity, tree gnu_decl, bool no_check) +{ + /* Check that GNAT_ENTITY is not already defined and that it is being set + to something which is a decl. Raise gigi 401 if not. Usually, this + means GNAT_ENTITY is defined twice, but occasionally is due to some + Gigi problem. */ + gcc_assert (!(gnu_decl + && (PRESENT_GNU_TREE (gnat_entity) + || (!no_check && !DECL_P (gnu_decl))))); + + SET_GNU_TREE (gnat_entity, gnu_decl); +} + +/* GNAT_ENTITY is a GNAT tree node for a defining identifier. + Return the ..._DECL node that was associated with it. If there is no tree + node associated with GNAT_ENTITY, abort. + + In some cases, such as delayed elaboration or expressions that need to + be elaborated only once, GNAT_ENTITY is really not an entity. */ + +tree +get_gnu_tree (Entity_Id gnat_entity) +{ + gcc_assert (PRESENT_GNU_TREE (gnat_entity)); + return GET_GNU_TREE (gnat_entity); +} + +/* Return nonzero if a GCC tree has been associated with GNAT_ENTITY. */ + +bool +present_gnu_tree (Entity_Id gnat_entity) +{ + return PRESENT_GNU_TREE (gnat_entity); +} + +/* Initialize the association of GNAT nodes to GCC trees as dummies. */ + +void +init_dummy_type (void) +{ + dummy_node_table + = (tree *) ggc_alloc_cleared (max_gnat_nodes * sizeof (tree)); +} + +/* Make a dummy type corresponding to GNAT_TYPE. */ + +tree +make_dummy_type (Entity_Id gnat_type) +{ + Entity_Id gnat_underlying = Gigi_Equivalent_Type (gnat_type); + tree gnu_type; + + /* If there is an equivalent type, get its underlying type. */ + if (Present (gnat_underlying)) + gnat_underlying = Underlying_Type (gnat_underlying); + + /* If there was no equivalent type (can only happen when just annotating + types) or underlying type, go back to the original type. */ + if (No (gnat_underlying)) + gnat_underlying = gnat_type; + + /* If it there already a dummy type, use that one. Else make one. */ + if (PRESENT_DUMMY_NODE (gnat_underlying)) + return GET_DUMMY_NODE (gnat_underlying); + + /* If this is a record, make a RECORD_TYPE or UNION_TYPE; else make + an ENUMERAL_TYPE. */ + gnu_type = make_node (Is_Record_Type (gnat_underlying) + ? tree_code_for_record_type (gnat_underlying) + : ENUMERAL_TYPE); + TYPE_NAME (gnu_type) = get_entity_name (gnat_type); + TYPE_DUMMY_P (gnu_type) = 1; + if (AGGREGATE_TYPE_P (gnu_type)) + { + TYPE_STUB_DECL (gnu_type) = build_decl (TYPE_DECL, NULL_TREE, gnu_type); + TYPE_BY_REFERENCE_P (gnu_type) = Is_By_Reference_Type (gnat_type); + } + + SET_DUMMY_NODE (gnat_underlying, gnu_type); + + return gnu_type; +} + +/* Return nonzero if we are currently in the global binding level. */ + +int +global_bindings_p (void) +{ + return ((force_global || !current_function_decl) ? -1 : 0); +} + +/* Enter a new binding level. */ + +void +gnat_pushlevel () +{ + struct gnat_binding_level *newlevel = NULL; + + /* Reuse a struct for this binding level, if there is one. */ + if (free_binding_level) + { + newlevel = free_binding_level; + free_binding_level = free_binding_level->chain; + } + else + newlevel + = (struct gnat_binding_level *) + ggc_alloc (sizeof (struct gnat_binding_level)); + + /* Use a free BLOCK, if any; otherwise, allocate one. */ + if (free_block_chain) + { + newlevel->block = free_block_chain; + free_block_chain = BLOCK_CHAIN (free_block_chain); + BLOCK_CHAIN (newlevel->block) = NULL_TREE; + } + else + newlevel->block = make_node (BLOCK); + + /* Point the BLOCK we just made to its parent. */ + if (current_binding_level) + BLOCK_SUPERCONTEXT (newlevel->block) = current_binding_level->block; + + BLOCK_VARS (newlevel->block) = BLOCK_SUBBLOCKS (newlevel->block) = NULL_TREE; + TREE_USED (newlevel->block) = 1; + + /* Add this level to the front of the chain (stack) of levels that are + active. */ + newlevel->chain = current_binding_level; + newlevel->jmpbuf_decl = NULL_TREE; + current_binding_level = newlevel; +} + +/* Set SUPERCONTEXT of the BLOCK for the current binding level to FNDECL + and point FNDECL to this BLOCK. */ + +void +set_current_block_context (tree fndecl) +{ + BLOCK_SUPERCONTEXT (current_binding_level->block) = fndecl; + DECL_INITIAL (fndecl) = current_binding_level->block; +} + +/* Set the jmpbuf_decl for the current binding level to DECL. */ + +void +set_block_jmpbuf_decl (tree decl) +{ + current_binding_level->jmpbuf_decl = decl; +} + +/* Get the jmpbuf_decl, if any, for the current binding level. */ + +tree +get_block_jmpbuf_decl () +{ + return current_binding_level->jmpbuf_decl; +} + +/* Exit a binding level. Set any BLOCK into the current code group. */ + +void +gnat_poplevel () +{ + struct gnat_binding_level *level = current_binding_level; + tree block = level->block; + + BLOCK_VARS (block) = nreverse (BLOCK_VARS (block)); + BLOCK_SUBBLOCKS (block) = nreverse (BLOCK_SUBBLOCKS (block)); + + /* If this is a function-level BLOCK don't do anything. Otherwise, if there + are no variables free the block and merge its subblocks into those of its + parent block. Otherwise, add it to the list of its parent. */ + if (TREE_CODE (BLOCK_SUPERCONTEXT (block)) == FUNCTION_DECL) + ; + else if (BLOCK_VARS (block) == NULL_TREE) + { + BLOCK_SUBBLOCKS (level->chain->block) + = chainon (BLOCK_SUBBLOCKS (block), + BLOCK_SUBBLOCKS (level->chain->block)); + BLOCK_CHAIN (block) = free_block_chain; + free_block_chain = block; + } + else + { + BLOCK_CHAIN (block) = BLOCK_SUBBLOCKS (level->chain->block); + BLOCK_SUBBLOCKS (level->chain->block) = block; + TREE_USED (block) = 1; + set_block_for_group (block); + } + + /* Free this binding structure. */ + current_binding_level = level->chain; + level->chain = free_binding_level; + free_binding_level = level; +} + + +/* Records a ..._DECL node DECL as belonging to the current lexical scope + and uses GNAT_NODE for location information and propagating flags. */ + +void +gnat_pushdecl (tree decl, Node_Id gnat_node) +{ + /* If this decl is public external or at toplevel, there is no context. + But PARM_DECLs always go in the level of its function. */ + if (TREE_CODE (decl) != PARM_DECL + && ((DECL_EXTERNAL (decl) && TREE_PUBLIC (decl)) + || global_bindings_p ())) + DECL_CONTEXT (decl) = 0; + else + { + DECL_CONTEXT (decl) = current_function_decl; + + /* Functions imported in another function are not really nested. */ + if (TREE_CODE (decl) == FUNCTION_DECL && TREE_PUBLIC (decl)) + DECL_NO_STATIC_CHAIN (decl) = 1; + } + + TREE_NO_WARNING (decl) = (gnat_node == Empty || Warnings_Off (gnat_node)); + + /* Set the location of DECL and emit a declaration for it. */ + if (Present (gnat_node)) + Sloc_to_locus (Sloc (gnat_node), &DECL_SOURCE_LOCATION (decl)); + add_decl_expr (decl, gnat_node); + + /* Put the declaration on the list. The list of declarations is in reverse + order. The list will be reversed later. Put global variables in the + globals list and builtin functions in a dedicated list to speed up + further lookups. Don't put TYPE_DECLs for UNCONSTRAINED_ARRAY_TYPE into + the list, as they will cause trouble with the debugger and aren't needed + anyway. */ + if (TREE_CODE (decl) != TYPE_DECL + || TREE_CODE (TREE_TYPE (decl)) != UNCONSTRAINED_ARRAY_TYPE) + { + if (global_bindings_p ()) + { + VEC_safe_push (tree, gc, global_decls, decl); + + if (TREE_CODE (decl) == FUNCTION_DECL && DECL_BUILT_IN (decl)) + VEC_safe_push (tree, gc, builtin_decls, decl); + } + else + { + TREE_CHAIN (decl) = BLOCK_VARS (current_binding_level->block); + BLOCK_VARS (current_binding_level->block) = decl; + } + } + + /* For the declaration of a type, set its name if it either is not already + set, was set to an IDENTIFIER_NODE, indicating an internal name, + or if the previous type name was not derived from a source name. + We'd rather have the type named with a real name and all the pointer + types to the same object have the same POINTER_TYPE node. Code in the + equivalent function of c-decl.c makes a copy of the type node here, but + that may cause us trouble with incomplete types. We make an exception + for fat pointer types because the compiler automatically builds them + for unconstrained array types and the debugger uses them to represent + both these and pointers to these. */ + if (TREE_CODE (decl) == TYPE_DECL && DECL_NAME (decl)) + { + tree t = TREE_TYPE (decl); + + if (!TYPE_NAME (t) || TREE_CODE (TYPE_NAME (t)) == IDENTIFIER_NODE) + ; + else if (TYPE_FAT_POINTER_P (t)) + { + tree tt = build_variant_type_copy (t); + TYPE_NAME (tt) = decl; + TREE_USED (tt) = TREE_USED (t); + TREE_TYPE (decl) = tt; + DECL_ORIGINAL_TYPE (decl) = t; + t = NULL_TREE; + } + else if (DECL_ARTIFICIAL (TYPE_NAME (t)) && !DECL_ARTIFICIAL (decl)) + ; + else + t = NULL_TREE; + + /* Propagate the name to all the variants. This is needed for + the type qualifiers machinery to work properly. */ + if (t) + for (t = TYPE_MAIN_VARIANT (t); t; t = TYPE_NEXT_VARIANT (t)) + TYPE_NAME (t) = decl; + } +} + +/* Do little here. Set up the standard declarations later after the + front end has been run. */ + +void +gnat_init_decl_processing (void) +{ + /* Make the binding_level structure for global names. */ + current_function_decl = 0; + current_binding_level = 0; + free_binding_level = 0; + gnat_pushlevel (); + + build_common_tree_nodes (true, true); + + /* In Ada, we use a signed type for SIZETYPE. Use the signed type + corresponding to the size of Pmode. In most cases when ptr_mode and + Pmode differ, C will use the width of ptr_mode as sizetype. But we get + far better code using the width of Pmode. Make this here since we need + this before we can expand the GNAT types. */ + size_type_node = gnat_type_for_size (GET_MODE_BITSIZE (Pmode), 0); + set_sizetype (size_type_node); + build_common_tree_nodes_2 (0); + + ptr_void_type_node = build_pointer_type (void_type_node); +} + +/* Create the predefined scalar types such as `integer_type_node' needed + in the gcc back-end and initialize the global binding level. */ + +void +init_gigi_decls (tree long_long_float_type, tree exception_type) +{ + tree endlink, decl; + unsigned int i; + + /* Set the types that GCC and Gigi use from the front end. We would like + to do this for char_type_node, but it needs to correspond to the C + char type. */ + if (TREE_CODE (TREE_TYPE (long_long_float_type)) == INTEGER_TYPE) + { + /* In this case, the builtin floating point types are VAX float, + so make up a type for use. */ + longest_float_type_node = make_node (REAL_TYPE); + TYPE_PRECISION (longest_float_type_node) = LONG_DOUBLE_TYPE_SIZE; + layout_type (longest_float_type_node); + create_type_decl (get_identifier ("longest float type"), + longest_float_type_node, NULL, false, true, Empty); + } + else + longest_float_type_node = TREE_TYPE (long_long_float_type); + + except_type_node = TREE_TYPE (exception_type); + + unsigned_type_node = gnat_type_for_size (INT_TYPE_SIZE, 1); + create_type_decl (get_identifier ("unsigned int"), unsigned_type_node, + NULL, false, true, Empty); + + void_type_decl_node = create_type_decl (get_identifier ("void"), + void_type_node, NULL, false, true, + Empty); + + void_ftype = build_function_type (void_type_node, NULL_TREE); + ptr_void_ftype = build_pointer_type (void_ftype); + + /* Build the special descriptor type and its null node if needed. */ + if (TARGET_VTABLE_USES_DESCRIPTORS) + { + tree field_list = NULL_TREE, null_list = NULL_TREE; + int j; + + fdesc_type_node = make_node (RECORD_TYPE); + + for (j = 0; j < TARGET_VTABLE_USES_DESCRIPTORS; j++) + { + tree field = create_field_decl (NULL_TREE, ptr_void_ftype, + fdesc_type_node, 0, 0, 0, 1); + TREE_CHAIN (field) = field_list; + field_list = field; + null_list = tree_cons (field, null_pointer_node, null_list); + } + + finish_record_type (fdesc_type_node, nreverse (field_list), 0, false); + null_fdesc_node = gnat_build_constructor (fdesc_type_node, null_list); + } + + /* Now declare runtime functions. */ + endlink = tree_cons (NULL_TREE, void_type_node, NULL_TREE); + + /* malloc is a function declaration tree for a function to allocate + memory. */ + malloc_decl = create_subprog_decl (get_identifier ("__gnat_malloc"), + NULL_TREE, + build_function_type (ptr_void_type_node, + tree_cons (NULL_TREE, + sizetype, + endlink)), + NULL_TREE, false, true, true, NULL, + Empty); + DECL_IS_MALLOC (malloc_decl) = 1; + + /* malloc32 is a function declaration tree for a function to allocate + 32bit memory on a 64bit system. Needed only on 64bit VMS. */ + malloc32_decl = create_subprog_decl (get_identifier ("__gnat_malloc32"), + NULL_TREE, + build_function_type (ptr_void_type_node, + tree_cons (NULL_TREE, + sizetype, + endlink)), + NULL_TREE, false, true, true, NULL, + Empty); + DECL_IS_MALLOC (malloc32_decl) = 1; + + /* free is a function declaration tree for a function to free memory. */ + free_decl + = create_subprog_decl (get_identifier ("__gnat_free"), NULL_TREE, + build_function_type (void_type_node, + tree_cons (NULL_TREE, + ptr_void_type_node, + endlink)), + NULL_TREE, false, true, true, NULL, Empty); + + /* Make the types and functions used for exception processing. */ + jmpbuf_type + = build_array_type (gnat_type_for_mode (Pmode, 0), + build_index_type (build_int_cst (NULL_TREE, 5))); + create_type_decl (get_identifier ("JMPBUF_T"), jmpbuf_type, NULL, + true, true, Empty); + jmpbuf_ptr_type = build_pointer_type (jmpbuf_type); + + /* Functions to get and set the jumpbuf pointer for the current thread. */ + get_jmpbuf_decl + = create_subprog_decl + (get_identifier ("system__soft_links__get_jmpbuf_address_soft"), + NULL_TREE, build_function_type (jmpbuf_ptr_type, NULL_TREE), + NULL_TREE, false, true, true, NULL, Empty); + /* Avoid creating superfluous edges to __builtin_setjmp receivers. */ + DECL_PURE_P (get_jmpbuf_decl) = 1; + + set_jmpbuf_decl + = create_subprog_decl + (get_identifier ("system__soft_links__set_jmpbuf_address_soft"), + NULL_TREE, + build_function_type (void_type_node, + tree_cons (NULL_TREE, jmpbuf_ptr_type, endlink)), + NULL_TREE, false, true, true, NULL, Empty); + + /* Function to get the current exception. */ + get_excptr_decl + = create_subprog_decl + (get_identifier ("system__soft_links__get_gnat_exception"), + NULL_TREE, + build_function_type (build_pointer_type (except_type_node), NULL_TREE), + NULL_TREE, false, true, true, NULL, Empty); + /* Avoid creating superfluous edges to __builtin_setjmp receivers. */ + DECL_PURE_P (get_excptr_decl) = 1; + + /* Functions that raise exceptions. */ + raise_nodefer_decl + = create_subprog_decl + (get_identifier ("__gnat_raise_nodefer_with_msg"), NULL_TREE, + build_function_type (void_type_node, + tree_cons (NULL_TREE, + build_pointer_type (except_type_node), + endlink)), + NULL_TREE, false, true, true, NULL, Empty); + + /* Dummy objects to materialize "others" and "all others" in the exception + tables. These are exported by a-exexpr.adb, so see this unit for the + types to use. */ + + others_decl + = create_var_decl (get_identifier ("OTHERS"), + get_identifier ("__gnat_others_value"), + integer_type_node, 0, 1, 0, 1, 1, 0, Empty); + + all_others_decl + = create_var_decl (get_identifier ("ALL_OTHERS"), + get_identifier ("__gnat_all_others_value"), + integer_type_node, 0, 1, 0, 1, 1, 0, Empty); + + /* Hooks to call when entering/leaving an exception handler. */ + begin_handler_decl + = create_subprog_decl (get_identifier ("__gnat_begin_handler"), NULL_TREE, + build_function_type (void_type_node, + tree_cons (NULL_TREE, + ptr_void_type_node, + endlink)), + NULL_TREE, false, true, true, NULL, Empty); + + end_handler_decl + = create_subprog_decl (get_identifier ("__gnat_end_handler"), NULL_TREE, + build_function_type (void_type_node, + tree_cons (NULL_TREE, + ptr_void_type_node, + endlink)), + NULL_TREE, false, true, true, NULL, Empty); + + /* If in no exception handlers mode, all raise statements are redirected to + __gnat_last_chance_handler. No need to redefine raise_nodefer_decl, since + this procedure will never be called in this mode. */ + if (No_Exception_Handlers_Set ()) + { + decl + = create_subprog_decl + (get_identifier ("__gnat_last_chance_handler"), NULL_TREE, + build_function_type (void_type_node, + tree_cons (NULL_TREE, + build_pointer_type (char_type_node), + tree_cons (NULL_TREE, + integer_type_node, + endlink))), + NULL_TREE, false, true, true, NULL, Empty); + + for (i = 0; i < ARRAY_SIZE (gnat_raise_decls); i++) + gnat_raise_decls[i] = decl; + } + else + /* Otherwise, make one decl for each exception reason. */ + for (i = 0; i < ARRAY_SIZE (gnat_raise_decls); i++) + { + char name[17]; + + sprintf (name, "__gnat_rcheck_%.2d", i); + gnat_raise_decls[i] + = create_subprog_decl + (get_identifier (name), NULL_TREE, + build_function_type (void_type_node, + tree_cons (NULL_TREE, + build_pointer_type + (char_type_node), + tree_cons (NULL_TREE, + integer_type_node, + endlink))), + NULL_TREE, false, true, true, NULL, Empty); + } + + /* Indicate that these never return. */ + TREE_THIS_VOLATILE (raise_nodefer_decl) = 1; + TREE_SIDE_EFFECTS (raise_nodefer_decl) = 1; + TREE_TYPE (raise_nodefer_decl) + = build_qualified_type (TREE_TYPE (raise_nodefer_decl), + TYPE_QUAL_VOLATILE); + + for (i = 0; i < ARRAY_SIZE (gnat_raise_decls); i++) + { + TREE_THIS_VOLATILE (gnat_raise_decls[i]) = 1; + TREE_SIDE_EFFECTS (gnat_raise_decls[i]) = 1; + TREE_TYPE (gnat_raise_decls[i]) + = build_qualified_type (TREE_TYPE (gnat_raise_decls[i]), + TYPE_QUAL_VOLATILE); + } + + /* setjmp returns an integer and has one operand, which is a pointer to + a jmpbuf. */ + setjmp_decl + = create_subprog_decl + (get_identifier ("__builtin_setjmp"), NULL_TREE, + build_function_type (integer_type_node, + tree_cons (NULL_TREE, jmpbuf_ptr_type, endlink)), + NULL_TREE, false, true, true, NULL, Empty); + + DECL_BUILT_IN_CLASS (setjmp_decl) = BUILT_IN_NORMAL; + DECL_FUNCTION_CODE (setjmp_decl) = BUILT_IN_SETJMP; + + /* update_setjmp_buf updates a setjmp buffer from the current stack pointer + address. */ + update_setjmp_buf_decl + = create_subprog_decl + (get_identifier ("__builtin_update_setjmp_buf"), NULL_TREE, + build_function_type (void_type_node, + tree_cons (NULL_TREE, jmpbuf_ptr_type, endlink)), + NULL_TREE, false, true, true, NULL, Empty); + + DECL_BUILT_IN_CLASS (update_setjmp_buf_decl) = BUILT_IN_NORMAL; + DECL_FUNCTION_CODE (update_setjmp_buf_decl) = BUILT_IN_UPDATE_SETJMP_BUF; + + main_identifier_node = get_identifier ("main"); + + /* Install the builtins we might need, either internally or as + user available facilities for Intrinsic imports. */ + gnat_install_builtins (); +} + +/* Given a record type RECORD_TYPE and a chain of FIELD_DECL nodes FIELDLIST, + finish constructing the record or union type. If REP_LEVEL is zero, this + record has no representation clause and so will be entirely laid out here. + If REP_LEVEL is one, this record has a representation clause and has been + laid out already; only set the sizes and alignment. If REP_LEVEL is two, + this record is derived from a parent record and thus inherits its layout; + only make a pass on the fields to finalize them. If DO_NOT_FINALIZE is + true, the record type is expected to be modified afterwards so it will + not be sent to the back-end for finalization. */ + +void +finish_record_type (tree record_type, tree fieldlist, int rep_level, + bool do_not_finalize) +{ + enum tree_code code = TREE_CODE (record_type); + tree name = TYPE_NAME (record_type); + tree ada_size = bitsize_zero_node; + tree size = bitsize_zero_node; + bool had_size = TYPE_SIZE (record_type) != 0; + bool had_size_unit = TYPE_SIZE_UNIT (record_type) != 0; + bool had_align = TYPE_ALIGN (record_type) != 0; + tree field; + + if (name && TREE_CODE (name) == TYPE_DECL) + name = DECL_NAME (name); + + TYPE_FIELDS (record_type) = fieldlist; + TYPE_STUB_DECL (record_type) = build_decl (TYPE_DECL, name, record_type); + + /* We don't need both the typedef name and the record name output in + the debugging information, since they are the same. */ + DECL_ARTIFICIAL (TYPE_STUB_DECL (record_type)) = 1; + + /* Globally initialize the record first. If this is a rep'ed record, + that just means some initializations; otherwise, layout the record. */ + if (rep_level > 0) + { + TYPE_ALIGN (record_type) = MAX (BITS_PER_UNIT, TYPE_ALIGN (record_type)); + TYPE_MODE (record_type) = BLKmode; + + if (!had_size_unit) + TYPE_SIZE_UNIT (record_type) = size_zero_node; + if (!had_size) + TYPE_SIZE (record_type) = bitsize_zero_node; + + /* For all-repped records with a size specified, lay the QUAL_UNION_TYPE + out just like a UNION_TYPE, since the size will be fixed. */ + else if (code == QUAL_UNION_TYPE) + code = UNION_TYPE; + } + else + { + /* Ensure there isn't a size already set. There can be in an error + case where there is a rep clause but all fields have errors and + no longer have a position. */ + TYPE_SIZE (record_type) = 0; + layout_type (record_type); + } + + /* At this point, the position and size of each field is known. It was + either set before entry by a rep clause, or by laying out the type above. + + We now run a pass over the fields (in reverse order for QUAL_UNION_TYPEs) + to compute the Ada size; the GCC size and alignment (for rep'ed records + that are not padding types); and the mode (for rep'ed records). We also + clear the DECL_BIT_FIELD indication for the cases we know have not been + handled yet, and adjust DECL_NONADDRESSABLE_P accordingly. */ + + if (code == QUAL_UNION_TYPE) + fieldlist = nreverse (fieldlist); + + for (field = fieldlist; field; field = TREE_CHAIN (field)) + { + tree type = TREE_TYPE (field); + tree pos = bit_position (field); + tree this_size = DECL_SIZE (field); + tree this_ada_size; + + if ((TREE_CODE (type) == RECORD_TYPE + || TREE_CODE (type) == UNION_TYPE + || TREE_CODE (type) == QUAL_UNION_TYPE) + && !TYPE_IS_FAT_POINTER_P (type) + && !TYPE_CONTAINS_TEMPLATE_P (type) + && TYPE_ADA_SIZE (type)) + this_ada_size = TYPE_ADA_SIZE (type); + else + this_ada_size = this_size; + + /* Clear DECL_BIT_FIELD for the cases layout_decl does not handle. */ + if (DECL_BIT_FIELD (field) + && operand_equal_p (this_size, TYPE_SIZE (type), 0)) + { + unsigned int align = TYPE_ALIGN (type); + + /* In the general case, type alignment is required. */ + if (value_factor_p (pos, align)) + { + /* The enclosing record type must be sufficiently aligned. + Otherwise, if no alignment was specified for it and it + has been laid out already, bump its alignment to the + desired one if this is compatible with its size. */ + if (TYPE_ALIGN (record_type) >= align) + { + DECL_ALIGN (field) = MAX (DECL_ALIGN (field), align); + DECL_BIT_FIELD (field) = 0; + } + else if (!had_align + && rep_level == 0 + && value_factor_p (TYPE_SIZE (record_type), align)) + { + TYPE_ALIGN (record_type) = align; + DECL_ALIGN (field) = MAX (DECL_ALIGN (field), align); + DECL_BIT_FIELD (field) = 0; + } + } + + /* In the non-strict alignment case, only byte alignment is. */ + if (!STRICT_ALIGNMENT + && DECL_BIT_FIELD (field) + && value_factor_p (pos, BITS_PER_UNIT)) + DECL_BIT_FIELD (field) = 0; + } + + /* If we still have DECL_BIT_FIELD set at this point, we know the field + is technically not addressable. Except that it can actually be + addressed if the field is BLKmode and happens to be properly + aligned. */ + DECL_NONADDRESSABLE_P (field) + |= DECL_BIT_FIELD (field) && DECL_MODE (field) != BLKmode; + + /* A type must be as aligned as its most aligned field that is not + a bit-field. But this is already enforced by layout_type. */ + if (rep_level > 0 && !DECL_BIT_FIELD (field)) + TYPE_ALIGN (record_type) + = MAX (TYPE_ALIGN (record_type), DECL_ALIGN (field)); + + switch (code) + { + case UNION_TYPE: + ada_size = size_binop (MAX_EXPR, ada_size, this_ada_size); + size = size_binop (MAX_EXPR, size, this_size); + break; + + case QUAL_UNION_TYPE: + ada_size + = fold_build3 (COND_EXPR, bitsizetype, DECL_QUALIFIER (field), + this_ada_size, ada_size); + size = fold_build3 (COND_EXPR, bitsizetype, DECL_QUALIFIER (field), + this_size, size); + break; + + case RECORD_TYPE: + /* Since we know here that all fields are sorted in order of + increasing bit position, the size of the record is one + higher than the ending bit of the last field processed + unless we have a rep clause, since in that case we might + have a field outside a QUAL_UNION_TYPE that has a higher ending + position. So use a MAX in that case. Also, if this field is a + QUAL_UNION_TYPE, we need to take into account the previous size in + the case of empty variants. */ + ada_size + = merge_sizes (ada_size, pos, this_ada_size, + TREE_CODE (type) == QUAL_UNION_TYPE, rep_level > 0); + size + = merge_sizes (size, pos, this_size, + TREE_CODE (type) == QUAL_UNION_TYPE, rep_level > 0); + break; + + default: + gcc_unreachable (); + } + } + + if (code == QUAL_UNION_TYPE) + nreverse (fieldlist); + + if (rep_level < 2) + { + /* If this is a padding record, we never want to make the size smaller + than what was specified in it, if any. */ + if (TREE_CODE (record_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (record_type) && TYPE_SIZE (record_type)) + size = TYPE_SIZE (record_type); + + /* Now set any of the values we've just computed that apply. */ + if (!TYPE_IS_FAT_POINTER_P (record_type) + && !TYPE_CONTAINS_TEMPLATE_P (record_type)) + SET_TYPE_ADA_SIZE (record_type, ada_size); + + if (rep_level > 0) + { + tree size_unit = had_size_unit + ? TYPE_SIZE_UNIT (record_type) + : convert (sizetype, + size_binop (CEIL_DIV_EXPR, size, + bitsize_unit_node)); + unsigned int align = TYPE_ALIGN (record_type); + + TYPE_SIZE (record_type) = variable_size (round_up (size, align)); + TYPE_SIZE_UNIT (record_type) + = variable_size (round_up (size_unit, align / BITS_PER_UNIT)); + + compute_record_mode (record_type); + } + } + + if (!do_not_finalize) + rest_of_record_type_compilation (record_type); +} + +/* Wrap up compilation of RECORD_TYPE, i.e. most notably output all + the debug information associated with it. It need not be invoked + directly in most cases since finish_record_type takes care of doing + so, unless explicitly requested not to through DO_NOT_FINALIZE. */ + +void +rest_of_record_type_compilation (tree record_type) +{ + tree fieldlist = TYPE_FIELDS (record_type); + tree field; + enum tree_code code = TREE_CODE (record_type); + bool var_size = false; + + for (field = fieldlist; field; field = TREE_CHAIN (field)) + { + /* We need to make an XVE/XVU record if any field has variable size, + whether or not the record does. For example, if we have a union, + it may be that all fields, rounded up to the alignment, have the + same size, in which case we'll use that size. But the debug + output routines (except Dwarf2) won't be able to output the fields, + so we need to make the special record. */ + if (TREE_CODE (DECL_SIZE (field)) != INTEGER_CST + /* If a field has a non-constant qualifier, the record will have + variable size too. */ + || (code == QUAL_UNION_TYPE + && TREE_CODE (DECL_QUALIFIER (field)) != INTEGER_CST)) + { + var_size = true; + break; + } + } + + /* If this record is of variable size, rename it so that the + debugger knows it is and make a new, parallel, record + that tells the debugger how the record is laid out. See + exp_dbug.ads. But don't do this for records that are padding + since they confuse GDB. */ + if (var_size + && !(TREE_CODE (record_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (record_type))) + { + tree new_record_type + = make_node (TREE_CODE (record_type) == QUAL_UNION_TYPE + ? UNION_TYPE : TREE_CODE (record_type)); + tree orig_name = TYPE_NAME (record_type); + tree orig_id + = (TREE_CODE (orig_name) == TYPE_DECL ? DECL_NAME (orig_name) + : orig_name); + tree new_id + = concat_id_with_name (orig_id, + TREE_CODE (record_type) == QUAL_UNION_TYPE + ? "XVU" : "XVE"); + tree last_pos = bitsize_zero_node; + tree old_field; + tree prev_old_field = 0; + + TYPE_NAME (new_record_type) = new_id; + TYPE_ALIGN (new_record_type) = BIGGEST_ALIGNMENT; + TYPE_STUB_DECL (new_record_type) + = build_decl (TYPE_DECL, new_id, new_record_type); + DECL_ARTIFICIAL (TYPE_STUB_DECL (new_record_type)) = 1; + DECL_IGNORED_P (TYPE_STUB_DECL (new_record_type)) + = DECL_IGNORED_P (TYPE_STUB_DECL (record_type)); + TYPE_SIZE (new_record_type) = size_int (TYPE_ALIGN (record_type)); + TYPE_SIZE_UNIT (new_record_type) + = size_int (TYPE_ALIGN (record_type) / BITS_PER_UNIT); + + add_parallel_type (TYPE_STUB_DECL (record_type), new_record_type); + + /* Now scan all the fields, replacing each field with a new + field corresponding to the new encoding. */ + for (old_field = TYPE_FIELDS (record_type); old_field; + old_field = TREE_CHAIN (old_field)) + { + tree field_type = TREE_TYPE (old_field); + tree field_name = DECL_NAME (old_field); + tree new_field; + tree curpos = bit_position (old_field); + bool var = false; + unsigned int align = 0; + tree pos; + + /* See how the position was modified from the last position. + + There are two basic cases we support: a value was added + to the last position or the last position was rounded to + a boundary and they something was added. Check for the + first case first. If not, see if there is any evidence + of rounding. If so, round the last position and try + again. + + If this is a union, the position can be taken as zero. */ + + /* Some computations depend on the shape of the position expression, + so strip conversions to make sure it's exposed. */ + curpos = remove_conversions (curpos, true); + + if (TREE_CODE (new_record_type) == UNION_TYPE) + pos = bitsize_zero_node, align = 0; + else + pos = compute_related_constant (curpos, last_pos); + + if (!pos && TREE_CODE (curpos) == MULT_EXPR + && host_integerp (TREE_OPERAND (curpos, 1), 1)) + { + tree offset = TREE_OPERAND (curpos, 0); + align = tree_low_cst (TREE_OPERAND (curpos, 1), 1); + + /* An offset which is a bitwise AND with a negative power of 2 + means an alignment corresponding to this power of 2. */ + offset = remove_conversions (offset, true); + if (TREE_CODE (offset) == BIT_AND_EXPR + && host_integerp (TREE_OPERAND (offset, 1), 0) + && tree_int_cst_sgn (TREE_OPERAND (offset, 1)) < 0) + { + unsigned int pow + = - tree_low_cst (TREE_OPERAND (offset, 1), 0); + if (exact_log2 (pow) > 0) + align *= pow; + } + + pos = compute_related_constant (curpos, + round_up (last_pos, align)); + } + else if (!pos && TREE_CODE (curpos) == PLUS_EXPR + && TREE_CODE (TREE_OPERAND (curpos, 1)) == INTEGER_CST + && TREE_CODE (TREE_OPERAND (curpos, 0)) == MULT_EXPR + && host_integerp (TREE_OPERAND + (TREE_OPERAND (curpos, 0), 1), + 1)) + { + align + = tree_low_cst + (TREE_OPERAND (TREE_OPERAND (curpos, 0), 1), 1); + pos = compute_related_constant (curpos, + round_up (last_pos, align)); + } + else if (potential_alignment_gap (prev_old_field, old_field, + pos)) + { + align = TYPE_ALIGN (field_type); + pos = compute_related_constant (curpos, + round_up (last_pos, align)); + } + + /* If we can't compute a position, set it to zero. + + ??? We really should abort here, but it's too much work + to get this correct for all cases. */ + + if (!pos) + pos = bitsize_zero_node; + + /* See if this type is variable-sized and make a pointer type + and indicate the indirection if so. Beware that the debug + back-end may adjust the position computed above according + to the alignment of the field type, i.e. the pointer type + in this case, if we don't preventively counter that. */ + if (TREE_CODE (DECL_SIZE (old_field)) != INTEGER_CST) + { + field_type = build_pointer_type (field_type); + if (align != 0 && TYPE_ALIGN (field_type) > align) + { + field_type = copy_node (field_type); + TYPE_ALIGN (field_type) = align; + } + var = true; + } + + /* Make a new field name, if necessary. */ + if (var || align != 0) + { + char suffix[16]; + + if (align != 0) + sprintf (suffix, "XV%c%u", var ? 'L' : 'A', + align / BITS_PER_UNIT); + else + strcpy (suffix, "XVL"); + + field_name = concat_id_with_name (field_name, suffix); + } + + new_field = create_field_decl (field_name, field_type, + new_record_type, 0, + DECL_SIZE (old_field), pos, 0); + TREE_CHAIN (new_field) = TYPE_FIELDS (new_record_type); + TYPE_FIELDS (new_record_type) = new_field; + + /* If old_field is a QUAL_UNION_TYPE, take its size as being + zero. The only time it's not the last field of the record + is when there are other components at fixed positions after + it (meaning there was a rep clause for every field) and we + want to be able to encode them. */ + last_pos = size_binop (PLUS_EXPR, bit_position (old_field), + (TREE_CODE (TREE_TYPE (old_field)) + == QUAL_UNION_TYPE) + ? bitsize_zero_node + : DECL_SIZE (old_field)); + prev_old_field = old_field; + } + + TYPE_FIELDS (new_record_type) + = nreverse (TYPE_FIELDS (new_record_type)); + + rest_of_type_decl_compilation (TYPE_STUB_DECL (new_record_type)); + } + + rest_of_type_decl_compilation (TYPE_STUB_DECL (record_type)); +} + +/* Append PARALLEL_TYPE on the chain of parallel types for decl. */ + +void +add_parallel_type (tree decl, tree parallel_type) +{ + tree d = decl; + + while (DECL_PARALLEL_TYPE (d)) + d = TYPE_STUB_DECL (DECL_PARALLEL_TYPE (d)); + + SET_DECL_PARALLEL_TYPE (d, parallel_type); +} + +/* Return the parallel type associated to a type, if any. */ + +tree +get_parallel_type (tree type) +{ + if (TYPE_STUB_DECL (type)) + return DECL_PARALLEL_TYPE (TYPE_STUB_DECL (type)); + else + return NULL_TREE; +} + +/* Utility function of above to merge LAST_SIZE, the previous size of a record + with FIRST_BIT and SIZE that describe a field. SPECIAL is nonzero + if this represents a QUAL_UNION_TYPE in which case we must look for + COND_EXPRs and replace a value of zero with the old size. If HAS_REP + is nonzero, we must take the MAX of the end position of this field + with LAST_SIZE. In all other cases, we use FIRST_BIT plus SIZE. + + We return an expression for the size. */ + +static tree +merge_sizes (tree last_size, tree first_bit, tree size, bool special, + bool has_rep) +{ + tree type = TREE_TYPE (last_size); + tree new; + + if (!special || TREE_CODE (size) != COND_EXPR) + { + new = size_binop (PLUS_EXPR, first_bit, size); + if (has_rep) + new = size_binop (MAX_EXPR, last_size, new); + } + + else + new = fold_build3 (COND_EXPR, type, TREE_OPERAND (size, 0), + integer_zerop (TREE_OPERAND (size, 1)) + ? last_size : merge_sizes (last_size, first_bit, + TREE_OPERAND (size, 1), + 1, has_rep), + integer_zerop (TREE_OPERAND (size, 2)) + ? last_size : merge_sizes (last_size, first_bit, + TREE_OPERAND (size, 2), + 1, has_rep)); + + /* We don't need any NON_VALUE_EXPRs and they can confuse us (especially + when fed through substitute_in_expr) into thinking that a constant + size is not constant. */ + while (TREE_CODE (new) == NON_LVALUE_EXPR) + new = TREE_OPERAND (new, 0); + + return new; +} + +/* Utility function of above to see if OP0 and OP1, both of SIZETYPE, are + related by the addition of a constant. Return that constant if so. */ + +static tree +compute_related_constant (tree op0, tree op1) +{ + tree op0_var, op1_var; + tree op0_con = split_plus (op0, &op0_var); + tree op1_con = split_plus (op1, &op1_var); + tree result = size_binop (MINUS_EXPR, op0_con, op1_con); + + if (operand_equal_p (op0_var, op1_var, 0)) + return result; + else if (operand_equal_p (op0, size_binop (PLUS_EXPR, op1_var, result), 0)) + return result; + else + return 0; +} + +/* Utility function of above to split a tree OP which may be a sum, into a + constant part, which is returned, and a variable part, which is stored + in *PVAR. *PVAR may be bitsize_zero_node. All operations must be of + bitsizetype. */ + +static tree +split_plus (tree in, tree *pvar) +{ + /* Strip NOPS in order to ease the tree traversal and maximize the + potential for constant or plus/minus discovery. We need to be careful + to always return and set *pvar to bitsizetype trees, but it's worth + the effort. */ + STRIP_NOPS (in); + + *pvar = convert (bitsizetype, in); + + if (TREE_CODE (in) == INTEGER_CST) + { + *pvar = bitsize_zero_node; + return convert (bitsizetype, in); + } + else if (TREE_CODE (in) == PLUS_EXPR || TREE_CODE (in) == MINUS_EXPR) + { + tree lhs_var, rhs_var; + tree lhs_con = split_plus (TREE_OPERAND (in, 0), &lhs_var); + tree rhs_con = split_plus (TREE_OPERAND (in, 1), &rhs_var); + + if (lhs_var == TREE_OPERAND (in, 0) + && rhs_var == TREE_OPERAND (in, 1)) + return bitsize_zero_node; + + *pvar = size_binop (TREE_CODE (in), lhs_var, rhs_var); + return size_binop (TREE_CODE (in), lhs_con, rhs_con); + } + else + return bitsize_zero_node; +} + +/* Return a FUNCTION_TYPE node. RETURN_TYPE is the type returned by the + subprogram. If it is void_type_node, then we are dealing with a procedure, + otherwise we are dealing with a function. PARAM_DECL_LIST is a list of + PARM_DECL nodes that are the subprogram arguments. CICO_LIST is the + copy-in/copy-out list to be stored into TYPE_CICO_LIST. + RETURNS_UNCONSTRAINED is true if the function returns an unconstrained + object. RETURNS_BY_REF is true if the function returns by reference. + RETURNS_BY_TARGET_PTR is true if the function is to be passed (as its + first parameter) the address of the place to copy its result. */ + +tree +create_subprog_type (tree return_type, tree param_decl_list, tree cico_list, + bool returns_unconstrained, bool returns_by_ref, + bool returns_by_target_ptr) +{ + /* A chain of TREE_LIST nodes whose TREE_VALUEs are the data type nodes of + the subprogram formal parameters. This list is generated by traversing the + input list of PARM_DECL nodes. */ + tree param_type_list = NULL; + tree param_decl; + tree type; + + for (param_decl = param_decl_list; param_decl; + param_decl = TREE_CHAIN (param_decl)) + param_type_list = tree_cons (NULL_TREE, TREE_TYPE (param_decl), + param_type_list); + + /* The list of the function parameter types has to be terminated by the void + type to signal to the back-end that we are not dealing with a variable + parameter subprogram, but that the subprogram has a fixed number of + parameters. */ + param_type_list = tree_cons (NULL_TREE, void_type_node, param_type_list); + + /* The list of argument types has been created in reverse + so nreverse it. */ + param_type_list = nreverse (param_type_list); + + type = build_function_type (return_type, param_type_list); + + /* TYPE may have been shared since GCC hashes types. If it has a CICO_LIST + or the new type should, make a copy of TYPE. Likewise for + RETURNS_UNCONSTRAINED and RETURNS_BY_REF. */ + if (TYPE_CI_CO_LIST (type) || cico_list + || TYPE_RETURNS_UNCONSTRAINED_P (type) != returns_unconstrained + || TYPE_RETURNS_BY_REF_P (type) != returns_by_ref + || TYPE_RETURNS_BY_TARGET_PTR_P (type) != returns_by_target_ptr) + type = copy_type (type); + + TYPE_CI_CO_LIST (type) = cico_list; + TYPE_RETURNS_UNCONSTRAINED_P (type) = returns_unconstrained; + TYPE_RETURNS_BY_REF_P (type) = returns_by_ref; + TYPE_RETURNS_BY_TARGET_PTR_P (type) = returns_by_target_ptr; + return type; +} + +/* Return a copy of TYPE but safe to modify in any way. */ + +tree +copy_type (tree type) +{ + tree new = copy_node (type); + + /* copy_node clears this field instead of copying it, because it is + aliased with TREE_CHAIN. */ + TYPE_STUB_DECL (new) = TYPE_STUB_DECL (type); + + TYPE_POINTER_TO (new) = 0; + TYPE_REFERENCE_TO (new) = 0; + TYPE_MAIN_VARIANT (new) = new; + TYPE_NEXT_VARIANT (new) = 0; + + return new; +} + +/* Return an INTEGER_TYPE of SIZETYPE with range MIN to MAX and whose + TYPE_INDEX_TYPE is INDEX. GNAT_NODE is used for the position of + the decl. */ + +tree +create_index_type (tree min, tree max, tree index, Node_Id gnat_node) +{ + /* First build a type for the desired range. */ + tree type = build_index_2_type (min, max); + + /* If this type has the TYPE_INDEX_TYPE we want, return it. Otherwise, if it + doesn't have TYPE_INDEX_TYPE set, set it to INDEX. If TYPE_INDEX_TYPE + is set, but not to INDEX, make a copy of this type with the requested + index type. Note that we have no way of sharing these types, but that's + only a small hole. */ + if (TYPE_INDEX_TYPE (type) == index) + return type; + else if (TYPE_INDEX_TYPE (type)) + type = copy_type (type); + + SET_TYPE_INDEX_TYPE (type, index); + create_type_decl (NULL_TREE, type, NULL, true, false, gnat_node); + return type; +} + +/* Return a TYPE_DECL node. TYPE_NAME gives the name of the type (a character + string) and TYPE is a ..._TYPE node giving its data type. + ARTIFICIAL_P is true if this is a declaration that was generated + by the compiler. DEBUG_INFO_P is true if we need to write debugging + information about this type. GNAT_NODE is used for the position of + the decl. */ + +tree +create_type_decl (tree type_name, tree type, struct attrib *attr_list, + bool artificial_p, bool debug_info_p, Node_Id gnat_node) +{ + tree type_decl = build_decl (TYPE_DECL, type_name, type); + enum tree_code code = TREE_CODE (type); + + DECL_ARTIFICIAL (type_decl) = artificial_p; + + if (!TYPE_IS_DUMMY_P (type)) + gnat_pushdecl (type_decl, gnat_node); + + process_attributes (type_decl, attr_list); + + /* Pass type declaration information to the debugger unless this is an + UNCONSTRAINED_ARRAY_TYPE, which the debugger does not support, + and ENUMERAL_TYPE or RECORD_TYPE which is handled separately, or + type for which debugging information was not requested. */ + if (code == UNCONSTRAINED_ARRAY_TYPE || !debug_info_p) + DECL_IGNORED_P (type_decl) = 1; + else if (code != ENUMERAL_TYPE + && (code != RECORD_TYPE || TYPE_IS_FAT_POINTER_P (type)) + && !((code == POINTER_TYPE || code == REFERENCE_TYPE) + && TYPE_IS_DUMMY_P (TREE_TYPE (type)))) + rest_of_type_decl_compilation (type_decl); + + return type_decl; +} + +/* Return a VAR_DECL or CONST_DECL node. + + VAR_NAME gives the name of the variable. ASM_NAME is its assembler name + (if provided). TYPE is its data type (a GCC ..._TYPE node). VAR_INIT is + the GCC tree for an optional initial expression; NULL_TREE if none. + + CONST_FLAG is true if this variable is constant, in which case we might + return a CONST_DECL node unless CONST_DECL_ALLOWED_P is false. + + PUBLIC_FLAG is true if this is for a reference to a public entity or for a + definition to be made visible outside of the current compilation unit, for + instance variable definitions in a package specification. + + EXTERN_FLAG is nonzero when processing an external variable declaration (as + opposed to a definition: no storage is to be allocated for the variable). + + STATIC_FLAG is only relevant when not at top level. In that case + it indicates whether to always allocate storage to the variable. + + GNAT_NODE is used for the position of the decl. */ + +tree +create_var_decl_1 (tree var_name, tree asm_name, tree type, tree var_init, + bool const_flag, bool public_flag, bool extern_flag, + bool static_flag, bool const_decl_allowed_p, + struct attrib *attr_list, Node_Id gnat_node) +{ + bool init_const + = (var_init != 0 + && gnat_types_compatible_p (type, TREE_TYPE (var_init)) + && (global_bindings_p () || static_flag + ? initializer_constant_valid_p (var_init, TREE_TYPE (var_init)) != 0 + : TREE_CONSTANT (var_init))); + + /* Whether we will make TREE_CONSTANT the DECL we produce here, in which + case the initializer may be used in-lieu of the DECL node (as done in + Identifier_to_gnu). This is useful to prevent the need of elaboration + code when an identifier for which such a decl is made is in turn used as + an initializer. We used to rely on CONST vs VAR_DECL for this purpose, + but extra constraints apply to this choice (see below) and are not + relevant to the distinction we wish to make. */ + bool constant_p = const_flag && init_const; + + /* The actual DECL node. CONST_DECL was initially intended for enumerals + and may be used for scalars in general but not for aggregates. */ + tree var_decl + = build_decl ((constant_p && const_decl_allowed_p + && !AGGREGATE_TYPE_P (type)) ? CONST_DECL : VAR_DECL, + var_name, type); + + /* If this is external, throw away any initializations (they will be done + elsewhere) unless this is a constant for which we would like to remain + able to get the initializer. If we are defining a global here, leave a + constant initialization and save any variable elaborations for the + elaboration routine. If we are just annotating types, throw away the + initialization if it isn't a constant. */ + if ((extern_flag && !constant_p) + || (type_annotate_only && var_init && !TREE_CONSTANT (var_init))) + var_init = NULL_TREE; + + /* At the global level, an initializer requiring code to be generated + produces elaboration statements. Check that such statements are allowed, + that is, not violating a No_Elaboration_Code restriction. */ + if (global_bindings_p () && var_init != 0 && ! init_const) + Check_Elaboration_Code_Allowed (gnat_node); + + /* Ada doesn't feature Fortran-like COMMON variables so we shouldn't + try to fiddle with DECL_COMMON. However, on platforms that don't + support global BSS sections, uninitialized global variables would + go in DATA instead, thus increasing the size of the executable. */ + if (!flag_no_common + && TREE_CODE (var_decl) == VAR_DECL + && !have_global_bss_p ()) + DECL_COMMON (var_decl) = 1; + DECL_INITIAL (var_decl) = var_init; + TREE_READONLY (var_decl) = const_flag; + DECL_EXTERNAL (var_decl) = extern_flag; + TREE_PUBLIC (var_decl) = public_flag || extern_flag; + TREE_CONSTANT (var_decl) = constant_p; + TREE_THIS_VOLATILE (var_decl) = TREE_SIDE_EFFECTS (var_decl) + = TYPE_VOLATILE (type); + + /* If it's public and not external, always allocate storage for it. + At the global binding level we need to allocate static storage for the + variable if and only if it's not external. If we are not at the top level + we allocate automatic storage unless requested not to. */ + TREE_STATIC (var_decl) + = !extern_flag && (public_flag || static_flag || global_bindings_p ()); + + if (asm_name && VAR_OR_FUNCTION_DECL_P (var_decl)) + SET_DECL_ASSEMBLER_NAME (var_decl, asm_name); + + process_attributes (var_decl, attr_list); + + /* Add this decl to the current binding level. */ + gnat_pushdecl (var_decl, gnat_node); + + if (TREE_SIDE_EFFECTS (var_decl)) + TREE_ADDRESSABLE (var_decl) = 1; + + if (TREE_CODE (var_decl) != CONST_DECL) + { + if (global_bindings_p ()) + rest_of_decl_compilation (var_decl, true, 0); + } + else + expand_decl (var_decl); + + return var_decl; +} + +/* Return true if TYPE, an aggregate type, contains (or is) an array. */ + +static bool +aggregate_type_contains_array_p (tree type) +{ + switch (TREE_CODE (type)) + { + case RECORD_TYPE: + case UNION_TYPE: + case QUAL_UNION_TYPE: + { + tree field; + for (field = TYPE_FIELDS (type); field; field = TREE_CHAIN (field)) + if (AGGREGATE_TYPE_P (TREE_TYPE (field)) + && aggregate_type_contains_array_p (TREE_TYPE (field))) + return true; + return false; + } + + case ARRAY_TYPE: + return true; + + default: + gcc_unreachable (); + } +} + +/* Returns a FIELD_DECL node. FIELD_NAME the field name, FIELD_TYPE is its + type, and RECORD_TYPE is the type of the parent. PACKED is nonzero if + this field is in a record type with a "pragma pack". If SIZE is nonzero + it is the specified size for this field. If POS is nonzero, it is the bit + position. If ADDRESSABLE is nonzero, it means we are allowed to take + the address of this field for aliasing purposes. If it is negative, we + should not make a bitfield, which is used by make_aligning_type. */ + +tree +create_field_decl (tree field_name, tree field_type, tree record_type, + int packed, tree size, tree pos, int addressable) +{ + tree field_decl = build_decl (FIELD_DECL, field_name, field_type); + + DECL_CONTEXT (field_decl) = record_type; + TREE_READONLY (field_decl) = TYPE_READONLY (field_type); + + /* If FIELD_TYPE is BLKmode, we must ensure this is aligned to at least a + byte boundary since GCC cannot handle less-aligned BLKmode bitfields. + Likewise for an aggregate without specified position that contains an + array, because in this case slices of variable length of this array + must be handled by GCC and variable-sized objects need to be aligned + to at least a byte boundary. */ + if (packed && (TYPE_MODE (field_type) == BLKmode + || (!pos + && AGGREGATE_TYPE_P (field_type) + && aggregate_type_contains_array_p (field_type)))) + DECL_ALIGN (field_decl) = BITS_PER_UNIT; + + /* If a size is specified, use it. Otherwise, if the record type is packed + compute a size to use, which may differ from the object's natural size. + We always set a size in this case to trigger the checks for bitfield + creation below, which is typically required when no position has been + specified. */ + if (size) + size = convert (bitsizetype, size); + else if (packed == 1) + { + size = rm_size (field_type); + + /* For a constant size larger than MAX_FIXED_MODE_SIZE, round up to + byte. */ + if (TREE_CODE (size) == INTEGER_CST + && compare_tree_int (size, MAX_FIXED_MODE_SIZE) > 0) + size = round_up (size, BITS_PER_UNIT); + } + + /* If we may, according to ADDRESSABLE, make a bitfield if a size is + specified for two reasons: first if the size differs from the natural + size. Second, if the alignment is insufficient. There are a number of + ways the latter can be true. + + We never make a bitfield if the type of the field has a nonconstant size, + because no such entity requiring bitfield operations should reach here. + + We do *preventively* make a bitfield when there might be the need for it + but we don't have all the necessary information to decide, as is the case + of a field with no specified position in a packed record. + + We also don't look at STRICT_ALIGNMENT here, and rely on later processing + in layout_decl or finish_record_type to clear the bit_field indication if + it is in fact not needed. */ + if (addressable >= 0 + && size + && TREE_CODE (size) == INTEGER_CST + && TREE_CODE (TYPE_SIZE (field_type)) == INTEGER_CST + && (!tree_int_cst_equal (size, TYPE_SIZE (field_type)) + || (pos && !value_factor_p (pos, TYPE_ALIGN (field_type))) + || packed + || (TYPE_ALIGN (record_type) != 0 + && TYPE_ALIGN (record_type) < TYPE_ALIGN (field_type)))) + { + DECL_BIT_FIELD (field_decl) = 1; + DECL_SIZE (field_decl) = size; + if (!packed && !pos) + DECL_ALIGN (field_decl) + = (TYPE_ALIGN (record_type) != 0 + ? MIN (TYPE_ALIGN (record_type), TYPE_ALIGN (field_type)) + : TYPE_ALIGN (field_type)); + } + + DECL_PACKED (field_decl) = pos ? DECL_BIT_FIELD (field_decl) : packed; + + /* Bump the alignment if need be, either for bitfield/packing purposes or + to satisfy the type requirements if no such consideration applies. When + we get the alignment from the type, indicate if this is from an explicit + user request, which prevents stor-layout from lowering it later on. */ + { + int bit_align + = (DECL_BIT_FIELD (field_decl) ? 1 + : packed && TYPE_MODE (field_type) != BLKmode ? BITS_PER_UNIT : 0); + + if (bit_align > DECL_ALIGN (field_decl)) + DECL_ALIGN (field_decl) = bit_align; + else if (!bit_align && TYPE_ALIGN (field_type) > DECL_ALIGN (field_decl)) + { + DECL_ALIGN (field_decl) = TYPE_ALIGN (field_type); + DECL_USER_ALIGN (field_decl) = TYPE_USER_ALIGN (field_type); + } + } + + if (pos) + { + /* We need to pass in the alignment the DECL is known to have. + This is the lowest-order bit set in POS, but no more than + the alignment of the record, if one is specified. Note + that an alignment of 0 is taken as infinite. */ + unsigned int known_align; + + if (host_integerp (pos, 1)) + known_align = tree_low_cst (pos, 1) & - tree_low_cst (pos, 1); + else + known_align = BITS_PER_UNIT; + + if (TYPE_ALIGN (record_type) + && (known_align == 0 || known_align > TYPE_ALIGN (record_type))) + known_align = TYPE_ALIGN (record_type); + + layout_decl (field_decl, known_align); + SET_DECL_OFFSET_ALIGN (field_decl, + host_integerp (pos, 1) ? BIGGEST_ALIGNMENT + : BITS_PER_UNIT); + pos_from_bit (&DECL_FIELD_OFFSET (field_decl), + &DECL_FIELD_BIT_OFFSET (field_decl), + DECL_OFFSET_ALIGN (field_decl), pos); + + DECL_HAS_REP_P (field_decl) = 1; + } + + /* In addition to what our caller says, claim the field is addressable if we + know that its type is not suitable. + + The field may also be "technically" nonaddressable, meaning that even if + we attempt to take the field's address we will actually get the address + of a copy. This is the case for true bitfields, but the DECL_BIT_FIELD + value we have at this point is not accurate enough, so we don't account + for this here and let finish_record_type decide. */ + if (!type_for_nonaliased_component_p (field_type)) + addressable = 1; + + DECL_NONADDRESSABLE_P (field_decl) = !addressable; + + return field_decl; +} + +/* Returns a PARM_DECL node. PARAM_NAME is the name of the parameter, + PARAM_TYPE is its type. READONLY is true if the parameter is + readonly (either an In parameter or an address of a pass-by-ref + parameter). */ + +tree +create_param_decl (tree param_name, tree param_type, bool readonly) +{ + tree param_decl = build_decl (PARM_DECL, param_name, param_type); + + /* Honor targetm.calls.promote_prototypes(), as not doing so can + lead to various ABI violations. */ + if (targetm.calls.promote_prototypes (param_type) + && (TREE_CODE (param_type) == INTEGER_TYPE + || TREE_CODE (param_type) == ENUMERAL_TYPE) + && TYPE_PRECISION (param_type) < TYPE_PRECISION (integer_type_node)) + { + /* We have to be careful about biased types here. Make a subtype + of integer_type_node with the proper biasing. */ + if (TREE_CODE (param_type) == INTEGER_TYPE + && TYPE_BIASED_REPRESENTATION_P (param_type)) + { + param_type + = copy_type (build_range_type (integer_type_node, + TYPE_MIN_VALUE (param_type), + TYPE_MAX_VALUE (param_type))); + + TYPE_BIASED_REPRESENTATION_P (param_type) = 1; + } + else + param_type = integer_type_node; + } + + DECL_ARG_TYPE (param_decl) = param_type; + TREE_READONLY (param_decl) = readonly; + return param_decl; +} + +/* Given a DECL and ATTR_LIST, process the listed attributes. */ + +void +process_attributes (tree decl, struct attrib *attr_list) +{ + for (; attr_list; attr_list = attr_list->next) + switch (attr_list->type) + { + case ATTR_MACHINE_ATTRIBUTE: + decl_attributes (&decl, tree_cons (attr_list->name, attr_list->args, + NULL_TREE), + ATTR_FLAG_TYPE_IN_PLACE); + break; + + case ATTR_LINK_ALIAS: + if (! DECL_EXTERNAL (decl)) + { + TREE_STATIC (decl) = 1; + assemble_alias (decl, attr_list->name); + } + break; + + case ATTR_WEAK_EXTERNAL: + if (SUPPORTS_WEAK) + declare_weak (decl); + else + post_error ("?weak declarations not supported on this target", + attr_list->error_point); + break; + + case ATTR_LINK_SECTION: + if (targetm.have_named_sections) + { + DECL_SECTION_NAME (decl) + = build_string (IDENTIFIER_LENGTH (attr_list->name), + IDENTIFIER_POINTER (attr_list->name)); + DECL_COMMON (decl) = 0; + } + else + post_error ("?section attributes are not supported for this target", + attr_list->error_point); + break; + + case ATTR_LINK_CONSTRUCTOR: + DECL_STATIC_CONSTRUCTOR (decl) = 1; + TREE_USED (decl) = 1; + break; + + case ATTR_LINK_DESTRUCTOR: + DECL_STATIC_DESTRUCTOR (decl) = 1; + TREE_USED (decl) = 1; + break; + } +} + +/* Record a global renaming pointer. */ + +void +record_global_renaming_pointer (tree decl) +{ + gcc_assert (DECL_RENAMED_OBJECT (decl)); + VEC_safe_push (tree, gc, global_renaming_pointers, decl); +} + +/* Invalidate the global renaming pointers. */ + +void +invalidate_global_renaming_pointers (void) +{ + unsigned int i; + tree iter; + + for (i = 0; VEC_iterate(tree, global_renaming_pointers, i, iter); i++) + SET_DECL_RENAMED_OBJECT (iter, NULL_TREE); + + VEC_free (tree, gc, global_renaming_pointers); +} + +/* Return true if VALUE is a known to be a multiple of FACTOR, which must be + a power of 2. */ + +bool +value_factor_p (tree value, HOST_WIDE_INT factor) +{ + if (host_integerp (value, 1)) + return tree_low_cst (value, 1) % factor == 0; + + if (TREE_CODE (value) == MULT_EXPR) + return (value_factor_p (TREE_OPERAND (value, 0), factor) + || value_factor_p (TREE_OPERAND (value, 1), factor)); + + return false; +} + +/* Given 2 consecutive field decls PREV_FIELD and CURR_FIELD, return true + unless we can prove these 2 fields are laid out in such a way that no gap + exist between the end of PREV_FIELD and the beginning of CURR_FIELD. OFFSET + is the distance in bits between the end of PREV_FIELD and the starting + position of CURR_FIELD. It is ignored if null. */ + +static bool +potential_alignment_gap (tree prev_field, tree curr_field, tree offset) +{ + /* If this is the first field of the record, there cannot be any gap */ + if (!prev_field) + return false; + + /* If the previous field is a union type, then return False: The only + time when such a field is not the last field of the record is when + there are other components at fixed positions after it (meaning there + was a rep clause for every field), in which case we don't want the + alignment constraint to override them. */ + if (TREE_CODE (TREE_TYPE (prev_field)) == QUAL_UNION_TYPE) + return false; + + /* If the distance between the end of prev_field and the beginning of + curr_field is constant, then there is a gap if the value of this + constant is not null. */ + if (offset && host_integerp (offset, 1)) + return !integer_zerop (offset); + + /* If the size and position of the previous field are constant, + then check the sum of this size and position. There will be a gap + iff it is not multiple of the current field alignment. */ + if (host_integerp (DECL_SIZE (prev_field), 1) + && host_integerp (bit_position (prev_field), 1)) + return ((tree_low_cst (bit_position (prev_field), 1) + + tree_low_cst (DECL_SIZE (prev_field), 1)) + % DECL_ALIGN (curr_field) != 0); + + /* If both the position and size of the previous field are multiples + of the current field alignment, there cannot be any gap. */ + if (value_factor_p (bit_position (prev_field), DECL_ALIGN (curr_field)) + && value_factor_p (DECL_SIZE (prev_field), DECL_ALIGN (curr_field))) + return false; + + /* Fallback, return that there may be a potential gap */ + return true; +} + +/* Returns a LABEL_DECL node for LABEL_NAME. */ + +tree +create_label_decl (tree label_name) +{ + tree label_decl = build_decl (LABEL_DECL, label_name, void_type_node); + + DECL_CONTEXT (label_decl) = current_function_decl; + DECL_MODE (label_decl) = VOIDmode; + DECL_SOURCE_LOCATION (label_decl) = input_location; + + return label_decl; +} + +/* Returns a FUNCTION_DECL node. SUBPROG_NAME is the name of the subprogram, + ASM_NAME is its assembler name, SUBPROG_TYPE is its type (a FUNCTION_TYPE + node), PARAM_DECL_LIST is the list of the subprogram arguments (a list of + PARM_DECL nodes chained through the TREE_CHAIN field). + + INLINE_FLAG, PUBLIC_FLAG, EXTERN_FLAG, and ATTR_LIST are used to set the + appropriate fields in the FUNCTION_DECL. GNAT_NODE gives the location. */ + +tree +create_subprog_decl (tree subprog_name, tree asm_name, + tree subprog_type, tree param_decl_list, bool inline_flag, + bool public_flag, bool extern_flag, + struct attrib *attr_list, Node_Id gnat_node) +{ + tree return_type = TREE_TYPE (subprog_type); + tree subprog_decl = build_decl (FUNCTION_DECL, subprog_name, subprog_type); + + /* If this is a function nested inside an inlined external function, it + means we aren't going to compile the outer function unless it is + actually inlined, so do the same for us. */ + if (current_function_decl && DECL_INLINE (current_function_decl) + && DECL_EXTERNAL (current_function_decl)) + extern_flag = true; + + DECL_EXTERNAL (subprog_decl) = extern_flag; + TREE_PUBLIC (subprog_decl) = public_flag; + TREE_STATIC (subprog_decl) = 1; + TREE_READONLY (subprog_decl) = TYPE_READONLY (subprog_type); + TREE_THIS_VOLATILE (subprog_decl) = TYPE_VOLATILE (subprog_type); + TREE_SIDE_EFFECTS (subprog_decl) = TYPE_VOLATILE (subprog_type); + DECL_ARGUMENTS (subprog_decl) = param_decl_list; + DECL_RESULT (subprog_decl) = build_decl (RESULT_DECL, 0, return_type); + DECL_ARTIFICIAL (DECL_RESULT (subprog_decl)) = 1; + DECL_IGNORED_P (DECL_RESULT (subprog_decl)) = 1; + + /* TREE_ADDRESSABLE is set on the result type to request the use of the + target by-reference return mechanism. This is not supported all the + way down to RTL expansion with GCC 4, which ICEs on temporary creation + attempts with such a type and expects DECL_BY_REFERENCE to be set on + the RESULT_DECL instead - see gnat_genericize for more details. */ + if (TREE_ADDRESSABLE (TREE_TYPE (DECL_RESULT (subprog_decl)))) + { + tree result_decl = DECL_RESULT (subprog_decl); + + TREE_ADDRESSABLE (TREE_TYPE (result_decl)) = 0; + DECL_BY_REFERENCE (result_decl) = 1; + } + + if (inline_flag) + DECL_DECLARED_INLINE_P (subprog_decl) = 1; + + if (asm_name) + { + SET_DECL_ASSEMBLER_NAME (subprog_decl, asm_name); + + /* The expand_main_function circuitry expects "main_identifier_node" to + designate the DECL_NAME of the 'main' entry point, in turn expected + to be declared as the "main" function literally by default. Ada + program entry points are typically declared with a different name + within the binder generated file, exported as 'main' to satisfy the + system expectations. Redirect main_identifier_node in this case. */ + if (asm_name == main_identifier_node) + main_identifier_node = DECL_NAME (subprog_decl); + } + + process_attributes (subprog_decl, attr_list); + + /* Add this decl to the current binding level. */ + gnat_pushdecl (subprog_decl, gnat_node); + + /* Output the assembler code and/or RTL for the declaration. */ + rest_of_decl_compilation (subprog_decl, global_bindings_p (), 0); + + return subprog_decl; +} + +/* Set up the framework for generating code for SUBPROG_DECL, a subprogram + body. This routine needs to be invoked before processing the declarations + appearing in the subprogram. */ + +void +begin_subprog_body (tree subprog_decl) +{ + tree param_decl; + + current_function_decl = subprog_decl; + announce_function (subprog_decl); + + /* Enter a new binding level and show that all the parameters belong to + this function. */ + gnat_pushlevel (); + for (param_decl = DECL_ARGUMENTS (subprog_decl); param_decl; + param_decl = TREE_CHAIN (param_decl)) + DECL_CONTEXT (param_decl) = subprog_decl; + + make_decl_rtl (subprog_decl); + + /* We handle pending sizes via the elaboration of types, so we don't need to + save them. This causes them to be marked as part of the outer function + and then discarded. */ + get_pending_sizes (); +} + + +/* Helper for the genericization callback. Return a dereference of VAL + if it is of a reference type. */ + +static tree +convert_from_reference (tree val) +{ + tree value_type, ref; + + if (TREE_CODE (TREE_TYPE (val)) != REFERENCE_TYPE) + return val; + + value_type = TREE_TYPE (TREE_TYPE (val)); + ref = build1 (INDIRECT_REF, value_type, val); + + /* See if what we reference is CONST or VOLATILE, which requires + looking into array types to get to the component type. */ + + while (TREE_CODE (value_type) == ARRAY_TYPE) + value_type = TREE_TYPE (value_type); + + TREE_READONLY (ref) + = (TYPE_QUALS (value_type) & TYPE_QUAL_CONST); + TREE_THIS_VOLATILE (ref) + = (TYPE_QUALS (value_type) & TYPE_QUAL_VOLATILE); + + TREE_SIDE_EFFECTS (ref) + = (TREE_THIS_VOLATILE (ref) || TREE_SIDE_EFFECTS (val)); + + return ref; +} + +/* Helper for the genericization callback. Returns true if T denotes + a RESULT_DECL with DECL_BY_REFERENCE set. */ + +static inline bool +is_byref_result (tree t) +{ + return (TREE_CODE (t) == RESULT_DECL && DECL_BY_REFERENCE (t)); +} + + +/* Tree walking callback for gnat_genericize. Currently ... + + o Adjust references to the function's DECL_RESULT if it is marked + DECL_BY_REFERENCE and so has had its type turned into a reference + type at the end of the function compilation. */ + +static tree +gnat_genericize_r (tree *stmt_p, int *walk_subtrees, void *data) +{ + /* This implementation is modeled after what the C++ front-end is + doing, basis of the downstream passes behavior. */ + + tree stmt = *stmt_p; + struct pointer_set_t *p_set = (struct pointer_set_t*) data; + + /* If we have a direct mention of the result decl, dereference. */ + if (is_byref_result (stmt)) + { + *stmt_p = convert_from_reference (stmt); + *walk_subtrees = 0; + return NULL; + } + + /* Otherwise, no need to walk the same tree twice. */ + if (pointer_set_contains (p_set, stmt)) + { + *walk_subtrees = 0; + return NULL_TREE; + } + + /* If we are taking the address of what now is a reference, just get the + reference value. */ + if (TREE_CODE (stmt) == ADDR_EXPR + && is_byref_result (TREE_OPERAND (stmt, 0))) + { + *stmt_p = convert (TREE_TYPE (stmt), TREE_OPERAND (stmt, 0)); + *walk_subtrees = 0; + } + + /* Don't dereference an by-reference RESULT_DECL inside a RETURN_EXPR. */ + else if (TREE_CODE (stmt) == RETURN_EXPR + && TREE_OPERAND (stmt, 0) + && is_byref_result (TREE_OPERAND (stmt, 0))) + *walk_subtrees = 0; + + /* Don't look inside trees that cannot embed references of interest. */ + else if (IS_TYPE_OR_DECL_P (stmt)) + *walk_subtrees = 0; + + pointer_set_insert (p_set, *stmt_p); + + return NULL; +} + +/* Perform lowering of Ada trees to GENERIC. In particular: + + o Turn a DECL_BY_REFERENCE RESULT_DECL into a real by-reference decl + and adjust all the references to this decl accordingly. */ + +static void +gnat_genericize (tree fndecl) +{ + /* Prior to GCC 4, an explicit By_Reference result mechanism for a function + was handled by simply setting TREE_ADDRESSABLE on the result type. + Everything required to actually pass by invisible ref using the target + mechanism (e.g. extra parameter) was handled at RTL expansion time. + + This doesn't work with GCC 4 any more for several reasons. First, the + gimplification process might need the creation of temporaries of this + type, and the gimplifier ICEs on such attempts. Second, the middle-end + now relies on a different attribute for such cases (DECL_BY_REFERENCE on + RESULT/PARM_DECLs), and expects the user invisible by-reference-ness to + be explicitly accounted for by the front-end in the function body. + + We achieve the complete transformation in two steps: + + 1/ create_subprog_decl performs early attribute tweaks: it clears + TREE_ADDRESSABLE from the result type and sets DECL_BY_REFERENCE on + the result decl. The former ensures that the bit isn't set in the GCC + tree saved for the function, so prevents ICEs on temporary creation. + The latter we use here to trigger the rest of the processing. + + 2/ This function performs the type transformation on the result decl + and adjusts all the references to this decl from the function body + accordingly. + + Clearing TREE_ADDRESSABLE from the type differs from the C++ front-end + strategy, which escapes the gimplifier temporary creation issues by + creating it's own temporaries using TARGET_EXPR nodes. Our way relies + on simple specific support code in aggregate_value_p to look at the + target function result decl explicitly. */ + + struct pointer_set_t *p_set; + tree decl_result = DECL_RESULT (fndecl); + + if (!DECL_BY_REFERENCE (decl_result)) + return; + + /* Make the DECL_RESULT explicitly by-reference and adjust all the + occurrences in the function body using the common tree-walking facility. + We want to see every occurrence of the result decl to adjust the + referencing tree, so need to use our own pointer set to control which + trees should be visited again or not. */ + + p_set = pointer_set_create (); + + TREE_TYPE (decl_result) = build_reference_type (TREE_TYPE (decl_result)); + TREE_ADDRESSABLE (decl_result) = 0; + relayout_decl (decl_result); + + walk_tree (&DECL_SAVED_TREE (fndecl), gnat_genericize_r, p_set, NULL); + + pointer_set_destroy (p_set); +} + +/* Finish the definition of the current subprogram BODY and compile it all the + way to assembler language output. ELAB_P tells if this is called for an + elaboration routine, to be entirely discarded if empty. */ + +void +end_subprog_body (tree body, bool elab_p) +{ + tree fndecl = current_function_decl; + + /* Mark the BLOCK for this level as being for this function and pop the + level. Since the vars in it are the parameters, clear them. */ + BLOCK_VARS (current_binding_level->block) = 0; + BLOCK_SUPERCONTEXT (current_binding_level->block) = fndecl; + DECL_INITIAL (fndecl) = current_binding_level->block; + gnat_poplevel (); + + /* Deal with inline. If declared inline or we should default to inline, + set the flag in the decl. */ + DECL_INLINE (fndecl) = 1; + + /* We handle pending sizes via the elaboration of types, so we don't + need to save them. */ + get_pending_sizes (); + + /* Mark the RESULT_DECL as being in this subprogram. */ + DECL_CONTEXT (DECL_RESULT (fndecl)) = fndecl; + + DECL_SAVED_TREE (fndecl) = body; + + current_function_decl = DECL_CONTEXT (fndecl); + set_cfun (NULL); + + /* We cannot track the location of errors past this point. */ + error_gnat_node = Empty; + + /* If we're only annotating types, don't actually compile this function. */ + if (type_annotate_only) + return; + + /* Perform the required pre-gimplification transformations on the tree. */ + gnat_genericize (fndecl); + + /* We do different things for nested and non-nested functions. + ??? This should be in cgraph. */ + if (!DECL_CONTEXT (fndecl)) + { + gnat_gimplify_function (fndecl); + + /* If this is an empty elaboration proc, just discard the node. + Otherwise, compile further. */ + if (elab_p && empty_body_p (gimple_body (fndecl))) + cgraph_remove_node (cgraph_node (fndecl)); + else + cgraph_finalize_function (fndecl, false); + } + else + /* Register this function with cgraph just far enough to get it + added to our parent's nested function list. */ + (void) cgraph_node (fndecl); +} + +/* Convert FNDECL's code to GIMPLE and handle any nested functions. */ + +static void +gnat_gimplify_function (tree fndecl) +{ + struct cgraph_node *cgn; + + dump_function (TDI_original, fndecl); + gimplify_function_tree (fndecl); + dump_function (TDI_generic, fndecl); + + /* Convert all nested functions to GIMPLE now. We do things in this order + so that items like VLA sizes are expanded properly in the context of the + correct function. */ + cgn = cgraph_node (fndecl); + for (cgn = cgn->nested; cgn; cgn = cgn->next_nested) + gnat_gimplify_function (cgn->decl); +} + + +tree +gnat_builtin_function (tree decl) +{ + gnat_pushdecl (decl, Empty); + return decl; +} + +/* Return an integer type with the number of bits of precision given by + PRECISION. UNSIGNEDP is nonzero if the type is unsigned; otherwise + it is a signed type. */ + +tree +gnat_type_for_size (unsigned precision, int unsignedp) +{ + tree t; + char type_name[20]; + + if (precision <= 2 * MAX_BITS_PER_WORD + && signed_and_unsigned_types[precision][unsignedp]) + return signed_and_unsigned_types[precision][unsignedp]; + + if (unsignedp) + t = make_unsigned_type (precision); + else + t = make_signed_type (precision); + + if (precision <= 2 * MAX_BITS_PER_WORD) + signed_and_unsigned_types[precision][unsignedp] = t; + + if (!TYPE_NAME (t)) + { + sprintf (type_name, "%sSIGNED_%d", unsignedp ? "UN" : "", precision); + TYPE_NAME (t) = get_identifier (type_name); + } + + return t; +} + +/* Likewise for floating-point types. */ + +static tree +float_type_for_precision (int precision, enum machine_mode mode) +{ + tree t; + char type_name[20]; + + if (float_types[(int) mode]) + return float_types[(int) mode]; + + float_types[(int) mode] = t = make_node (REAL_TYPE); + TYPE_PRECISION (t) = precision; + layout_type (t); + + gcc_assert (TYPE_MODE (t) == mode); + if (!TYPE_NAME (t)) + { + sprintf (type_name, "FLOAT_%d", precision); + TYPE_NAME (t) = get_identifier (type_name); + } + + return t; +} + +/* Return a data type that has machine mode MODE. UNSIGNEDP selects + an unsigned type; otherwise a signed type is returned. */ + +tree +gnat_type_for_mode (enum machine_mode mode, int unsignedp) +{ + if (mode == BLKmode) + return NULL_TREE; + else if (mode == VOIDmode) + return void_type_node; + else if (COMPLEX_MODE_P (mode)) + return NULL_TREE; + else if (SCALAR_FLOAT_MODE_P (mode)) + return float_type_for_precision (GET_MODE_PRECISION (mode), mode); + else if (SCALAR_INT_MODE_P (mode)) + return gnat_type_for_size (GET_MODE_BITSIZE (mode), unsignedp); + else + return NULL_TREE; +} + +/* Return the unsigned version of a TYPE_NODE, a scalar type. */ + +tree +gnat_unsigned_type (tree type_node) +{ + tree type = gnat_type_for_size (TYPE_PRECISION (type_node), 1); + + if (TREE_CODE (type_node) == INTEGER_TYPE && TYPE_MODULAR_P (type_node)) + { + type = copy_node (type); + TREE_TYPE (type) = type_node; + } + else if (TREE_TYPE (type_node) + && TREE_CODE (TREE_TYPE (type_node)) == INTEGER_TYPE + && TYPE_MODULAR_P (TREE_TYPE (type_node))) + { + type = copy_node (type); + TREE_TYPE (type) = TREE_TYPE (type_node); + } + + return type; +} + +/* Return the signed version of a TYPE_NODE, a scalar type. */ + +tree +gnat_signed_type (tree type_node) +{ + tree type = gnat_type_for_size (TYPE_PRECISION (type_node), 0); + + if (TREE_CODE (type_node) == INTEGER_TYPE && TYPE_MODULAR_P (type_node)) + { + type = copy_node (type); + TREE_TYPE (type) = type_node; + } + else if (TREE_TYPE (type_node) + && TREE_CODE (TREE_TYPE (type_node)) == INTEGER_TYPE + && TYPE_MODULAR_P (TREE_TYPE (type_node))) + { + type = copy_node (type); + TREE_TYPE (type) = TREE_TYPE (type_node); + } + + return type; +} + +/* Return 1 if the types T1 and T2 are compatible, i.e. if they can be + transparently converted to each other. */ + +int +gnat_types_compatible_p (tree t1, tree t2) +{ + enum tree_code code; + + /* This is the default criterion. */ + if (TYPE_MAIN_VARIANT (t1) == TYPE_MAIN_VARIANT (t2)) + return 1; + + /* We only check structural equivalence here. */ + if ((code = TREE_CODE (t1)) != TREE_CODE (t2)) + return 0; + + /* Array types are also compatible if they are constrained and have + the same component type and the same domain. */ + if (code == ARRAY_TYPE + && TREE_TYPE (t1) == TREE_TYPE (t2) + && tree_int_cst_equal (TYPE_MIN_VALUE (TYPE_DOMAIN (t1)), + TYPE_MIN_VALUE (TYPE_DOMAIN (t2))) + && tree_int_cst_equal (TYPE_MAX_VALUE (TYPE_DOMAIN (t1)), + TYPE_MAX_VALUE (TYPE_DOMAIN (t2)))) + return 1; + + /* Padding record types are also compatible if they pad the same + type and have the same constant size. */ + if (code == RECORD_TYPE + && TYPE_IS_PADDING_P (t1) && TYPE_IS_PADDING_P (t2) + && TREE_TYPE (TYPE_FIELDS (t1)) == TREE_TYPE (TYPE_FIELDS (t2)) + && tree_int_cst_equal (TYPE_SIZE (t1), TYPE_SIZE (t2))) + return 1; + + return 0; +} + +/* EXP is an expression for the size of an object. If this size contains + discriminant references, replace them with the maximum (if MAX_P) or + minimum (if !MAX_P) possible value of the discriminant. */ + +tree +max_size (tree exp, bool max_p) +{ + enum tree_code code = TREE_CODE (exp); + tree type = TREE_TYPE (exp); + + switch (TREE_CODE_CLASS (code)) + { + case tcc_declaration: + case tcc_constant: + return exp; + + case tcc_vl_exp: + if (code == CALL_EXPR) + { + tree *argarray; + int i, n = call_expr_nargs (exp); + gcc_assert (n > 0); + + argarray = (tree *) alloca (n * sizeof (tree)); + for (i = 0; i < n; i++) + argarray[i] = max_size (CALL_EXPR_ARG (exp, i), max_p); + return build_call_array (type, CALL_EXPR_FN (exp), n, argarray); + } + break; + + case tcc_reference: + /* If this contains a PLACEHOLDER_EXPR, it is the thing we want to + modify. Otherwise, we treat it like a variable. */ + if (!CONTAINS_PLACEHOLDER_P (exp)) + return exp; + + type = TREE_TYPE (TREE_OPERAND (exp, 1)); + return + max_size (max_p ? TYPE_MAX_VALUE (type) : TYPE_MIN_VALUE (type), true); + + case tcc_comparison: + return max_p ? size_one_node : size_zero_node; + + case tcc_unary: + case tcc_binary: + case tcc_expression: + switch (TREE_CODE_LENGTH (code)) + { + case 1: + if (code == NON_LVALUE_EXPR) + return max_size (TREE_OPERAND (exp, 0), max_p); + else + return + fold_build1 (code, type, + max_size (TREE_OPERAND (exp, 0), + code == NEGATE_EXPR ? !max_p : max_p)); + + case 2: + if (code == COMPOUND_EXPR) + return max_size (TREE_OPERAND (exp, 1), max_p); + + /* Calculate "(A ? B : C) - D" as "A ? B - D : C - D" which + may provide a tighter bound on max_size. */ + if (code == MINUS_EXPR + && TREE_CODE (TREE_OPERAND (exp, 0)) == COND_EXPR) + { + tree lhs = fold_build2 (MINUS_EXPR, type, + TREE_OPERAND (TREE_OPERAND (exp, 0), 1), + TREE_OPERAND (exp, 1)); + tree rhs = fold_build2 (MINUS_EXPR, type, + TREE_OPERAND (TREE_OPERAND (exp, 0), 2), + TREE_OPERAND (exp, 1)); + return fold_build2 (max_p ? MAX_EXPR : MIN_EXPR, type, + max_size (lhs, max_p), + max_size (rhs, max_p)); + } + + { + tree lhs = max_size (TREE_OPERAND (exp, 0), max_p); + tree rhs = max_size (TREE_OPERAND (exp, 1), + code == MINUS_EXPR ? !max_p : max_p); + + /* Special-case wanting the maximum value of a MIN_EXPR. + In that case, if one side overflows, return the other. + sizetype is signed, but we know sizes are non-negative. + Likewise, handle a MINUS_EXPR or PLUS_EXPR with the LHS + overflowing or the maximum possible value and the RHS + a variable. */ + if (max_p + && code == MIN_EXPR + && TREE_CODE (rhs) == INTEGER_CST + && TREE_OVERFLOW (rhs)) + return lhs; + else if (max_p + && code == MIN_EXPR + && TREE_CODE (lhs) == INTEGER_CST + && TREE_OVERFLOW (lhs)) + return rhs; + else if ((code == MINUS_EXPR || code == PLUS_EXPR) + && ((TREE_CODE (lhs) == INTEGER_CST + && TREE_OVERFLOW (lhs)) + || operand_equal_p (lhs, TYPE_MAX_VALUE (type), 0)) + && !TREE_CONSTANT (rhs)) + return lhs; + else + return fold_build2 (code, type, lhs, rhs); + } + + case 3: + if (code == SAVE_EXPR) + return exp; + else if (code == COND_EXPR) + return fold_build2 (max_p ? MAX_EXPR : MIN_EXPR, type, + max_size (TREE_OPERAND (exp, 1), max_p), + max_size (TREE_OPERAND (exp, 2), max_p)); + } + + /* Other tree classes cannot happen. */ + default: + break; + } + + gcc_unreachable (); +} + +/* Build a template of type TEMPLATE_TYPE from the array bounds of ARRAY_TYPE. + EXPR is an expression that we can use to locate any PLACEHOLDER_EXPRs. + Return a constructor for the template. */ + +tree +build_template (tree template_type, tree array_type, tree expr) +{ + tree template_elts = NULL_TREE; + tree bound_list = NULL_TREE; + tree field; + + while (TREE_CODE (array_type) == RECORD_TYPE + && (TYPE_IS_PADDING_P (array_type) + || TYPE_JUSTIFIED_MODULAR_P (array_type))) + array_type = TREE_TYPE (TYPE_FIELDS (array_type)); + + if (TREE_CODE (array_type) == ARRAY_TYPE + || (TREE_CODE (array_type) == INTEGER_TYPE + && TYPE_HAS_ACTUAL_BOUNDS_P (array_type))) + bound_list = TYPE_ACTUAL_BOUNDS (array_type); + + /* First make the list for a CONSTRUCTOR for the template. Go down the + field list of the template instead of the type chain because this + array might be an Ada array of arrays and we can't tell where the + nested arrays stop being the underlying object. */ + + for (field = TYPE_FIELDS (template_type); field; + (bound_list + ? (bound_list = TREE_CHAIN (bound_list)) + : (array_type = TREE_TYPE (array_type))), + field = TREE_CHAIN (TREE_CHAIN (field))) + { + tree bounds, min, max; + + /* If we have a bound list, get the bounds from there. Likewise + for an ARRAY_TYPE. Otherwise, if expr is a PARM_DECL with + DECL_BY_COMPONENT_PTR_P, use the bounds of the field in the template. + This will give us a maximum range. */ + if (bound_list) + bounds = TREE_VALUE (bound_list); + else if (TREE_CODE (array_type) == ARRAY_TYPE) + bounds = TYPE_INDEX_TYPE (TYPE_DOMAIN (array_type)); + else if (expr && TREE_CODE (expr) == PARM_DECL + && DECL_BY_COMPONENT_PTR_P (expr)) + bounds = TREE_TYPE (field); + else + gcc_unreachable (); + + min = convert (TREE_TYPE (field), TYPE_MIN_VALUE (bounds)); + max = convert (TREE_TYPE (TREE_CHAIN (field)), TYPE_MAX_VALUE (bounds)); + + /* If either MIN or MAX involve a PLACEHOLDER_EXPR, we must + substitute it from OBJECT. */ + min = SUBSTITUTE_PLACEHOLDER_IN_EXPR (min, expr); + max = SUBSTITUTE_PLACEHOLDER_IN_EXPR (max, expr); + + template_elts = tree_cons (TREE_CHAIN (field), max, + tree_cons (field, min, template_elts)); + } + + return gnat_build_constructor (template_type, nreverse (template_elts)); +} + +/* Build a VMS descriptor from a Mechanism_Type, which must specify + a descriptor type, and the GCC type of an object. Each FIELD_DECL + in the type contains in its DECL_INITIAL the expression to use when + a constructor is made for the type. GNAT_ENTITY is an entity used + to print out an error message if the mechanism cannot be applied to + an object of that type and also for the name. */ + +tree +build_vms_descriptor (tree type, Mechanism_Type mech, Entity_Id gnat_entity) +{ + tree record_type = make_node (RECORD_TYPE); + tree pointer32_type; + tree field_list = 0; + int class; + int dtype = 0; + tree inner_type; + int ndim; + int i; + tree *idx_arr; + tree tem; + + /* If TYPE is an unconstrained array, use the underlying array type. */ + if (TREE_CODE (type) == UNCONSTRAINED_ARRAY_TYPE) + type = TREE_TYPE (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (type)))); + + /* If this is an array, compute the number of dimensions in the array, + get the index types, and point to the inner type. */ + if (TREE_CODE (type) != ARRAY_TYPE) + ndim = 0; + else + for (ndim = 1, inner_type = type; + TREE_CODE (TREE_TYPE (inner_type)) == ARRAY_TYPE + && TYPE_MULTI_ARRAY_P (TREE_TYPE (inner_type)); + ndim++, inner_type = TREE_TYPE (inner_type)) + ; + + idx_arr = (tree *) alloca (ndim * sizeof (tree)); + + if (mech != By_Descriptor_NCA + && TREE_CODE (type) == ARRAY_TYPE && TYPE_CONVENTION_FORTRAN_P (type)) + for (i = ndim - 1, inner_type = type; + i >= 0; + i--, inner_type = TREE_TYPE (inner_type)) + idx_arr[i] = TYPE_DOMAIN (inner_type); + else + for (i = 0, inner_type = type; + i < ndim; + i++, inner_type = TREE_TYPE (inner_type)) + idx_arr[i] = TYPE_DOMAIN (inner_type); + + /* Now get the DTYPE value. */ + switch (TREE_CODE (type)) + { + case INTEGER_TYPE: + case ENUMERAL_TYPE: + if (TYPE_VAX_FLOATING_POINT_P (type)) + switch (tree_low_cst (TYPE_DIGITS_VALUE (type), 1)) + { + case 6: + dtype = 10; + break; + case 9: + dtype = 11; + break; + case 15: + dtype = 27; + break; + } + else + switch (GET_MODE_BITSIZE (TYPE_MODE (type))) + { + case 8: + dtype = TYPE_UNSIGNED (type) ? 2 : 6; + break; + case 16: + dtype = TYPE_UNSIGNED (type) ? 3 : 7; + break; + case 32: + dtype = TYPE_UNSIGNED (type) ? 4 : 8; + break; + case 64: + dtype = TYPE_UNSIGNED (type) ? 5 : 9; + break; + case 128: + dtype = TYPE_UNSIGNED (type) ? 25 : 26; + break; + } + break; + + case REAL_TYPE: + dtype = GET_MODE_BITSIZE (TYPE_MODE (type)) == 32 ? 52 : 53; + break; + + case COMPLEX_TYPE: + if (TREE_CODE (TREE_TYPE (type)) == INTEGER_TYPE + && TYPE_VAX_FLOATING_POINT_P (type)) + switch (tree_low_cst (TYPE_DIGITS_VALUE (type), 1)) + { + case 6: + dtype = 12; + break; + case 9: + dtype = 13; + break; + case 15: + dtype = 29; + } + else + dtype = GET_MODE_BITSIZE (TYPE_MODE (TREE_TYPE (type))) == 32 ? 54: 55; + break; + + case ARRAY_TYPE: + dtype = 14; + break; + + default: + break; + } + + /* Get the CLASS value. */ + switch (mech) + { + case By_Descriptor_A: + class = 4; + break; + case By_Descriptor_NCA: + class = 10; + break; + case By_Descriptor_SB: + class = 15; + break; + case By_Descriptor: + case By_Descriptor_S: + default: + class = 1; + break; + } + + /* Make the type for a descriptor for VMS. The first four fields + are the same for all types. */ + + field_list + = chainon (field_list, + make_descriptor_field + ("LENGTH", gnat_type_for_size (16, 1), record_type, + size_in_bytes (mech == By_Descriptor_A ? inner_type : type))); + + field_list = chainon (field_list, + make_descriptor_field ("DTYPE", + gnat_type_for_size (8, 1), + record_type, size_int (dtype))); + field_list = chainon (field_list, + make_descriptor_field ("CLASS", + gnat_type_for_size (8, 1), + record_type, size_int (class))); + + /* Of course this will crash at run-time if the address space is not + within the low 32 bits, but there is nothing else we can do. */ + pointer32_type = build_pointer_type_for_mode (type, SImode, false); + + field_list + = chainon (field_list, + make_descriptor_field + ("POINTER", pointer32_type, record_type, + build_unary_op (ADDR_EXPR, + pointer32_type, + build0 (PLACEHOLDER_EXPR, type)))); + + switch (mech) + { + case By_Descriptor: + case By_Descriptor_S: + break; + + case By_Descriptor_SB: + field_list + = chainon (field_list, + make_descriptor_field + ("SB_L1", gnat_type_for_size (32, 1), record_type, + TREE_CODE (type) == ARRAY_TYPE + ? TYPE_MIN_VALUE (TYPE_DOMAIN (type)) : size_zero_node)); + field_list + = chainon (field_list, + make_descriptor_field + ("SB_U1", gnat_type_for_size (32, 1), record_type, + TREE_CODE (type) == ARRAY_TYPE + ? TYPE_MAX_VALUE (TYPE_DOMAIN (type)) : size_zero_node)); + break; + + case By_Descriptor_A: + case By_Descriptor_NCA: + field_list = chainon (field_list, + make_descriptor_field ("SCALE", + gnat_type_for_size (8, 1), + record_type, + size_zero_node)); + + field_list = chainon (field_list, + make_descriptor_field ("DIGITS", + gnat_type_for_size (8, 1), + record_type, + size_zero_node)); + + field_list + = chainon (field_list, + make_descriptor_field + ("AFLAGS", gnat_type_for_size (8, 1), record_type, + size_int (mech == By_Descriptor_NCA + ? 0 + /* Set FL_COLUMN, FL_COEFF, and FL_BOUNDS. */ + : (TREE_CODE (type) == ARRAY_TYPE + && TYPE_CONVENTION_FORTRAN_P (type) + ? 224 : 192)))); + + field_list = chainon (field_list, + make_descriptor_field ("DIMCT", + gnat_type_for_size (8, 1), + record_type, + size_int (ndim))); + + field_list = chainon (field_list, + make_descriptor_field ("ARSIZE", + gnat_type_for_size (32, 1), + record_type, + size_in_bytes (type))); + + /* Now build a pointer to the 0,0,0... element. */ + tem = build0 (PLACEHOLDER_EXPR, type); + for (i = 0, inner_type = type; i < ndim; + i++, inner_type = TREE_TYPE (inner_type)) + tem = build4 (ARRAY_REF, TREE_TYPE (inner_type), tem, + convert (TYPE_DOMAIN (inner_type), size_zero_node), + NULL_TREE, NULL_TREE); + + field_list + = chainon (field_list, + make_descriptor_field + ("A0", + build_pointer_type_for_mode (inner_type, SImode, false), + record_type, + build1 (ADDR_EXPR, + build_pointer_type_for_mode (inner_type, SImode, + false), + tem))); + + /* Next come the addressing coefficients. */ + tem = size_one_node; + for (i = 0; i < ndim; i++) + { + char fname[3]; + tree idx_length + = size_binop (MULT_EXPR, tem, + size_binop (PLUS_EXPR, + size_binop (MINUS_EXPR, + TYPE_MAX_VALUE (idx_arr[i]), + TYPE_MIN_VALUE (idx_arr[i])), + size_int (1))); + + fname[0] = (mech == By_Descriptor_NCA ? 'S' : 'M'); + fname[1] = '0' + i, fname[2] = 0; + field_list + = chainon (field_list, + make_descriptor_field (fname, + gnat_type_for_size (32, 1), + record_type, idx_length)); + + if (mech == By_Descriptor_NCA) + tem = idx_length; + } + + /* Finally here are the bounds. */ + for (i = 0; i < ndim; i++) + { + char fname[3]; + + fname[0] = 'L', fname[1] = '0' + i, fname[2] = 0; + field_list + = chainon (field_list, + make_descriptor_field + (fname, gnat_type_for_size (32, 1), record_type, + TYPE_MIN_VALUE (idx_arr[i]))); + + fname[0] = 'U'; + field_list + = chainon (field_list, + make_descriptor_field + (fname, gnat_type_for_size (32, 1), record_type, + TYPE_MAX_VALUE (idx_arr[i]))); + } + break; + + default: + post_error ("unsupported descriptor type for &", gnat_entity); + } + + finish_record_type (record_type, field_list, 0, true); + create_type_decl (create_concat_name (gnat_entity, "DESC"), record_type, + NULL, true, false, gnat_entity); + + return record_type; +} + +/* Utility routine for above code to make a field. */ + +static tree +make_descriptor_field (const char *name, tree type, + tree rec_type, tree initial) +{ + tree field + = create_field_decl (get_identifier (name), type, rec_type, 0, 0, 0, 0); + + DECL_INITIAL (field) = initial; + return field; +} + +/* Convert GNU_EXPR, a pointer to a VMS descriptor, to GNU_TYPE, a regular + pointer or fat pointer type. GNAT_SUBPROG is the subprogram to which + the VMS descriptor is passed. */ + +static tree +convert_vms_descriptor (tree gnu_type, tree gnu_expr, Entity_Id gnat_subprog) +{ + tree desc_type = TREE_TYPE (TREE_TYPE (gnu_expr)); + tree desc = build1 (INDIRECT_REF, desc_type, gnu_expr); + /* The CLASS field is the 3rd field in the descriptor. */ + tree class = TREE_CHAIN (TREE_CHAIN (TYPE_FIELDS (desc_type))); + /* The POINTER field is the 4th field in the descriptor. */ + tree pointer = TREE_CHAIN (class); + + /* Retrieve the value of the POINTER field. */ + gnu_expr + = build3 (COMPONENT_REF, TREE_TYPE (pointer), desc, pointer, NULL_TREE); + + if (POINTER_TYPE_P (gnu_type)) + return convert (gnu_type, gnu_expr); + + else if (TYPE_FAT_POINTER_P (gnu_type)) + { + tree p_array_type = TREE_TYPE (TYPE_FIELDS (gnu_type)); + tree p_bounds_type = TREE_TYPE (TREE_CHAIN (TYPE_FIELDS (gnu_type))); + tree template_type = TREE_TYPE (p_bounds_type); + tree min_field = TYPE_FIELDS (template_type); + tree max_field = TREE_CHAIN (TYPE_FIELDS (template_type)); + tree template, template_addr, aflags, dimct, t, u; + /* See the head comment of build_vms_descriptor. */ + int iclass = TREE_INT_CST_LOW (DECL_INITIAL (class)); + + /* Convert POINTER to the type of the P_ARRAY field. */ + gnu_expr = convert (p_array_type, gnu_expr); + + switch (iclass) + { + case 1: /* Class S */ + case 15: /* Class SB */ + /* Build {1, LENGTH} template; LENGTH is the 1st field. */ + t = TYPE_FIELDS (desc_type); + t = build3 (COMPONENT_REF, TREE_TYPE (t), desc, t, NULL_TREE); + t = tree_cons (min_field, + convert (TREE_TYPE (min_field), integer_one_node), + tree_cons (max_field, + convert (TREE_TYPE (max_field), t), + NULL_TREE)); + template = gnat_build_constructor (template_type, t); + template_addr = build_unary_op (ADDR_EXPR, NULL_TREE, template); + + /* For class S, we are done. */ + if (iclass == 1) + break; + + /* Test that we really have a SB descriptor, like DEC Ada. */ + t = build3 (COMPONENT_REF, TREE_TYPE (class), desc, class, NULL); + u = convert (TREE_TYPE (class), DECL_INITIAL (class)); + u = build_binary_op (EQ_EXPR, integer_type_node, t, u); + /* If so, there is already a template in the descriptor and + it is located right after the POINTER field. */ + t = TREE_CHAIN (pointer); + template = build3 (COMPONENT_REF, TREE_TYPE (t), desc, t, NULL_TREE); + /* Otherwise use the {1, LENGTH} template we build above. */ + template_addr = build3 (COND_EXPR, p_bounds_type, u, + build_unary_op (ADDR_EXPR, p_bounds_type, + template), + template_addr); + break; + + case 4: /* Class A */ + /* The AFLAGS field is the 7th field in the descriptor. */ + t = TREE_CHAIN (TREE_CHAIN (TREE_CHAIN (pointer))); + aflags = build3 (COMPONENT_REF, TREE_TYPE (t), desc, t, NULL_TREE); + /* The DIMCT field is the 8th field in the descriptor. */ + t = TREE_CHAIN (t); + dimct = build3 (COMPONENT_REF, TREE_TYPE (t), desc, t, NULL_TREE); + /* Raise CONSTRAINT_ERROR if either more than 1 dimension + or FL_COEFF or FL_BOUNDS not set. */ + u = build_int_cst (TREE_TYPE (aflags), 192); + u = build_binary_op (TRUTH_OR_EXPR, integer_type_node, + build_binary_op (NE_EXPR, integer_type_node, + dimct, + convert (TREE_TYPE (dimct), + size_one_node)), + build_binary_op (NE_EXPR, integer_type_node, + build2 (BIT_AND_EXPR, + TREE_TYPE (aflags), + aflags, u), + u)); + add_stmt (build3 (COND_EXPR, void_type_node, u, + build_call_raise (CE_Length_Check_Failed, Empty, + N_Raise_Constraint_Error), + NULL_TREE)); + /* There is already a template in the descriptor and it is + located at the start of block 3 (12th field). */ + t = TREE_CHAIN (TREE_CHAIN (TREE_CHAIN (TREE_CHAIN (t)))); + template = build3 (COMPONENT_REF, TREE_TYPE (t), desc, t, NULL_TREE); + template_addr = build_unary_op (ADDR_EXPR, p_bounds_type, template); + break; + + case 10: /* Class NCA */ + default: + post_error ("unsupported descriptor type for &", gnat_subprog); + template_addr = integer_zero_node; + break; + } + + /* Build the fat pointer in the form of a constructor. */ + t = tree_cons (TYPE_FIELDS (gnu_type), gnu_expr, + tree_cons (TREE_CHAIN (TYPE_FIELDS (gnu_type)), + template_addr, NULL_TREE)); + return gnat_build_constructor (gnu_type, t); + } + + else + gcc_unreachable (); +} + +/* Build a stub for the subprogram specified by the GCC tree GNU_SUBPROG + and the GNAT node GNAT_SUBPROG. */ + +void +build_function_stub (tree gnu_subprog, Entity_Id gnat_subprog) +{ + tree gnu_subprog_type, gnu_subprog_addr, gnu_subprog_call; + tree gnu_stub_param, gnu_param_list, gnu_arg_types, gnu_param; + tree gnu_stub_decl = DECL_FUNCTION_STUB (gnu_subprog); + tree gnu_body; + + gnu_subprog_type = TREE_TYPE (gnu_subprog); + gnu_param_list = NULL_TREE; + + begin_subprog_body (gnu_stub_decl); + gnat_pushlevel (); + + start_stmt_group (); + + /* Loop over the parameters of the stub and translate any of them + passed by descriptor into a by reference one. */ + for (gnu_stub_param = DECL_ARGUMENTS (gnu_stub_decl), + gnu_arg_types = TYPE_ARG_TYPES (gnu_subprog_type); + gnu_stub_param; + gnu_stub_param = TREE_CHAIN (gnu_stub_param), + gnu_arg_types = TREE_CHAIN (gnu_arg_types)) + { + if (DECL_BY_DESCRIPTOR_P (gnu_stub_param)) + gnu_param = convert_vms_descriptor (TREE_VALUE (gnu_arg_types), + gnu_stub_param, gnat_subprog); + else + gnu_param = gnu_stub_param; + + gnu_param_list = tree_cons (NULL_TREE, gnu_param, gnu_param_list); + } + + gnu_body = end_stmt_group (); + + /* Invoke the internal subprogram. */ + gnu_subprog_addr = build1 (ADDR_EXPR, build_pointer_type (gnu_subprog_type), + gnu_subprog); + gnu_subprog_call = build_call_list (TREE_TYPE (gnu_subprog_type), + gnu_subprog_addr, + nreverse (gnu_param_list)); + + /* Propagate the return value, if any. */ + if (VOID_TYPE_P (TREE_TYPE (gnu_subprog_type))) + append_to_statement_list (gnu_subprog_call, &gnu_body); + else + append_to_statement_list (build_return_expr (DECL_RESULT (gnu_stub_decl), + gnu_subprog_call), + &gnu_body); + + gnat_poplevel (); + + allocate_struct_function (gnu_stub_decl, false); + end_subprog_body (gnu_body, false); +} + +/* Build a type to be used to represent an aliased object whose nominal + type is an unconstrained array. This consists of a RECORD_TYPE containing + a field of TEMPLATE_TYPE and a field of OBJECT_TYPE, which is an + ARRAY_TYPE. If ARRAY_TYPE is that of the unconstrained array, this + is used to represent an arbitrary unconstrained object. Use NAME + as the name of the record. */ + +tree +build_unc_object_type (tree template_type, tree object_type, tree name) +{ + tree type = make_node (RECORD_TYPE); + tree template_field = create_field_decl (get_identifier ("BOUNDS"), + template_type, type, 0, 0, 0, 1); + tree array_field = create_field_decl (get_identifier ("ARRAY"), object_type, + type, 0, 0, 0, 1); + + TYPE_NAME (type) = name; + TYPE_CONTAINS_TEMPLATE_P (type) = 1; + finish_record_type (type, + chainon (chainon (NULL_TREE, template_field), + array_field), + 0, false); + + return type; +} + +/* Same, taking a thin or fat pointer type instead of a template type. */ + +tree +build_unc_object_type_from_ptr (tree thin_fat_ptr_type, tree object_type, + tree name) +{ + tree template_type; + + gcc_assert (TYPE_FAT_OR_THIN_POINTER_P (thin_fat_ptr_type)); + + template_type + = (TYPE_FAT_POINTER_P (thin_fat_ptr_type) + ? TREE_TYPE (TREE_TYPE (TREE_CHAIN (TYPE_FIELDS (thin_fat_ptr_type)))) + : TREE_TYPE (TYPE_FIELDS (TREE_TYPE (thin_fat_ptr_type)))); + return build_unc_object_type (template_type, object_type, name); +} + +/* Shift the component offsets within an unconstrained object TYPE to make it + suitable for use as a designated type for thin pointers. */ + +void +shift_unc_components_for_thin_pointers (tree type) +{ + /* Thin pointer values designate the ARRAY data of an unconstrained object, + allocated past the BOUNDS template. The designated type is adjusted to + have ARRAY at position zero and the template at a negative offset, so + that COMPONENT_REFs on (*thin_ptr) designate the proper location. */ + + tree bounds_field = TYPE_FIELDS (type); + tree array_field = TREE_CHAIN (TYPE_FIELDS (type)); + + DECL_FIELD_OFFSET (bounds_field) + = size_binop (MINUS_EXPR, size_zero_node, byte_position (array_field)); + + DECL_FIELD_OFFSET (array_field) = size_zero_node; + DECL_FIELD_BIT_OFFSET (array_field) = bitsize_zero_node; +} + +/* Update anything previously pointing to OLD_TYPE to point to NEW_TYPE. In + the normal case this is just two adjustments, but we have more to do + if NEW is an UNCONSTRAINED_ARRAY_TYPE. */ + +void +update_pointer_to (tree old_type, tree new_type) +{ + tree ptr = TYPE_POINTER_TO (old_type); + tree ref = TYPE_REFERENCE_TO (old_type); + tree ptr1, ref1; + tree type; + + /* If this is the main variant, process all the other variants first. */ + if (TYPE_MAIN_VARIANT (old_type) == old_type) + for (type = TYPE_NEXT_VARIANT (old_type); type; + type = TYPE_NEXT_VARIANT (type)) + update_pointer_to (type, new_type); + + /* If no pointer or reference, we are done. */ + if (!ptr && !ref) + return; + + /* Merge the old type qualifiers in the new type. + + Each old variant has qualifiers for specific reasons, and the new + designated type as well. Each set of qualifiers represents useful + information grabbed at some point, and merging the two simply unifies + these inputs into the final type description. + + Consider for instance a volatile type frozen after an access to constant + type designating it. After the designated type freeze, we get here with a + volatile new_type and a dummy old_type with a readonly variant, created + when the access type was processed. We shall make a volatile and readonly + designated type, because that's what it really is. + + We might also get here for a non-dummy old_type variant with different + qualifiers than the new_type ones, for instance in some cases of pointers + to private record type elaboration (see the comments around the call to + this routine from gnat_to_gnu_entity/E_Access_Type). We have to merge the + qualifiers in those cases too, to avoid accidentally discarding the + initial set, and will often end up with old_type == new_type then. */ + new_type = build_qualified_type (new_type, + TYPE_QUALS (old_type) + | TYPE_QUALS (new_type)); + + /* If the new type and the old one are identical, there is nothing to + update. */ + if (old_type == new_type) + return; + + /* Otherwise, first handle the simple case. */ + if (TREE_CODE (new_type) != UNCONSTRAINED_ARRAY_TYPE) + { + TYPE_POINTER_TO (new_type) = ptr; + TYPE_REFERENCE_TO (new_type) = ref; + + for (; ptr; ptr = TYPE_NEXT_PTR_TO (ptr)) + for (ptr1 = TYPE_MAIN_VARIANT (ptr); ptr1; + ptr1 = TYPE_NEXT_VARIANT (ptr1)) + TREE_TYPE (ptr1) = new_type; + + for (; ref; ref = TYPE_NEXT_REF_TO (ref)) + for (ref1 = TYPE_MAIN_VARIANT (ref); ref1; + ref1 = TYPE_NEXT_VARIANT (ref1)) + TREE_TYPE (ref1) = new_type; + } + + /* Now deal with the unconstrained array case. In this case the "pointer" + is actually a RECORD_TYPE where both fields are pointers to dummy nodes. + Turn them into pointers to the correct types using update_pointer_to. */ + else if (TREE_CODE (ptr) != RECORD_TYPE || !TYPE_IS_FAT_POINTER_P (ptr)) + gcc_unreachable (); + + else + { + tree new_obj_rec = TYPE_OBJECT_RECORD_TYPE (new_type); + tree array_field = TYPE_FIELDS (ptr); + tree bounds_field = TREE_CHAIN (TYPE_FIELDS (ptr)); + tree new_ptr = TYPE_POINTER_TO (new_type); + tree new_ref; + tree var; + + /* Make pointers to the dummy template point to the real template. */ + update_pointer_to + (TREE_TYPE (TREE_TYPE (bounds_field)), + TREE_TYPE (TREE_TYPE (TREE_CHAIN (TYPE_FIELDS (new_ptr))))); + + /* The references to the template bounds present in the array type + are made through a PLACEHOLDER_EXPR of type new_ptr. Since we + are updating ptr to make it a full replacement for new_ptr as + pointer to new_type, we must rework the PLACEHOLDER_EXPR so as + to make it of type ptr. */ + new_ref = build3 (COMPONENT_REF, TREE_TYPE (bounds_field), + build0 (PLACEHOLDER_EXPR, ptr), + bounds_field, NULL_TREE); + + /* Create the new array for the new PLACEHOLDER_EXPR and make + pointers to the dummy array point to it. + + ??? This is now the only use of substitute_in_type, + which is a very "heavy" routine to do this, so it + should be replaced at some point. */ + update_pointer_to + (TREE_TYPE (TREE_TYPE (array_field)), + substitute_in_type (TREE_TYPE (TREE_TYPE (TYPE_FIELDS (new_ptr))), + TREE_CHAIN (TYPE_FIELDS (new_ptr)), new_ref)); + + /* Make ptr the pointer to new_type. */ + TYPE_POINTER_TO (new_type) = TYPE_REFERENCE_TO (new_type) + = TREE_TYPE (new_type) = ptr; + + for (var = TYPE_MAIN_VARIANT (ptr); var; var = TYPE_NEXT_VARIANT (var)) + SET_TYPE_UNCONSTRAINED_ARRAY (var, new_type); + + /* Now handle updating the allocation record, what the thin pointer + points to. Update all pointers from the old record into the new + one, update the type of the array field, and recompute the size. */ + update_pointer_to (TYPE_OBJECT_RECORD_TYPE (old_type), new_obj_rec); + + TREE_TYPE (TREE_CHAIN (TYPE_FIELDS (new_obj_rec))) + = TREE_TYPE (TREE_TYPE (array_field)); + + /* The size recomputation needs to account for alignment constraints, so + we let layout_type work it out. This will reset the field offsets to + what they would be in a regular record, so we shift them back to what + we want them to be for a thin pointer designated type afterwards. */ + DECL_SIZE (TYPE_FIELDS (new_obj_rec)) = 0; + DECL_SIZE (TREE_CHAIN (TYPE_FIELDS (new_obj_rec))) = 0; + TYPE_SIZE (new_obj_rec) = 0; + layout_type (new_obj_rec); + + shift_unc_components_for_thin_pointers (new_obj_rec); + + /* We are done, at last. */ + rest_of_record_type_compilation (ptr); + } +} + +/* Convert a pointer to a constrained array into a pointer to a fat + pointer. This involves making or finding a template. */ + +static tree +convert_to_fat_pointer (tree type, tree expr) +{ + tree template_type = TREE_TYPE (TREE_TYPE (TREE_CHAIN (TYPE_FIELDS (type)))); + tree template, template_addr; + tree etype = TREE_TYPE (expr); + + /* If EXPR is a constant of zero, we make a fat pointer that has a null + pointer to the template and array. */ + if (integer_zerop (expr)) + return + gnat_build_constructor + (type, + tree_cons (TYPE_FIELDS (type), + convert (TREE_TYPE (TYPE_FIELDS (type)), expr), + tree_cons (TREE_CHAIN (TYPE_FIELDS (type)), + convert (build_pointer_type (template_type), + expr), + NULL_TREE))); + + /* If EXPR is a thin pointer, make the template and data from the record. */ + + else if (TYPE_THIN_POINTER_P (etype)) + { + tree fields = TYPE_FIELDS (TREE_TYPE (etype)); + + expr = save_expr (expr); + if (TREE_CODE (expr) == ADDR_EXPR) + expr = TREE_OPERAND (expr, 0); + else + expr = build1 (INDIRECT_REF, TREE_TYPE (etype), expr); + + template = build_component_ref (expr, NULL_TREE, fields, false); + expr = build_unary_op (ADDR_EXPR, NULL_TREE, + build_component_ref (expr, NULL_TREE, + TREE_CHAIN (fields), false)); + } + else + /* Otherwise, build the constructor for the template. */ + template = build_template (template_type, TREE_TYPE (etype), expr); + + template_addr = build_unary_op (ADDR_EXPR, NULL_TREE, template); + + /* The result is a CONSTRUCTOR for the fat pointer. + + If expr is an argument of a foreign convention subprogram, the type it + points to is directly the component type. In this case, the expression + type may not match the corresponding FIELD_DECL type at this point, so we + call "convert" here to fix that up if necessary. This type consistency is + required, for instance because it ensures that possible later folding of + component_refs against this constructor always yields something of the + same type as the initial reference. + + Note that the call to "build_template" above is still fine, because it + will only refer to the provided template_type in this case. */ + return + gnat_build_constructor + (type, tree_cons (TYPE_FIELDS (type), + convert (TREE_TYPE (TYPE_FIELDS (type)), expr), + tree_cons (TREE_CHAIN (TYPE_FIELDS (type)), + template_addr, NULL_TREE))); +} + +/* Convert to a thin pointer type, TYPE. The only thing we know how to convert + is something that is a fat pointer, so convert to it first if it EXPR + is not already a fat pointer. */ + +static tree +convert_to_thin_pointer (tree type, tree expr) +{ + if (!TYPE_FAT_POINTER_P (TREE_TYPE (expr))) + expr + = convert_to_fat_pointer + (TREE_TYPE (TYPE_UNCONSTRAINED_ARRAY (TREE_TYPE (type))), expr); + + /* We get the pointer to the data and use a NOP_EXPR to make it the + proper GCC type. */ + expr = build_component_ref (expr, NULL_TREE, TYPE_FIELDS (TREE_TYPE (expr)), + false); + expr = build1 (NOP_EXPR, type, expr); + + return expr; +} + +/* Create an expression whose value is that of EXPR, + converted to type TYPE. The TREE_TYPE of the value + is always TYPE. This function implements all reasonable + conversions; callers should filter out those that are + not permitted by the language being compiled. */ + +tree +convert (tree type, tree expr) +{ + enum tree_code code = TREE_CODE (type); + tree etype = TREE_TYPE (expr); + enum tree_code ecode = TREE_CODE (etype); + + /* If EXPR is already the right type, we are done. */ + if (type == etype) + return expr; + + /* If both input and output have padding and are of variable size, do this + as an unchecked conversion. Likewise if one is a mere variant of the + other, so we avoid a pointless unpad/repad sequence. */ + else if (code == RECORD_TYPE && ecode == RECORD_TYPE + && TYPE_IS_PADDING_P (type) && TYPE_IS_PADDING_P (etype) + && (!TREE_CONSTANT (TYPE_SIZE (type)) + || !TREE_CONSTANT (TYPE_SIZE (etype)) + || gnat_types_compatible_p (type, etype) + || TYPE_NAME (TREE_TYPE (TYPE_FIELDS (type))) + == TYPE_NAME (TREE_TYPE (TYPE_FIELDS (etype))))) + ; + + /* If the output type has padding, convert to the inner type and + make a constructor to build the record. */ + else if (code == RECORD_TYPE && TYPE_IS_PADDING_P (type)) + { + /* If we previously converted from another type and our type is + of variable size, remove the conversion to avoid the need for + variable-size temporaries. Likewise for a conversion between + original and packable version. */ + if (TREE_CODE (expr) == VIEW_CONVERT_EXPR + && (!TREE_CONSTANT (TYPE_SIZE (type)) + || (ecode == RECORD_TYPE + && TYPE_NAME (etype) + == TYPE_NAME (TREE_TYPE (TREE_OPERAND (expr, 0)))))) + expr = TREE_OPERAND (expr, 0); + + /* If we are just removing the padding from expr, convert the original + object if we have variable size in order to avoid the need for some + variable-size temporaries. Likewise if the padding is a mere variant + of the other, so we avoid a pointless unpad/repad sequence. */ + if (TREE_CODE (expr) == COMPONENT_REF + && TREE_CODE (TREE_TYPE (TREE_OPERAND (expr, 0))) == RECORD_TYPE + && TYPE_IS_PADDING_P (TREE_TYPE (TREE_OPERAND (expr, 0))) + && (!TREE_CONSTANT (TYPE_SIZE (type)) + || gnat_types_compatible_p (type, + TREE_TYPE (TREE_OPERAND (expr, 0))) + || (ecode == RECORD_TYPE + && TYPE_NAME (etype) + == TYPE_NAME (TREE_TYPE (TYPE_FIELDS (type)))))) + return convert (type, TREE_OPERAND (expr, 0)); + + /* If the result type is a padded type with a self-referentially-sized + field and the expression type is a record, do this as an + unchecked conversion. */ + else if (TREE_CODE (etype) == RECORD_TYPE + && CONTAINS_PLACEHOLDER_P (DECL_SIZE (TYPE_FIELDS (type)))) + return unchecked_convert (type, expr, false); + + else + return + gnat_build_constructor (type, + tree_cons (TYPE_FIELDS (type), + convert (TREE_TYPE + (TYPE_FIELDS (type)), + expr), + NULL_TREE)); + } + + /* If the input type has padding, remove it and convert to the output type. + The conditions ordering is arranged to ensure that the output type is not + a padding type here, as it is not clear whether the conversion would + always be correct if this was to happen. */ + else if (ecode == RECORD_TYPE && TYPE_IS_PADDING_P (etype)) + { + tree unpadded; + + /* If we have just converted to this padded type, just get the + inner expression. */ + if (TREE_CODE (expr) == CONSTRUCTOR + && !VEC_empty (constructor_elt, CONSTRUCTOR_ELTS (expr)) + && VEC_index (constructor_elt, CONSTRUCTOR_ELTS (expr), 0)->index + == TYPE_FIELDS (etype)) + unpadded + = VEC_index (constructor_elt, CONSTRUCTOR_ELTS (expr), 0)->value; + + /* Otherwise, build an explicit component reference. */ + else + unpadded + = build_component_ref (expr, NULL_TREE, TYPE_FIELDS (etype), false); + + return convert (type, unpadded); + } + + /* If the input is a biased type, adjust first. */ + if (ecode == INTEGER_TYPE && TYPE_BIASED_REPRESENTATION_P (etype)) + return convert (type, fold_build2 (PLUS_EXPR, TREE_TYPE (etype), + fold_convert (TREE_TYPE (etype), + expr), + TYPE_MIN_VALUE (etype))); + + /* If the input is a justified modular type, we need to extract the actual + object before converting it to any other type with the exceptions of an + unconstrained array or of a mere type variant. It is useful to avoid the + extraction and conversion in the type variant case because it could end + up replacing a VAR_DECL expr by a constructor and we might be about the + take the address of the result. */ + if (ecode == RECORD_TYPE && TYPE_JUSTIFIED_MODULAR_P (etype) + && code != UNCONSTRAINED_ARRAY_TYPE + && TYPE_MAIN_VARIANT (type) != TYPE_MAIN_VARIANT (etype)) + return convert (type, build_component_ref (expr, NULL_TREE, + TYPE_FIELDS (etype), false)); + + /* If converting to a type that contains a template, convert to the data + type and then build the template. */ + if (code == RECORD_TYPE && TYPE_CONTAINS_TEMPLATE_P (type)) + { + tree obj_type = TREE_TYPE (TREE_CHAIN (TYPE_FIELDS (type))); + + /* If the source already has a template, get a reference to the + associated array only, as we are going to rebuild a template + for the target type anyway. */ + expr = maybe_unconstrained_array (expr); + + return + gnat_build_constructor + (type, + tree_cons (TYPE_FIELDS (type), + build_template (TREE_TYPE (TYPE_FIELDS (type)), + obj_type, NULL_TREE), + tree_cons (TREE_CHAIN (TYPE_FIELDS (type)), + convert (obj_type, expr), NULL_TREE))); + } + + /* There are some special cases of expressions that we process + specially. */ + switch (TREE_CODE (expr)) + { + case ERROR_MARK: + return expr; + + case NULL_EXPR: + /* Just set its type here. For TRANSFORM_EXPR, we will do the actual + conversion in gnat_expand_expr. NULL_EXPR does not represent + and actual value, so no conversion is needed. */ + expr = copy_node (expr); + TREE_TYPE (expr) = type; + return expr; + + case STRING_CST: + /* If we are converting a STRING_CST to another constrained array type, + just make a new one in the proper type. */ + if (code == ecode && AGGREGATE_TYPE_P (etype) + && !(TREE_CODE (TYPE_SIZE (etype)) == INTEGER_CST + && TREE_CODE (TYPE_SIZE (type)) != INTEGER_CST)) + { + expr = copy_node (expr); + TREE_TYPE (expr) = type; + return expr; + } + break; + + case CONSTRUCTOR: + /* If we are converting a CONSTRUCTOR to a mere variant type, just make + a new one in the proper type. */ + if (code == ecode && gnat_types_compatible_p (type, etype)) + { + expr = copy_node (expr); + TREE_TYPE (expr) = type; + return expr; + } + + /* Likewise for a conversion between original and packable version, but + we have to work harder in order to preserve type consistency. */ + if (code == ecode + && code == RECORD_TYPE + && TYPE_NAME (type) == TYPE_NAME (etype)) + { + VEC(constructor_elt,gc) *e = CONSTRUCTOR_ELTS (expr); + unsigned HOST_WIDE_INT len = VEC_length (constructor_elt, e); + VEC(constructor_elt,gc) *v = VEC_alloc (constructor_elt, gc, len); + tree efield = TYPE_FIELDS (etype), field = TYPE_FIELDS (type); + unsigned HOST_WIDE_INT idx; + tree index, value; + + FOR_EACH_CONSTRUCTOR_ELT(e, idx, index, value) + { + constructor_elt *elt = VEC_quick_push (constructor_elt, v, NULL); + /* We expect only simple constructors. Otherwise, punt. */ + if (!(index == efield || index == DECL_ORIGINAL_FIELD (efield))) + break; + elt->index = field; + elt->value = convert (TREE_TYPE (field), value); + efield = TREE_CHAIN (efield); + field = TREE_CHAIN (field); + } + + if (idx == len) + { + expr = copy_node (expr); + TREE_TYPE (expr) = type; + CONSTRUCTOR_ELTS (expr) = v; + return expr; + } + } + break; + + case UNCONSTRAINED_ARRAY_REF: + /* Convert this to the type of the inner array by getting the address of + the array from the template. */ + expr = build_unary_op (INDIRECT_REF, NULL_TREE, + build_component_ref (TREE_OPERAND (expr, 0), + get_identifier ("P_ARRAY"), + NULL_TREE, false)); + etype = TREE_TYPE (expr); + ecode = TREE_CODE (etype); + break; + + case VIEW_CONVERT_EXPR: + { + /* GCC 4.x is very sensitive to type consistency overall, and view + conversions thus are very frequent. Even though just "convert"ing + the inner operand to the output type is fine in most cases, it + might expose unexpected input/output type mismatches in special + circumstances so we avoid such recursive calls when we can. */ + tree op0 = TREE_OPERAND (expr, 0); + + /* If we are converting back to the original type, we can just + lift the input conversion. This is a common occurrence with + switches back-and-forth amongst type variants. */ + if (type == TREE_TYPE (op0)) + return op0; + + /* Otherwise, if we're converting between two aggregate types, we + might be allowed to substitute the VIEW_CONVERT_EXPR target type + in place or to just convert the inner expression. */ + if (AGGREGATE_TYPE_P (type) && AGGREGATE_TYPE_P (etype)) + { + /* If we are converting between mere variants, we can just + substitute the VIEW_CONVERT_EXPR in place. */ + if (gnat_types_compatible_p (type, etype)) + return build1 (VIEW_CONVERT_EXPR, type, op0); + + /* Otherwise, we may just bypass the input view conversion unless + one of the types is a fat pointer, which is handled by + specialized code below which relies on exact type matching. */ + else if (!TYPE_FAT_POINTER_P (type) && !TYPE_FAT_POINTER_P (etype)) + return convert (type, op0); + } + } + break; + + case INDIRECT_REF: + /* If both types are record types, just convert the pointer and + make a new INDIRECT_REF. + + ??? Disable this for now since it causes problems with the + code in build_binary_op for MODIFY_EXPR which wants to + strip off conversions. But that code really is a mess and + we need to do this a much better way some time. */ + if (0 + && (TREE_CODE (type) == RECORD_TYPE + || TREE_CODE (type) == UNION_TYPE) + && (TREE_CODE (etype) == RECORD_TYPE + || TREE_CODE (etype) == UNION_TYPE) + && !TYPE_FAT_POINTER_P (type) && !TYPE_FAT_POINTER_P (etype)) + return build_unary_op (INDIRECT_REF, NULL_TREE, + convert (build_pointer_type (type), + TREE_OPERAND (expr, 0))); + break; + + default: + break; + } + + /* Check for converting to a pointer to an unconstrained array. */ + if (TYPE_FAT_POINTER_P (type) && !TYPE_FAT_POINTER_P (etype)) + return convert_to_fat_pointer (type, expr); + + /* If we are converting between two aggregate types that are mere + variants, just make a VIEW_CONVERT_EXPR. */ + else if (code == ecode + && AGGREGATE_TYPE_P (type) + && gnat_types_compatible_p (type, etype)) + return build1 (VIEW_CONVERT_EXPR, type, expr); + + /* In all other cases of related types, make a NOP_EXPR. */ + else if (TYPE_MAIN_VARIANT (type) == TYPE_MAIN_VARIANT (etype) + || (code == INTEGER_CST && ecode == INTEGER_CST + && (type == TREE_TYPE (etype) || etype == TREE_TYPE (type)))) + return fold_convert (type, expr); + + switch (code) + { + case VOID_TYPE: + return fold_build1 (CONVERT_EXPR, type, expr); + + case BOOLEAN_TYPE: + return fold_convert (type, gnat_truthvalue_conversion (expr)); + + case INTEGER_TYPE: + if (TYPE_HAS_ACTUAL_BOUNDS_P (type) + && (ecode == ARRAY_TYPE || ecode == UNCONSTRAINED_ARRAY_TYPE + || (ecode == RECORD_TYPE && TYPE_CONTAINS_TEMPLATE_P (etype)))) + return unchecked_convert (type, expr, false); + else if (TYPE_BIASED_REPRESENTATION_P (type)) + return fold_convert (type, + fold_build2 (MINUS_EXPR, TREE_TYPE (type), + convert (TREE_TYPE (type), expr), + TYPE_MIN_VALUE (type))); + + /* ... fall through ... */ + + case ENUMERAL_TYPE: + /* If we are converting an additive expression to an integer type + with lower precision, be wary of the optimization that can be + applied by convert_to_integer. There are 2 problematic cases: + - if the first operand was originally of a biased type, + because we could be recursively called to convert it + to an intermediate type and thus rematerialize the + additive operator endlessly, + - if the expression contains a placeholder, because an + intermediate conversion that changes the sign could + be inserted and thus introduce an artificial overflow + at compile time when the placeholder is substituted. */ + if (code == INTEGER_TYPE + && ecode == INTEGER_TYPE + && TYPE_PRECISION (type) < TYPE_PRECISION (etype) + && (TREE_CODE (expr) == PLUS_EXPR || TREE_CODE (expr) == MINUS_EXPR)) + { + tree op0 = get_unwidened (TREE_OPERAND (expr, 0), type); + + if ((TREE_CODE (TREE_TYPE (op0)) == INTEGER_TYPE + && TYPE_BIASED_REPRESENTATION_P (TREE_TYPE (op0))) + || CONTAINS_PLACEHOLDER_P (expr)) + return build1 (NOP_EXPR, type, expr); + } + + return fold (convert_to_integer (type, expr)); + + case POINTER_TYPE: + case REFERENCE_TYPE: + /* If converting between two pointers to records denoting + both a template and type, adjust if needed to account + for any differing offsets, since one might be negative. */ + if (TYPE_THIN_POINTER_P (etype) && TYPE_THIN_POINTER_P (type)) + { + tree bit_diff + = size_diffop (bit_position (TYPE_FIELDS (TREE_TYPE (etype))), + bit_position (TYPE_FIELDS (TREE_TYPE (type)))); + tree byte_diff = size_binop (CEIL_DIV_EXPR, bit_diff, + sbitsize_int (BITS_PER_UNIT)); + + expr = build1 (NOP_EXPR, type, expr); + TREE_CONSTANT (expr) = TREE_CONSTANT (TREE_OPERAND (expr, 0)); + if (integer_zerop (byte_diff)) + return expr; + + return build_binary_op (POINTER_PLUS_EXPR, type, expr, + fold (convert (sizetype, byte_diff))); + } + + /* If converting to a thin pointer, handle specially. */ + if (TYPE_THIN_POINTER_P (type) + && TYPE_UNCONSTRAINED_ARRAY (TREE_TYPE (type))) + return convert_to_thin_pointer (type, expr); + + /* If converting fat pointer to normal pointer, get the pointer to the + array and then convert it. */ + else if (TYPE_FAT_POINTER_P (etype)) + expr = build_component_ref (expr, get_identifier ("P_ARRAY"), + NULL_TREE, false); + + return fold (convert_to_pointer (type, expr)); + + case REAL_TYPE: + return fold (convert_to_real (type, expr)); + + case RECORD_TYPE: + if (TYPE_JUSTIFIED_MODULAR_P (type) && !AGGREGATE_TYPE_P (etype)) + return + gnat_build_constructor + (type, tree_cons (TYPE_FIELDS (type), + convert (TREE_TYPE (TYPE_FIELDS (type)), expr), + NULL_TREE)); + + /* ... fall through ... */ + + case ARRAY_TYPE: + /* In these cases, assume the front-end has validated the conversion. + If the conversion is valid, it will be a bit-wise conversion, so + it can be viewed as an unchecked conversion. */ + return unchecked_convert (type, expr, false); + + case UNION_TYPE: + /* This is a either a conversion between a tagged type and some + subtype, which we have to mark as a UNION_TYPE because of + overlapping fields or a conversion of an Unchecked_Union. */ + return unchecked_convert (type, expr, false); + + case UNCONSTRAINED_ARRAY_TYPE: + /* If EXPR is a constrained array, take its address, convert it to a + fat pointer, and then dereference it. Likewise if EXPR is a + record containing both a template and a constrained array. + Note that a record representing a justified modular type + always represents a packed constrained array. */ + if (ecode == ARRAY_TYPE + || (ecode == INTEGER_TYPE && TYPE_HAS_ACTUAL_BOUNDS_P (etype)) + || (ecode == RECORD_TYPE && TYPE_CONTAINS_TEMPLATE_P (etype)) + || (ecode == RECORD_TYPE && TYPE_JUSTIFIED_MODULAR_P (etype))) + return + build_unary_op + (INDIRECT_REF, NULL_TREE, + convert_to_fat_pointer (TREE_TYPE (type), + build_unary_op (ADDR_EXPR, + NULL_TREE, expr))); + + /* Do something very similar for converting one unconstrained + array to another. */ + else if (ecode == UNCONSTRAINED_ARRAY_TYPE) + return + build_unary_op (INDIRECT_REF, NULL_TREE, + convert (TREE_TYPE (type), + build_unary_op (ADDR_EXPR, + NULL_TREE, expr))); + else + gcc_unreachable (); + + case COMPLEX_TYPE: + return fold (convert_to_complex (type, expr)); + + default: + gcc_unreachable (); + } +} + +/* Remove all conversions that are done in EXP. This includes converting + from a padded type or to a justified modular type. If TRUE_ADDRESS + is true, always return the address of the containing object even if + the address is not bit-aligned. */ + +tree +remove_conversions (tree exp, bool true_address) +{ + switch (TREE_CODE (exp)) + { + case CONSTRUCTOR: + if (true_address + && TREE_CODE (TREE_TYPE (exp)) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (TREE_TYPE (exp))) + return + remove_conversions (VEC_index (constructor_elt, + CONSTRUCTOR_ELTS (exp), 0)->value, + true); + break; + + case COMPONENT_REF: + if (TREE_CODE (TREE_TYPE (TREE_OPERAND (exp, 0))) == RECORD_TYPE + && TYPE_IS_PADDING_P (TREE_TYPE (TREE_OPERAND (exp, 0)))) + return remove_conversions (TREE_OPERAND (exp, 0), true_address); + break; + + case VIEW_CONVERT_EXPR: case NON_LVALUE_EXPR: + CASE_CONVERT: + return remove_conversions (TREE_OPERAND (exp, 0), true_address); + + default: + break; + } + + return exp; +} + +/* If EXP's type is an UNCONSTRAINED_ARRAY_TYPE, return an expression that + refers to the underlying array. If its type has TYPE_CONTAINS_TEMPLATE_P, + likewise return an expression pointing to the underlying array. */ + +tree +maybe_unconstrained_array (tree exp) +{ + enum tree_code code = TREE_CODE (exp); + tree new; + + switch (TREE_CODE (TREE_TYPE (exp))) + { + case UNCONSTRAINED_ARRAY_TYPE: + if (code == UNCONSTRAINED_ARRAY_REF) + { + new + = build_unary_op (INDIRECT_REF, NULL_TREE, + build_component_ref (TREE_OPERAND (exp, 0), + get_identifier ("P_ARRAY"), + NULL_TREE, false)); + TREE_READONLY (new) = TREE_STATIC (new) = TREE_READONLY (exp); + return new; + } + + else if (code == NULL_EXPR) + return build1 (NULL_EXPR, + TREE_TYPE (TREE_TYPE (TYPE_FIELDS + (TREE_TYPE (TREE_TYPE (exp))))), + TREE_OPERAND (exp, 0)); + + case RECORD_TYPE: + /* If this is a padded type, convert to the unpadded type and see if + it contains a template. */ + if (TYPE_IS_PADDING_P (TREE_TYPE (exp))) + { + new = convert (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (exp))), exp); + if (TREE_CODE (TREE_TYPE (new)) == RECORD_TYPE + && TYPE_CONTAINS_TEMPLATE_P (TREE_TYPE (new))) + return + build_component_ref (new, NULL_TREE, + TREE_CHAIN (TYPE_FIELDS (TREE_TYPE (new))), + 0); + } + else if (TYPE_CONTAINS_TEMPLATE_P (TREE_TYPE (exp))) + return + build_component_ref (exp, NULL_TREE, + TREE_CHAIN (TYPE_FIELDS (TREE_TYPE (exp))), 0); + break; + + default: + break; + } + + return exp; +} + +/* Return an expression that does an unchecked conversion of EXPR to TYPE. + If NOTRUNC_P is true, truncation operations should be suppressed. */ + +tree +unchecked_convert (tree type, tree expr, bool notrunc_p) +{ + tree etype = TREE_TYPE (expr); + + /* If the expression is already the right type, we are done. */ + if (etype == type) + return expr; + + /* If both types types are integral just do a normal conversion. + Likewise for a conversion to an unconstrained array. */ + if ((((INTEGRAL_TYPE_P (type) + && !(TREE_CODE (type) == INTEGER_TYPE + && TYPE_VAX_FLOATING_POINT_P (type))) + || (POINTER_TYPE_P (type) && ! TYPE_THIN_POINTER_P (type)) + || (TREE_CODE (type) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (type))) + && ((INTEGRAL_TYPE_P (etype) + && !(TREE_CODE (etype) == INTEGER_TYPE + && TYPE_VAX_FLOATING_POINT_P (etype))) + || (POINTER_TYPE_P (etype) && !TYPE_THIN_POINTER_P (etype)) + || (TREE_CODE (etype) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (etype)))) + || TREE_CODE (type) == UNCONSTRAINED_ARRAY_TYPE) + { + tree rtype = type; + bool final_unchecked = false; + + if (TREE_CODE (etype) == INTEGER_TYPE + && TYPE_BIASED_REPRESENTATION_P (etype)) + { + tree ntype = copy_type (etype); + + TYPE_BIASED_REPRESENTATION_P (ntype) = 0; + TYPE_MAIN_VARIANT (ntype) = ntype; + expr = build1 (NOP_EXPR, ntype, expr); + } + + if (TREE_CODE (type) == INTEGER_TYPE + && TYPE_BIASED_REPRESENTATION_P (type)) + { + rtype = copy_type (type); + TYPE_BIASED_REPRESENTATION_P (rtype) = 0; + TYPE_MAIN_VARIANT (rtype) = rtype; + } + + /* We have another special case: if we are unchecked converting subtype + into a base type, we need to ensure that VRP doesn't propagate range + information since this conversion may be done precisely to validate + that the object is within the range it is supposed to have. */ + else if (TREE_CODE (expr) != INTEGER_CST + && TREE_CODE (type) == INTEGER_TYPE && !TREE_TYPE (type) + && ((TREE_CODE (etype) == INTEGER_TYPE && TREE_TYPE (etype)) + || TREE_CODE (etype) == ENUMERAL_TYPE + || TREE_CODE (etype) == BOOLEAN_TYPE)) + { + /* The optimization barrier is a VIEW_CONVERT_EXPR node; moreover, + in order not to be deemed an useless type conversion, it must + be from subtype to base type. + + ??? This may raise addressability and/or aliasing issues because + VIEW_CONVERT_EXPR gets gimplified as an lvalue, thus causing the + address of its operand to be taken if it is deemed addressable + and not already in GIMPLE form. */ + rtype = gnat_type_for_mode (TYPE_MODE (type), TYPE_UNSIGNED (type)); + rtype = copy_type (rtype); + TYPE_MAIN_VARIANT (rtype) = rtype; + TREE_TYPE (rtype) = type; + final_unchecked = true; + } + + expr = convert (rtype, expr); + if (type != rtype) + expr = fold_build1 (final_unchecked ? VIEW_CONVERT_EXPR : NOP_EXPR, + type, expr); + } + + /* If we are converting TO an integral type whose precision is not the + same as its size, first unchecked convert to a record that contains + an object of the output type. Then extract the field. */ + else if (INTEGRAL_TYPE_P (type) && TYPE_RM_SIZE (type) + && 0 != compare_tree_int (TYPE_RM_SIZE (type), + GET_MODE_BITSIZE (TYPE_MODE (type)))) + { + tree rec_type = make_node (RECORD_TYPE); + tree field = create_field_decl (get_identifier ("OBJ"), type, + rec_type, 1, 0, 0, 0); + + TYPE_FIELDS (rec_type) = field; + layout_type (rec_type); + + expr = unchecked_convert (rec_type, expr, notrunc_p); + expr = build_component_ref (expr, NULL_TREE, field, 0); + } + + /* Similarly for integral input type whose precision is not equal to its + size. */ + else if (INTEGRAL_TYPE_P (etype) && TYPE_RM_SIZE (etype) + && 0 != compare_tree_int (TYPE_RM_SIZE (etype), + GET_MODE_BITSIZE (TYPE_MODE (etype)))) + { + tree rec_type = make_node (RECORD_TYPE); + tree field + = create_field_decl (get_identifier ("OBJ"), etype, rec_type, + 1, 0, 0, 0); + + TYPE_FIELDS (rec_type) = field; + layout_type (rec_type); + + expr = gnat_build_constructor (rec_type, build_tree_list (field, expr)); + expr = unchecked_convert (type, expr, notrunc_p); + } + + /* We have a special case when we are converting between two + unconstrained array types. In that case, take the address, + convert the fat pointer types, and dereference. */ + else if (TREE_CODE (etype) == UNCONSTRAINED_ARRAY_TYPE + && TREE_CODE (type) == UNCONSTRAINED_ARRAY_TYPE) + expr = build_unary_op (INDIRECT_REF, NULL_TREE, + build1 (VIEW_CONVERT_EXPR, TREE_TYPE (type), + build_unary_op (ADDR_EXPR, NULL_TREE, + expr))); + else + { + expr = maybe_unconstrained_array (expr); + etype = TREE_TYPE (expr); + expr = fold_build1 (VIEW_CONVERT_EXPR, type, expr); + } + + /* If the result is an integral type whose size is not equal to + the size of the underlying machine type, sign- or zero-extend + the result. We need not do this in the case where the input is + an integral type of the same precision and signedness or if the output + is a biased type or if both the input and output are unsigned. */ + if (!notrunc_p + && INTEGRAL_TYPE_P (type) && TYPE_RM_SIZE (type) + && !(TREE_CODE (type) == INTEGER_TYPE + && TYPE_BIASED_REPRESENTATION_P (type)) + && 0 != compare_tree_int (TYPE_RM_SIZE (type), + GET_MODE_BITSIZE (TYPE_MODE (type))) + && !(INTEGRAL_TYPE_P (etype) + && TYPE_UNSIGNED (type) == TYPE_UNSIGNED (etype) + && operand_equal_p (TYPE_RM_SIZE (type), + (TYPE_RM_SIZE (etype) != 0 + ? TYPE_RM_SIZE (etype) : TYPE_SIZE (etype)), + 0)) + && !(TYPE_UNSIGNED (type) && TYPE_UNSIGNED (etype))) + { + tree base_type = gnat_type_for_mode (TYPE_MODE (type), + TYPE_UNSIGNED (type)); + tree shift_expr + = convert (base_type, + size_binop (MINUS_EXPR, + bitsize_int + (GET_MODE_BITSIZE (TYPE_MODE (type))), + TYPE_RM_SIZE (type))); + expr + = convert (type, + build_binary_op (RSHIFT_EXPR, base_type, + build_binary_op (LSHIFT_EXPR, base_type, + convert (base_type, expr), + shift_expr), + shift_expr)); + } + + /* An unchecked conversion should never raise Constraint_Error. The code + below assumes that GCC's conversion routines overflow the same way that + the underlying hardware does. This is probably true. In the rare case + when it is false, we can rely on the fact that such conversions are + erroneous anyway. */ + if (TREE_CODE (expr) == INTEGER_CST) + TREE_OVERFLOW (expr) = 0; + + /* If the sizes of the types differ and this is an VIEW_CONVERT_EXPR, + show no longer constant. */ + if (TREE_CODE (expr) == VIEW_CONVERT_EXPR + && !operand_equal_p (TYPE_SIZE_UNIT (type), TYPE_SIZE_UNIT (etype), + OEP_ONLY_CONST)) + TREE_CONSTANT (expr) = 0; + + return expr; +} + +/* Return the appropriate GCC tree code for the specified GNAT type, + the latter being a record type as predicated by Is_Record_Type. */ + +enum tree_code +tree_code_for_record_type (Entity_Id gnat_type) +{ + Node_Id component_list + = Component_List (Type_Definition + (Declaration_Node + (Implementation_Base_Type (gnat_type)))); + Node_Id component; + + /* Make this a UNION_TYPE unless it's either not an Unchecked_Union or + we have a non-discriminant field outside a variant. In either case, + it's a RECORD_TYPE. */ + + if (!Is_Unchecked_Union (gnat_type)) + return RECORD_TYPE; + + for (component = First_Non_Pragma (Component_Items (component_list)); + Present (component); + component = Next_Non_Pragma (component)) + if (Ekind (Defining_Entity (component)) == E_Component) + return RECORD_TYPE; + + return UNION_TYPE; +} + +/* Return true if GNU_TYPE is suitable as the type of a non-aliased + component of an aggregate type. */ + +bool +type_for_nonaliased_component_p (tree gnu_type) +{ + /* If the type is passed by reference, we may have pointers to the + component so it cannot be made non-aliased. */ + if (must_pass_by_ref (gnu_type) || default_pass_by_ref (gnu_type)) + return false; + + /* We used to say that any component of aggregate type is aliased + because the front-end may take 'Reference of it. The front-end + has been enhanced in the meantime so as to use a renaming instead + in most cases, but the back-end can probably take the address of + such a component too so we go for the conservative stance. + + For instance, we might need the address of any array type, even + if normally passed by copy, to construct a fat pointer if the + component is used as an actual for an unconstrained formal. + + Likewise for record types: even if a specific record subtype is + passed by copy, the parent type might be passed by ref (e.g. if + it's of variable size) and we might take the address of a child + component to pass to a parent formal. We have no way to check + for such conditions here. */ + if (AGGREGATE_TYPE_P (gnu_type)) + return false; + + return true; +} + +/* Perform final processing on global variables. */ + +void +gnat_write_global_declarations (void) +{ + /* Proceed to optimize and emit assembly. + FIXME: shouldn't be the front end's responsibility to call this. */ + cgraph_optimize (); + + /* Emit debug info for all global declarations. */ + emit_debug_global_declarations (VEC_address (tree, global_decls), + VEC_length (tree, global_decls)); +} + +/* ************************************************************************ + * * GCC builtins support * + * ************************************************************************ */ + +/* The general scheme is fairly simple: + + For each builtin function/type to be declared, gnat_install_builtins calls + internal facilities which eventually get to gnat_push_decl, which in turn + tracks the so declared builtin function decls in the 'builtin_decls' global + datastructure. When an Intrinsic subprogram declaration is processed, we + search this global datastructure to retrieve the associated BUILT_IN DECL + node. */ + +/* Search the chain of currently available builtin declarations for a node + corresponding to function NAME (an IDENTIFIER_NODE). Return the first node + found, if any, or NULL_TREE otherwise. */ +tree +builtin_decl_for (tree name) +{ + unsigned i; + tree decl; + + for (i = 0; VEC_iterate(tree, builtin_decls, i, decl); i++) + if (DECL_NAME (decl) == name) + return decl; + + return NULL_TREE; +} + +/* The code below eventually exposes gnat_install_builtins, which declares + the builtin types and functions we might need, either internally or as + user accessible facilities. + + ??? This is a first implementation shot, still in rough shape. It is + heavily inspired from the "C" family implementation, with chunks copied + verbatim from there. + + Two obvious TODO candidates are + o Use a more efficient name/decl mapping scheme + o Devise a middle-end infrastructure to avoid having to copy + pieces between front-ends. */ + +/* ----------------------------------------------------------------------- * + * BUILTIN ELEMENTARY TYPES * + * ----------------------------------------------------------------------- */ + +/* Standard data types to be used in builtin argument declarations. */ + +enum c_tree_index +{ + CTI_SIGNED_SIZE_TYPE, /* For format checking only. */ + CTI_STRING_TYPE, + CTI_CONST_STRING_TYPE, + + CTI_MAX +}; + +static tree c_global_trees[CTI_MAX]; + +#define signed_size_type_node c_global_trees[CTI_SIGNED_SIZE_TYPE] +#define string_type_node c_global_trees[CTI_STRING_TYPE] +#define const_string_type_node c_global_trees[CTI_CONST_STRING_TYPE] + +/* ??? In addition some attribute handlers, we currently don't support a + (small) number of builtin-types, which in turns inhibits support for a + number of builtin functions. */ +#define wint_type_node void_type_node +#define intmax_type_node void_type_node +#define uintmax_type_node void_type_node + +/* Build the void_list_node (void_type_node having been created). */ + +static tree +build_void_list_node (void) +{ + tree t = build_tree_list (NULL_TREE, void_type_node); + return t; +} + +/* Used to help initialize the builtin-types.def table. When a type of + the correct size doesn't exist, use error_mark_node instead of NULL. + The later results in segfaults even when a decl using the type doesn't + get invoked. */ + +static tree +builtin_type_for_size (int size, bool unsignedp) +{ + tree type = lang_hooks.types.type_for_size (size, unsignedp); + return type ? type : error_mark_node; +} + +/* Build/push the elementary type decls that builtin functions/types + will need. */ + +static void +install_builtin_elementary_types (void) +{ + signed_size_type_node = size_type_node; + pid_type_node = integer_type_node; + void_list_node = build_void_list_node (); + + string_type_node = build_pointer_type (char_type_node); + const_string_type_node + = build_pointer_type (build_qualified_type + (char_type_node, TYPE_QUAL_CONST)); +} + +/* ----------------------------------------------------------------------- * + * BUILTIN FUNCTION TYPES * + * ----------------------------------------------------------------------- */ + +/* Now, builtin function types per se. */ + +enum c_builtin_type +{ +#define DEF_PRIMITIVE_TYPE(NAME, VALUE) NAME, +#define DEF_FUNCTION_TYPE_0(NAME, RETURN) NAME, +#define DEF_FUNCTION_TYPE_1(NAME, RETURN, ARG1) NAME, +#define DEF_FUNCTION_TYPE_2(NAME, RETURN, ARG1, ARG2) NAME, +#define DEF_FUNCTION_TYPE_3(NAME, RETURN, ARG1, ARG2, ARG3) NAME, +#define DEF_FUNCTION_TYPE_4(NAME, RETURN, ARG1, ARG2, ARG3, ARG4) NAME, +#define DEF_FUNCTION_TYPE_5(NAME, RETURN, ARG1, ARG2, ARG3, ARG4, ARG5) NAME, +#define DEF_FUNCTION_TYPE_6(NAME, RETURN, ARG1, ARG2, ARG3, ARG4, ARG5, ARG6) NAME, +#define DEF_FUNCTION_TYPE_7(NAME, RETURN, ARG1, ARG2, ARG3, ARG4, ARG5, ARG6, ARG7) NAME, +#define DEF_FUNCTION_TYPE_VAR_0(NAME, RETURN) NAME, +#define DEF_FUNCTION_TYPE_VAR_1(NAME, RETURN, ARG1) NAME, +#define DEF_FUNCTION_TYPE_VAR_2(NAME, RETURN, ARG1, ARG2) NAME, +#define DEF_FUNCTION_TYPE_VAR_3(NAME, RETURN, ARG1, ARG2, ARG3) NAME, +#define DEF_FUNCTION_TYPE_VAR_4(NAME, RETURN, ARG1, ARG2, ARG3, ARG4) NAME, +#define DEF_FUNCTION_TYPE_VAR_5(NAME, RETURN, ARG1, ARG2, ARG3, ARG4, ARG6) \ + NAME, +#define DEF_POINTER_TYPE(NAME, TYPE) NAME, +#include "builtin-types.def" +#undef DEF_PRIMITIVE_TYPE +#undef DEF_FUNCTION_TYPE_0 +#undef DEF_FUNCTION_TYPE_1 +#undef DEF_FUNCTION_TYPE_2 +#undef DEF_FUNCTION_TYPE_3 +#undef DEF_FUNCTION_TYPE_4 +#undef DEF_FUNCTION_TYPE_5 +#undef DEF_FUNCTION_TYPE_6 +#undef DEF_FUNCTION_TYPE_7 +#undef DEF_FUNCTION_TYPE_VAR_0 +#undef DEF_FUNCTION_TYPE_VAR_1 +#undef DEF_FUNCTION_TYPE_VAR_2 +#undef DEF_FUNCTION_TYPE_VAR_3 +#undef DEF_FUNCTION_TYPE_VAR_4 +#undef DEF_FUNCTION_TYPE_VAR_5 +#undef DEF_POINTER_TYPE + BT_LAST +}; + +typedef enum c_builtin_type builtin_type; + +/* A temporary array used in communication with def_fn_type. */ +static GTY(()) tree builtin_types[(int) BT_LAST + 1]; + +/* A helper function for install_builtin_types. Build function type + for DEF with return type RET and N arguments. If VAR is true, then the + function should be variadic after those N arguments. + + Takes special care not to ICE if any of the types involved are + error_mark_node, which indicates that said type is not in fact available + (see builtin_type_for_size). In which case the function type as a whole + should be error_mark_node. */ + +static void +def_fn_type (builtin_type def, builtin_type ret, bool var, int n, ...) +{ + tree args = NULL, t; + va_list list; + int i; + + va_start (list, n); + for (i = 0; i < n; ++i) + { + builtin_type a = va_arg (list, builtin_type); + t = builtin_types[a]; + if (t == error_mark_node) + goto egress; + args = tree_cons (NULL_TREE, t, args); + } + va_end (list); + + args = nreverse (args); + if (!var) + args = chainon (args, void_list_node); + + t = builtin_types[ret]; + if (t == error_mark_node) + goto egress; + t = build_function_type (t, args); + + egress: + builtin_types[def] = t; +} + +/* Build the builtin function types and install them in the builtin_types + array for later use in builtin function decls. */ + +static void +install_builtin_function_types (void) +{ + tree va_list_ref_type_node; + tree va_list_arg_type_node; + + if (TREE_CODE (va_list_type_node) == ARRAY_TYPE) + { + va_list_arg_type_node = va_list_ref_type_node = + build_pointer_type (TREE_TYPE (va_list_type_node)); + } + else + { + va_list_arg_type_node = va_list_type_node; + va_list_ref_type_node = build_reference_type (va_list_type_node); + } + +#define DEF_PRIMITIVE_TYPE(ENUM, VALUE) \ + builtin_types[ENUM] = VALUE; +#define DEF_FUNCTION_TYPE_0(ENUM, RETURN) \ + def_fn_type (ENUM, RETURN, 0, 0); +#define DEF_FUNCTION_TYPE_1(ENUM, RETURN, ARG1) \ + def_fn_type (ENUM, RETURN, 0, 1, ARG1); +#define DEF_FUNCTION_TYPE_2(ENUM, RETURN, ARG1, ARG2) \ + def_fn_type (ENUM, RETURN, 0, 2, ARG1, ARG2); +#define DEF_FUNCTION_TYPE_3(ENUM, RETURN, ARG1, ARG2, ARG3) \ + def_fn_type (ENUM, RETURN, 0, 3, ARG1, ARG2, ARG3); +#define DEF_FUNCTION_TYPE_4(ENUM, RETURN, ARG1, ARG2, ARG3, ARG4) \ + def_fn_type (ENUM, RETURN, 0, 4, ARG1, ARG2, ARG3, ARG4); +#define DEF_FUNCTION_TYPE_5(ENUM, RETURN, ARG1, ARG2, ARG3, ARG4, ARG5) \ + def_fn_type (ENUM, RETURN, 0, 5, ARG1, ARG2, ARG3, ARG4, ARG5); +#define DEF_FUNCTION_TYPE_6(ENUM, RETURN, ARG1, ARG2, ARG3, ARG4, ARG5, \ + ARG6) \ + def_fn_type (ENUM, RETURN, 0, 6, ARG1, ARG2, ARG3, ARG4, ARG5, ARG6); +#define DEF_FUNCTION_TYPE_7(ENUM, RETURN, ARG1, ARG2, ARG3, ARG4, ARG5, \ + ARG6, ARG7) \ + def_fn_type (ENUM, RETURN, 0, 7, ARG1, ARG2, ARG3, ARG4, ARG5, ARG6, ARG7); +#define DEF_FUNCTION_TYPE_VAR_0(ENUM, RETURN) \ + def_fn_type (ENUM, RETURN, 1, 0); +#define DEF_FUNCTION_TYPE_VAR_1(ENUM, RETURN, ARG1) \ + def_fn_type (ENUM, RETURN, 1, 1, ARG1); +#define DEF_FUNCTION_TYPE_VAR_2(ENUM, RETURN, ARG1, ARG2) \ + def_fn_type (ENUM, RETURN, 1, 2, ARG1, ARG2); +#define DEF_FUNCTION_TYPE_VAR_3(ENUM, RETURN, ARG1, ARG2, ARG3) \ + def_fn_type (ENUM, RETURN, 1, 3, ARG1, ARG2, ARG3); +#define DEF_FUNCTION_TYPE_VAR_4(ENUM, RETURN, ARG1, ARG2, ARG3, ARG4) \ + def_fn_type (ENUM, RETURN, 1, 4, ARG1, ARG2, ARG3, ARG4); +#define DEF_FUNCTION_TYPE_VAR_5(ENUM, RETURN, ARG1, ARG2, ARG3, ARG4, ARG5) \ + def_fn_type (ENUM, RETURN, 1, 5, ARG1, ARG2, ARG3, ARG4, ARG5); +#define DEF_POINTER_TYPE(ENUM, TYPE) \ + builtin_types[(int) ENUM] = build_pointer_type (builtin_types[(int) TYPE]); + +#include "builtin-types.def" + +#undef DEF_PRIMITIVE_TYPE +#undef DEF_FUNCTION_TYPE_1 +#undef DEF_FUNCTION_TYPE_2 +#undef DEF_FUNCTION_TYPE_3 +#undef DEF_FUNCTION_TYPE_4 +#undef DEF_FUNCTION_TYPE_5 +#undef DEF_FUNCTION_TYPE_6 +#undef DEF_FUNCTION_TYPE_VAR_0 +#undef DEF_FUNCTION_TYPE_VAR_1 +#undef DEF_FUNCTION_TYPE_VAR_2 +#undef DEF_FUNCTION_TYPE_VAR_3 +#undef DEF_FUNCTION_TYPE_VAR_4 +#undef DEF_FUNCTION_TYPE_VAR_5 +#undef DEF_POINTER_TYPE + builtin_types[(int) BT_LAST] = NULL_TREE; +} + +/* ----------------------------------------------------------------------- * + * BUILTIN ATTRIBUTES * + * ----------------------------------------------------------------------- */ + +enum built_in_attribute +{ +#define DEF_ATTR_NULL_TREE(ENUM) ENUM, +#define DEF_ATTR_INT(ENUM, VALUE) ENUM, +#define DEF_ATTR_IDENT(ENUM, STRING) ENUM, +#define DEF_ATTR_TREE_LIST(ENUM, PURPOSE, VALUE, CHAIN) ENUM, +#include "builtin-attrs.def" +#undef DEF_ATTR_NULL_TREE +#undef DEF_ATTR_INT +#undef DEF_ATTR_IDENT +#undef DEF_ATTR_TREE_LIST + ATTR_LAST +}; + +static GTY(()) tree built_in_attributes[(int) ATTR_LAST]; + +static void +install_builtin_attributes (void) +{ + /* Fill in the built_in_attributes array. */ +#define DEF_ATTR_NULL_TREE(ENUM) \ + built_in_attributes[(int) ENUM] = NULL_TREE; +#define DEF_ATTR_INT(ENUM, VALUE) \ + built_in_attributes[(int) ENUM] = build_int_cst (NULL_TREE, VALUE); +#define DEF_ATTR_IDENT(ENUM, STRING) \ + built_in_attributes[(int) ENUM] = get_identifier (STRING); +#define DEF_ATTR_TREE_LIST(ENUM, PURPOSE, VALUE, CHAIN) \ + built_in_attributes[(int) ENUM] \ + = tree_cons (built_in_attributes[(int) PURPOSE], \ + built_in_attributes[(int) VALUE], \ + built_in_attributes[(int) CHAIN]); +#include "builtin-attrs.def" +#undef DEF_ATTR_NULL_TREE +#undef DEF_ATTR_INT +#undef DEF_ATTR_IDENT +#undef DEF_ATTR_TREE_LIST +} + +/* Handle a "const" attribute; arguments as in + struct attribute_spec.handler. */ + +static tree +handle_const_attribute (tree *node, tree ARG_UNUSED (name), + tree ARG_UNUSED (args), int ARG_UNUSED (flags), + bool *no_add_attrs) +{ + if (TREE_CODE (*node) == FUNCTION_DECL) + TREE_READONLY (*node) = 1; + else + *no_add_attrs = true; + + return NULL_TREE; +} + +/* Handle a "nothrow" attribute; arguments as in + struct attribute_spec.handler. */ + +static tree +handle_nothrow_attribute (tree *node, tree ARG_UNUSED (name), + tree ARG_UNUSED (args), int ARG_UNUSED (flags), + bool *no_add_attrs) +{ + if (TREE_CODE (*node) == FUNCTION_DECL) + TREE_NOTHROW (*node) = 1; + else + *no_add_attrs = true; + + return NULL_TREE; +} + +/* Handle a "pure" attribute; arguments as in + struct attribute_spec.handler. */ + +static tree +handle_pure_attribute (tree *node, tree name, tree ARG_UNUSED (args), + int ARG_UNUSED (flags), bool *no_add_attrs) +{ + if (TREE_CODE (*node) == FUNCTION_DECL) + DECL_PURE_P (*node) = 1; + /* ??? TODO: Support types. */ + else + { + warning (OPT_Wattributes, "%qE attribute ignored", name); + *no_add_attrs = true; + } + + return NULL_TREE; +} + +/* Handle a "no vops" attribute; arguments as in + struct attribute_spec.handler. */ + +static tree +handle_novops_attribute (tree *node, tree ARG_UNUSED (name), + tree ARG_UNUSED (args), int ARG_UNUSED (flags), + bool *ARG_UNUSED (no_add_attrs)) +{ + gcc_assert (TREE_CODE (*node) == FUNCTION_DECL); + DECL_IS_NOVOPS (*node) = 1; + return NULL_TREE; +} + +/* Helper for nonnull attribute handling; fetch the operand number + from the attribute argument list. */ + +static bool +get_nonnull_operand (tree arg_num_expr, unsigned HOST_WIDE_INT *valp) +{ + /* Verify the arg number is a constant. */ + if (TREE_CODE (arg_num_expr) != INTEGER_CST + || TREE_INT_CST_HIGH (arg_num_expr) != 0) + return false; + + *valp = TREE_INT_CST_LOW (arg_num_expr); + return true; +} + +/* Handle the "nonnull" attribute. */ +static tree +handle_nonnull_attribute (tree *node, tree ARG_UNUSED (name), + tree args, int ARG_UNUSED (flags), + bool *no_add_attrs) +{ + tree type = *node; + unsigned HOST_WIDE_INT attr_arg_num; + + /* If no arguments are specified, all pointer arguments should be + non-null. Verify a full prototype is given so that the arguments + will have the correct types when we actually check them later. */ + if (!args) + { + if (!TYPE_ARG_TYPES (type)) + { + error ("nonnull attribute without arguments on a non-prototype"); + *no_add_attrs = true; + } + return NULL_TREE; + } + + /* Argument list specified. Verify that each argument number references + a pointer argument. */ + for (attr_arg_num = 1; args; args = TREE_CHAIN (args)) + { + tree argument; + unsigned HOST_WIDE_INT arg_num = 0, ck_num; + + if (!get_nonnull_operand (TREE_VALUE (args), &arg_num)) + { + error ("nonnull argument has invalid operand number (argument %lu)", + (unsigned long) attr_arg_num); + *no_add_attrs = true; + return NULL_TREE; + } + + argument = TYPE_ARG_TYPES (type); + if (argument) + { + for (ck_num = 1; ; ck_num++) + { + if (!argument || ck_num == arg_num) + break; + argument = TREE_CHAIN (argument); + } + + if (!argument + || TREE_CODE (TREE_VALUE (argument)) == VOID_TYPE) + { + error ("nonnull argument with out-of-range operand number (argument %lu, operand %lu)", + (unsigned long) attr_arg_num, (unsigned long) arg_num); + *no_add_attrs = true; + return NULL_TREE; + } + + if (TREE_CODE (TREE_VALUE (argument)) != POINTER_TYPE) + { + error ("nonnull argument references non-pointer operand (argument %lu, operand %lu)", + (unsigned long) attr_arg_num, (unsigned long) arg_num); + *no_add_attrs = true; + return NULL_TREE; + } + } + } + + return NULL_TREE; +} + +/* Handle a "sentinel" attribute. */ + +static tree +handle_sentinel_attribute (tree *node, tree name, tree args, + int ARG_UNUSED (flags), bool *no_add_attrs) +{ + tree params = TYPE_ARG_TYPES (*node); + + if (!params) + { + warning (OPT_Wattributes, + "%qE attribute requires prototypes with named arguments", name); + *no_add_attrs = true; + } + else + { + while (TREE_CHAIN (params)) + params = TREE_CHAIN (params); + + if (VOID_TYPE_P (TREE_VALUE (params))) + { + warning (OPT_Wattributes, + "%qE attribute only applies to variadic functions", name); + *no_add_attrs = true; + } + } + + if (args) + { + tree position = TREE_VALUE (args); + + if (TREE_CODE (position) != INTEGER_CST) + { + warning (0, "requested position is not an integer constant"); + *no_add_attrs = true; + } + else + { + if (tree_int_cst_lt (position, integer_zero_node)) + { + warning (0, "requested position is less than zero"); + *no_add_attrs = true; + } + } + } + + return NULL_TREE; +} + +/* Handle a "noreturn" attribute; arguments as in + struct attribute_spec.handler. */ + +static tree +handle_noreturn_attribute (tree *node, tree name, tree ARG_UNUSED (args), + int ARG_UNUSED (flags), bool *no_add_attrs) +{ + tree type = TREE_TYPE (*node); + + /* See FIXME comment in c_common_attribute_table. */ + if (TREE_CODE (*node) == FUNCTION_DECL) + TREE_THIS_VOLATILE (*node) = 1; + else if (TREE_CODE (type) == POINTER_TYPE + && TREE_CODE (TREE_TYPE (type)) == FUNCTION_TYPE) + TREE_TYPE (*node) + = build_pointer_type + (build_type_variant (TREE_TYPE (type), + TYPE_READONLY (TREE_TYPE (type)), 1)); + else + { + warning (OPT_Wattributes, "%qE attribute ignored", name); + *no_add_attrs = true; + } + + return NULL_TREE; +} + +/* Handle a "malloc" attribute; arguments as in + struct attribute_spec.handler. */ + +static tree +handle_malloc_attribute (tree *node, tree name, tree ARG_UNUSED (args), + int ARG_UNUSED (flags), bool *no_add_attrs) +{ + if (TREE_CODE (*node) == FUNCTION_DECL + && POINTER_TYPE_P (TREE_TYPE (TREE_TYPE (*node)))) + DECL_IS_MALLOC (*node) = 1; + else + { + warning (OPT_Wattributes, "%qE attribute ignored", name); + *no_add_attrs = true; + } + + return NULL_TREE; +} + +/* Fake handler for attributes we don't properly support. */ + +tree +fake_attribute_handler (tree * ARG_UNUSED (node), + tree ARG_UNUSED (name), + tree ARG_UNUSED (args), + int ARG_UNUSED (flags), + bool * ARG_UNUSED (no_add_attrs)) +{ + return NULL_TREE; +} + +/* Handle a "type_generic" attribute. */ + +static tree +handle_type_generic_attribute (tree *node, tree ARG_UNUSED (name), + tree ARG_UNUSED (args), int ARG_UNUSED (flags), + bool * ARG_UNUSED (no_add_attrs)) +{ + tree params; + + /* Ensure we have a function type. */ + gcc_assert (TREE_CODE (*node) == FUNCTION_TYPE); + + params = TYPE_ARG_TYPES (*node); + while (params && ! VOID_TYPE_P (TREE_VALUE (params))) + params = TREE_CHAIN (params); + + /* Ensure we have a variadic function. */ + gcc_assert (!params); + + return NULL_TREE; +} + +/* ----------------------------------------------------------------------- * + * BUILTIN FUNCTIONS * + * ----------------------------------------------------------------------- */ + +/* Worker for DEF_BUILTIN. Possibly define a builtin function with one or two + names. Does not declare a non-__builtin_ function if flag_no_builtin, or + if nonansi_p and flag_no_nonansi_builtin. */ + +static void +def_builtin_1 (enum built_in_function fncode, + const char *name, + enum built_in_class fnclass, + tree fntype, tree libtype, + bool both_p, bool fallback_p, + bool nonansi_p ATTRIBUTE_UNUSED, + tree fnattrs, bool implicit_p) +{ + tree decl; + const char *libname; + + /* Preserve an already installed decl. It most likely was setup in advance + (e.g. as part of the internal builtins) for specific reasons. */ + if (built_in_decls[(int) fncode] != NULL_TREE) + return; + + gcc_assert ((!both_p && !fallback_p) + || !strncmp (name, "__builtin_", + strlen ("__builtin_"))); + + libname = name + strlen ("__builtin_"); + decl = add_builtin_function (name, fntype, fncode, fnclass, + (fallback_p ? libname : NULL), + fnattrs); + if (both_p) + /* ??? This is normally further controlled by command-line options + like -fno-builtin, but we don't have them for Ada. */ + add_builtin_function (libname, libtype, fncode, fnclass, + NULL, fnattrs); + + built_in_decls[(int) fncode] = decl; + if (implicit_p) + implicit_built_in_decls[(int) fncode] = decl; +} + +static int flag_isoc94 = 0; +static int flag_isoc99 = 0; + +/* Install what the common builtins.def offers. */ + +static void +install_builtin_functions (void) +{ +#define DEF_BUILTIN(ENUM, NAME, CLASS, TYPE, LIBTYPE, BOTH_P, FALLBACK_P, \ + NONANSI_P, ATTRS, IMPLICIT, COND) \ + if (NAME && COND) \ + def_builtin_1 (ENUM, NAME, CLASS, \ + builtin_types[(int) TYPE], \ + builtin_types[(int) LIBTYPE], \ + BOTH_P, FALLBACK_P, NONANSI_P, \ + built_in_attributes[(int) ATTRS], IMPLICIT); +#include "builtins.def" +#undef DEF_BUILTIN +} + +/* ----------------------------------------------------------------------- * + * BUILTIN FUNCTIONS * + * ----------------------------------------------------------------------- */ + +/* Install the builtin functions we might need. */ + +void +gnat_install_builtins (void) +{ + install_builtin_elementary_types (); + install_builtin_function_types (); + install_builtin_attributes (); + + /* Install builtins used by generic middle-end pieces first. Some of these + know about internal specificities and control attributes accordingly, for + instance __builtin_alloca vs no-throw and -fstack-check. We will ignore + the generic definition from builtins.def. */ + build_common_builtin_nodes (); + + /* Now, install the target specific builtins, such as the AltiVec family on + ppc, and the common set as exposed by builtins.def. */ + targetm.init_builtins (); + install_builtin_functions (); +} + +#include "gt-ada-utils.h" +#include "gtype-ada.h" diff --git a/gcc/ada/gcc-interface/utils2.c b/gcc/ada/gcc-interface/utils2.c new file mode 100644 index 00000000000..300fbd37d01 --- /dev/null +++ b/gcc/ada/gcc-interface/utils2.c @@ -0,0 +1,2219 @@ +/**************************************************************************** + * * + * GNAT COMPILER COMPONENTS * + * * + * U T I L S 2 * + * * + * C Implementation File * + * * + * Copyright (C) 1992-2008, Free Software Foundation, Inc. * + * * + * GNAT is free software; you can redistribute it and/or modify it under * + * terms of the GNU General Public License as published by the Free Soft- * + * ware Foundation; either version 3, or (at your option) any later ver- * + * sion. GNAT is distributed in the hope that it will be useful, but WITH- * + * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * + * for more details. You should have received a copy of the GNU General * + * Public License along with GCC; see the file COPYING3. If not see * + * . * + * * + * GNAT was originally developed by the GNAT team at New York University. * + * Extensive contributions were provided by Ada Core Technologies Inc. * + * * + ****************************************************************************/ + +#include "config.h" +#include "system.h" +#include "coretypes.h" +#include "tm.h" +#include "tree.h" +#include "rtl.h" +#include "ggc.h" +#include "flags.h" +#include "output.h" +#include "ada.h" +#include "types.h" +#include "atree.h" +#include "stringt.h" +#include "namet.h" +#include "uintp.h" +#include "fe.h" +#include "elists.h" +#include "nlists.h" +#include "sinfo.h" +#include "einfo.h" +#include "ada-tree.h" +#include "gigi.h" + +static tree find_common_type (tree, tree); +static bool contains_save_expr_p (tree); +static tree contains_null_expr (tree); +static tree compare_arrays (tree, tree, tree); +static tree nonbinary_modular_operation (enum tree_code, tree, tree, tree); +static tree build_simple_component_ref (tree, tree, tree, bool); + +/* Prepare expr to be an argument of a TRUTH_NOT_EXPR or other logical + operation. + + This preparation consists of taking the ordinary representation of + an expression expr and producing a valid tree boolean expression + describing whether expr is nonzero. We could simply always do + + build_binary_op (NE_EXPR, expr, integer_zero_node, 1), + + but we optimize comparisons, &&, ||, and !. + + The resulting type should always be the same as the input type. + This function is simpler than the corresponding C version since + the only possible operands will be things of Boolean type. */ + +tree +gnat_truthvalue_conversion (tree expr) +{ + tree type = TREE_TYPE (expr); + + switch (TREE_CODE (expr)) + { + case EQ_EXPR: case NE_EXPR: case LE_EXPR: case GE_EXPR: + case LT_EXPR: case GT_EXPR: + case TRUTH_ANDIF_EXPR: + case TRUTH_ORIF_EXPR: + case TRUTH_AND_EXPR: + case TRUTH_OR_EXPR: + case TRUTH_XOR_EXPR: + case ERROR_MARK: + return expr; + + case INTEGER_CST: + return (integer_zerop (expr) + ? build_int_cst (type, 0) + : build_int_cst (type, 1)); + + case REAL_CST: + return (real_zerop (expr) + ? fold_convert (type, integer_zero_node) + : fold_convert (type, integer_one_node)); + + case COND_EXPR: + /* Distribute the conversion into the arms of a COND_EXPR. */ + { + tree arg1 = gnat_truthvalue_conversion (TREE_OPERAND (expr, 1)); + tree arg2 = gnat_truthvalue_conversion (TREE_OPERAND (expr, 2)); + return fold_build3 (COND_EXPR, type, TREE_OPERAND (expr, 0), + arg1, arg2); + } + + default: + return build_binary_op (NE_EXPR, type, expr, + fold_convert (type, integer_zero_node)); + } +} + +/* Return the base type of TYPE. */ + +tree +get_base_type (tree type) +{ + if (TREE_CODE (type) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (type)) + type = TREE_TYPE (TYPE_FIELDS (type)); + + while (TREE_TYPE (type) + && (TREE_CODE (type) == INTEGER_TYPE + || TREE_CODE (type) == REAL_TYPE)) + type = TREE_TYPE (type); + + return type; +} + +/* EXP is a GCC tree representing an address. See if we can find how + strictly the object at that address is aligned. Return that alignment + in bits. If we don't know anything about the alignment, return 0. */ + +unsigned int +known_alignment (tree exp) +{ + unsigned int this_alignment; + unsigned int lhs, rhs; + + switch (TREE_CODE (exp)) + { + CASE_CONVERT: + case VIEW_CONVERT_EXPR: + case NON_LVALUE_EXPR: + /* Conversions between pointers and integers don't change the alignment + of the underlying object. */ + this_alignment = known_alignment (TREE_OPERAND (exp, 0)); + break; + + case COMPOUND_EXPR: + /* The value of a COMPOUND_EXPR is that of it's second operand. */ + this_alignment = known_alignment (TREE_OPERAND (exp, 1)); + break; + + case PLUS_EXPR: + case MINUS_EXPR: + /* If two address are added, the alignment of the result is the + minimum of the two alignments. */ + lhs = known_alignment (TREE_OPERAND (exp, 0)); + rhs = known_alignment (TREE_OPERAND (exp, 1)); + this_alignment = MIN (lhs, rhs); + break; + + case POINTER_PLUS_EXPR: + lhs = known_alignment (TREE_OPERAND (exp, 0)); + rhs = known_alignment (TREE_OPERAND (exp, 1)); + /* If we don't know the alignment of the offset, we assume that + of the base. */ + if (rhs == 0) + this_alignment = lhs; + else + this_alignment = MIN (lhs, rhs); + break; + + case COND_EXPR: + /* If there is a choice between two values, use the smallest one. */ + lhs = known_alignment (TREE_OPERAND (exp, 1)); + rhs = known_alignment (TREE_OPERAND (exp, 2)); + this_alignment = MIN (lhs, rhs); + break; + + case INTEGER_CST: + { + unsigned HOST_WIDE_INT c = TREE_INT_CST_LOW (exp); + /* The first part of this represents the lowest bit in the constant, + but it is originally in bytes, not bits. */ + this_alignment = MIN (BITS_PER_UNIT * (c & -c), BIGGEST_ALIGNMENT); + } + break; + + case MULT_EXPR: + /* If we know the alignment of just one side, use it. Otherwise, + use the product of the alignments. */ + lhs = known_alignment (TREE_OPERAND (exp, 0)); + rhs = known_alignment (TREE_OPERAND (exp, 1)); + + if (lhs == 0) + this_alignment = rhs; + else if (rhs == 0) + this_alignment = lhs; + else + this_alignment = MIN (lhs * rhs, BIGGEST_ALIGNMENT); + break; + + case BIT_AND_EXPR: + /* A bit-and expression is as aligned as the maximum alignment of the + operands. We typically get here for a complex lhs and a constant + negative power of two on the rhs to force an explicit alignment, so + don't bother looking at the lhs. */ + this_alignment = known_alignment (TREE_OPERAND (exp, 1)); + break; + + case ADDR_EXPR: + this_alignment = expr_align (TREE_OPERAND (exp, 0)); + break; + + default: + /* For other pointer expressions, we assume that the pointed-to object + is at least as aligned as the pointed-to type. Beware that we can + have a dummy type here (e.g. a Taft Amendment type), for which the + alignment is meaningless and should be ignored. */ + if (POINTER_TYPE_P (TREE_TYPE (exp)) + && !TYPE_IS_DUMMY_P (TREE_TYPE (TREE_TYPE (exp)))) + this_alignment = TYPE_ALIGN (TREE_TYPE (TREE_TYPE (exp))); + else + this_alignment = 0; + break; + } + + return this_alignment; +} + +/* We have a comparison or assignment operation on two types, T1 and T2, which + are either both array types or both record types. T1 is assumed to be for + the left hand side operand, and T2 for the right hand side. Return the + type that both operands should be converted to for the operation, if any. + Otherwise return zero. */ + +static tree +find_common_type (tree t1, tree t2) +{ + /* ??? As of today, various constructs lead here with types of different + sizes even when both constants (e.g. tagged types, packable vs regular + component types, padded vs unpadded types, ...). While some of these + would better be handled upstream (types should be made consistent before + calling into build_binary_op), some others are really expected and we + have to be careful. */ + + /* We must prevent writing more than what the target may hold if this is for + an assignment and the case of tagged types is handled in build_binary_op + so use the lhs type if it is known to be smaller, or of constant size and + the rhs type is not, whatever the modes. We also force t1 in case of + constant size equality to minimize occurrences of view conversions on the + lhs of assignments. */ + if (TREE_CONSTANT (TYPE_SIZE (t1)) + && (!TREE_CONSTANT (TYPE_SIZE (t2)) + || !tree_int_cst_lt (TYPE_SIZE (t2), TYPE_SIZE (t1)))) + return t1; + + /* Otherwise, if the lhs type is non-BLKmode, use it. Note that we know + that we will not have any alignment problems since, if we did, the + non-BLKmode type could not have been used. */ + if (TYPE_MODE (t1) != BLKmode) + return t1; + + /* If the rhs type is of constant size, use it whatever the modes. At + this point it is known to be smaller, or of constant size and the + lhs type is not. */ + if (TREE_CONSTANT (TYPE_SIZE (t2))) + return t2; + + /* Otherwise, if the rhs type is non-BLKmode, use it. */ + if (TYPE_MODE (t2) != BLKmode) + return t2; + + /* In this case, both types have variable size and BLKmode. It's + probably best to leave the "type mismatch" because changing it + could cause a bad self-referential reference. */ + return NULL_TREE; +} + +/* See if EXP contains a SAVE_EXPR in a position where we would + normally put it. + + ??? This is a real kludge, but is probably the best approach short + of some very general solution. */ + +static bool +contains_save_expr_p (tree exp) +{ + switch (TREE_CODE (exp)) + { + case SAVE_EXPR: + return true; + + case ADDR_EXPR: case INDIRECT_REF: + case COMPONENT_REF: + CASE_CONVERT: case VIEW_CONVERT_EXPR: + return contains_save_expr_p (TREE_OPERAND (exp, 0)); + + case CONSTRUCTOR: + { + tree value; + unsigned HOST_WIDE_INT ix; + + FOR_EACH_CONSTRUCTOR_VALUE (CONSTRUCTOR_ELTS (exp), ix, value) + if (contains_save_expr_p (value)) + return true; + return false; + } + + default: + return false; + } +} + +/* See if EXP contains a NULL_EXPR in an expression we use for sizes. Return + it if so. This is used to detect types whose sizes involve computations + that are known to raise Constraint_Error. */ + +static tree +contains_null_expr (tree exp) +{ + tree tem; + + if (TREE_CODE (exp) == NULL_EXPR) + return exp; + + switch (TREE_CODE_CLASS (TREE_CODE (exp))) + { + case tcc_unary: + return contains_null_expr (TREE_OPERAND (exp, 0)); + + case tcc_comparison: + case tcc_binary: + tem = contains_null_expr (TREE_OPERAND (exp, 0)); + if (tem) + return tem; + + return contains_null_expr (TREE_OPERAND (exp, 1)); + + case tcc_expression: + switch (TREE_CODE (exp)) + { + case SAVE_EXPR: + return contains_null_expr (TREE_OPERAND (exp, 0)); + + case COND_EXPR: + tem = contains_null_expr (TREE_OPERAND (exp, 0)); + if (tem) + return tem; + + tem = contains_null_expr (TREE_OPERAND (exp, 1)); + if (tem) + return tem; + + return contains_null_expr (TREE_OPERAND (exp, 2)); + + default: + return 0; + } + + default: + return 0; + } +} + +/* Return an expression tree representing an equality comparison of + A1 and A2, two objects of ARRAY_TYPE. The returned expression should + be of type RESULT_TYPE + + Two arrays are equal in one of two ways: (1) if both have zero length + in some dimension (not necessarily the same dimension) or (2) if the + lengths in each dimension are equal and the data is equal. We perform the + length tests in as efficient a manner as possible. */ + +static tree +compare_arrays (tree result_type, tree a1, tree a2) +{ + tree t1 = TREE_TYPE (a1); + tree t2 = TREE_TYPE (a2); + tree result = convert (result_type, integer_one_node); + tree a1_is_null = convert (result_type, integer_zero_node); + tree a2_is_null = convert (result_type, integer_zero_node); + bool length_zero_p = false; + + /* Process each dimension separately and compare the lengths. If any + dimension has a size known to be zero, set SIZE_ZERO_P to 1 to + suppress the comparison of the data. */ + while (TREE_CODE (t1) == ARRAY_TYPE && TREE_CODE (t2) == ARRAY_TYPE) + { + tree lb1 = TYPE_MIN_VALUE (TYPE_DOMAIN (t1)); + tree ub1 = TYPE_MAX_VALUE (TYPE_DOMAIN (t1)); + tree lb2 = TYPE_MIN_VALUE (TYPE_DOMAIN (t2)); + tree ub2 = TYPE_MAX_VALUE (TYPE_DOMAIN (t2)); + tree bt = get_base_type (TREE_TYPE (lb1)); + tree length1 = fold_build2 (MINUS_EXPR, bt, ub1, lb1); + tree length2 = fold_build2 (MINUS_EXPR, bt, ub2, lb2); + tree nbt; + tree tem; + tree comparison, this_a1_is_null, this_a2_is_null; + + /* If the length of the first array is a constant, swap our operands + unless the length of the second array is the constant zero. + Note that we have set the `length' values to the length - 1. */ + if (TREE_CODE (length1) == INTEGER_CST + && !integer_zerop (fold_build2 (PLUS_EXPR, bt, length2, + convert (bt, integer_one_node)))) + { + tem = a1, a1 = a2, a2 = tem; + tem = t1, t1 = t2, t2 = tem; + tem = lb1, lb1 = lb2, lb2 = tem; + tem = ub1, ub1 = ub2, ub2 = tem; + tem = length1, length1 = length2, length2 = tem; + tem = a1_is_null, a1_is_null = a2_is_null, a2_is_null = tem; + } + + /* If the length of this dimension in the second array is the constant + zero, we can just go inside the original bounds for the first + array and see if last < first. */ + if (integer_zerop (fold_build2 (PLUS_EXPR, bt, length2, + convert (bt, integer_one_node)))) + { + tree ub = TYPE_MAX_VALUE (TYPE_INDEX_TYPE (TYPE_DOMAIN (t1))); + tree lb = TYPE_MIN_VALUE (TYPE_INDEX_TYPE (TYPE_DOMAIN (t1))); + + comparison = build_binary_op (LT_EXPR, result_type, ub, lb); + comparison = SUBSTITUTE_PLACEHOLDER_IN_EXPR (comparison, a1); + length1 = SUBSTITUTE_PLACEHOLDER_IN_EXPR (length1, a1); + + length_zero_p = true; + this_a1_is_null = comparison; + this_a2_is_null = convert (result_type, integer_one_node); + } + + /* If the length is some other constant value, we know that the + this dimension in the first array cannot be superflat, so we + can just use its length from the actual stored bounds. */ + else if (TREE_CODE (length2) == INTEGER_CST) + { + ub1 = TYPE_MAX_VALUE (TYPE_INDEX_TYPE (TYPE_DOMAIN (t1))); + lb1 = TYPE_MIN_VALUE (TYPE_INDEX_TYPE (TYPE_DOMAIN (t1))); + ub2 = TYPE_MAX_VALUE (TYPE_INDEX_TYPE (TYPE_DOMAIN (t2))); + lb2 = TYPE_MIN_VALUE (TYPE_INDEX_TYPE (TYPE_DOMAIN (t2))); + nbt = get_base_type (TREE_TYPE (ub1)); + + comparison + = build_binary_op (EQ_EXPR, result_type, + build_binary_op (MINUS_EXPR, nbt, ub1, lb1), + build_binary_op (MINUS_EXPR, nbt, ub2, lb2)); + + /* Note that we know that UB2 and LB2 are constant and hence + cannot contain a PLACEHOLDER_EXPR. */ + + comparison = SUBSTITUTE_PLACEHOLDER_IN_EXPR (comparison, a1); + length1 = SUBSTITUTE_PLACEHOLDER_IN_EXPR (length1, a1); + + this_a1_is_null = build_binary_op (LT_EXPR, result_type, ub1, lb1); + this_a2_is_null = convert (result_type, integer_zero_node); + } + + /* Otherwise compare the computed lengths. */ + else + { + length1 = SUBSTITUTE_PLACEHOLDER_IN_EXPR (length1, a1); + length2 = SUBSTITUTE_PLACEHOLDER_IN_EXPR (length2, a2); + + comparison + = build_binary_op (EQ_EXPR, result_type, length1, length2); + + this_a1_is_null + = build_binary_op (LT_EXPR, result_type, length1, + convert (bt, integer_zero_node)); + this_a2_is_null + = build_binary_op (LT_EXPR, result_type, length2, + convert (bt, integer_zero_node)); + } + + result = build_binary_op (TRUTH_ANDIF_EXPR, result_type, + result, comparison); + + a1_is_null = build_binary_op (TRUTH_ORIF_EXPR, result_type, + this_a1_is_null, a1_is_null); + a2_is_null = build_binary_op (TRUTH_ORIF_EXPR, result_type, + this_a2_is_null, a2_is_null); + + t1 = TREE_TYPE (t1); + t2 = TREE_TYPE (t2); + } + + /* Unless the size of some bound is known to be zero, compare the + data in the array. */ + if (!length_zero_p) + { + tree type = find_common_type (TREE_TYPE (a1), TREE_TYPE (a2)); + + if (type) + a1 = convert (type, a1), a2 = convert (type, a2); + + result = build_binary_op (TRUTH_ANDIF_EXPR, result_type, result, + fold_build2 (EQ_EXPR, result_type, a1, a2)); + + } + + /* The result is also true if both sizes are zero. */ + result = build_binary_op (TRUTH_ORIF_EXPR, result_type, + build_binary_op (TRUTH_ANDIF_EXPR, result_type, + a1_is_null, a2_is_null), + result); + + /* If either operand contains SAVE_EXPRs, they have to be evaluated before + starting the comparison above since the place it would be otherwise + evaluated would be wrong. */ + + if (contains_save_expr_p (a1)) + result = build2 (COMPOUND_EXPR, result_type, a1, result); + + if (contains_save_expr_p (a2)) + result = build2 (COMPOUND_EXPR, result_type, a2, result); + + return result; +} + +/* Compute the result of applying OP_CODE to LHS and RHS, where both are of + type TYPE. We know that TYPE is a modular type with a nonbinary + modulus. */ + +static tree +nonbinary_modular_operation (enum tree_code op_code, tree type, tree lhs, + tree rhs) +{ + tree modulus = TYPE_MODULUS (type); + unsigned int needed_precision = tree_floor_log2 (modulus) + 1; + unsigned int precision; + bool unsignedp = true; + tree op_type = type; + tree result; + + /* If this is an addition of a constant, convert it to a subtraction + of a constant since we can do that faster. */ + if (op_code == PLUS_EXPR && TREE_CODE (rhs) == INTEGER_CST) + { + rhs = fold_build2 (MINUS_EXPR, type, modulus, rhs); + op_code = MINUS_EXPR; + } + + /* For the logical operations, we only need PRECISION bits. For + addition and subtraction, we need one more and for multiplication we + need twice as many. But we never want to make a size smaller than + our size. */ + if (op_code == PLUS_EXPR || op_code == MINUS_EXPR) + needed_precision += 1; + else if (op_code == MULT_EXPR) + needed_precision *= 2; + + precision = MAX (needed_precision, TYPE_PRECISION (op_type)); + + /* Unsigned will do for everything but subtraction. */ + if (op_code == MINUS_EXPR) + unsignedp = false; + + /* If our type is the wrong signedness or isn't wide enough, make a new + type and convert both our operands to it. */ + if (TYPE_PRECISION (op_type) < precision + || TYPE_UNSIGNED (op_type) != unsignedp) + { + /* Copy the node so we ensure it can be modified to make it modular. */ + op_type = copy_node (gnat_type_for_size (precision, unsignedp)); + modulus = convert (op_type, modulus); + SET_TYPE_MODULUS (op_type, modulus); + TYPE_MODULAR_P (op_type) = 1; + lhs = convert (op_type, lhs); + rhs = convert (op_type, rhs); + } + + /* Do the operation, then we'll fix it up. */ + result = fold_build2 (op_code, op_type, lhs, rhs); + + /* For multiplication, we have no choice but to do a full modulus + operation. However, we want to do this in the narrowest + possible size. */ + if (op_code == MULT_EXPR) + { + tree div_type = copy_node (gnat_type_for_size (needed_precision, 1)); + modulus = convert (div_type, modulus); + SET_TYPE_MODULUS (div_type, modulus); + TYPE_MODULAR_P (div_type) = 1; + result = convert (op_type, + fold_build2 (TRUNC_MOD_EXPR, div_type, + convert (div_type, result), modulus)); + } + + /* For subtraction, add the modulus back if we are negative. */ + else if (op_code == MINUS_EXPR) + { + result = save_expr (result); + result = fold_build3 (COND_EXPR, op_type, + fold_build2 (LT_EXPR, integer_type_node, result, + convert (op_type, integer_zero_node)), + fold_build2 (PLUS_EXPR, op_type, result, modulus), + result); + } + + /* For the other operations, subtract the modulus if we are >= it. */ + else + { + result = save_expr (result); + result = fold_build3 (COND_EXPR, op_type, + fold_build2 (GE_EXPR, integer_type_node, + result, modulus), + fold_build2 (MINUS_EXPR, op_type, + result, modulus), + result); + } + + return convert (type, result); +} + +/* Make a binary operation of kind OP_CODE. RESULT_TYPE is the type + desired for the result. Usually the operation is to be performed + in that type. For MODIFY_EXPR and ARRAY_REF, RESULT_TYPE may be 0 + in which case the type to be used will be derived from the operands. + + This function is very much unlike the ones for C and C++ since we + have already done any type conversion and matching required. All we + have to do here is validate the work done by SEM and handle subtypes. */ + +tree +build_binary_op (enum tree_code op_code, tree result_type, + tree left_operand, tree right_operand) +{ + tree left_type = TREE_TYPE (left_operand); + tree right_type = TREE_TYPE (right_operand); + tree left_base_type = get_base_type (left_type); + tree right_base_type = get_base_type (right_type); + tree operation_type = result_type; + tree best_type = NULL_TREE; + tree modulus, result; + bool has_side_effects = false; + + if (operation_type + && TREE_CODE (operation_type) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (operation_type)) + operation_type = TREE_TYPE (TYPE_FIELDS (operation_type)); + + if (operation_type + && !AGGREGATE_TYPE_P (operation_type) + && TYPE_EXTRA_SUBTYPE_P (operation_type)) + operation_type = get_base_type (operation_type); + + modulus = (operation_type + && TREE_CODE (operation_type) == INTEGER_TYPE + && TYPE_MODULAR_P (operation_type) + ? TYPE_MODULUS (operation_type) : NULL_TREE); + + switch (op_code) + { + case MODIFY_EXPR: + /* If there were integral or pointer conversions on the LHS, remove + them; we'll be putting them back below if needed. Likewise for + conversions between array and record types, except for justified + modular types. But don't do this if the right operand is not + BLKmode (for packed arrays) unless we are not changing the mode. */ + while ((CONVERT_EXPR_P (left_operand) + || TREE_CODE (left_operand) == VIEW_CONVERT_EXPR) + && (((INTEGRAL_TYPE_P (left_type) + || POINTER_TYPE_P (left_type)) + && (INTEGRAL_TYPE_P (TREE_TYPE + (TREE_OPERAND (left_operand, 0))) + || POINTER_TYPE_P (TREE_TYPE + (TREE_OPERAND (left_operand, 0))))) + || (((TREE_CODE (left_type) == RECORD_TYPE + && !TYPE_JUSTIFIED_MODULAR_P (left_type)) + || TREE_CODE (left_type) == ARRAY_TYPE) + && ((TREE_CODE (TREE_TYPE + (TREE_OPERAND (left_operand, 0))) + == RECORD_TYPE) + || (TREE_CODE (TREE_TYPE + (TREE_OPERAND (left_operand, 0))) + == ARRAY_TYPE)) + && (TYPE_MODE (right_type) == BLKmode + || (TYPE_MODE (left_type) + == TYPE_MODE (TREE_TYPE + (TREE_OPERAND + (left_operand, 0)))))))) + { + left_operand = TREE_OPERAND (left_operand, 0); + left_type = TREE_TYPE (left_operand); + } + + /* If a class-wide type may be involved, force use of the RHS type. */ + if ((TREE_CODE (right_type) == RECORD_TYPE + || TREE_CODE (right_type) == UNION_TYPE) + && TYPE_ALIGN_OK (right_type)) + operation_type = right_type; + + /* If we are copying between padded objects with compatible types, use + the padded view of the objects, this is very likely more efficient. + Likewise for a padded that is assigned a constructor, in order to + avoid putting a VIEW_CONVERT_EXPR on the LHS. But don't do this if + we wouldn't have actually copied anything. */ + else if (TREE_CODE (left_type) == RECORD_TYPE + && TYPE_IS_PADDING_P (left_type) + && TREE_CONSTANT (TYPE_SIZE (left_type)) + && ((TREE_CODE (right_operand) == COMPONENT_REF + && TREE_CODE (TREE_TYPE (TREE_OPERAND (right_operand, 0))) + == RECORD_TYPE + && TYPE_IS_PADDING_P + (TREE_TYPE (TREE_OPERAND (right_operand, 0))) + && gnat_types_compatible_p + (left_type, + TREE_TYPE (TREE_OPERAND (right_operand, 0)))) + || TREE_CODE (right_operand) == CONSTRUCTOR) + && !integer_zerop (TYPE_SIZE (right_type))) + operation_type = left_type; + + /* Find the best type to use for copying between aggregate types. */ + else if (((TREE_CODE (left_type) == ARRAY_TYPE + && TREE_CODE (right_type) == ARRAY_TYPE) + || (TREE_CODE (left_type) == RECORD_TYPE + && TREE_CODE (right_type) == RECORD_TYPE)) + && (best_type = find_common_type (left_type, right_type))) + operation_type = best_type; + + /* Otherwise use the LHS type. */ + else if (!operation_type) + operation_type = left_type; + + /* Ensure everything on the LHS is valid. If we have a field reference, + strip anything that get_inner_reference can handle. Then remove any + conversions between types having the same code and mode. And mark + VIEW_CONVERT_EXPRs with TREE_ADDRESSABLE. When done, we must have + either an INDIRECT_REF, a NULL_EXPR or a DECL node. */ + result = left_operand; + while (true) + { + tree restype = TREE_TYPE (result); + + if (TREE_CODE (result) == COMPONENT_REF + || TREE_CODE (result) == ARRAY_REF + || TREE_CODE (result) == ARRAY_RANGE_REF) + while (handled_component_p (result)) + result = TREE_OPERAND (result, 0); + else if (TREE_CODE (result) == REALPART_EXPR + || TREE_CODE (result) == IMAGPART_EXPR + || (CONVERT_EXPR_P (result) + && (((TREE_CODE (restype) + == TREE_CODE (TREE_TYPE + (TREE_OPERAND (result, 0)))) + && (TYPE_MODE (TREE_TYPE + (TREE_OPERAND (result, 0))) + == TYPE_MODE (restype))) + || TYPE_ALIGN_OK (restype)))) + result = TREE_OPERAND (result, 0); + else if (TREE_CODE (result) == VIEW_CONVERT_EXPR) + { + TREE_ADDRESSABLE (result) = 1; + result = TREE_OPERAND (result, 0); + } + else + break; + } + + gcc_assert (TREE_CODE (result) == INDIRECT_REF + || TREE_CODE (result) == NULL_EXPR + || DECL_P (result)); + + /* Convert the right operand to the operation type unless it is + either already of the correct type or if the type involves a + placeholder, since the RHS may not have the same record type. */ + if (operation_type != right_type + && !CONTAINS_PLACEHOLDER_P (TYPE_SIZE (operation_type))) + { + right_operand = convert (operation_type, right_operand); + right_type = operation_type; + } + + /* If the left operand is not of the same type as the operation + type, wrap it up in a VIEW_CONVERT_EXPR. */ + if (left_type != operation_type) + left_operand = unchecked_convert (operation_type, left_operand, false); + + has_side_effects = true; + modulus = NULL_TREE; + break; + + case ARRAY_REF: + if (!operation_type) + operation_type = TREE_TYPE (left_type); + + /* ... fall through ... */ + + case ARRAY_RANGE_REF: + /* First look through conversion between type variants. Note that + this changes neither the operation type nor the type domain. */ + if (TREE_CODE (left_operand) == VIEW_CONVERT_EXPR + && TYPE_MAIN_VARIANT (TREE_TYPE (TREE_OPERAND (left_operand, 0))) + == TYPE_MAIN_VARIANT (left_type)) + { + left_operand = TREE_OPERAND (left_operand, 0); + left_type = TREE_TYPE (left_operand); + } + + /* Then convert the right operand to its base type. This will + prevent unneeded signedness conversions when sizetype is wider than + integer. */ + right_operand = convert (right_base_type, right_operand); + right_operand = convert (TYPE_DOMAIN (left_type), right_operand); + + if (!TREE_CONSTANT (right_operand) + || !TREE_CONSTANT (TYPE_MIN_VALUE (right_type))) + gnat_mark_addressable (left_operand); + + modulus = NULL_TREE; + break; + + case GE_EXPR: + case LE_EXPR: + case GT_EXPR: + case LT_EXPR: + gcc_assert (!POINTER_TYPE_P (left_type)); + + /* ... fall through ... */ + + case EQ_EXPR: + case NE_EXPR: + /* If either operand is a NULL_EXPR, just return a new one. */ + if (TREE_CODE (left_operand) == NULL_EXPR) + return build2 (op_code, result_type, + build1 (NULL_EXPR, integer_type_node, + TREE_OPERAND (left_operand, 0)), + integer_zero_node); + + else if (TREE_CODE (right_operand) == NULL_EXPR) + return build2 (op_code, result_type, + build1 (NULL_EXPR, integer_type_node, + TREE_OPERAND (right_operand, 0)), + integer_zero_node); + + /* If either object is a justified modular types, get the + fields from within. */ + if (TREE_CODE (left_type) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (left_type)) + { + left_operand = convert (TREE_TYPE (TYPE_FIELDS (left_type)), + left_operand); + left_type = TREE_TYPE (left_operand); + left_base_type = get_base_type (left_type); + } + + if (TREE_CODE (right_type) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (right_type)) + { + right_operand = convert (TREE_TYPE (TYPE_FIELDS (right_type)), + right_operand); + right_type = TREE_TYPE (right_operand); + right_base_type = get_base_type (right_type); + } + + /* If both objects are arrays, compare them specially. */ + if ((TREE_CODE (left_type) == ARRAY_TYPE + || (TREE_CODE (left_type) == INTEGER_TYPE + && TYPE_HAS_ACTUAL_BOUNDS_P (left_type))) + && (TREE_CODE (right_type) == ARRAY_TYPE + || (TREE_CODE (right_type) == INTEGER_TYPE + && TYPE_HAS_ACTUAL_BOUNDS_P (right_type)))) + { + result = compare_arrays (result_type, left_operand, right_operand); + + if (op_code == NE_EXPR) + result = invert_truthvalue (result); + else + gcc_assert (op_code == EQ_EXPR); + + return result; + } + + /* Otherwise, the base types must be the same unless the objects are + fat pointers or records. If we have records, use the best type and + convert both operands to that type. */ + if (left_base_type != right_base_type) + { + if (TYPE_FAT_POINTER_P (left_base_type) + && TYPE_FAT_POINTER_P (right_base_type) + && TYPE_MAIN_VARIANT (left_base_type) + == TYPE_MAIN_VARIANT (right_base_type)) + best_type = left_base_type; + else if (TREE_CODE (left_base_type) == RECORD_TYPE + && TREE_CODE (right_base_type) == RECORD_TYPE) + { + /* The only way these are permitted to be the same is if both + types have the same name. In that case, one of them must + not be self-referential. Use that one as the best type. + Even better is if one is of fixed size. */ + gcc_assert (TYPE_NAME (left_base_type) + && (TYPE_NAME (left_base_type) + == TYPE_NAME (right_base_type))); + + if (TREE_CONSTANT (TYPE_SIZE (left_base_type))) + best_type = left_base_type; + else if (TREE_CONSTANT (TYPE_SIZE (right_base_type))) + best_type = right_base_type; + else if (!CONTAINS_PLACEHOLDER_P (TYPE_SIZE (left_base_type))) + best_type = left_base_type; + else if (!CONTAINS_PLACEHOLDER_P (TYPE_SIZE (right_base_type))) + best_type = right_base_type; + else + gcc_unreachable (); + } + else + gcc_unreachable (); + + left_operand = convert (best_type, left_operand); + right_operand = convert (best_type, right_operand); + } + + /* If we are comparing a fat pointer against zero, we need to + just compare the data pointer. */ + else if (TYPE_FAT_POINTER_P (left_base_type) + && TREE_CODE (right_operand) == CONSTRUCTOR + && integer_zerop (VEC_index (constructor_elt, + CONSTRUCTOR_ELTS (right_operand), + 0) + ->value)) + { + right_operand = build_component_ref (left_operand, NULL_TREE, + TYPE_FIELDS (left_base_type), + false); + left_operand = convert (TREE_TYPE (right_operand), + integer_zero_node); + } + else + { + left_operand = convert (left_base_type, left_operand); + right_operand = convert (right_base_type, right_operand); + } + + modulus = NULL_TREE; + break; + + case PREINCREMENT_EXPR: + case PREDECREMENT_EXPR: + case POSTINCREMENT_EXPR: + case POSTDECREMENT_EXPR: + /* In these, the result type and the left operand type should be the + same. Do the operation in the base type of those and convert the + right operand (which is an integer) to that type. + + Note that these operations are only used in loop control where + we guarantee that no overflow can occur. So nothing special need + be done for modular types. */ + + gcc_assert (left_type == result_type); + operation_type = get_base_type (result_type); + left_operand = convert (operation_type, left_operand); + right_operand = convert (operation_type, right_operand); + has_side_effects = true; + modulus = NULL_TREE; + break; + + case LSHIFT_EXPR: + case RSHIFT_EXPR: + case LROTATE_EXPR: + case RROTATE_EXPR: + /* The RHS of a shift can be any type. Also, ignore any modulus + (we used to abort, but this is needed for unchecked conversion + to modular types). Otherwise, processing is the same as normal. */ + gcc_assert (operation_type == left_base_type); + modulus = NULL_TREE; + left_operand = convert (operation_type, left_operand); + break; + + case TRUTH_ANDIF_EXPR: + case TRUTH_ORIF_EXPR: + case TRUTH_AND_EXPR: + case TRUTH_OR_EXPR: + case TRUTH_XOR_EXPR: + left_operand = gnat_truthvalue_conversion (left_operand); + right_operand = gnat_truthvalue_conversion (right_operand); + goto common; + + case BIT_AND_EXPR: + case BIT_IOR_EXPR: + case BIT_XOR_EXPR: + /* For binary modulus, if the inputs are in range, so are the + outputs. */ + if (modulus && integer_pow2p (modulus)) + modulus = NULL_TREE; + + goto common; + + case COMPLEX_EXPR: + gcc_assert (TREE_TYPE (result_type) == left_base_type + && TREE_TYPE (result_type) == right_base_type); + left_operand = convert (left_base_type, left_operand); + right_operand = convert (right_base_type, right_operand); + break; + + case TRUNC_DIV_EXPR: case TRUNC_MOD_EXPR: + case CEIL_DIV_EXPR: case CEIL_MOD_EXPR: + case FLOOR_DIV_EXPR: case FLOOR_MOD_EXPR: + case ROUND_DIV_EXPR: case ROUND_MOD_EXPR: + /* These always produce results lower than either operand. */ + modulus = NULL_TREE; + goto common; + + case POINTER_PLUS_EXPR: + gcc_assert (operation_type == left_base_type + && sizetype == right_base_type); + left_operand = convert (operation_type, left_operand); + right_operand = convert (sizetype, right_operand); + break; + + default: + common: + /* The result type should be the same as the base types of the + both operands (and they should be the same). Convert + everything to the result type. */ + + gcc_assert (operation_type == left_base_type + && left_base_type == right_base_type); + left_operand = convert (operation_type, left_operand); + right_operand = convert (operation_type, right_operand); + } + + if (modulus && !integer_pow2p (modulus)) + { + result = nonbinary_modular_operation (op_code, operation_type, + left_operand, right_operand); + modulus = NULL_TREE; + } + /* If either operand is a NULL_EXPR, just return a new one. */ + else if (TREE_CODE (left_operand) == NULL_EXPR) + return build1 (NULL_EXPR, operation_type, TREE_OPERAND (left_operand, 0)); + else if (TREE_CODE (right_operand) == NULL_EXPR) + return build1 (NULL_EXPR, operation_type, TREE_OPERAND (right_operand, 0)); + else if (op_code == ARRAY_REF || op_code == ARRAY_RANGE_REF) + result = fold (build4 (op_code, operation_type, left_operand, + right_operand, NULL_TREE, NULL_TREE)); + else + result + = fold_build2 (op_code, operation_type, left_operand, right_operand); + + TREE_SIDE_EFFECTS (result) |= has_side_effects; + TREE_CONSTANT (result) + |= (TREE_CONSTANT (left_operand) & TREE_CONSTANT (right_operand) + && op_code != ARRAY_REF && op_code != ARRAY_RANGE_REF); + + if ((op_code == ARRAY_REF || op_code == ARRAY_RANGE_REF) + && TYPE_VOLATILE (operation_type)) + TREE_THIS_VOLATILE (result) = 1; + + /* If we are working with modular types, perform the MOD operation + if something above hasn't eliminated the need for it. */ + if (modulus) + result = fold_build2 (FLOOR_MOD_EXPR, operation_type, result, + convert (operation_type, modulus)); + + if (result_type && result_type != operation_type) + result = convert (result_type, result); + + return result; +} + +/* Similar, but for unary operations. */ + +tree +build_unary_op (enum tree_code op_code, tree result_type, tree operand) +{ + tree type = TREE_TYPE (operand); + tree base_type = get_base_type (type); + tree operation_type = result_type; + tree result; + bool side_effects = false; + + if (operation_type + && TREE_CODE (operation_type) == RECORD_TYPE + && TYPE_JUSTIFIED_MODULAR_P (operation_type)) + operation_type = TREE_TYPE (TYPE_FIELDS (operation_type)); + + if (operation_type + && !AGGREGATE_TYPE_P (operation_type) + && TYPE_EXTRA_SUBTYPE_P (operation_type)) + operation_type = get_base_type (operation_type); + + switch (op_code) + { + case REALPART_EXPR: + case IMAGPART_EXPR: + if (!operation_type) + result_type = operation_type = TREE_TYPE (type); + else + gcc_assert (result_type == TREE_TYPE (type)); + + result = fold_build1 (op_code, operation_type, operand); + break; + + case TRUTH_NOT_EXPR: + gcc_assert (result_type == base_type); + result = invert_truthvalue (gnat_truthvalue_conversion (operand)); + break; + + case ATTR_ADDR_EXPR: + case ADDR_EXPR: + switch (TREE_CODE (operand)) + { + case INDIRECT_REF: + case UNCONSTRAINED_ARRAY_REF: + result = TREE_OPERAND (operand, 0); + + /* Make sure the type here is a pointer, not a reference. + GCC wants pointer types for function addresses. */ + if (!result_type) + result_type = build_pointer_type (type); + + /* If the underlying object can alias everything, propagate the + property since we are effectively retrieving the object. */ + if (POINTER_TYPE_P (TREE_TYPE (result)) + && TYPE_REF_CAN_ALIAS_ALL (TREE_TYPE (result))) + { + if (TREE_CODE (result_type) == POINTER_TYPE + && !TYPE_REF_CAN_ALIAS_ALL (result_type)) + result_type + = build_pointer_type_for_mode (TREE_TYPE (result_type), + TYPE_MODE (result_type), + true); + else if (TREE_CODE (result_type) == REFERENCE_TYPE + && !TYPE_REF_CAN_ALIAS_ALL (result_type)) + result_type + = build_reference_type_for_mode (TREE_TYPE (result_type), + TYPE_MODE (result_type), + true); + } + break; + + case NULL_EXPR: + result = operand; + TREE_TYPE (result) = type = build_pointer_type (type); + break; + + case ARRAY_REF: + case ARRAY_RANGE_REF: + case COMPONENT_REF: + case BIT_FIELD_REF: + /* If this is for 'Address, find the address of the prefix and + add the offset to the field. Otherwise, do this the normal + way. */ + if (op_code == ATTR_ADDR_EXPR) + { + HOST_WIDE_INT bitsize; + HOST_WIDE_INT bitpos; + tree offset, inner; + enum machine_mode mode; + int unsignedp, volatilep; + + inner = get_inner_reference (operand, &bitsize, &bitpos, &offset, + &mode, &unsignedp, &volatilep, + false); + + /* If INNER is a padding type whose field has a self-referential + size, convert to that inner type. We know the offset is zero + and we need to have that type visible. */ + if (TREE_CODE (TREE_TYPE (inner)) == RECORD_TYPE + && TYPE_IS_PADDING_P (TREE_TYPE (inner)) + && (CONTAINS_PLACEHOLDER_P + (TYPE_SIZE (TREE_TYPE (TYPE_FIELDS + (TREE_TYPE (inner))))))) + inner = convert (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (inner))), + inner); + + /* Compute the offset as a byte offset from INNER. */ + if (!offset) + offset = size_zero_node; + + if (bitpos % BITS_PER_UNIT != 0) + post_error + ("taking address of object not aligned on storage unit?", + error_gnat_node); + + offset = size_binop (PLUS_EXPR, offset, + size_int (bitpos / BITS_PER_UNIT)); + + /* Take the address of INNER, convert the offset to void *, and + add then. It will later be converted to the desired result + type, if any. */ + inner = build_unary_op (ADDR_EXPR, NULL_TREE, inner); + inner = convert (ptr_void_type_node, inner); + result = build_binary_op (POINTER_PLUS_EXPR, ptr_void_type_node, + inner, offset); + result = convert (build_pointer_type (TREE_TYPE (operand)), + result); + break; + } + goto common; + + case CONSTRUCTOR: + /* If this is just a constructor for a padded record, we can + just take the address of the single field and convert it to + a pointer to our type. */ + if (TREE_CODE (type) == RECORD_TYPE && TYPE_IS_PADDING_P (type)) + { + result = (VEC_index (constructor_elt, + CONSTRUCTOR_ELTS (operand), + 0) + ->value); + + result = convert (build_pointer_type (TREE_TYPE (operand)), + build_unary_op (ADDR_EXPR, NULL_TREE, result)); + break; + } + + goto common; + + case NOP_EXPR: + if (AGGREGATE_TYPE_P (type) + && AGGREGATE_TYPE_P (TREE_TYPE (TREE_OPERAND (operand, 0)))) + return build_unary_op (ADDR_EXPR, result_type, + TREE_OPERAND (operand, 0)); + + /* ... fallthru ... */ + + case VIEW_CONVERT_EXPR: + /* If this just a variant conversion or if the conversion doesn't + change the mode, get the result type from this type and go down. + This is needed for conversions of CONST_DECLs, to eventually get + to the address of their CORRESPONDING_VARs. */ + if ((TYPE_MAIN_VARIANT (type) + == TYPE_MAIN_VARIANT (TREE_TYPE (TREE_OPERAND (operand, 0)))) + || (TYPE_MODE (type) != BLKmode + && (TYPE_MODE (type) + == TYPE_MODE (TREE_TYPE (TREE_OPERAND (operand, 0)))))) + return build_unary_op (ADDR_EXPR, + (result_type ? result_type + : build_pointer_type (type)), + TREE_OPERAND (operand, 0)); + goto common; + + case CONST_DECL: + operand = DECL_CONST_CORRESPONDING_VAR (operand); + + /* ... fall through ... */ + + default: + common: + + /* If we are taking the address of a padded record whose field is + contains a template, take the address of the template. */ + if (TREE_CODE (type) == RECORD_TYPE + && TYPE_IS_PADDING_P (type) + && TREE_CODE (TREE_TYPE (TYPE_FIELDS (type))) == RECORD_TYPE + && TYPE_CONTAINS_TEMPLATE_P (TREE_TYPE (TYPE_FIELDS (type)))) + { + type = TREE_TYPE (TYPE_FIELDS (type)); + operand = convert (type, operand); + } + + if (type != error_mark_node) + operation_type = build_pointer_type (type); + + gnat_mark_addressable (operand); + result = fold_build1 (ADDR_EXPR, operation_type, operand); + } + + TREE_CONSTANT (result) = staticp (operand) || TREE_CONSTANT (operand); + break; + + case INDIRECT_REF: + /* If we want to refer to an entire unconstrained array, + make up an expression to do so. This will never survive to + the backend. If TYPE is a thin pointer, first convert the + operand to a fat pointer. */ + if (TYPE_THIN_POINTER_P (type) + && TYPE_UNCONSTRAINED_ARRAY (TREE_TYPE (type))) + { + operand + = convert (TREE_TYPE (TYPE_UNCONSTRAINED_ARRAY (TREE_TYPE (type))), + operand); + type = TREE_TYPE (operand); + } + + if (TYPE_FAT_POINTER_P (type)) + { + result = build1 (UNCONSTRAINED_ARRAY_REF, + TYPE_UNCONSTRAINED_ARRAY (type), operand); + TREE_READONLY (result) = TREE_STATIC (result) + = TYPE_READONLY (TYPE_UNCONSTRAINED_ARRAY (type)); + } + else if (TREE_CODE (operand) == ADDR_EXPR) + result = TREE_OPERAND (operand, 0); + + else + { + result = fold_build1 (op_code, TREE_TYPE (type), operand); + TREE_READONLY (result) = TYPE_READONLY (TREE_TYPE (type)); + } + + side_effects + = (!TYPE_FAT_POINTER_P (type) && TYPE_VOLATILE (TREE_TYPE (type))); + break; + + case NEGATE_EXPR: + case BIT_NOT_EXPR: + { + tree modulus = ((operation_type + && TREE_CODE (operation_type) == INTEGER_TYPE + && TYPE_MODULAR_P (operation_type)) + ? TYPE_MODULUS (operation_type) : NULL_TREE); + int mod_pow2 = modulus && integer_pow2p (modulus); + + /* If this is a modular type, there are various possibilities + depending on the operation and whether the modulus is a + power of two or not. */ + + if (modulus) + { + gcc_assert (operation_type == base_type); + operand = convert (operation_type, operand); + + /* The fastest in the negate case for binary modulus is + the straightforward code; the TRUNC_MOD_EXPR below + is an AND operation. */ + if (op_code == NEGATE_EXPR && mod_pow2) + result = fold_build2 (TRUNC_MOD_EXPR, operation_type, + fold_build1 (NEGATE_EXPR, operation_type, + operand), + modulus); + + /* For nonbinary negate case, return zero for zero operand, + else return the modulus minus the operand. If the modulus + is a power of two minus one, we can do the subtraction + as an XOR since it is equivalent and faster on most machines. */ + else if (op_code == NEGATE_EXPR && !mod_pow2) + { + if (integer_pow2p (fold_build2 (PLUS_EXPR, operation_type, + modulus, + convert (operation_type, + integer_one_node)))) + result = fold_build2 (BIT_XOR_EXPR, operation_type, + operand, modulus); + else + result = fold_build2 (MINUS_EXPR, operation_type, + modulus, operand); + + result = fold_build3 (COND_EXPR, operation_type, + fold_build2 (NE_EXPR, + integer_type_node, + operand, + convert + (operation_type, + integer_zero_node)), + result, operand); + } + else + { + /* For the NOT cases, we need a constant equal to + the modulus minus one. For a binary modulus, we + XOR against the constant and subtract the operand from + that constant for nonbinary modulus. */ + + tree cnst = fold_build2 (MINUS_EXPR, operation_type, modulus, + convert (operation_type, + integer_one_node)); + + if (mod_pow2) + result = fold_build2 (BIT_XOR_EXPR, operation_type, + operand, cnst); + else + result = fold_build2 (MINUS_EXPR, operation_type, + cnst, operand); + } + + break; + } + } + + /* ... fall through ... */ + + default: + gcc_assert (operation_type == base_type); + result = fold_build1 (op_code, operation_type, + convert (operation_type, operand)); + } + + if (side_effects) + { + TREE_SIDE_EFFECTS (result) = 1; + if (TREE_CODE (result) == INDIRECT_REF) + TREE_THIS_VOLATILE (result) = TYPE_VOLATILE (TREE_TYPE (result)); + } + + if (result_type && TREE_TYPE (result) != result_type) + result = convert (result_type, result); + + return result; +} + +/* Similar, but for COND_EXPR. */ + +tree +build_cond_expr (tree result_type, tree condition_operand, + tree true_operand, tree false_operand) +{ + tree result; + bool addr_p = false; + + /* The front-end verifies that result, true and false operands have same base + type. Convert everything to the result type. */ + + true_operand = convert (result_type, true_operand); + false_operand = convert (result_type, false_operand); + + /* If the result type is unconstrained, take the address of + the operands and then dereference our result. */ + if (TREE_CODE (result_type) == UNCONSTRAINED_ARRAY_TYPE + || CONTAINS_PLACEHOLDER_P (TYPE_SIZE (result_type))) + { + addr_p = true; + result_type = build_pointer_type (result_type); + true_operand = build_unary_op (ADDR_EXPR, result_type, true_operand); + false_operand = build_unary_op (ADDR_EXPR, result_type, false_operand); + } + + result = fold_build3 (COND_EXPR, result_type, condition_operand, + true_operand, false_operand); + + /* If either operand is a SAVE_EXPR (possibly surrounded by + arithmetic, make sure it gets done. */ + true_operand = skip_simple_arithmetic (true_operand); + false_operand = skip_simple_arithmetic (false_operand); + + if (TREE_CODE (true_operand) == SAVE_EXPR) + result = build2 (COMPOUND_EXPR, result_type, true_operand, result); + + if (TREE_CODE (false_operand) == SAVE_EXPR) + result = build2 (COMPOUND_EXPR, result_type, false_operand, result); + + /* ??? Seems the code above is wrong, as it may move ahead of the COND + SAVE_EXPRs with side effects and not shared by both arms. */ + + if (addr_p) + result = build_unary_op (INDIRECT_REF, NULL_TREE, result); + + return result; +} + +/* Similar, but for RETURN_EXPR. If RESULT_DECL is non-zero, build + a RETURN_EXPR around the assignment of RET_VAL to RESULT_DECL. + If RESULT_DECL is zero, build a bare RETURN_EXPR. */ + +tree +build_return_expr (tree result_decl, tree ret_val) +{ + tree result_expr; + + if (result_decl) + { + /* The gimplifier explicitly enforces the following invariant: + + RETURN_EXPR + | + MODIFY_EXPR + / \ + / \ + RESULT_DECL ... + + As a consequence, type-homogeneity dictates that we use the type + of the RESULT_DECL as the operation type. */ + + tree operation_type = TREE_TYPE (result_decl); + + /* Convert the right operand to the operation type. Note that + it's the same transformation as in the MODIFY_EXPR case of + build_binary_op with the additional guarantee that the type + cannot involve a placeholder, since otherwise the function + would use the "target pointer" return mechanism. */ + + if (operation_type != TREE_TYPE (ret_val)) + ret_val = convert (operation_type, ret_val); + + result_expr + = build2 (MODIFY_EXPR, operation_type, result_decl, ret_val); + } + else + result_expr = NULL_TREE; + + return build1 (RETURN_EXPR, void_type_node, result_expr); +} + +/* Build a CALL_EXPR to call FUNDECL with one argument, ARG. Return + the CALL_EXPR. */ + +tree +build_call_1_expr (tree fundecl, tree arg) +{ + tree call = build_call_nary (TREE_TYPE (TREE_TYPE (fundecl)), + build_unary_op (ADDR_EXPR, NULL_TREE, fundecl), + 1, arg); + TREE_SIDE_EFFECTS (call) = 1; + return call; +} + +/* Build a CALL_EXPR to call FUNDECL with two arguments, ARG1 & ARG2. Return + the CALL_EXPR. */ + +tree +build_call_2_expr (tree fundecl, tree arg1, tree arg2) +{ + tree call = build_call_nary (TREE_TYPE (TREE_TYPE (fundecl)), + build_unary_op (ADDR_EXPR, NULL_TREE, fundecl), + 2, arg1, arg2); + TREE_SIDE_EFFECTS (call) = 1; + return call; +} + +/* Likewise to call FUNDECL with no arguments. */ + +tree +build_call_0_expr (tree fundecl) +{ + /* We rely on build_call_nary to compute TREE_SIDE_EFFECTS. This makes + it possible to propagate DECL_IS_PURE on parameterless functions. */ + tree call = build_call_nary (TREE_TYPE (TREE_TYPE (fundecl)), + build_unary_op (ADDR_EXPR, NULL_TREE, fundecl), + 0); + return call; +} + +/* Call a function that raises an exception and pass the line number and file + name, if requested. MSG says which exception function to call. + + GNAT_NODE is the gnat node conveying the source location for which the + error should be signaled, or Empty in which case the error is signaled on + the current ref_file_name/input_line. + + KIND says which kind of exception this is for + (N_Raise_{Constraint,Storage,Program}_Error). */ + +tree +build_call_raise (int msg, Node_Id gnat_node, char kind) +{ + tree fndecl = gnat_raise_decls[msg]; + tree label = get_exception_label (kind); + tree filename; + int line_number; + const char *str; + int len; + + /* If this is to be done as a goto, handle that case. */ + if (label) + { + Entity_Id local_raise = Get_Local_Raise_Call_Entity (); + tree gnu_result = build1 (GOTO_EXPR, void_type_node, label); + + /* If Local_Raise is present, generate + Local_Raise (exception'Identity); */ + if (Present (local_raise)) + { + tree gnu_local_raise + = gnat_to_gnu_entity (local_raise, NULL_TREE, 0); + tree gnu_exception_entity + = gnat_to_gnu_entity (Get_RT_Exception_Entity (msg), NULL_TREE, 0); + tree gnu_call + = build_call_1_expr (gnu_local_raise, + build_unary_op (ADDR_EXPR, NULL_TREE, + gnu_exception_entity)); + + gnu_result = build2 (COMPOUND_EXPR, void_type_node, + gnu_call, gnu_result);} + + return gnu_result; + } + + str + = (Debug_Flag_NN || Exception_Locations_Suppressed) + ? "" + : (gnat_node != Empty && Sloc (gnat_node) != No_Location) + ? IDENTIFIER_POINTER + (get_identifier (Get_Name_String + (Debug_Source_Name + (Get_Source_File_Index (Sloc (gnat_node)))))) + : ref_filename; + + len = strlen (str) + 1; + filename = build_string (len, str); + line_number + = (gnat_node != Empty && Sloc (gnat_node) != No_Location) + ? Get_Logical_Line_Number (Sloc(gnat_node)) : input_line; + + TREE_TYPE (filename) + = build_array_type (char_type_node, + build_index_type (build_int_cst (NULL_TREE, len))); + + return + build_call_2_expr (fndecl, + build1 (ADDR_EXPR, build_pointer_type (char_type_node), + filename), + build_int_cst (NULL_TREE, line_number)); +} + +/* qsort comparer for the bit positions of two constructor elements + for record components. */ + +static int +compare_elmt_bitpos (const PTR rt1, const PTR rt2) +{ + const_tree const elmt1 = * (const_tree const *) rt1; + const_tree const elmt2 = * (const_tree const *) rt2; + const_tree const field1 = TREE_PURPOSE (elmt1); + const_tree const field2 = TREE_PURPOSE (elmt2); + const int ret + = tree_int_cst_compare (bit_position (field1), bit_position (field2)); + + return ret ? ret : (int) (DECL_UID (field1) - DECL_UID (field2)); +} + +/* Return a CONSTRUCTOR of TYPE whose list is LIST. */ + +tree +gnat_build_constructor (tree type, tree list) +{ + tree elmt; + int n_elmts; + bool allconstant = (TREE_CODE (TYPE_SIZE (type)) == INTEGER_CST); + bool side_effects = false; + tree result; + + /* Scan the elements to see if they are all constant or if any has side + effects, to let us set global flags on the resulting constructor. Count + the elements along the way for possible sorting purposes below. */ + for (n_elmts = 0, elmt = list; elmt; elmt = TREE_CHAIN (elmt), n_elmts ++) + { + if (!TREE_CONSTANT (TREE_VALUE (elmt)) + || (TREE_CODE (type) == RECORD_TYPE + && DECL_BIT_FIELD (TREE_PURPOSE (elmt)) + && TREE_CODE (TREE_VALUE (elmt)) != INTEGER_CST) + || !initializer_constant_valid_p (TREE_VALUE (elmt), + TREE_TYPE (TREE_VALUE (elmt)))) + allconstant = false; + + if (TREE_SIDE_EFFECTS (TREE_VALUE (elmt))) + side_effects = true; + + /* Propagate an NULL_EXPR from the size of the type. We won't ever + be executing the code we generate here in that case, but handle it + specially to avoid the compiler blowing up. */ + if (TREE_CODE (type) == RECORD_TYPE + && (0 != (result + = contains_null_expr (DECL_SIZE (TREE_PURPOSE (elmt)))))) + return build1 (NULL_EXPR, type, TREE_OPERAND (result, 0)); + } + + /* For record types with constant components only, sort field list + by increasing bit position. This is necessary to ensure the + constructor can be output as static data. */ + if (allconstant && TREE_CODE (type) == RECORD_TYPE && n_elmts > 1) + { + /* Fill an array with an element tree per index, and ask qsort to order + them according to what a bitpos comparison function says. */ + tree *gnu_arr = (tree *) alloca (sizeof (tree) * n_elmts); + int i; + + for (i = 0, elmt = list; elmt; elmt = TREE_CHAIN (elmt), i++) + gnu_arr[i] = elmt; + + qsort (gnu_arr, n_elmts, sizeof (tree), compare_elmt_bitpos); + + /* Then reconstruct the list from the sorted array contents. */ + list = NULL_TREE; + for (i = n_elmts - 1; i >= 0; i--) + { + TREE_CHAIN (gnu_arr[i]) = list; + list = gnu_arr[i]; + } + } + + result = build_constructor_from_list (type, list); + TREE_CONSTANT (result) = TREE_STATIC (result) = allconstant; + TREE_SIDE_EFFECTS (result) = side_effects; + TREE_READONLY (result) = TYPE_READONLY (type) || allconstant; + return result; +} + +/* Return a COMPONENT_REF to access a field that is given by COMPONENT, + an IDENTIFIER_NODE giving the name of the field, or FIELD, a FIELD_DECL, + for the field. Don't fold the result if NO_FOLD_P is true. + + We also handle the fact that we might have been passed a pointer to the + actual record and know how to look for fields in variant parts. */ + +static tree +build_simple_component_ref (tree record_variable, tree component, + tree field, bool no_fold_p) +{ + tree record_type = TYPE_MAIN_VARIANT (TREE_TYPE (record_variable)); + tree ref, inner_variable; + + gcc_assert ((TREE_CODE (record_type) == RECORD_TYPE + || TREE_CODE (record_type) == UNION_TYPE + || TREE_CODE (record_type) == QUAL_UNION_TYPE) + && TYPE_SIZE (record_type) + && (component != 0) != (field != 0)); + + /* If no field was specified, look for a field with the specified name + in the current record only. */ + if (!field) + for (field = TYPE_FIELDS (record_type); field; + field = TREE_CHAIN (field)) + if (DECL_NAME (field) == component) + break; + + if (!field) + return NULL_TREE; + + /* If this field is not in the specified record, see if we can find + something in the record whose original field is the same as this one. */ + if (DECL_CONTEXT (field) != record_type) + /* Check if there is a field with name COMPONENT in the record. */ + { + tree new_field; + + /* First loop thru normal components. */ + + for (new_field = TYPE_FIELDS (record_type); new_field; + new_field = TREE_CHAIN (new_field)) + if (field == new_field + || DECL_ORIGINAL_FIELD (new_field) == field + || new_field == DECL_ORIGINAL_FIELD (field) + || (DECL_ORIGINAL_FIELD (field) + && (DECL_ORIGINAL_FIELD (field) + == DECL_ORIGINAL_FIELD (new_field)))) + break; + + /* Next, loop thru DECL_INTERNAL_P components if we haven't found + the component in the first search. Doing this search in 2 steps + is required to avoiding hidden homonymous fields in the + _Parent field. */ + + if (!new_field) + for (new_field = TYPE_FIELDS (record_type); new_field; + new_field = TREE_CHAIN (new_field)) + if (DECL_INTERNAL_P (new_field)) + { + tree field_ref + = build_simple_component_ref (record_variable, + NULL_TREE, new_field, no_fold_p); + ref = build_simple_component_ref (field_ref, NULL_TREE, field, + no_fold_p); + + if (ref) + return ref; + } + + field = new_field; + } + + if (!field) + return NULL_TREE; + + /* If the field's offset has overflowed, do not attempt to access it + as doing so may trigger sanity checks deeper in the back-end. + Note that we don't need to warn since this will be done on trying + to declare the object. */ + if (TREE_CODE (DECL_FIELD_OFFSET (field)) == INTEGER_CST + && TREE_OVERFLOW (DECL_FIELD_OFFSET (field))) + return NULL_TREE; + + /* Look through conversion between type variants. Note that this + is transparent as far as the field is concerned. */ + if (TREE_CODE (record_variable) == VIEW_CONVERT_EXPR + && TYPE_MAIN_VARIANT (TREE_TYPE (TREE_OPERAND (record_variable, 0))) + == record_type) + inner_variable = TREE_OPERAND (record_variable, 0); + else + inner_variable = record_variable; + + ref = build3 (COMPONENT_REF, TREE_TYPE (field), inner_variable, field, + NULL_TREE); + + if (TREE_READONLY (record_variable) || TREE_READONLY (field)) + TREE_READONLY (ref) = 1; + if (TREE_THIS_VOLATILE (record_variable) || TREE_THIS_VOLATILE (field) + || TYPE_VOLATILE (record_type)) + TREE_THIS_VOLATILE (ref) = 1; + + if (no_fold_p) + return ref; + + /* The generic folder may punt in this case because the inner array type + can be self-referential, but folding is in fact not problematic. */ + else if (TREE_CODE (record_variable) == CONSTRUCTOR + && TYPE_CONTAINS_TEMPLATE_P (TREE_TYPE (record_variable))) + { + VEC(constructor_elt,gc) *elts = CONSTRUCTOR_ELTS (record_variable); + unsigned HOST_WIDE_INT idx; + tree index, value; + FOR_EACH_CONSTRUCTOR_ELT (elts, idx, index, value) + if (index == field) + return value; + return ref; + } + + else + return fold (ref); +} + +/* Like build_simple_component_ref, except that we give an error if the + reference could not be found. */ + +tree +build_component_ref (tree record_variable, tree component, + tree field, bool no_fold_p) +{ + tree ref = build_simple_component_ref (record_variable, component, field, + no_fold_p); + + if (ref) + return ref; + + /* If FIELD was specified, assume this is an invalid user field so + raise constraint error. Otherwise, we can't find the type to return, so + abort. */ + gcc_assert (field); + return build1 (NULL_EXPR, TREE_TYPE (field), + build_call_raise (CE_Discriminant_Check_Failed, Empty, + N_Raise_Constraint_Error)); +} + +/* Build a GCC tree to call an allocation or deallocation function. + If GNU_OBJ is nonzero, it is an object to deallocate. Otherwise, + generate an allocator. + + GNU_SIZE is the size of the object in bytes and ALIGN is the alignment in + bits. GNAT_PROC, if present, is a procedure to call and GNAT_POOL is the + storage pool to use. If not preset, malloc and free will be used except + if GNAT_PROC is the "fake" value of -1, in which case we allocate the + object dynamically on the stack frame. */ + +tree +build_call_alloc_dealloc (tree gnu_obj, tree gnu_size, unsigned align, + Entity_Id gnat_proc, Entity_Id gnat_pool, + Node_Id gnat_node) +{ + tree gnu_align = size_int (align / BITS_PER_UNIT); + + gnu_size = SUBSTITUTE_PLACEHOLDER_IN_EXPR (gnu_size, gnu_obj); + + if (Present (gnat_proc)) + { + /* The storage pools are obviously always tagged types, but the + secondary stack uses the same mechanism and is not tagged */ + if (Is_Tagged_Type (Etype (gnat_pool))) + { + /* The size is the third parameter; the alignment is the + same type. */ + Entity_Id gnat_size_type + = Etype (Next_Formal (Next_Formal (First_Formal (gnat_proc)))); + tree gnu_size_type = gnat_to_gnu_type (gnat_size_type); + tree gnu_proc = gnat_to_gnu (gnat_proc); + tree gnu_proc_addr = build_unary_op (ADDR_EXPR, NULL_TREE, gnu_proc); + tree gnu_pool = gnat_to_gnu (gnat_pool); + tree gnu_pool_addr = build_unary_op (ADDR_EXPR, NULL_TREE, gnu_pool); + tree gnu_call; + + gnu_size = convert (gnu_size_type, gnu_size); + gnu_align = convert (gnu_size_type, gnu_align); + + /* The first arg is always the address of the storage pool; next + comes the address of the object, for a deallocator, then the + size and alignment. */ + if (gnu_obj) + gnu_call = build_call_nary (TREE_TYPE (TREE_TYPE (gnu_proc)), + gnu_proc_addr, 4, gnu_pool_addr, + gnu_obj, gnu_size, gnu_align); + else + gnu_call = build_call_nary (TREE_TYPE (TREE_TYPE (gnu_proc)), + gnu_proc_addr, 3, gnu_pool_addr, + gnu_size, gnu_align); + TREE_SIDE_EFFECTS (gnu_call) = 1; + return gnu_call; + } + + /* Secondary stack case. */ + else + { + /* The size is the second parameter */ + Entity_Id gnat_size_type + = Etype (Next_Formal (First_Formal (gnat_proc))); + tree gnu_size_type = gnat_to_gnu_type (gnat_size_type); + tree gnu_proc = gnat_to_gnu (gnat_proc); + tree gnu_proc_addr = build_unary_op (ADDR_EXPR, NULL_TREE, gnu_proc); + tree gnu_call; + + gnu_size = convert (gnu_size_type, gnu_size); + + /* The first arg is the address of the object, for a + deallocator, then the size */ + if (gnu_obj) + gnu_call = build_call_nary (TREE_TYPE (TREE_TYPE (gnu_proc)), + gnu_proc_addr, 2, gnu_obj, gnu_size); + else + gnu_call = build_call_nary (TREE_TYPE (TREE_TYPE (gnu_proc)), + gnu_proc_addr, 1, gnu_size); + TREE_SIDE_EFFECTS (gnu_call) = 1; + return gnu_call; + } + } + + else if (gnu_obj) + return build_call_1_expr (free_decl, gnu_obj); + + /* ??? For now, disable variable-sized allocators in the stack since + we can't yet gimplify an ALLOCATE_EXPR. */ + else if (gnat_pool == -1 + && TREE_CODE (gnu_size) == INTEGER_CST && !flag_stack_check) + { + /* If the size is a constant, we can put it in the fixed portion of + the stack frame to avoid the need to adjust the stack pointer. */ + if (TREE_CODE (gnu_size) == INTEGER_CST && !flag_stack_check) + { + tree gnu_range + = build_range_type (NULL_TREE, size_one_node, gnu_size); + tree gnu_array_type = build_array_type (char_type_node, gnu_range); + tree gnu_decl + = create_var_decl (get_identifier ("RETVAL"), NULL_TREE, + gnu_array_type, NULL_TREE, false, false, false, + false, NULL, gnat_node); + + return convert (ptr_void_type_node, + build_unary_op (ADDR_EXPR, NULL_TREE, gnu_decl)); + } + else + gcc_unreachable (); +#if 0 + return build2 (ALLOCATE_EXPR, ptr_void_type_node, gnu_size, gnu_align); +#endif + } + else + { + if (Nkind (gnat_node) != N_Allocator || !Comes_From_Source (gnat_node)) + Check_No_Implicit_Heap_Alloc (gnat_node); + + /* If the allocator size is 32bits but the pointer size is 64bits then + allocate 32bit memory (sometimes necessary on 64bit VMS). Otherwise + default to standard malloc. */ + if (UI_To_Int (Esize (Etype (gnat_node))) == 32 && POINTER_SIZE == 64) + return build_call_1_expr (malloc32_decl, gnu_size); + else + return build_call_1_expr (malloc_decl, gnu_size); + } +} + +/* Build a GCC tree to correspond to allocating an object of TYPE whose + initial value is INIT, if INIT is nonzero. Convert the expression to + RESULT_TYPE, which must be some type of pointer. Return the tree. + GNAT_PROC and GNAT_POOL optionally give the procedure to call and + the storage pool to use. GNAT_NODE is used to provide an error + location for restriction violations messages. If IGNORE_INIT_TYPE is + true, ignore the type of INIT for the purpose of determining the size; + this will cause the maximum size to be allocated if TYPE is of + self-referential size. */ + +tree +build_allocator (tree type, tree init, tree result_type, Entity_Id gnat_proc, + Entity_Id gnat_pool, Node_Id gnat_node, bool ignore_init_type) +{ + tree size = TYPE_SIZE_UNIT (type); + tree result; + unsigned int default_allocator_alignment + = get_target_default_allocator_alignment () * BITS_PER_UNIT; + + /* If the initializer, if present, is a NULL_EXPR, just return a new one. */ + if (init && TREE_CODE (init) == NULL_EXPR) + return build1 (NULL_EXPR, result_type, TREE_OPERAND (init, 0)); + + /* If RESULT_TYPE is a fat or thin pointer, set SIZE to be the sum of the + sizes of the object and its template. Allocate the whole thing and + fill in the parts that are known. */ + else if (TYPE_FAT_OR_THIN_POINTER_P (result_type)) + { + tree storage_type + = build_unc_object_type_from_ptr (result_type, type, + get_identifier ("ALLOC")); + tree template_type = TREE_TYPE (TYPE_FIELDS (storage_type)); + tree storage_ptr_type = build_pointer_type (storage_type); + tree storage; + tree template_cons = NULL_TREE; + + size = SUBSTITUTE_PLACEHOLDER_IN_EXPR (TYPE_SIZE_UNIT (storage_type), + init); + + /* If the size overflows, pass -1 so the allocator will raise + storage error. */ + if (TREE_CODE (size) == INTEGER_CST && TREE_OVERFLOW (size)) + size = ssize_int (-1); + + storage = build_call_alloc_dealloc (NULL_TREE, size, + TYPE_ALIGN (storage_type), + gnat_proc, gnat_pool, gnat_node); + storage = convert (storage_ptr_type, protect_multiple_eval (storage)); + + if (TREE_CODE (type) == RECORD_TYPE && TYPE_IS_PADDING_P (type)) + { + type = TREE_TYPE (TYPE_FIELDS (type)); + + if (init) + init = convert (type, init); + } + + /* If there is an initializing expression, make a constructor for + the entire object including the bounds and copy it into the + object. If there is no initializing expression, just set the + bounds. */ + if (init) + { + template_cons = tree_cons (TREE_CHAIN (TYPE_FIELDS (storage_type)), + init, NULL_TREE); + template_cons = tree_cons (TYPE_FIELDS (storage_type), + build_template (template_type, type, + init), + template_cons); + + return convert + (result_type, + build2 (COMPOUND_EXPR, storage_ptr_type, + build_binary_op + (MODIFY_EXPR, storage_type, + build_unary_op (INDIRECT_REF, NULL_TREE, + convert (storage_ptr_type, storage)), + gnat_build_constructor (storage_type, template_cons)), + convert (storage_ptr_type, storage))); + } + else + return build2 + (COMPOUND_EXPR, result_type, + build_binary_op + (MODIFY_EXPR, template_type, + build_component_ref + (build_unary_op (INDIRECT_REF, NULL_TREE, + convert (storage_ptr_type, storage)), + NULL_TREE, TYPE_FIELDS (storage_type), 0), + build_template (template_type, type, NULL_TREE)), + convert (result_type, convert (storage_ptr_type, storage))); + } + + /* If we have an initializing expression, see if its size is simpler + than the size from the type. */ + if (!ignore_init_type && init && TYPE_SIZE_UNIT (TREE_TYPE (init)) + && (TREE_CODE (TYPE_SIZE_UNIT (TREE_TYPE (init))) == INTEGER_CST + || CONTAINS_PLACEHOLDER_P (size))) + size = TYPE_SIZE_UNIT (TREE_TYPE (init)); + + /* If the size is still self-referential, reference the initializing + expression, if it is present. If not, this must have been a + call to allocate a library-level object, in which case we use + the maximum size. */ + if (CONTAINS_PLACEHOLDER_P (size)) + { + if (!ignore_init_type && init) + size = substitute_placeholder_in_expr (size, init); + else + size = max_size (size, true); + } + + /* If the size overflows, pass -1 so the allocator will raise + storage error. */ + if (TREE_CODE (size) == INTEGER_CST && TREE_OVERFLOW (size)) + size = ssize_int (-1); + + /* If this is in the default storage pool and the type alignment is larger + than what the default allocator supports, make an "aligning" record type + with room to store a pointer before the field, allocate an object of that + type, store the system's allocator return value just in front of the + field and return the field's address. */ + + if (No (gnat_proc) && TYPE_ALIGN (type) > default_allocator_alignment) + { + /* Construct the aligning type with enough room for a pointer ahead + of the field, then allocate. */ + tree record_type + = make_aligning_type (type, TYPE_ALIGN (type), size, + default_allocator_alignment, + POINTER_SIZE / BITS_PER_UNIT); + + tree record, record_addr; + + record_addr + = build_call_alloc_dealloc (NULL_TREE, TYPE_SIZE_UNIT (record_type), + default_allocator_alignment, Empty, Empty, + gnat_node); + + record_addr + = convert (build_pointer_type (record_type), + save_expr (record_addr)); + + record = build_unary_op (INDIRECT_REF, NULL_TREE, record_addr); + + /* Our RESULT (the Ada allocator's value) is the super-aligned address + of the internal record field ... */ + result + = build_unary_op (ADDR_EXPR, NULL_TREE, + build_component_ref + (record, NULL_TREE, TYPE_FIELDS (record_type), 0)); + result = convert (result_type, result); + + /* ... with the system allocator's return value stored just in + front. */ + { + tree ptr_addr + = build_binary_op (POINTER_PLUS_EXPR, ptr_void_type_node, + convert (ptr_void_type_node, result), + size_int (-POINTER_SIZE/BITS_PER_UNIT)); + + tree ptr_ref + = convert (build_pointer_type (ptr_void_type_node), ptr_addr); + + result + = build2 (COMPOUND_EXPR, TREE_TYPE (result), + build_binary_op (MODIFY_EXPR, NULL_TREE, + build_unary_op (INDIRECT_REF, NULL_TREE, + ptr_ref), + convert (ptr_void_type_node, + record_addr)), + result); + } + } + else + result = convert (result_type, + build_call_alloc_dealloc (NULL_TREE, size, + TYPE_ALIGN (type), + gnat_proc, + gnat_pool, + gnat_node)); + + /* If we have an initial value, put the new address into a SAVE_EXPR, assign + the value, and return the address. Do this with a COMPOUND_EXPR. */ + + if (init) + { + result = save_expr (result); + result + = build2 (COMPOUND_EXPR, TREE_TYPE (result), + build_binary_op + (MODIFY_EXPR, NULL_TREE, + build_unary_op (INDIRECT_REF, + TREE_TYPE (TREE_TYPE (result)), result), + init), + result); + } + + return convert (result_type, result); +} + +/* Fill in a VMS descriptor for EXPR and return a constructor for it. + GNAT_FORMAL is how we find the descriptor record. */ + +tree +fill_vms_descriptor (tree expr, Entity_Id gnat_formal) +{ + tree record_type = TREE_TYPE (TREE_TYPE (get_gnu_tree (gnat_formal))); + tree field; + tree const_list = NULL_TREE; + + expr = maybe_unconstrained_array (expr); + gnat_mark_addressable (expr); + + for (field = TYPE_FIELDS (record_type); field; field = TREE_CHAIN (field)) + const_list + = tree_cons (field, + convert (TREE_TYPE (field), + SUBSTITUTE_PLACEHOLDER_IN_EXPR + (DECL_INITIAL (field), expr)), + const_list); + + return gnat_build_constructor (record_type, nreverse (const_list)); +} + +/* Indicate that we need to make the address of EXPR_NODE and it therefore + should not be allocated in a register. Returns true if successful. */ + +bool +gnat_mark_addressable (tree expr_node) +{ + while (1) + switch (TREE_CODE (expr_node)) + { + case ADDR_EXPR: + case COMPONENT_REF: + case ARRAY_REF: + case ARRAY_RANGE_REF: + case REALPART_EXPR: + case IMAGPART_EXPR: + case VIEW_CONVERT_EXPR: + case NON_LVALUE_EXPR: + CASE_CONVERT: + expr_node = TREE_OPERAND (expr_node, 0); + break; + + case CONSTRUCTOR: + TREE_ADDRESSABLE (expr_node) = 1; + return true; + + case VAR_DECL: + case PARM_DECL: + case RESULT_DECL: + TREE_ADDRESSABLE (expr_node) = 1; + return true; + + case FUNCTION_DECL: + TREE_ADDRESSABLE (expr_node) = 1; + return true; + + case CONST_DECL: + return (DECL_CONST_CORRESPONDING_VAR (expr_node) + && (gnat_mark_addressable + (DECL_CONST_CORRESPONDING_VAR (expr_node)))); + default: + return true; + } +}