From: Andrew Cagney Date: Fri, 20 Feb 2004 16:23:01 +0000 (+0000) Subject: 2004-02-20 Andrew Cagney X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=299d901ce6a983dfecbbe5232c4fe33522b79d85;p=binutils-gdb.git 2004-02-20 Andrew Cagney * sh.cpu, sh.opc, sh64-compact.cpu, sh64-media.cpu: New files, all written by Ben Elliston. --- diff --git a/cpu/ChangeLog b/cpu/ChangeLog index 00a4a1f1024..f6ed0ba4292 100644 --- a/cpu/ChangeLog +++ b/cpu/ChangeLog @@ -1,3 +1,8 @@ +2004-02-20 Andrew Cagney + + * sh.cpu, sh.opc, sh64-compact.cpu, sh64-media.cpu: New files, all + written by Ben Elliston. + 2004-01-14 Richard Sandiford * frv.cpu (UNIT): Add IACC. diff --git a/cpu/sh.cpu b/cpu/sh.cpu new file mode 100644 index 00000000000..c1d6ea673d1 --- /dev/null +++ b/cpu/sh.cpu @@ -0,0 +1,368 @@ +; Hitachi SH architecture description. -*- Scheme -*- +; +; Copyright 2000, 2001 Free Software Foundation, Inc. +; +; Contributed by Red Hat Inc; developed under contract from Hitachi +; Semiconductor (America) Inc. +; +; This file is part of the GNU Binutils. +; +; This program 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 2 of the License, or +; (at your option) any later version. +; +; This program 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 this program; if not, write to the Free Software +; Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. + + +(include "simplify.inc") + +(define-arch + (name sh) + (comment "Hitachi SuperH (SH)") + (insn-lsb0? #t) + (machs sh2 sh3 sh3e sh4 sh5) + (isas compact media) +) + + +; Instruction sets. + +(define-isa + (name media) + (comment "SHmedia 32-bit instruction set") + (base-insn-bitsize 32) +) + +(define-isa + (name compact) + (comment "SHcompact 16-bit instruction set") + (base-insn-bitsize 16) +) + + +; CPU family. + +(define-cpu + (name sh64) + (comment "SH 64-bit family") + (endian either) + (word-bitsize 32) +) + + +(define-mach + (name sh2) + (comment "SH-2 CPU core") + (cpu sh64) + (isas compact) +) + +(define-mach + (name sh3) + (comment "SH-3 CPU core") + (cpu sh64) + (isas compact) +) + +(define-mach + (name sh3e) + (comment "SH-3e CPU core") + (cpu sh64) + (isas compact) +) + +(define-mach + (name sh4) + (comment "SH-4 CPU core") + (cpu sh64) + (isas compact) +) + +(define-mach + (name sh5) + (comment "SH-5 CPU core") + (cpu sh64) + (isas compact media) +) + +(define-model + (name sh5) + (comment "SH-5 reference implementation") + (mach sh5) + (unit u-exec "Execution unit" () + 1 1 ; issue done + () () () ()) +) + +; Hardware elements. + +(define-hardware + (name h-pc) + (comment "Program counter") + (attrs PC (ISA compact,media)) + (type pc UDI) + (get () (raw-reg h-pc)) + (set (newval) (sequence () + (set (raw-reg h-ism) (and newval 1)) + (set (raw-reg h-pc) (and newval (inv UDI 1))))) +) + +(define-pmacro (-build-greg-name n) ((.sym r n) n)) + +(define-hardware + (name h-gr) + (comment "General purpose integer registers") + (attrs (ISA media,compact)) + (type register DI (64)) + (indices keyword "" (.map -build-greg-name (.iota 64))) + (get (index) + (if DI (eq index 63) + (const 0) + (raw-reg h-gr index))) + (set (index newval) + (if (ne index 63) + (set (raw-reg h-gr index) newval) + (nop))) +) + +(define-hardware + (name h-grc) + (comment "General purpose integer registers (SHcompact view)") + (attrs VIRTUAL (ISA compact)) + (type register SI (16)) + (indices keyword "" (.map -build-greg-name (.iota 16))) + (get (index) + (and (raw-reg h-gr index) (zext DI #xFFFFFFFF))) + (set (index newval) + (set (raw-reg h-gr index) (ext DI newval))) +) + +(define-pmacro (-build-creg-name n) ((.sym cr n) n)) + +(define-hardware + (name h-cr) + (comment "Control registers") + (attrs (ISA media)) + (type register DI (64)) + (indices keyword "" (.map -build-creg-name (.iota 64))) + (get (index) + (if DI (eq index 0) + (zext DI (reg h-sr)) + (raw-reg h-cr index))) + (set (index newval) + (if (eq index 0) + (set (reg h-sr) newval) + (set (raw-reg h-cr index) newval))) +) + +(define-hardware + (name h-sr) + (comment "Status register") + (attrs (ISA compact,media)) + (type register SI) +) + +(define-hardware + (name h-fpscr) + (comment "Floating point status and control register") + (attrs (ISA compact,media)) + (type register SI) +) + +(define-hardware + (name h-frbit) + (comment "Floating point register file bit") + (attrs (ISA media,compact) VIRTUAL) + (type register BI) + (get () (and (srl (reg h-sr) 14) 1)) + (set (newvalue) (set (reg h-sr) (or (and (reg h-sr) (inv (sll 1 14))) (sll SI newvalue 14)))) +) + +(define-hardware + (name h-szbit) + (comment "Floating point transfer size bit") + (attrs (ISA media,compact) VIRTUAL) + (type register BI) + (get () (and (srl (reg h-sr) 13) 1)) + (set (newvalue) (set (reg h-sr) (or (and (reg h-sr) (inv (sll 1 13))) (sll SI newvalue 13)))) +) + +(define-hardware + (name h-prbit) + (comment "Floating point precision bit") + (attrs (ISA media,compact) VIRTUAL) + (type register BI) + (get () (and (srl (reg h-sr) 12) 1)) + (set (newvalue) (set (reg h-sr) (or (and (reg h-sr) (inv (sll 1 12))) (sll SI newvalue 12)))) +) + +(define-hardware + (name h-sbit) + (comment "Multiply-accumulate saturation flag") + (attrs (ISA compact) VIRTUAL) + (type register BI) + (get () (and (srl (reg h-sr) 1) 1)) + (set (newvalue) (set (reg h-sr) (or (and (reg h-sr) (inv 2)) (sll SI newvalue 1)))) +) + +(define-hardware + (name h-mbit) + (comment "Divide-step M flag") + (attrs (ISA compact) VIRTUAL) + (type register BI) + (get () (and (srl (reg h-sr) 9) 1)) + (set (newvalue) (set (reg h-sr) (or (and (reg h-sr) (inv (sll 1 9))) (sll SI newvalue 9)))) +) + +(define-hardware + (name h-qbit) + (comment "Divide-step Q flag") + (attrs (ISA compact) VIRTUAL) + (type register BI) + (get () (and (srl (reg h-sr) 8) 1)) + (set (newvalue) (set (reg h-sr) (or (and (reg h-sr) (inv (sll 1 8))) (sll SI newvalue 8)))) +) + +(define-pmacro (-build-freg-name n) ((.sym fr n) n)) + +(define-hardware + (name h-fr) + (comment "Single precision floating point registers") + (attrs (ISA media,compact)) + (type register SF (64)) + (indices keyword "" (.map -build-freg-name (.iota 64))) +) + + +(define-pmacro (-build-fpair-name n) ((.sym fp n) n)) + +(define-hardware + (name h-fp) + (comment "Single precision floating point register pairs") + (attrs (ISA media,compact)) + (type register DF (32)) + (indices keyword "" (.map -build-fpair-name (.iota 32))) +) + +(define-pmacro (-build-fvec-name n) ((.sym fv n) n)) + +(define-hardware + (name h-fv) + (comment "Single precision floating point vectors") + (attrs VIRTUAL (ISA media,compact)) + (type register SF (16)) + (indices keyword "" (.map -build-fvec-name (.iota 16))) + ; Mask with $F to ensure 0 <= index < 15. + (get (index) (reg h-fr (mul (and UQI index 15) 4))) + (set (index newval) (set (reg h-fr (mul (and UQI index 15) 4)) newval)) +) + +(define-hardware + (name h-fmtx) + (comment "Single precision floating point matrices") + (attrs VIRTUAL (ISA media)) + (type register SF (4)) + (indices keyword "" ((mtrx0 0) (mtrx1 1) (mtrx2 2) (mtrx3 3))) + ; Mask with $3 to ensure 0 <= index < 4. + (get (index) (reg h-fr (mul (and UQI index 3) 16))) + (set (index newval) (set (reg h-fr (mul (and UQI index 3) 16)) newval)) +) + +(define-pmacro (-build-dreg-name n) ((.sym dr n) n)) + +(define-hardware + (name h-dr) + (comment "Double precision floating point registers") + (attrs (ISA media,compact) VIRTUAL) + (type register DF (32)) + (indices keyword "" (.map -build-dreg-name (.iota 64))) + (get (index) + (subword DF + (or + (sll DI (zext DI (subword SI (reg h-fr index) 0)) 32) + (zext DI (subword SI (reg h-fr (add index 1)) 0))) 0)) + (set (index newval) + (sequence () + (set (reg h-fr index) + (subword SF (subword SI newval 0) 0)) + (set (reg h-fr (add index 1)) + (subword SF (subword SI newval 1) 0)))) +) + +(define-hardware + (name h-tr) + (comment "Branch target registers") + (attrs (ISA media)) + (type register DI (8)) + (indices keyword "" ((tr0 0) (tr1 1) (tr2 2) (tr3 3) (tr4 4) (tr5 5) (tr6 6) (tr7 7))) +) + +(define-hardware + (name h-endian) + (comment "Current endian mode") + (attrs (ISA compact,media) VIRTUAL) + (type register BI) + (get () (c-call BI "sh64_endian")) + (set (newval) (error "cannot alter target byte order mid-program")) +) + +(define-hardware + (name h-ism) + (comment "Current instruction set mode") + (attrs (ISA compact,media)) + (type register BI) + (get () (raw-reg h-ism)) + (set (newval) (error "cannot set ism directly")) +) + + +; Operands. + +(dnop endian "Endian mode" ((ISA compact,media)) h-endian f-nil) +(dnop ism "Instruction set mode" ((ISA compact,media)) h-ism f-nil) + +; Universally useful macros. + +; A pmacro for use in semantic bodies of unimplemented insns. +(define-pmacro (unimp mnemonic) (nop)) + +; Join 2 ints together in natural bit order. +(define-pmacro (-join-si s1 s0) + (or (sll (zext DI s1) 32) + (zext DI s0))) + +; Join 4 half-ints together in natural bit order. +(define-pmacro (-join-hi h3 h2 h1 h0) + (or (sll (zext DI h3) 48) + (or (sll (zext DI h2) 32) + (or (sll (zext DI h1) 16) + (zext DI h0))))) + +; Join 8 quarter-ints together in natural bit order. +(define-pmacro (-join-qi b7 b6 b5 b4 b3 b2 b1 b0) + (or (sll (zext DI b7) 56) + (or (sll (zext DI b6) 48) + (or (sll (zext DI b5) 40) + (or (sll (zext DI b4) 32) + (or (sll (zext DI b3) 24) + (or (sll (zext DI b2) 16) + (or (sll (zext DI b1) 8) + (zext DI b0))))))))) + + +; Include the two instruction set descriptions from their respective +; source files. + +(if (keep-isa? (compact)) + (include "sh64-compact.cpu")) + +(if (keep-isa? (media)) + (include "sh64-media.cpu")) diff --git a/cpu/sh.opc b/cpu/sh.opc new file mode 100644 index 00000000000..0fdb97fefb4 --- /dev/null +++ b/cpu/sh.opc @@ -0,0 +1,78 @@ +/* SHmedia opcode support. -*- C -*- + + Copyright 2000 Free Software Foundation, Inc. + + Contributed by Red Hat Inc; developed under contract from Hitachi + Semiconductor (America) Inc. + + This file is part of the GNU Binutils. + + This program 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 2 of the License, or + (at your option) any later version. + + This program 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 this program; if not, write to the Free Software + Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. + +*/ +/* This file is an addendum to sh-media.cpu. Heavy use of C code isn't + appropriate in .cpu files, so it resides here. This especially applies + to assembly/disassembly where parsing/printing can be quite involved. + Such things aren't really part of the specification of the cpu, per se, + so .cpu files provide the general framework and .opc files handle the + nitty-gritty details as necessary. + + Each section is delimited with start and end markers. + + -opc.h additions use: "-- opc.h" + -opc.c additions use: "-- opc.c" + -asm.c additions use: "-- asm.c" + -dis.c additions use: "-- dis.c" + -ibd.h additions use: "-- ibd.h" +*/ + +/* -- opc.h */ + +/* Allows reason codes to be output when assembler errors occur. */ +#define CGEN_VERBOSE_ASSEMBLER_ERRORS + +/* Override disassembly hashing - there are variable bits in the top + byte of these instructions. */ +#define CGEN_DIS_HASH_SIZE 8 +#define CGEN_DIS_HASH(buf,value) (((* (unsigned char*) (buf)) >> 6) % CGEN_DIS_HASH_SIZE) + +/* -- asm.c */ + +static const char * +parse_fsd (cd, strp, opindex, valuep) + CGEN_CPU_DESC cd; + const char **strp; + int opindex; + long *valuep; +{ + abort(); +} + +/* -- dis.c */ + +static void +print_likely (cd, dis_info, value, attrs, pc, length) + CGEN_CPU_DESC cd; + PTR dis_info; + long value; + unsigned int attrs; + bfd_vma pc; + int length; +{ + disassemble_info *info = (disassemble_info *) dis_info; + (*info->fprintf_func) (info->stream, (value) ? "/l" : "/u"); +} + +/* -- */ diff --git a/cpu/sh64-compact.cpu b/cpu/sh64-compact.cpu new file mode 100644 index 00000000000..d835b1b40a7 --- /dev/null +++ b/cpu/sh64-compact.cpu @@ -0,0 +1,1747 @@ +; Hitachi SHcompact instruction set description. -*- Scheme -*- +; +; Copyright 2000 Free Software Foundation, Inc. +; +; Contributed by Red Hat Inc; developed under contract from Hitachi +; Semiconductor (America) Inc. +; +; This file is part of the GNU Binutils. +; +; This program 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 2 of the License, or +; (at your option) any later version. +; +; This program 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 this program; if not, write to the Free Software +; Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. + +; dshcf -- define-normal-sh-compact-field + +(define-pmacro (dshcf xname xcomment ignored xstart xlength) + (dnf xname xcomment ((ISA compact)) xstart xlength)) + +; dshcop -- define-normal-sh-compact-operand + +(define-pmacro (dshcop xname xcomment ignored xhardware xfield) + (dnop xname xcomment ((ISA compact)) xhardware xfield)) + + +; SHcompact-specific attributes. + +(define-attr + (for insn) + (type boolean) + (name ILLSLOT) + (comment "instruction may not appear in a delay slot") +) + +(define-attr + (for insn) + (type boolean) + (name FP-INSN) + (comment "floating point instruction") +) + +(define-keyword + (name frc-names) + (attrs (ISA compact)) + (print-name h-frc) + (values (fr0 0) (fr1 1) (fr2 2) (fr3 3) (fr4 4) (fr5 5) + (fr6 6) (fr7 7) (fr8 8) (fr9 9) (fr10 10) (fr11 11) + (fr12 12) (fr13 13) (fr14 14) (fr15 15)) +) + +(define-keyword + (name drc-names) + (attrs (ISA compact)) + (print-name h-drc) + (values (dr0 0) (dr2 2) (dr4 4) (dr6 6) (dr8 8) (dr10 10) (dr12 12) (dr14 14)) +) + +(define-keyword + (name xf-names) + (attrs (ISA compact)) + (print-name h-xf) + (values (xf0 0) (xf1 1) (xf2 2) (xf3 3) (xf4 4) (xf5 5) + (xf6 6) (xf7 7) (xf8 8) (xf9 9) (xf10 10) (xf11 11) + (xf12 12) (xf13 13) (xf14 14) (xf15 15)) +) + +; Hardware specific to the SHcompact mode. + +(define-pmacro (front) (mul 16 frbit)) +(define-pmacro (back) (mul 16 (not frbit))) + +(define-hardware + (name h-frc) + (comment "Single precision floating point registers") + (attrs VIRTUAL (ISA compact)) + (indices extern-keyword frc-names) + (type register SF (16)) + (get (index) (reg h-fr (add (front) index))) + (set (index newval) (set (reg h-fr (add (front) index)) newval)) +) + +(define-hardware + (name h-drc) + (comment "Double precision floating point registers") + (attrs VIRTUAL (ISA compact)) + (indices extern-keyword drc-names) + (type register DF (8)) + (get (index) (reg h-dr (add (front) index))) + (set (index newval) (set (reg h-dr (add (front) index)) newval)) +) + +(define-hardware + (name h-xf) + (comment "Extended single precision floating point registers") + (attrs VIRTUAL (ISA compact)) + (indices extern-keyword xf-names) + (type register SF (16)) + (get (index) (reg h-fr (add (back) index))) + (set (index newval) (set (reg h-fr (add (back) index)) newval)) +) + +(define-hardware + (name h-xd) + (comment "Extended double precision floating point registers") + (attrs VIRTUAL (ISA compact)) + (indices extern-keyword frc-names) + (type register DF (8)) + (get (index) (reg h-dr (add (back) index))) + (set (index newval) (set (reg h-dr (add (back) index)) newval)) +) + +(define-hardware + (name h-fvc) + (comment "Single precision floating point vectors") + (attrs VIRTUAL (ISA compact)) + (indices keyword "" ((fv0 0) (fv4 4) (fv8 8) (fv12 12))) + (type register SF (4)) + (get (index) (reg h-fr (add (front) index))) + (set (index newval) (set (reg h-fr (add (front) index)) newval)) +) + +(define-hardware + (name h-fpccr) + (comment "SHcompact floating point status/control register") + (attrs VIRTUAL (ISA compact)) + (type register SI) + (get () (or (or (or (raw-reg h-fpscr) (sll SI prbit 19)) (sll SI szbit 20)) (sll SI frbit 21))) + (set (newvalue) (sequence () + (set (reg h-fpscr) newvalue) + (set prbit (and (srl newvalue 19) 1)) + (set szbit (and (srl newvalue 20) 1)) + (set frbit (and (srl newvalue 21) 1)))) +) + +(define-hardware + (name h-gbr) + (comment "Global base register") + (attrs VIRTUAL (ISA compact)) + (type register SI) + (get () (subword SI (raw-reg h-gr 16) 1)) + (set (newval) (set (raw-reg h-gr 16) (ext DI newval))) +) + +(define-hardware + (name h-pr) + (comment "Procedure link register") + (attrs VIRTUAL (ISA compact)) + (type register SI) + (get () (subword SI (raw-reg h-gr 18) 1)) + (set (newval) (set (raw-reg h-gr 18) (ext DI newval))) +) + +(define-hardware + (name h-macl) + (comment "Multiple-accumulate low register") + (attrs VIRTUAL (ISA compact)) + (type register SI) + (get () (subword SI (raw-reg h-gr 17) 1)) + (set (newval) (set (raw-reg h-gr 17) (-join-si (subword SI (raw-reg h-gr 17) 0) newval))) +) + +(define-hardware + (name h-mach) + (comment "Multiply-accumulate high register") + (attrs VIRTUAL (ISA compact)) + (type register SI) + (get () (subword SI (raw-reg h-gr 17) 0)) + (set (newval) (set (raw-reg h-gr 17) (-join-si newval (subword SI (raw-reg h-gr 17) 1)))) +) + +(define-hardware + (name h-tbit) + (comment "Condition code flag") + (attrs VIRTUAL (ISA compact)) + (type register BI) + (get () (and BI (raw-reg h-gr 19) 1)) + (set (newval) (set (raw-reg h-gr 19) (or (and (raw-reg h-gr 19) (inv DI 1)) (zext DI newval)))) +) + + +(dshcf f-op4 "Opcode (4 bits)" () 15 4) +(dshcf f-op8 "Opcode (8 bits)" () 15 8) +(dshcf f-op16 "Opcode (16 bits)" () 15 16) + +(dshcf f-sub4 "Sub opcode (4 bits)" () 3 4) +(dshcf f-sub8 "Sub opcode (8 bits)" () 7 8) +(dshcf f-sub10 "Sub opcode (10 bits)" () 9 10) + +(dshcf f-rn "Register selector n" () 11 4) +(dshcf f-rm "Register selector m" () 7 4) + +(dshcf f-8-1 "One bit at bit 8" () 8 1) + +(df f-disp8 "Displacement (8 bits)" ((ISA compact) PCREL-ADDR) 7 8 INT + ((value pc) (sra SI value 1)) + ((value pc) (add SI (sll SI value 1) (add pc 4)))) + +(df f-disp12 "Displacement (12 bits)" ((ISA compact) PCREL-ADDR) 11 12 INT + ((value pc) (sra SI value 1)) + ((value pc) (add SI (sll SI value 1) (add pc 4)))) + +(dshcf f-imm8 "Immediate (8 bits)" () 7 8) +(dshcf f-imm4 "Immediate (4 bits)" () 3 4) + +(df f-imm4x2 "Immediate (4 bits)" ((ISA compact)) 3 4 UINT + ((value pc) (srl SI value 1)) + ((value pc) (sll SI value 1))) + +(df f-imm4x4 "Immediate (4 bits)" ((ISA compact)) 3 4 UINT + ((value pc) (srl SI value 2)) + ((value pc) (sll SI value 2))) + +(df f-imm8x2 "Immediate (8 bits)" ((ISA compact)) 7 8 UINT + ((value pc) (sra SI value 1)) + ((value pc) (sll SI value 1))) + +(df f-imm8x4 "Immediate (8 bits)" ((ISA compact)) 7 8 UINT + ((value pc) (sra SI value 2)) + ((value pc) (sll SI value 2))) + +(df f-dn "Double selector n" ((ISA compact)) 11 3 UINT + ((value pc) (srl SI value 1)) + ((value pc) (sll SI value 1))) + +(df f-dm "Double selector m" ((ISA compact)) 7 3 UINT + ((value pc) (srl SI value 1)) + ((value pc) (sll SI value 1))) + +(df f-vn "Vector selector n" ((ISA compact)) 11 2 UINT + ((value pc) (srl SI value 2)) + ((value pc) (sll SI value 2))) + +(df f-vm "Vector selector m" ((ISA compact)) 9 2 UINT + ((value pc) (srl SI value 2)) + ((value pc) (sll SI value 2))) + +(df f-xn "Extended selector n" ((ISA compact)) 11 3 UINT + ((value pc) (srl SI value 1)) + ((value pc) (add SI (sll SI value 1) 1))) + +(df f-xm "Extended selector m" ((ISA compact)) 7 3 UINT + ((value pc) (srl SI value 1)) + ((value pc) (add SI (sll SI value 1) 1))) + + +; Operands. + +(dshcop rm "Left general purpose register" () h-grc f-rm) +(dshcop rn "Right general purpose register" () h-grc f-rn) +(dshcop r0 "Register 0" () h-grc 0) + +(dshcop frn "Single precision register" () h-frc f-rn) +(dshcop frm "Single precision register" () h-frc f-rm) + +(dshcop fvn "Left floating point vector" () h-fvc f-vn) +(dshcop fvm "Right floating point vector" () h-fvc f-vm) + +(dshcop drn "Left double precision register" () h-drc f-dn) +(dshcop drm "Right double precision register" () h-drc f-dm) + +(dshcop imm4 "Immediate value (4 bits)" () h-sint f-imm4) +(dshcop imm8 "Immediate value (8 bits)" () h-sint f-imm8) +(dshcop uimm8 "Immediate value (8 bits unsigned)" () h-uint f-imm8) + +(dshcop imm4x2 "Immediate value (4 bits, 2x scale)" () h-uint f-imm4x2) +(dshcop imm4x4 "Immediate value (4 bits, 4x scale)" () h-uint f-imm4x4) +(dshcop imm8x2 "Immediate value (8 bits, 2x scale)" () h-uint f-imm8x2) +(dshcop imm8x4 "Immediate value (8 bits, 4x scale)" () h-uint f-imm8x4) + +(dshcop disp8 "Displacement (8 bits)" () h-iaddr f-disp8) +(dshcop disp12 "Displacement (12 bits)" () h-iaddr f-disp12) + +(dshcop rm64 "Register m (64 bits)" () h-gr f-rm) +(dshcop rn64 "Register n (64 bits)" () h-gr f-rn) + +(dshcop gbr "Global base register" () h-gbr f-nil) +(dshcop pr "Procedure link register" () h-pr f-nil) + +(dshcop fpscr "Floating point status/control register" () h-fpccr f-nil) + +(dshcop tbit "Condition code flag" () h-tbit f-nil) +(dshcop sbit "Multiply-accumulate saturation flag" () h-sbit f-nil) +(dshcop mbit "Divide-step M flag" () h-mbit f-nil) +(dshcop qbit "Divide-step Q flag" () h-qbit f-nil) +(dshcop fpul "Floating point ???" () h-fr 32) + +(dshcop frbit "Floating point register bank bit" () h-frbit f-nil) +(dshcop szbit "Floating point transfer size bit" () h-szbit f-nil) +(dshcop prbit "Floating point precision bit" () h-prbit f-nil) + +(dshcop macl "Multiply-accumulate low register" () h-macl f-nil) +(dshcop mach "Multiply-accumulate high register" () h-mach f-nil) + + +(define-operand (name fsdm) (comment "bar") + (attrs (ISA compact)) (type h-frc) (index f-rm) (handlers (parse "fsd"))) + +(define-operand (name fsdn) (comment "bar") + (attrs (ISA compact)) (type h-frc) (index f-rn)) + + +; Cover macro to dni to indicate these are all SHcompact instructions. +; dshmi: define-normal-sh-compact-insn + +(define-pmacro (dshci xname xcomment xattrs xsyntax xformat xsemantics) + (define-insn + (name (.sym xname -compact)) + (comment xcomment) + (.splice attrs (.unsplice xattrs) (ISA compact)) + (syntax xsyntax) + (format xformat) + (semantics xsemantics))) + +(define-pmacro (dr operand) (reg h-dr (index-of operand))) +(define-pmacro (xd x) (reg h-xd (and (index-of x) (inv QI 1)))) + +(dshci add "Add" + () + "add $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 12)) + (set rn (add rn rm))) + +(dshci addi "Add immediate" + () + "add #$imm8, $rn" + (+ (f-op4 7) rn imm8) + (set rn (add rn (ext SI (and QI imm8 255))))) + +(dshci addc "Add with carry" + () + "addc $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 14)) + (sequence ((BI flag)) + (set flag (add-cflag rn rm tbit)) + (set rn (addc rn rm tbit)) + (set tbit flag))) + +(dshci addv "Add with overflow" + () + "addv $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 15)) + (sequence ((BI t)) + (set t (add-oflag rn rm 0)) + (set rn (add rn rm)) + (set tbit t))) + +(dshci and "Bitwise AND" + () + "and $rm64, $rn64" + (+ (f-op4 2) rn64 rm64 (f-sub4 9)) + (set rn64 (and rm64 rn64))) + +(dshci andi "Bitwise AND immediate" + () + "and #$uimm8, r0" + (+ (f-op8 #xc9) uimm8) + (set r0 (and r0 (zext DI uimm8)))) + +(dshci andb "Bitwise AND memory byte" + () + "and.b #$imm8, @(r0, gbr)" + (+ (f-op8 #xcd) imm8) + (sequence ((DI addr) (UQI data)) + (set addr (add r0 gbr)) + (set data (and (mem UQI addr) imm8)) + (set (mem UQI addr) data))) + +(dshci bf "Conditional branch" + () + "bf $disp8" + (+ (f-op8 #x8b) disp8) + (if (not tbit) + (set pc disp8))) + +(dshci bfs "Conditional branch with delay slot" + () + "bf/s $disp8" + (+ (f-op8 #x8f) disp8) + (if (not tbit) + (delay 1 (set pc disp8)))) + +(dshci bra "Branch" + () + "bra $disp12" + (+ (f-op4 10) disp12) + (delay 1 (set pc disp12))) + +(dshci braf "Branch far" + () + "braf $rn" + (+ (f-op4 0) rn (f-sub8 35)) + (delay 1 (set pc (add (ext DI rn) (add pc 4))))) + +(dshci brk "Breakpoint" + () + "brk" + (+ (f-op16 59)) + (c-call "sh64_break" pc)) + +(dshci bsr "Branch to subroutine" + () + "bsr $disp12" + (+ (f-op4 11) disp12) + (delay 1 (sequence () + (set pr (add pc 4)) + (set pc disp12)))) + +(dshci bsrf "Branch to far subroutine" + () + "bsrf $rn" + (+ (f-op4 0) rn (f-sub8 3)) + (delay 1 (sequence () + (set pr (add pc 4)) + (set pc (add (ext DI rn) (add pc 4)))))) + +(dshci bt "Conditional branch" + () + "bt $disp8" + (+ (f-op8 #x89) disp8) + (if tbit + (set pc disp8))) + +(dshci bts "Conditional branch with delay slot" + () + "bt/s $disp8" + (+ (f-op8 #x8d) disp8) + (if tbit + (delay 1 (set pc disp8)))) + +(dshci clrmac "Clear MACL and MACH" + () + "clrmac" + (+ (f-op16 40)) + (sequence () + (set macl 0) + (set mach 0))) + +(dshci clrs "Clear S-bit" + () + "clrs" + (+ (f-op16 72)) + (set sbit 0)) + +(dshci clrt "Clear T-bit" + () + "clrt" + (+ (f-op16 8)) + (set tbit 0)) + +(dshci cmpeq "Compare if equal" + () + "cmp/eq $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 0)) + (set tbit (eq rm rn))) + +(dshci cmpeqi "Compare if equal (immediate)" + () + "cmp/eq #$imm8, r0" + (+ (f-op8 #x88) imm8) + (set tbit (eq r0 (ext SI (and QI imm8 255))))) + +(dshci cmpge "Compare if greater than or equal" + () + "cmp/ge $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 3)) + (set tbit (ge rn rm))) + +(dshci cmpgt "Compare if greater than" + () + "cmp/gt $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 7)) + (set tbit (gt rn rm))) + +(dshci cmphi "Compare if greater than (unsigned)" + () + "cmp/hi $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 6)) + (set tbit (gtu rn rm))) + +(dshci cmphs "Compare if greater than or equal (unsigned)" + () + "cmp/hs $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 2)) + (set tbit (geu rn rm))) + +(dshci cmppl "Compare if greater than zero" + () + "cmp/pl $rn" + (+ (f-op4 4) rn (f-sub8 21)) + (set tbit (gt rn 0))) + +(dshci cmppz "Compare if greater than or equal zero" + () + "cmp/pz $rn" + (+ (f-op4 4) rn (f-sub8 17)) + (set tbit (ge rn 0))) + +(dshci cmpstr "Compare bytes" + () + "cmp/str $rm, $rn" + (+ (f-op4 2) rn rm (f-sub4 12)) + (sequence ((BI t) (SI temp)) + (set temp (xor rm rn)) + (set t (eq (and temp #xff000000) 0)) + (set t (or (eq (and temp #xff0000) 0) t)) + (set t (or (eq (and temp #xff00) 0) t)) + (set t (or (eq (and temp #xff) 0) t)) + (set tbit (if BI (gtu t 0) 1 0)))) + +(dshci div0s "Initialise divide-step state for signed division" + () + "div0s $rm, $rn" + (+ (f-op4 2) rn rm (f-sub4 7)) + (sequence () + (set qbit (srl rn 31)) + (set mbit (srl rm 31)) + (set tbit (if BI (eq (srl rm 31) (srl rn 31)) 0 1)))) + +(dshci div0u "Initialise divide-step state for unsigned division" + () + "div0u" + (+ (f-op16 25)) + (sequence () + (set tbit 0) + (set qbit 0) + (set mbit 0))) + +(dshci div1 "Divide step" + () + "div1 $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 4)) + (sequence ((BI oldq) (SI tmp0) (UQI tmp1)) + (set oldq qbit) + (set qbit (srl rn 31)) + (set rn (or (sll rn 1) (zext SI tbit))) + (if (not oldq) + (if (not mbit) + (sequence () + (set tmp0 rn) + (set rn (sub rn rm)) + (set tmp1 (gtu rn tmp0)) + (if (not qbit) + (set qbit (if BI tmp1 1 0)) + (set qbit (if BI (eq tmp1 0) 1 0)))) + (sequence () + (set tmp0 rn) + (set rn (add rn rm)) + (set tmp1 (ltu rn tmp0)) + (if (not qbit) + (set qbit (if BI (eq tmp1 0) 1 0)) + (set qbit (if BI tmp1 1 0))))) + (if (not mbit) + (sequence () + (set tmp0 rn) + (set rn (add rm rn)) + (set tmp1 (ltu rn tmp0)) + (if (not qbit) + (set qbit (if BI tmp1 1 0)) + (set qbit (if BI (eq tmp1 0) 1 0)))) + (sequence () + (set tmp0 rn) + (set rn (sub rn rm)) + (set tmp1 (gtu rn tmp0)) + (if (not qbit) + (set qbit (if BI (eq tmp1 0) 1 0)) + (set qbit (if BI tmp1 1 0)))))) + (set tbit (if BI (eq qbit mbit) 1 0)))) + +(dshci dmulsl "Multiply long (signed)" + () + "dmuls.l $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 13)) + (sequence ((DI result)) + (set result (mul (ext DI rm) (ext DI rn))) + (set mach (subword SI result 0)) + (set macl (subword SI result 1)))) + +(dshci dmulul "Multiply long (unsigned)" + () + "dmulu.l $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 5)) + (sequence ((DI result)) + (set result (mul (zext DI rm) (zext DI rn))) + (set mach (subword SI result 0)) + (set macl (subword SI result 1)))) + +(dshci dt "Decrement and set" + () + "dt $rn" + (+ (f-op4 4) rn (f-sub8 16)) + (sequence () + (set rn (sub rn 1)) + (set tbit (eq rn 0)))) + +(dshci extsb "Sign extend byte" + () + "exts.b $rm, $rn" + (+ (f-op4 6) rn rm (f-sub4 14)) + (set rn (ext SI (subword QI rm 3)))) + +(dshci extsw "Sign extend word" + () + "exts.w $rm, $rn" + (+ (f-op4 6) rn rm (f-sub4 15)) + (set rn (ext SI (subword HI rm 1)))) + +(dshci extub "Zero extend byte" + () + "extu.b $rm, $rn" + (+ (f-op4 6) rn rm (f-sub4 12)) + (set rn (zext SI (subword QI rm 3)))) + +(dshci extuw "Zero etxend word" + () + "extu.w $rm, $rn" + (+ (f-op4 6) rn rm (f-sub4 13)) + (set rn (zext SI (subword HI rm 1)))) + +(dshci fabs "Floating point absolute" + (FP-INSN) + "fabs $fsdn" + (+ (f-op4 15) fsdn (f-sub8 #x5d)) + (if prbit + (set (dr fsdn) (c-call DF "sh64_fabsd" (dr fsdn))) + (set fsdn (c-call SF "sh64_fabss" fsdn)))) + +(dshci fadd "Floating point add" + (FP-INSN) + "fadd $fsdm, $fsdn" + (+ (f-op4 15) fsdn fsdm (f-sub4 0)) + (if prbit + (set (dr fsdn) (c-call DF "sh64_faddd" (dr fsdm) (dr fsdn))) + (set fsdn (c-call SF "sh64_fadds" fsdm fsdn)))) + +(dshci fcmpeq "Floating point compare equal" + (FP-INSN) + "fcmp/eq $fsdm, $fsdn" + (+ (f-op4 15) fsdn fsdm (f-sub4 4)) + (if prbit + (set tbit (c-call BI "sh64_fcmpeqd" (dr fsdm) (dr fsdn))) + (set tbit (c-call BI "sh64_fcmpeqs" fsdm fsdn)))) + +(dshci fcmpgt "Floating point compare greater than" + (FP-INSN) + "fcmp/gt $fsdm, $fsdn" + (+ (f-op4 15) fsdn fsdm (f-sub4 5)) + (if prbit + (set tbit (c-call BI "sh64_fcmpgtd" (dr fsdn) (dr fsdm))) + (set tbit (c-call BI "sh64_fcmpgts" fsdn fsdm)))) + +(dshci fcnvds "Floating point convert (double to single)" + (FP-INSN) + "fcnvds $drn, fpul" + (+ (f-op4 15) drn (f-8-1 10) (f-sub8 #xbd)) + (set fpul (c-call SF "sh64_fcnvds" drn))) + +(dshci fcnvsd "Floating point convert (single to double)" + (FP-INSN) + "fcnvsd fpul, $drn" + (+ (f-op4 15) drn (f-8-1 0) (f-sub8 #xad)) + (set drn (c-call DF "sh64_fcnvsd" fpul))) + +(dshci fdiv "Floating point divide" + (FP-INSN) + "fdiv $fsdm, $fsdn" + (+ (f-op4 15) fsdn fsdm (f-sub4 3)) + (if prbit + (set (dr fsdn) (c-call DF "sh64_fdivd" (dr fsdn) (dr fsdm))) + (set fsdn (c-call SF "sh64_fdivs" fsdn fsdm)))) + +(dshci fipr "Floating point inner product" + (FP-INSN) + "fipr $fvm, $fvn" + (+ (f-op4 15) fvn fvm (f-sub8 #xed)) + (sequence ((QI m) (QI n) (SF res)) + (set m (index-of fvm)) + (set n (index-of fvn)) + (set res (c-call SF "sh64_fmuls" fvm fvn)) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-frc (add m 1)) (reg h-frc (add n 1))))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-frc (add m 2)) (reg h-frc (add n 2))))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-frc (add m 3)) (reg h-frc (add n 3))))) + (set (reg h-frc (add n 3)) res))) + +(dshci flds "Floating point load status register" + (FP-INSN) + "flds $frn" + (+ (f-op4 15) frn (f-sub8 #x1d)) + (set fpul frn)) + +(dshci fldi0 "Floating point load immediate 0.0" + (FP-INSN) + "fldi0 $frn" + (+ (f-op4 15) frn (f-sub8 #x8d)) + (set frn (c-call SF "sh64_fldi0"))) + +(dshci fldi1 "Floating point load immediate 1.0" + (FP-INSN) + "fldi1 $frn" + (+ (f-op4 15) frn (f-sub8 #x9d)) + (set frn (c-call SF "sh64_fldi1"))) + +(dshci float "Floating point integer conversion" + (FP-INSN) + "float fpul, $fsdn" + (+ (f-op4 15) fsdn (f-sub8 #x2d)) + (if prbit + (set (dr fsdn) (c-call DF "sh64_floatld" fpul)) + (set fsdn (c-call SF "sh64_floatls" fpul)))) + +(dshci fmac "Floating point multiply and accumulate" + (FP-INSN) + "fmac fr0, $frm, $frn" + (+ (f-op4 15) frn frm (f-sub4 14)) + (set frn (c-call SF "sh64_fmacs" (reg h-frc 0) frm frn))) + +(define-pmacro (even x) (eq (and x 1) 0)) +(define-pmacro (odd x) (eq (and x 1) 1)) +(define-pmacro (extd x) (odd (index-of x))) + +(dshci fmov1 "Floating point move (register to register)" + (FP-INSN) + "fmov $frm, $frn" + (+ (f-op4 15) frn frm (f-sub4 12)) + (if (not szbit) + ; single precision operation + (set frn frm) + ; double or extended operation + (if (extd frm) + (if (extd frn) + (set (xd frn) (xd frm)) + (set (dr frn) (xd frm))) + (if (extd frn) + (set (xd frn) (dr frm)) + (set (dr frn) (dr frm)))))) + +(dshci fmov2 "Floating point load" + (FP-INSN) + "fmov @$rm, $frn" + (+ (f-op4 15) frn rm (f-sub4 8)) + (if (not szbit) + ; single precision operation + (set frn (mem SF rm)) + ; double or extended operation + (if (extd frn) + (set (xd frn) (mem DF rm)) + (set (dr frn) (mem DF rm))))) + +(dshci fmov3 "Floating point load (post-increment)" + (FP-INSN) + "fmov @${rm}+, frn" + (+ (f-op4 15) frn rm (f-sub4 9)) + (if (not szbit) + ; single precision operation + (sequence () + (set frn (mem SF rm)) + (set rm (add rm 4))) + ; double or extended operation + (sequence () + (if (extd frn) + (set (xd frn) (mem DF rm)) + (set (dr frn) (mem DF rm))) + (set rm (add rm 8))))) + +(dshci fmov4 "Floating point load (register/register indirect)" + (FP-INSN) + "fmov @(r0, $rm), $frn" + (+ (f-op4 15) frn rm (f-sub4 6)) + (if (not szbit) + ; single precision operation + (set frn (mem SF (add r0 rm))) + ; double or extended operation + (if (extd frn) + (set (xd frn) (mem DF (add r0 rm))) + (set (dr frn) (mem DF (add r0 rm)))))) + +(dshci fmov5 "Floating point store" + (FP-INSN) + "fmov $frm, @$rn" + (+ (f-op4 15) rn frm (f-sub4 10)) + (if (not szbit) + ; single precision operation + (set (mem SF rn) frm) + ; double or extended operation + (if (extd frm) + (set (mem DF rn) (xd frm)) + (set (mem DF rn) (dr frm))))) + +(dshci fmov6 "Floating point store (pre-decrement)" + (FP-INSN) + "fmov $frm, @-$rn" + (+ (f-op4 15) rn frm (f-sub4 11)) + (if (not szbit) + ; single precision operation + (sequence () + (set rn (sub rn 4)) + (set (mem SF rn) frm)) + ; double or extended operation + (sequence () + (set rn (sub rn 8)) + (if (extd frm) + (set (mem DF rn) (xd frm)) + (set (mem DF rn) (dr frm)))))) + +(dshci fmov7 "Floating point store (register/register indirect)" + (FP-INSN) + "fmov $frm, @(r0, $rn)" + (+ (f-op4 15) rn frm (f-sub4 7)) + (if (not szbit) + ; single precision operation + (set (mem SF (add r0 rn)) frm) + ; double or extended operation + (if (extd frm) + (set (mem DF (add r0 rn)) (xd frm)) + (set (mem DF (add r0 rn)) (dr frm))))) + +(dshci fmul "Floating point multiply" + (FP-INSN) + "fmul $fsdm, $fsdn" + (+ (f-op4 15) fsdn fsdm (f-sub4 2)) + (if prbit + (set (dr fsdn) (c-call DF "sh64_fmuld" (dr fsdm) (dr fsdn))) + (set fsdn (c-call SF "sh64_fmuls" fsdm fsdn)))) + +(dshci fneg "Floating point negate" + (FP-INSN) + "fneg $fsdn" + (+ (f-op4 15) fsdn (f-sub8 #x4d)) + (if prbit + (set (dr fsdn) (c-call DF "sh64_fnegd" (dr fsdn))) + (set fsdn (c-call SF "sh64_fnegs" fsdn)))) + +(dshci frchg "Toggle floating point register banks" + (FP-INSN) + "frchg" + (+ (f-op16 #xfbfd)) + (set frbit (not frbit))) + +(dshci fschg "Set size of floating point transfers" + (FP-INSN) + "fschg" + (+ (f-op16 #xf3fd)) + (set szbit (not szbit))) + +(dshci fsqrt "Floating point square root" + (FP-INSN) + "fsqrt $fsdn" + (+ (f-op4 15) fsdn (f-sub8 #x6d)) + (if prbit + (set (dr fsdn) (c-call DF "sh64_fsqrtd" (dr fsdn))) + (set fsdn (c-call SF "sh64_fsqrts" fsdn)))) + +(dshci fsts "Floating point store status register" + (FP-INSN) + "fsts fpul, $frn" + (+ (f-op4 15) frn (f-sub8 13)) + (set frn fpul)) + +(dshci fsub "Floating point subtract" + (FP-INSN) + "fsub $fsdm, $fsdn" + (+ (f-op4 15) fsdn fsdm (f-sub4 1)) + (if prbit + (set (dr fsdn) (c-call DF "sh64_fsubd" (dr fsdn) (dr fsdm))) + (set fsdn (c-call SF "sh64_fsubs" fsdn fsdm)))) + +(dshci ftrc "Floating point truncate" + (FP-INSN) + "ftrc $fsdn, fpul" + (+ (f-op4 15) fsdn (f-sub8 #x3d)) + (set fpul (if SF prbit + (c-call SF "sh64_ftrcdl" (dr fsdn)) + (c-call SF "sh64_ftrcsl" fsdn)))) + +(dshci ftrv "Floating point transform vector" + (FP-INSN) + "ftrv xmtrx, $fvn" + (+ (f-op4 15) fvn (f-sub10 #x1fd)) + (sequence ((QI n) (SF res)) + (set n (index-of fvn)) + (set res (c-call SF "sh64_fmuls" (reg h-xf 0) (reg h-frc n))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-xf 4) (reg h-frc (add n 1))))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-xf 8) (reg h-frc (add n 2))))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-xf 12) (reg h-frc (add n 3))))) + (set (reg h-frc n) res) + (set res (c-call SF "sh64_fmuls" (reg h-xf 1) (reg h-frc n))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-xf 5) (reg h-frc (add n 1))))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-xf 9) (reg h-frc (add n 2))))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-xf 13) (reg h-frc (add n 3))))) + (set (reg h-frc (add n 1)) res) + (set res (c-call SF "sh64_fmuls" (reg h-xf 2) (reg h-frc n))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-xf 6) (reg h-frc (add n 1))))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-xf 10) (reg h-frc (add n 2))))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-xf 14) (reg h-frc (add n 3))))) + (set (reg h-frc (add n 2)) res) + (set res (c-call SF "sh64_fmuls" (reg h-xf 3) (reg h-frc n))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-xf 7) (reg h-frc (add n 1))))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-xf 11) (reg h-frc (add n 2))))) + (set res (c-call SF "sh64_fadds" res (c-call SF "sh64_fmuls" (reg h-xf 15) (reg h-frc (add n 3))))) + (set (reg h-frc (add n 3)) res))) + +(dshci jmp "Jump" + () + "jmp @$rn" + (+ (f-op4 4) rn (f-sub8 43)) + (delay 1 (set pc rn))) + +(dshci jsr "Jump to subroutine" + () + "jsr @$rn" + (+ (f-op4 4) rn (f-sub8 11)) + (delay 1 (sequence () + (set pr (add pc 4)) + (set pc rn)))) + +(dshci ldc "Load control register (GBR)" + () + "ldc $rn, gbr" + (+ (f-op4 4) rn (f-sub8 30)) + (set gbr rn)) + +(dshci ldcl "Load control register (GBR)" + () + "ldc.l @${rn}+, gbr" + (+ (f-op4 4) rn (f-sub8 39)) + (sequence () + (set gbr (mem SI rn)) + (set rn (add rn 4)))) + +(dshci lds-fpscr "Load status register (FPSCR)" + () + "lds $rn, fpscr" + (+ (f-op4 4) rn (f-sub8 106)) + (set fpscr rn)) + +(dshci ldsl-fpscr "Load status register (FPSCR)" + () + "lds.l @${rn}+, fpscr" + (+ (f-op4 4) rn (f-sub8 102)) + (sequence () + (set fpscr (mem SI rn)) + (set rn (add rn 4)))) + +(dshci lds-fpul "Load status register (FPUL)" + () + "lds $rn, fpul" + (+ (f-op4 4) rn (f-sub8 90)) + ; Use subword to convert rn's mode. + (set fpul (subword SF rn 0))) + +(dshci ldsl-fpul "Load status register (FPUL)" + () + "lds.l @${rn}+, fpul" + (+ (f-op4 4) rn (f-sub8 86)) + (sequence () + (set fpul (mem SF rn)) + (set rn (add rn 4)))) + +(dshci lds-mach "Load status register (MACH)" + () + "lds $rn, mach" + (+ (f-op4 4) rn (f-sub8 10)) + (set mach rn)) + +(dshci ldsl-mach "Load status register (MACH), post-increment" + () + "lds.l @${rn}+, mach" + (+ (f-op4 4) rn (f-sub8 6)) + (sequence () + (set mach (mem SI rn)) + (set rn (add rn 4)))) + +(dshci lds-macl "Load status register (MACL)" + () + "lds $rn, macl" + (+ (f-op4 4) rn (f-sub8 26)) + (set macl rn)) + +(dshci ldsl-macl "Load status register (MACL), post-increment" + () + "lds.l @${rn}+, macl" + (+ (f-op4 4) rn (f-sub8 22)) + (sequence () + (set macl (mem SI rn)) + (set rn (add rn 4)))) + +(dshci lds-pr "Load status register (PR)" + () + "lds $rn, pr" + (+ (f-op4 4) rn (f-sub8 42)) + (set pr rn)) + +(dshci ldsl-pr "Load status register (PR), post-increment" + () + "lds.l @${rn}+, pr" + (+ (f-op4 4) rn (f-sub8 38)) + (sequence () + (set pr (mem SI rn)) + (set rn (add rn 4)))) + +(dshci macl "Multiply and accumulate (long)" + () + "mac.l @${rm}+, @${rn}+" + (+ (f-op4 0) rn rm (f-sub4 15)) + (sequence ((DI tmpry) (DI mac) (DI result) (SI x) (SI y)) + (set x (mem SI rn)) + (set rn (add rn 4)) + (if (eq (index-of rn) (index-of rm)) + (sequence () + (set rn (add rn 4)) + (set rm (add rm 4)))) + (set y (mem SI rm)) + (set rm (add rm 4)) + (set tmpry (mul (zext DI x) (zext DI y))) + (set mac (or DI (sll (zext DI mach) 32) (zext DI macl))) + (set result (add mac tmpry)) + (sequence () + (if sbit + (sequence ((SI min) (SI max)) + (set max (srl (inv DI 0) 16)) + ; Preserve bit 48 for sign. + (set min (srl (inv DI 0) 15)) + (if (gt result max) + (set result max) + (if (lt result min) + (set result min))))) + (set mach (subword SI result 0)) + (set macl (subword SI result 1))))) + +(dshci macw "Multiply and accumulate (word)" + () + "mac.w @${rm}+, @${rn}+" + (+ (f-op4 4) rn rm (f-sub4 15)) + (sequence ((SI tmpry) (DI mac) (DI result) (HI x) (HI y)) + (set x (mem HI rn)) + (set rn (add rn 2)) + (if (eq (index-of rn) (index-of rm)) + (sequence () + (set rn (add rn 2)) + (set rm (add rm 2)))) + (set y (mem HI rm)) + (set rm (add rm 2)) + (set tmpry (mul (zext SI x) (zext SI y))) + (if sbit + (sequence () + (if (add-oflag tmpry macl 0) + (set mach 1)) + (set macl (add tmpry macl))) + (sequence () + (set mac (or DI (sll (zext DI mach) 32) (zext DI macl))) + (set result (add mac (ext DI tmpry))) + (set mach (subword SI result 0)) + (set macl (subword SI result 1)))))) + +(dshci mov "Move" + () + "mov $rm64, $rn64" + (+ (f-op4 6) rn64 rm64 (f-sub4 3)) + (set rn64 rm64)) + +(dshci movi "Move immediate" + () + "mov #$imm8, $rn" + (+ (f-op4 14) rn imm8) + (set rn (ext DI (and QI imm8 255)))) + +(dshci movb1 "Store byte to memory (register indirect w/ zero displacement)" + () + "mov.b $rm, @$rn" + (+ (f-op4 2) rn rm (f-sub4 0)) + (set (mem UQI rn) (subword UQI rm 3))) + +(dshci movb2 "Store byte to memory (register indirect w/ pre-decrement)" + () + "mov.b $rm, @-$rn" + (+ (f-op4 2) rn rm (f-sub4 4)) + (sequence ((DI addr)) + (set addr (sub rn 1)) + (set (mem UQI addr) (subword UQI rm 3)) + (set rn addr))) + +(dshci movb3 "Store byte to memory (register/register indirect)" + () + "mov.b $rm, @(r0,$rn)" + (+ (f-op4 0) rn rm (f-sub4 4)) + (set (mem UQI (add r0 rn)) (subword UQI rm 3))) + +(dshci movb4 "Store byte to memory (GBR-relative w/ displacement)" + () + "mov.b r0, @($imm8, gbr)" + (+ (f-op8 #xc0) imm8) + (sequence ((DI addr)) + (set addr (add gbr imm8)) + (set (mem UQI addr) (subword UQI r0 3)))) + +(dshci movb5 "Store byte to memory (register indirect w/ displacement)" + () + "mov.b r0, @($imm4, $rm)" + (+ (f-op8 #x80) rm imm4) + (sequence ((DI addr)) + (set addr (add rm imm4)) + (set (mem UQI addr) (subword UQI r0 3)))) + +(dshci movb6 "Load byte from memory (register indirect w/ zero displacement)" + () + "mov.b @$rm, $rn" + (+ (f-op4 6) rn rm (f-sub4 0)) + (set rn (ext SI (mem QI rm)))) + +(dshci movb7 "Load byte from memory (register indirect w/ post-increment)" + () + "mov.b @${rm}+, $rn" + (+ (f-op4 6) rn rm (f-sub4 4)) + (sequence ((QI data)) + (set data (mem QI rm)) + (if (eq (index-of rm) (index-of rn)) + (set rm (ext SI data)) + (set rm (add rm 1))) + (set rn (ext SI data)))) + +(dshci movb8 "Load byte from memory (register/register indirect)" + () + "mov.b @(r0, $rm), $rn" + (+ (f-op4 0) rn rm (f-sub4 12)) + (set rn (ext SI (mem QI (add r0 rm))))) + +(dshci movb9 "Load byte from memory (GBR-relative with displacement)" + () + "mov.b @($imm8, gbr), r0" + (+ (f-op8 #xc4) imm8) + (set r0 (ext SI (mem QI (add gbr imm8))))) + +(dshci movb10 "Load byte from memory (register indirect w/ displacement)" + () + "mov.b @($imm4, $rm), r0" + (+ (f-op8 #x84) rm imm4) + (set r0 (ext SI (mem QI (add rm imm4))))) + +(dshci movl1 "Store long word to memory (register indirect w/ zero displacement)" + () + "mov.l $rm, @$rn" + (+ (f-op4 2) rn rm (f-sub4 2)) + (set (mem SI rn) rm)) + +(dshci movl2 "Store long word to memory (register indirect w/ pre-decrement)" + () + "mov.l $rm, @-$rn" + (+ (f-op4 2) rn rm (f-sub4 6)) + (sequence ((SI addr)) + (set addr (sub rn 4)) + (set (mem SI addr) rm) + (set rn addr))) + +(dshci movl3 "Store long word to memory (register/register indirect)" + () + "mov.l $rm, @(r0, $rn)" + (+ (f-op4 0) rn rm (f-sub4 6)) + (set (mem SI (add r0 rn)) rm)) + +(dshci movl4 "Store long word to memory (GBR-relative w/ displacement)" + () + "mov.l r0, @($imm8x4, gbr)" + (+ (f-op8 #xc2) imm8x4) + (set (mem SI (add gbr imm8x4)) r0)) + +(dshci movl5 "Store long word to memory (register indirect w/ displacement)" + () + "mov.l $rm, @($imm4x4, $rn)" + (+ (f-op4 1) rn rm imm4x4) + (set (mem SI (add rn imm4x4)) rm)) + +(dshci movl6 "Load long word to memory (register indirect w/ zero displacement)" + () + "mov.l @$rm, $rn" + (+ (f-op4 6) rn rm (f-sub4 2)) + (set rn (mem SI rm))) + +(dshci movl7 "Load long word from memory (register indirect w/ post-increment)" + () + "mov.l @${rm}+, $rn" + (+ (f-op4 6) rn rm (f-sub4 6)) + (sequence () + (set rn (mem SI rm)) + (if (eq (index-of rm) (index-of rn)) + (set rm rn) + (set rm (add rm 4))))) + +(dshci movl8 "Load long word from memory (register/register indirect)" + () + "mov.l @(r0, $rm), $rn" + (+ (f-op4 0) rn rm (f-sub4 14)) + (set rn (mem SI (add r0 rm)))) + +(dshci movl9 "Load long word from memory (GBR-relative w/ displacement)" + () + "mov.l @($imm8x4, gbr), r0" + (+ (f-op8 #xc6) imm8x4) + (set r0 (mem SI (add gbr imm8x4)))) + +(dshci movl10 "Load long word from memory (PC-relative w/ displacement)" + (ILLSLOT) + "mov.l @($imm8x4, pc), $rn" + (+ (f-op4 13) rn imm8x4) + (set rn (mem SI (add imm8x4 (and (add pc 4) (inv 3)))))) + +(dshci movl11 "Load long word from memory (register indirect w/ displacement)" + () + "mov.l @($imm4x4, $rm), $rn" + (+ (f-op4 5) rn rm imm4x4) + (set rn (mem SI (add rm imm4x4)))) + +(dshci movw1 "Store word to memory (register indirect w/ zero displacement)" + () + "mov.w $rm, @$rn" + (+ (f-op4 2) rn rm (f-sub4 1)) + (set (mem HI rn) (subword HI rm 1))) + +(dshci movw2 "Store word to memory (register indirect w/ pre-decrement)" + () + "mov.w $rm, @-$rn" + (+ (f-op4 2) rn rm (f-sub4 5)) + (sequence ((DI addr)) + (set addr (sub rn 2)) + (set (mem HI addr) (subword HI rm 1)) + (set rn addr))) + +(dshci movw3 "Store word to memory (register/register indirect)" + () + "mov.w $rm, @(r0, $rn)" + (+ (f-op4 0) rn rm (f-sub4 5)) + (set (mem HI (add r0 rn)) (subword HI rm 1))) + +(dshci movw4 "Store word to memory (GBR-relative w/ displacement)" + () + "mov.w r0, @($imm8x2, gbr)" + (+ (f-op8 #xc1) imm8x2) + (set (mem HI (add gbr imm8x2)) (subword HI r0 1))) + +(dshci movw5 "Store word to memory (register indirect w/ displacement)" + () + "mov.w r0, @($imm4x2, $rn)" + (+ (f-op8 #x81) rn imm4x2) + (set (mem HI (add rn imm4x2)) (subword HI r0 1))) + +(dshci movw6 "Load word from memory (register indirect w/ zero displacement)" + () + "mov.w @$rm, $rn" + (+ (f-op4 6) rn rm (f-sub4 1)) + (set rn (ext SI (mem HI rm)))) + +(dshci movw7 "Load word from memory (register indirect w/ post-increment)" + () + "mov.w @${rm}+, $rn" + (+ (f-op4 6) rn rm (f-sub4 5)) + (sequence ((HI data)) + (set data (mem HI rm)) + (if (eq (index-of rm) (index-of rn)) + (set rm (ext SI data)) + (set rm (add rm 2))) + (set rn (ext SI data)))) + +(dshci movw8 "Load word from memory (register/register indirect)" + () + "mov.w @(r0, $rm), $rn" + (+ (f-op4 0) rn rm (f-sub4 13)) + (set rn (ext SI (mem HI (add r0 rm))))) + +(dshci movw9 "Load word from memory (GBR-relative w/ displacement)" + () + "mov.w @($imm8x2, gbr), r0" + (+ (f-op8 #xc5) imm8x2) + (set r0 (ext SI (mem HI (add gbr imm8x2))))) + +(dshci movw10 "Load word from memory (PC-relative w/ displacement)" + (ILLSLOT) + "mov.w @($imm8x2, pc), $rn" + (+ (f-op4 9) rn imm8x2) + (set rn (ext SI (mem HI (add (add pc 4) imm8x2))))) + +(dshci movw11 "Load word from memory (register indirect w/ displacement)" + () + "mov.w @($imm4x2, $rm), r0" + (+ (f-op8 #x85) rm imm4x2) + (set r0 (ext SI (mem HI (add rm imm4x2))))) + +(dshci mova "Move effective address" + (ILLSLOT) + "mova @($imm8x4, pc), r0" + (+ (f-op8 #xc7) imm8x4) + (set r0 (add (and (add pc 4) (inv 3)) imm8x4))) + +(dshci movcal "Move with cache block allocation" + () + "movca.l r0, @$rn" + (+ (f-op4 0) rn (f-sub8 #xc3)) + (set (mem SI rn) r0)) + +(dshci movt "Move t-bit" + () + "movt $rn" + (+ (f-op4 0) rn (f-sub8 41)) + (set rn (zext SI tbit))) + +(dshci mull "Multiply" + () + "mul.l $rm, $rn" + (+ (f-op4 0) rn rm (f-sub4 7)) + (set macl (mul rm rn))) + +(dshci mulsw "Multiply words (signed)" + () + "muls.w $rm, $rn" + (+ (f-op4 2) rn rm (f-sub4 15)) + (set macl (mul (ext SI (subword HI rm 1)) (ext SI (subword HI rn 1))))) + +(dshci muluw "Multiply words (unsigned)" + () + "mulu.w $rm, $rn" + (+ (f-op4 2) rn rm (f-sub4 14)) + (set macl (mul (zext SI (subword HI rm 1)) (zext SI (subword HI rn 1))))) + +(dshci neg "Negate" + () + "neg $rm, $rn" + (+ (f-op4 6) rn rm (f-sub4 11)) + (set rn (neg rm))) + +(dshci negc "Negate with carry" + () + "negc $rm, $rn" + (+ (f-op4 6) rn rm (f-sub4 10)) + (sequence ((BI flag)) + (set flag (sub-cflag 0 rm tbit)) + (set rn (subc 0 rm tbit)) + (set tbit flag))) + +(dshci nop "No operation" + () + "nop" + (+ (f-op16 9)) + (nop)) + +(dshci not "Bitwise NOT" + () + "not $rm64, $rn64" + (+ (f-op4 6) rn64 rm64 (f-sub4 7)) + (set rn64 (inv rm64))) + +(dshci ocbi "Invalidate operand cache block" + () + "ocbi @$rn" + (+ (f-op4 0) rn (f-sub8 147)) + (unimp "ocbi")) + +(dshci ocbp "Purge operand cache block" + () + "ocbp @$rn" + (+ (f-op4 0) rn (f-sub8 163)) + (unimp "ocbp")) + +(dshci ocbwb "Write back operand cache block" + () + "ocbwb @$rn" + (+ (f-op4 0) rn (f-sub8 179)) + (unimp "ocbwb")) + +(dshci or "Bitwise OR" + () + "or $rm64, $rn64" + (+ (f-op4 2) rn64 rm64 (f-sub4 11)) + (set rn64 (or rm64 rn64))) + +(dshci ori "Bitwise OR immediate" + () + "or #$uimm8, r0" + (+ (f-op8 #xcb) uimm8) + (set r0 (or r0 (zext DI uimm8)))) + +(dshci orb "Bitwise OR immediate" + () + "or.b #$imm8, @(r0, gbr)" + (+ (f-op8 #xcf) imm8) + (sequence ((DI addr) (UQI data)) + (set addr (add r0 gbr)) + (set data (or (mem UQI addr) imm8)) + (set (mem UQI addr) data))) + +(dshci pref "Prefetch data" + () + "pref @$rn" + (+ (f-op4 0) rn (f-sub8 131)) + (unimp "pref")) + +(dshci rotcl "Rotate with carry left" + () + "rotcl $rn" + (+ (f-op4 4) rn (f-sub8 36)) + (sequence ((BI temp)) + (set temp (srl rn 31)) + (set rn (or (sll rn 1) tbit)) + (set tbit (if BI temp 1 0)))) + +(dshci rotcr "Rotate with carry right" + () + "rotcr $rn" + (+ (f-op4 4) rn (f-sub8 37)) + (sequence ((BI lsbit) (SI temp)) + (set lsbit (if BI (eq (and rn 1) 0) 0 1)) + (set temp tbit) + (set rn (or (srl rn 1) (sll temp 31))) + (set tbit (if BI lsbit 1 0)))) + +(dshci rotl "Rotate left" + () + "rotl $rn" + (+ (f-op4 4) rn (f-sub8 4)) + (sequence ((BI temp)) + (set temp (srl rn 31)) + (set rn (or (sll rn 1) temp)) + (set tbit (if BI temp 1 0)))) + +(dshci rotr "Rotate right" + () + "rotr $rn" + (+ (f-op4 4) rn (f-sub8 5)) + (sequence ((BI lsbit) (SI temp)) + (set lsbit (if BI (eq (and rn 1) 0) 0 1)) + (set temp lsbit) + (set rn (or (srl rn 1) (sll temp 31))) + (set tbit (if BI lsbit 1 0)))) + +(dshci rts "Return from subroutine" + () + "rts" + (+ (f-op16 11)) + (delay 1 (set pc pr))) + +(dshci sets "Set S-bit" + () + "sets" + (+ (f-op16 88)) + (set sbit 1)) + +(dshci sett "Set T-bit" + () + "sett" + (+ (f-op16 24)) + (set tbit 1)) + +(dshci shad "Shift arithmetic dynamic" + () + "shad $rm, $rn" + (+ (f-op4 4) rn rm (f-sub4 12)) + (sequence ((QI shamt)) + (set shamt (and QI rm 31)) + (if (ge rm 0) + (set rn (sll rn shamt)) + (if (ne shamt 0) + (set rn (sra rn (sub 32 shamt))) + (if (lt rn 0) + (set rn (neg 1)) + (set rn 0)))))) + +(dshci shal "Shift left arithmetic one bit" + () + "shal $rn" + (+ (f-op4 4) rn (f-sub8 32)) + (sequence ((BI t)) + (set t (srl rn 31)) + (set rn (sll rn 1)) + (set tbit (if BI t 1 0)))) + +(dshci shar "Shift right arithmetic one bit" + () + "shar $rn" + (+ (f-op4 4) rn (f-sub8 33)) + (sequence ((BI t)) + (set t (and rn 1)) + (set rn (sra rn 1)) + (set tbit (if BI t 1 0)))) + +(dshci shld "Shift logical dynamic" + () + "shld $rm, $rn" + (+ (f-op4 4) rn rm (f-sub4 13)) + (sequence ((QI shamt)) + (set shamt (and QI rm 31)) + (if (ge rm 0) + (set rn (sll rn shamt)) + (if (ne shamt 0) + (set rn (srl rn (sub 32 shamt))) + (set rn 0))))) + +(dshci shll "Shift left logical one bit" + () + "shll $rn" + (+ (f-op4 4) rn (f-sub8 0)) + (sequence ((BI t)) + (set t (srl rn 31)) + (set rn (sll rn 1)) + (set tbit (if BI t 1 0)))) + +(dshci shll2 "Shift left logical two bits" + () + "shll2 $rn" + (+ (f-op4 4) rn (f-sub8 8)) + (set rn (sll rn 2))) + +(dshci shll8 "Shift left logical eight bits" + () + "shll8 $rn" + (+ (f-op4 4) rn (f-sub8 24)) + (set rn (sll rn 8))) + +(dshci shll16 "Shift left logical sixteen bits" + () + "shll16 $rn" + (+ (f-op4 4) rn (f-sub8 40)) + (set rn (sll rn 16))) + +(dshci shlr "Shift right logical one bit" + () + "shlr $rn" + (+ (f-op4 4) rn (f-sub8 1)) + (sequence ((BI t)) + (set t (and rn 1)) + (set rn (srl rn 1)) + (set tbit (if BI t 1 0)))) + +(dshci shlr2 "Shift right logical two bits" + () + "shlr2 $rn" + (+ (f-op4 4) rn (f-sub8 9)) + (set rn (srl rn 2))) + +(dshci shlr8 "Shift right logical eight bits" + () + "shlr8 $rn" + (+ (f-op4 4) rn (f-sub8 25)) + (set rn (srl rn 8))) + +(dshci shlr16 "Shift right logical sixteen bits" + () + "shlr16 $rn" + (+ (f-op4 4) rn (f-sub8 41)) + (set rn (srl rn 16))) + +(dshci stc-gbr "Store control register (GBR)" + () + "stc gbr, $rn" + (+ (f-op4 0) rn (f-sub8 18)) + (set rn gbr)) + +(dshci stcl-gbr "Store control register (GBR)" + () + "stc.l gbr, @-$rn" + (+ (f-op4 4) rn (f-sub8 19)) + (sequence ((DI addr)) + (set addr (sub rn 4)) + (set (mem SI addr) gbr) + (set rn addr))) + +(dshci sts-fpscr "Store status register (FPSCR)" + () + "sts fpscr, $rn" + (+ (f-op4 0) rn (f-sub8 106)) + (set rn fpscr)) + +(dshci stsl-fpscr "Store status register (FPSCR)" + () + "sts.l fpscr, @-$rn" + (+ (f-op4 4) rn (f-sub8 98)) + (sequence ((DI addr)) + (set addr (sub rn 4)) + (set (mem SI addr) fpscr) + (set rn addr))) + +(dshci sts-fpul "Store status register (FPUL)" + () + "sts fpul, $rn" + (+ (f-op4 0) rn (f-sub8 90)) + (set rn (subword SI fpul 0))) + +(dshci stsl-fpul "Store status register (FPUL)" + () + "sts.l fpul, @-$rn" + (+ (f-op4 4) rn (f-sub8 82)) + (sequence ((DI addr)) + (set addr (sub rn 4)) + (set (mem SF addr) fpul) + (set rn addr))) + +(dshci sts-mach "Store status register (MACH)" + () + "sts mach, $rn" + (+ (f-op4 0) rn (f-sub8 10)) + (set rn mach)) + +(dshci stsl-mach "Store status register (MACH)" + () + "sts.l mach, @-$rn" + (+ (f-op4 4) rn (f-sub8 2)) + (sequence ((DI addr)) + (set addr (sub rn 4)) + (set (mem SI addr) mach) + (set rn addr))) + +(dshci sts-macl "Store status register (MACL)" + () + "sts macl, $rn" + (+ (f-op4 0) rn (f-sub8 26)) + (set rn macl)) + +(dshci stsl-macl "Store status register (MACL)" + () + "sts.l macl, @-$rn" + (+ (f-op4 4) rn (f-sub8 18)) + (sequence ((DI addr)) + (set addr (sub rn 4)) + (set (mem SI addr) macl) + (set rn addr))) + +(dshci sts-pr "Store status register (PR)" + () + "sts pr, $rn" + (+ (f-op4 0) rn (f-sub8 42)) + (set rn pr)) + +(dshci stsl-pr "Store status register (PR)" + () + "sts.l pr, @-$rn" + (+ (f-op4 4) rn (f-sub8 34)) + (sequence ((DI addr)) + (set addr (sub rn 4)) + (set (mem SI addr) pr) + (set rn addr))) + +(dshci sub "Subtract" + () + "sub $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 8)) + (set rn (sub rn rm))) + +(dshci subc "Subtract and detect carry" + () + "subc $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 10)) + (sequence ((BI flag)) + (set flag (sub-cflag rn rm tbit)) + (set rn (subc rn rm tbit)) + (set tbit flag))) + +(dshci subv "Subtract and detect overflow" + () + "subv $rm, $rn" + (+ (f-op4 3) rn rm (f-sub4 11)) + (sequence ((BI t)) + (set t (sub-oflag rn rm 0)) + (set rn (sub rn rm)) + (set tbit (if BI t 1 0)))) + +(dshci swapb "Swap bytes" + () + "swap.b $rm, $rn" + (+ (f-op4 6) rn rm (f-sub4 8)) + (sequence ((UHI top-half) (UQI byte1) (UQI byte0)) + (set top-half (subword HI rm 0)) + (set byte1 (subword QI rm 2)) + (set byte0 (subword QI rm 3)) + (set rn (or SI (sll SI top-half 16) (or SI (sll SI byte0 8) byte1))))) + +(dshci swapw "Swap words" + () + "swap.w $rm, $rn" + (+ (f-op4 6) rn rm (f-sub4 9)) + (set rn (or (srl rm 16) (sll rm 16)))) + +(dshci tasb "Test and set byte" + () + "tas.b @$rn" + (+ (f-op4 4) rn (f-sub8 27)) + (sequence ((UQI byte)) + (set byte (mem UQI rn)) + (set tbit (if BI (eq byte 0) 1 0)) + (set byte (or byte 128)) + (set (mem UQI rn) byte))) + +(dshci trapa "Trap" + (ILLSLOT) + "trapa #$uimm8" + (+ (f-op8 #xc3) uimm8) + (c-call "sh64_compact_trapa" uimm8 pc)) + +(dshci tst "Test and set t-bit" + () + "tst $rm, $rn" + (+ (f-op4 2) rn rm (f-sub4 8)) + (set tbit (if BI (eq (and rm rn) 0) 1 0))) + +(dshci tsti "Test and set t-bit immediate" + () + "tst #$uimm8, r0" + (+ (f-op8 #xc8) uimm8) + (set tbit (if BI (eq (and r0 (zext SI uimm8)) 0) 1 0))) + +(dshci tstb "Test and set t-bit immedate with memory byte" + () + "tst.b #$imm8, @(r0, gbr)" + (+ (f-op8 #xcc) imm8) + (sequence ((DI addr)) + (set addr (add r0 gbr)) + (set tbit (if BI (eq (and (mem UQI addr) imm8) 0) 1 0)))) + +(dshci xor "Exclusive OR" + () + "xor $rm64, $rn64" + (+ (f-op4 2) rn64 rm64 (f-sub4 10)) + (set rn64 (xor rn64 rm64))) + +(dshci xori "Exclusive OR immediate" + () + "xor #$uimm8, r0" + (+ (f-op8 #xca) uimm8) + (set (reg h-gr 0) (xor (reg h-gr 0) (zext DI uimm8)))) + +(dshci xorb "Exclusive OR immediate with memory byte" + () + "xor.b #$imm8, @(r0, gbr)" + (+ (f-op8 #xce) imm8) + (sequence ((DI addr) (UQI data)) + (set addr (add r0 gbr)) + (set data (xor (mem UQI addr) imm8)) + (set (mem UQI addr) data))) + +(dshci xtrct "Extract" + () + "xtrct $rm, $rn" + (+ (f-op4 2) rn rm (f-sub4 13)) + (set rn (or (sll rm 16) (srl rn 16)))) diff --git a/cpu/sh64-media.cpu b/cpu/sh64-media.cpu new file mode 100644 index 00000000000..4e55e380ff1 --- /dev/null +++ b/cpu/sh64-media.cpu @@ -0,0 +1,1732 @@ +; Hitachi SHmedia instruction set description. -*- Scheme -*- +; +; Copyright 2000, 2001 Free Software Foundation, Inc. +; +; Contributed by Red Hat Inc; developed under contract from Hitachi +; Semiconductor (America) Inc. +; +; This file is part of the GNU Binutils. +; +; This program 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 2 of the License, or +; (at your option) any later version. +; +; This program 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 this program; if not, write to the Free Software +; Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. + + +; dshmf -- define-normal-sh-media-field + +(define-pmacro (dshmf xname xcomment ignored xstart xlength) + (dnf xname xcomment ((ISA media)) xstart xlength)) + +; dshmop -- define-normal-sh-media-operand + +(define-pmacro (dshmop xname xcomment ignored xhardware xfield) + (dnop xname xcomment ((ISA media)) xhardware xfield)) + +; dnshmi -- define-normal-sh-media-insn + +(define-pmacro (dshmi xname xcomment xattrs xsyntax xformat xsemantics) + (define-insn + (name xname) + (comment xcomment) + (.splice attrs (.unsplice xattrs) (ISA media)) + (syntax xsyntax) + (format xformat) + (semantics xsemantics))) + +; Saturation functions. +; Force a value `i' into words `n' bits wide. +; See Hitachi SH-5 CPU core, volume 2, p. 25 for details. + +; saturate -- signed saturatation function + +(define-pmacro (saturate mode n i) + (if mode (lt i (neg mode (sll mode 1 (sub n 1)))) + (neg (sll mode 1 (sub n 1))) + (if mode (lt i (sll mode 1 (sub n 1))) + i + (sub mode (sll mode 1 (sub n 1)) 1)))) + +; usaturate -- unsigned saturation function + +(define-pmacro (usaturate mode n i) + (if mode (lt i (const mode 0)) + (const mode 0) + (if mode (lt i (sll mode 1 n)) + i + (sub mode (sll mode 1 n) 1)))) + + +; Ifields. + +(dshmf f-op "Opcode" () 31 6) +(dshmf f-ext "Extension opcode" () 19 4) +(dshmf f-rsvd "Reserved" (RESERVED) 3 4) + +(dshmf f-left "Left register" () 25 6) +(dshmf f-right "Right register" () 15 6) +(dshmf f-dest "Destination register" () 9 6) + +(define-multi-ifield + (name f-left-right) + (comment "Left and right matched register pair") + (attrs (ISA media)) + (mode UINT) + (subfields f-left f-right) + (insert (sequence () + (set (ifield f-left) + (and (ifield f-left-right) 63)) + (set (ifield f-right) + (and (ifield f-left-right) 63)))) + (extract (set (ifield f-left-right) (ifield f-left))) +) + +(dshmf f-tra "Target register" () 6 3) +(dshmf f-trb "Target register" () 22 3) +(dshmf f-likely "Likely bit" () 9 1) +(dshmf f-25 "Three unused bits at bit 25" () 25 3) +(dshmf f-8-2 "Two unused bits at bit 8" () 8 2) + +(df f-imm6 "Immediate value (6 bits)" ((ISA media)) 15 6 INT #f #f) +(df f-imm10 "Immediate value (10 bits)" ((ISA media)) 19 10 INT #f #f) +(df f-imm16 "Immediate value (16 bits)" ((ISA media)) 25 16 INT #f #f) + +(dshmf f-uimm6 "Immediate value (6 bits)" () 15 6) +(dshmf f-uimm16 "Immediate value (16 bits)" () 25 16) + +; Various displacement fields. +; The 10 bit field, for example, has different scaling for displacements. + +(df f-disp6 "Displacement (6 bits)" ((ISA media)) 15 6 INT #f #f) + +(df f-disp6x32 "Displacement (6 bits)" ((ISA media)) 15 6 INT + ((value pc) (sra SI value 5)) + ((value pc) (sll SI value 5))) + +(df f-disp10 "Displacement (10 bits)" ((ISA media)) 19 10 INT #f #f) + +(df f-disp10x8 "Displacement (10 bits)" ((ISA media)) 19 10 INT + ((value pc) (sra SI value 3)) + ((value pc) (sll SI value 3))) + +(df f-disp10x4 "Displacement (10 bits)" ((ISA media)) 19 10 INT + ((value pc) (sra SI value 2)) + ((value pc) (sll SI value 2))) + +(df f-disp10x2 "Displacement (10 bits)" ((ISA media)) 19 10 INT + ((value pc) (sra SI value 1)) + ((value pc) (sll SI value 1))) + +(df f-disp16 "Displacement (16 bits)" ((ISA media) PCREL-ADDR) 25 16 INT + ((value pc) (sra DI value 2)) + ((value pc) (add DI (sll DI value 2) pc))) + + +; Operands. + +(dshmop rm "Left general purpose reg" () h-gr f-left) +(dshmop rn "Right general purpose reg" () h-gr f-right) +(dshmop rd "Destination general purpose reg" () h-gr f-dest) + +(dshmop frg "Left single precision register" () h-fr f-left) +(dshmop frh "Right single precision register" () h-fr f-right) +(dshmop frf "Destination single precision reg" () h-fr f-dest) +(dshmop frgh "Single precision register pair" () h-fr f-left-right) + +(dshmop fpf "Pair of single precision registers" () h-fp f-dest) + +(dshmop fvg "Left single precision vector" () h-fv f-left) +(dshmop fvh "Right single precision vector" () h-fv f-right) +(dshmop fvf "Destination single precision vector" () h-fv f-dest) +(dshmop mtrxg "Left single precision matrix" () h-fmtx f-left) + +(dshmop drg "Left double precision register" () h-dr f-left) +(dshmop drh "Right double precision register" () h-dr f-right) +(dshmop drf "Destination double precision reg" () h-dr f-dest) +(dshmop drgh "Double precision register pair" () h-dr f-left-right) + +(dshmop fpscr "Floating point status register" () h-fpscr f-nil) +(dshmop crj "Control register j" () h-cr f-dest) +(dshmop crk "Control register k" () h-cr f-left) + +(dshmop tra "Target register a" () h-tr f-tra) +(dshmop trb "Target register b" () h-tr f-trb) + +(dshmop disp6 "Displacement (6 bits)" () h-sint f-disp6) +(dshmop disp6x32 "Displacement (6 bits, scale 32)" () h-sint f-disp6x32) +(dshmop disp10 "Displacement (10 bits)" () h-sint f-disp10) +(dshmop disp10x2 "Displacement (10 bits, scale 2)" () h-sint f-disp10x2) +(dshmop disp10x4 "Displacement (10 bits, scale 4)" () h-sint f-disp10x4) +(dshmop disp10x8 "Displacement (10 bits, scale 8)" () h-sint f-disp10x8) +(dshmop disp16 "Displacement (16 bits)" () h-sint f-disp16) + +(dshmop imm6 "Immediate (6 bits)" () h-sint f-imm6) +(dshmop imm10 "Immediate (10 bits)" () h-sint f-imm10) +(dshmop imm16 "Immediate (16 bits)" () h-sint f-imm16) +(dshmop uimm6 "Immediate (6 bits)" () h-uint f-uimm6) +(dshmop uimm16 "Unsigned immediate (16 bits)" () h-uint f-uimm16) + +; FIXME: provide these parse/print functions in `sh-media.opc'. + +(define-operand (name likely) (comment "Likely branch?") (attrs (ISA media)) + (type h-uint) (index f-likely) (handlers (parse "likely") (print "likely"))) + + +; Instructions. + +(dshmi add "Add" + () + "add $rm, $rn, $rd" + (+ (f-op 0) rm (f-ext 9) rn rd (f-rsvd 0)) + (set rd (add rm rn))) + +(dshmi addl "Add long" + () + "add.l $rm, $rn, $rd" + (+ (f-op 0) rm (f-ext 8) rn rd (f-rsvd 0)) + (set rd (add (subword SI rm 1) (subword SI rn 1)))) + +(dshmi addi "Add immediate" + () + "addi $rm, $disp10, $rd" + (+ (f-op 52) rm disp10 rd (f-rsvd 0)) + (set rd (add rm (ext DI disp10)))) + +(dshmi addil "Add immediate long" + () + "addi.l $rm, $disp10, $rd" + (+ (f-op 53) rm disp10 rd (f-rsvd 0)) + (set rd (ext DI (add (ext SI disp10) (subword SI rm 1))))) + +(dshmi addzl "Add zero extended long" + () + "addz.l $rm, $rn, $rd" + (+ (f-op 0) rm (f-ext 12) rn rd (f-rsvd 0)) + (set rd (zext DI (add (subword SI rm 1) (subword SI rn 1))))) + +(dshmi alloco "Allocate operand cache block" + () + "alloco $rm, $disp6x32" + (+ (f-op 56) rm (f-ext 4) disp6x32 (f-dest 63) (f-rsvd 0)) + (unimp "alloco")) + +(dshmi and "AND" + () + "and $rm, $rn, $rd" + (+ (f-op 1) rm (f-ext 11) rn rd (f-rsvd 0)) + (set rd (and rm rn))) + +(dshmi andc "AND complement" + () + "andc $rm, $rn, $rd" + (+ (f-op 1) rm (f-ext 15) rn rd (f-rsvd 0)) + (set rd (and rm (inv rn)))) + +(dshmi andi "AND immediate" + () + "andi $rm, $disp10, $rd" + (+ (f-op 54) rm disp10 rd (f-rsvd 0)) + (set rd (and rm (ext DI disp10)))) + +(dshmi beq "Branch if equal" + () + "beq$likely $rm, $rn, $tra" + (+ (f-op 25) rm (f-ext 1) rn likely (f-8-2 0) tra (f-rsvd 0)) + (if (eq rm rn) + (set pc tra))) + +(dshmi beqi "Branch if equal immediate" + () + "beqi$likely $rm, $imm6, $tra" + (+ (f-op 57) rm (f-ext 1) imm6 likely (f-8-2 0) tra (f-rsvd 0)) + (if (eq rm (ext DI imm6)) + (set pc tra))) + +(dshmi bge "Branch if greater than or equal" + () + "bge$likely $rm, $rn, $tra" + (+ (f-op 25) rm (f-ext 3) rn likely (f-8-2 0) tra (f-rsvd 0)) + (if (ge rm rn) + (set pc tra))) + +(dshmi bgeu "Branch if greater than or equal (unsigned comparison)" + () + "bgeu$likely $rm, $rn, $tra" + (+ (f-op 25) rm (f-ext 11) rn likely (f-8-2 0) tra (f-rsvd 0)) + (if (geu rm rn) + (set pc tra))) + +(dshmi bgt "Branch greater than" + () + "bgt$likely $rm, $rn, $tra" + (+ (f-op 25) rm (f-ext 7) rn likely (f-8-2 0) tra (f-rsvd 0)) + (if (gt rm rn) + (set pc tra))) + +(dshmi bgtu "Branch greater than (unsigned comparison)" + () + "bgtu$likely $rm, $rn, $tra" + (+ (f-op 25) rm (f-ext 15) rn likely (f-8-2 0) tra (f-rsvd 0)) + (if (gtu rm rn) + (set pc tra))) + +(dshmi blink "Branch and link" + () + "blink $trb, $rd" + (+ (f-op 17) (f-25 0) trb (f-ext 1) (f-right 63) rd (f-rsvd 0)) + (sequence () + (set rd (or (add pc 4) 1)) + (set pc trb))) + +(dshmi bne "Branch if not equal" + () + "bne$likely $rm, $rn, $tra" + (+ (f-op 25) rm (f-ext 5) rn likely (f-8-2 0) tra (f-rsvd 0)) + (if (ne rm rn) + (set pc tra))) + +(dshmi bnei "Branch if not equal immediate" + () + "bnei$likely $rm, $imm6, $tra" + (+ (f-op 57) rm (f-ext 5) rn likely (f-8-2 0) tra (f-rsvd 0)) + (if (ne rm (ext DI imm6)) + (set pc tra))) + +(dshmi brk "Breakpoint instruction" + () + "brk" + (+ (f-op 27) (f-left 63) (f-ext 5) (f-right 63) (f-dest 63) (f-rsvd 0)) + (c-call "sh64_break" pc)) + +(define-pmacro (-byterev-step) + (sequence () + (set result (or (sll result 8) (and source 255))) + (set source (srl source 8))) +) + +(dshmi byterev "Byte reverse" + () + "byterev $rm, $rd" + (+ (f-op 0) rm (f-ext 15) (f-right 63) rd (f-rsvd 0)) + (sequence ((DI source) (DI result)) + (set source rm) + (set result 0) + (-byterev-step) + (-byterev-step) + (-byterev-step) + (-byterev-step) + (-byterev-step) + (-byterev-step) + (-byterev-step) + (-byterev-step) + (set rd result))) + +(dshmi cmpeq "Compare equal" + () + "cmpeq $rm, $rn, $rd" + (+ (f-op 0) rm (f-ext 1) rn rd (f-rsvd 0)) + (set rd (if DI (eq rm rn) 1 0))) + +(dshmi cmpgt "Compare greater than" + () + "cmpgt $rm, $rn, $rd" + (+ (f-op 0) rm (f-ext 3) rn rd (f-rsvd 0)) + (set rd (if DI (gt rm rn) 1 0))) + +(dshmi cmpgtu "Compare greater than (unsigned comparison)" + () + "cmpgtu $rm,$rn, $rd" + (+ (f-op 0) rm (f-ext 7) rn rd (f-rsvd 0)) + (set rd (if DI (gtu rm rn) 1 0))) + +(dshmi cmveq "Conditional move if equal to zero" + () + "cmveq $rm, $rn, $rd" + (+ (f-op 8) rm (f-ext 1) rn rd (f-rsvd 0)) + (if (eq rm 0) + (set rd rn))) + +(dshmi cmvne "Conditional move if not equal to zero" + () + "cmvne $rm, $rn, $rd" + (+ (f-op 8) rm (f-ext 5) rn rd (f-rsvd 0)) + (if (ne rm 0) + (set rd rn))) + +(dshmi fabsd "Floating point absolute (double)" + () + "fabs.d $drgh, $drf" + (+ (f-op 6) drgh (f-ext 1) drf (f-rsvd 0)) + (set drf (c-call DF "sh64_fabsd" drgh))) + +(dshmi fabss "Floating point absolute (single)" + () + "fabs.s $frgh, $frf" + (+ (f-op 6) frgh (f-ext 0) frf (f-rsvd 0)) + (set frf (c-call SF "sh64_fabss" frgh))) + +(dshmi faddd "Floating point add (double)" + () + "fadd.d $drg, $drh, $drf" + (+ (f-op 13) drg (f-ext 1) drh drf (f-rsvd 0)) + (set drf (c-call DF "sh64_faddd" drg drh))) + +(dshmi fadds "Floating point add (single)" + () + "fadd.s $frg, $frh, $frf" + (+ (f-op 13) frg (f-ext 0) frh frf (f-rsvd 0)) + (set frf (c-call SF "sh64_fadds" frg frh))) + +(dshmi fcmpeqd "Floating point compare if equal (double)" + () + "fcmpeq.d $drg, $drh, $rd" + (+ (f-op 12) drg (f-ext 9) drh rd (f-rsvd 0)) + (set rd (zext DI (c-call BI "sh64_fcmpeqd" drg drh)))) + +(dshmi fcmpeqs "Floating point compare if equal (single)" + () + "fcmpeq.s $frg, $frh, $rd" + (+ (f-op 12) frg (f-ext 8) frh rd (f-rsvd 0)) + (set rd (zext DI (c-call BI "sh64_fcmpeqs" frg frh)))) + +(dshmi fcmpged "Floating compare compare if greater than or equal (double)" + () + "fcmpge.d $drg, $drh, $rd" + (+ (f-op 12) drg (f-ext 15) drh rd (f-rsvd 0)) + (set rd (zext DI (c-call BI "sh64_fcmpged" drg drh)))) + +(dshmi fcmpges "Floating point compare if greater than or equal (single)" + () + "fcmpge.s $frg, $frh, $rd" + (+ (f-op 12) frg (f-ext 14) frh rd (f-rsvd 0)) + (set rd (zext DI (c-call BI "sh64_fcmpges" frg frh)))) + +(dshmi fcmpgtd "Floating point compare if greater than (double)" + () + "fcmpgt.d $drg, $drh, $rd" + (+ (f-op 12) drg (f-ext 13) drh rd (f-rsvd 0)) + (set rd (zext DI (c-call BI "sh64_fcmpgtd" drg drh)))) + +(dshmi fcmpgts "Floating point compare if greater than (single)" + () + "fcmpgt.s $frg, $frh, $rd" + (+ (f-op 12) frg (f-ext 12) frh rd (f-rsvd 0)) + (set rd (zext DI (c-call BI "sh64_fcmpgts" frg frh)))) + +(dshmi fcmpund "Floating point unordered comparison (double)" + () + "fcmpun.d $drg, $drh, $rd" + (+ (f-op 12) drg (f-ext 11) drh rd (f-rsvd 0)) + (set rd (zext DI (c-call BI "sh64_fcmpund" drg drh)))) + +(dshmi fcmpuns "Floating point unordered comparison (single)" + () + "fcmpun.s $frg, $frh, $rd" + (+ (f-op 12) frg (f-ext 10) frh rd (f-rsvd 0)) + (set rd (zext DI (c-call BI "sh64_fcmpuns" frg frh)))) + +(dshmi fcnvds "Floating point coversion (double to single)" + () + "fcnv.ds $drgh, $frf" + (+ (f-op 14) drgh (f-ext 7) frf (f-rsvd 0)) + (set frf (c-call SF "sh64_fcnvds" drgh))) + +(dshmi fcnvsd "Floating point conversion (single to double)" + () + "fcnv.sd $frgh, $drf" + (+ (f-op 14) frgh (f-ext 6) drf (f-rsvd 0)) + (set drf (c-call DF "sh64_fcnvsd" frgh))) + +(dshmi fdivd "Floating point divide (double)" + () + "fdiv.d $drg, $drh, $drf" + (+ (f-op 13) drg (f-ext 5) drh drf (f-rsvd 0)) + (set drf (c-call DF "sh64_fdivd" drg drh))) + +(dshmi fdivs "Floating point divide (single)" + () + "fdiv.s $frg, $frh, $frf" + (+ (f-op 13) frg (f-ext 4) frh frf (f-rsvd 0)) + (set frf (c-call SF "sh64_fdivs" frg frh))) + +(dshmi fgetscr "Floating point get from FPSCR" + () + "fgetscr $frf" + (+ (f-op 7) (f-left 63) (f-ext 2) (f-right 63) frf (f-rsvd 0)) + (unimp "fputscr")) + ; FIXME: this should work! + ; (set frf fpscr)) + +(dshmi fiprs "Floating point inner product (single)" + () + "fipr.s $fvg, $fvh, $frf" + (+ (f-op 5) fvg (f-ext 6) fvh frf (f-rsvd 0)) + (sequence ((UQI g) (UQI h) (SF temp)) + (set g (index-of fvg)) + (set h (index-of fvh)) + (set temp (c-call SF "sh64_fmuls" (reg h-fr g) (reg h-fr h))) + (set temp (c-call SF "sh64_fadds" temp + (c-call SF "sh64_fmuls" (reg h-fr (add g 1)) (reg h-fr (add h 1))))) + (set temp (c-call SF "sh64_fadds" temp + (c-call SF "sh64_fmuls" (reg h-fr (add g 2)) (reg h-fr (add h 2))))) + (set temp (c-call SF "sh64_fadds" temp + (c-call SF "sh64_fmuls" (reg h-fr (add g 3)) (reg h-fr (add h 3))))) + (set frf temp))) + +(dshmi fldd "Floating point load (double)" + () + "fld.d $rm, $disp10x8, $drf" + (+ (f-op 39) rm disp10x8 drf (f-rsvd 0)) + (set drf (mem DF (add rm disp10x8)))) + +(dshmi fldp "Floating point load (pair of singles)" + () + "fld.p $rm, $disp10x8, $fpf" + (+ (f-op 38) rm disp10x8 fpf (f-rsvd 0)) + (sequence ((QI f)) + (set f (index-of fpf)) + (set (reg h-fr f) (mem SF (add rm disp10x8))) + (set (reg h-fr (add f 1)) (mem SF (add rm (add disp10x8 4)))))) + +(dshmi flds "Floating point load (single)" + () + "fld.s $rm, $disp10x4, $frf" + (+ (f-op 37) rm disp10x4 frf (f-rsvd 0)) + (set frf (mem SF (add rm disp10x4)))) + +(dshmi fldxd "Floating point extended load (double)" + () + "fldx.d $rm, $rn, $drf" + (+ (f-op 7) rm (f-ext 9) rn frf (f-rsvd 0)) + (set drf (mem DF (add rm rn)))) + +(dshmi fldxp "Floating point extended load (pair of singles)" + () + "fldx.p $rm, $rn, $fpf" + (+ (f-op 7) rm (f-ext 13) rn fpf (f-rsvd 0)) + (sequence ((QI f)) + (set f (index-of fpf)) + (set (reg h-fr f) (mem SF (add rm rn))) + (set (reg h-fr (add f 1)) (mem SF (add rm (add rn 4)))))) + +(dshmi fldxs "Floating point extended load (single)" + () + "fldx.s $rm, $rn, $frf" + (+ (f-op 7) rm (f-ext 8) rn frf (f-rsvd 0)) + (set frf (mem SF (add rm rn)))) + +(dshmi floatld "Floating point conversion (long to double)" + () + "float.ld $frgh, $drf" + (+ (f-op 14) frgh (f-ext 14) drf (f-rsvd 0)) + (set drf (c-call DF "sh64_floatld" frgh))) + +(dshmi floatls "Floating point conversion (long to single)" + () + "float.ls $frgh, $frf" + (+ (f-op 14) frgh (f-ext 12) frf (f-rsvd 0)) + (set frf (c-call SF "sh64_floatls" frgh))) + +(dshmi floatqd "Floating point conversion (quad to double)" + () + "float.qd $drgh, $drf" + (+ (f-op 14) drgh (f-ext 13) drf (f-rsvd 0)) + (set drf (c-call DF "sh64_floatqd" drgh))) + +(dshmi floatqs "Floating point conversion (quad to single)" + () + "float.qs $drgh, $frf" + (+ (f-op 14) drgh (f-ext 15) frf (f-rsvd 0)) + (set frf (c-call SF "sh64_floatqs" drgh))) + +(dshmi fmacs "Floating point multiply and accumulate (single)" + () + "fmac.s $frg, $frh, $frf" + (+ (f-op 13) frg (f-ext 14) frh frf (f-rsvd 0)) + (set frf (c-call SF "sh64_fadds" frf (c-call SF "sh64_fmuls" frg frh)))) + +(dshmi fmovd "Floating point move double" + () + "fmov.d $drgh, $drf" + (+ (f-op 14) drgh (f-ext 1) drf (f-rsvd 0)) + (set drf drgh)) + +(dshmi fmovdq "Floating point move (double to quad integer)" + () + "fmov.dq $drgh, $rd" + (+ (f-op 12) drgh (f-ext 1) rd (f-rsvd 0)) + (set rd (subword DI drgh 0))) + +(dshmi fmovls "Floating point move (lower to single)" + () + "fmov.ls $rm, $frf" + (+ (f-op 7) rm (f-ext 0) (f-right 63) frf (f-rsvd 0)) + (set frf (subword SF (subword SI rm 1) 0))) + +(dshmi fmovqd "Floating point move (quad to double)" + () + "fmov.qd $rm, $drf" + (+ (f-op 7) rm (f-ext 1) (f-right 63) frf (f-rsvd 0)) + (set drf (subword DF rm 0))) + +(dshmi fmovs "Floating point move (single)" + () + "fmov.s $frgh, $frf" + (+ (f-op 14) frgh (f-ext 0) frf (f-rsvd 0)) + (set frf frgh)) + +(dshmi fmovsl "Floating point move (single to lower)" + () + "fmov.sl $frgh, $rd" + (+ (f-op 12) frgh (f-ext 0) rd (f-rsvd 0)) + (set rd (ext DI (subword SI frgh 1)))) + +(dshmi fmuld "Floating point multiply (double)" + () + "fmul.d $drg, $drh, $drf" + (+ (f-op 13) drg (f-ext 7) drh drf (f-rsvd 0)) + (set drf (c-call DF "sh64_fmuld" drg drh))) + +(dshmi fmuls "Floating point multiply (single)" + () + "fmul.s $frg, $frh, $frf" + (+ (f-op 13) frg (f-ext 6) frh frf (f-rsvd 0)) + (set frf (c-call SF "sh64_fmuls" frg frh))) + +(dshmi fnegd "Floating point negate (double)" + () + "fneg.d $drgh, $drf" + (+ (f-op 6) drgh (f-ext 3) drf (f-rsvd 0)) + (set drf (c-call DF "sh64_fnegd" drgh))) + +(dshmi fnegs "Floating point negate (single)" + () + "fneg.s $frgh, $frf" + (+ (f-op 6) frgh (f-ext 2) frf (f-rsvd 0)) + (set frf (c-call SF "sh64_fnegs" frgh))) + +(dshmi fputscr "Floating point put to FPSCR" + () + "fputscr $frgh" + (+ (f-op 12) frgh (f-ext 2) (f-dest 63) (f-rsvd 0)) + (unimp "fputscr")) + ; FIXME: this should work! + ; (set fpscr (subword SI frgh 0))) + +(dshmi fsqrtd "Floating point square root (double)" + () + "fsqrt.d $drgh, $drf" + (+ (f-op 14) drgh (f-ext 5) drf (f-rsvd 0)) + (set drf (c-call DF "sh64_fsqrtd" drgh))) + +(dshmi fsqrts "Floating point squart root (single)" + () + "fsqrt.s $frgh, $frf" + (+ (f-op 14) frgh (f-ext 4) frf (f-rsvd 0)) + (set frf (c-call SF "sh64_fsqrts" frgh))) + +(dshmi fstd "Floating point store (double)" + () + "fst.d $rm, $disp10x8, $drf" + (+ (f-op 47) rm disp10x8 drf (f-rsvd 0)) + (set (mem DF (add rm disp10x8)) drf)) + +(dshmi fstp "Floating point store (pair of singles)" + () + "fst.p $rm, $disp10x8, $fpf" + (+ (f-op 46) rm disp10x8 fpf (f-rsvd 0)) + (sequence ((QI f)) + (set f (index-of fpf)) + (set (mem SF (add rm disp10x8)) (reg h-fr f)) + (set (mem SF (add rm (add disp10x8 4))) (reg h-fr (add f 1))))) + +(dshmi fsts "Floating point store (single)" + () + "fst.s $rm, $disp10x4, $frf" + (+ (f-op 45) rm disp10x4 frf (f-rsvd 0)) + (set (mem SF (add rm disp10x4)) frf)) + +(dshmi fstxd "Floating point extended store (double)" + () + "fstx.d $rm, $rn, $drf" + (+ (f-op 15) rm (f-ext 9) rn drf (f-rsvd 0)) + (set (mem DF (add rm rn)) drf)) + +(dshmi fstxp "Floating point extended store (pair of singles)" + () + "fstx.p $rm, $rn, $fpf" + (+ (f-op 15) rm (f-ext 13) rn fpf (f-rsvd 0)) + (sequence ((QI f)) + (set f (index-of fpf)) + (set (mem SF (add rm rn)) (reg h-fr f)) + (set (mem SF (add rm (add rn 4))) (reg h-fr (add f 1))))) + +(dshmi fstxs "Floating point extended store (single)" + () + "fstx.s $rm, $rn, $frf" + (+ (f-op 15) rm (f-ext 8) rn frf (f-rsvd 0)) + (set (mem SF (add rm rn)) frf)) + +(dshmi fsubd "Floating point subtract (double)" + () + "fsub.d $drg, $drh, $drf" + (+ (f-op 13) frg (f-ext 3) frh frf (f-rsvd 0)) + (set drf (c-call DF "sh64_fsubd" drg drh))) + +(dshmi fsubs "Floating point subtract (single)" + () + "fsub.s $frg, $frh, $frf" + (+ (f-op 13) frg (f-ext 2) frh frf (f-rsvd 0)) + (set frf (c-call SF "sh64_fsubs" frg frh))) + +(dshmi ftrcdl "Floating point conversion (double to long)" + () + "ftrc.dl $drgh, $frf" + (+ (f-op 14) drgh (f-ext 11) frf (f-rsvd 0)) + (set frf (c-call SF "sh64_ftrcdl" drgh))) + +(dshmi ftrcsl "Floating point conversion (single to long)" + () + "ftrc.sl $frgh, $frf" + (+ (f-op 14) frgh (f-ext 8) frf (f-rsvd 0)) + (set frf (c-call SF "sh64_ftrcsl" frgh))) + +(dshmi ftrcdq "Floating point conversion (double to quad)" + () + "ftrc.dq $drgh, $drf" + (+ (f-op 14) drgh (f-ext 9) frf (f-rsvd 0)) + (set drf (c-call DF "sh64_ftrcdq" drgh))) + +(dshmi ftrcsq "Floating point conversion (single to quad)" + () + "ftrc.sq $frgh, $drf" + (+ (f-op 14) frgh (f-ext 10) drf (f-rsvd 0)) + (set drf (c-call DF "sh64_ftrcsq" frgh))) + +(dshmi ftrvs "Floating point matrix multiply" + () + "ftrv.s $mtrxg, $fvh, $fvf" + (+ (f-op 5) mtrxg (f-ext 14) fvh fvf (f-rsvd 0)) + (c-call "sh64_ftrvs" (index-of mtrxg) (index-of fvh) (index-of fvf))) + +(dshmi getcfg "Get configuration register" + () + "getcfg $rm, $disp6, $rd" + (+ (f-op 48) rm (f-ext 15) disp6 rd (f-rsvd 0)) + (unimp "getcfg")) + +(dshmi getcon "Get control register" + () + "getcon $crk, $rd" + (+ (f-op 9) crk (f-ext 15) (f-right 63) rd (f-rsvd 0)) + (set rd crk)) + +(dshmi gettr "Get target register" + () + "gettr $trb, $rd" + (+ (f-op 17) (f-25 0) trb (f-ext 5) (f-right 63) rd (f-rsvd 0)) + (set rd trb)) + +(dshmi icbi "Invalidate instruction cache block" + () + "icbi $rm, $disp6x32" + (+ (f-op 56) rm (f-ext 5) disp6x32 (f-dest 63) (f-rsvd 0)) + (unimp "icbi")) + +(dshmi ldb "Load byte" + () + "ld.b $rm, $disp10, $rd" + (+ (f-op 32) rm disp10 rd (f-rsvd 0)) + (set rd (ext DI (mem QI (add rm (ext DI disp10)))))) + +(dshmi ldl "Load long word" + () + "ld.l $rm, $disp10x4, $rd" + (+ (f-op 34) rm disp10x4 rd (f-rsvd 0)) + (set rd (ext DI (mem SI (add rm (ext DI disp10x4)))))) + +(dshmi ldq "Load quad word" + () + "ld.q $rm, $disp10x8, $rd" + (+ (f-op 35) rm disp10x8 rd (f-rsvd 0)) + (set rd (mem DI (add rm (ext DI disp10x8))))) + +(dshmi ldub "Load unsigned byte" + () + "ld.ub $rm, $disp10, $rd" + (+ (f-op 36) rm disp10 rd (f-rsvd 0)) + (set rd (zext DI (mem QI (add rm (ext DI disp10)))))) + +(dshmi lduw "Load unsigned word" + () + "ld.uw $rm, $disp10x2, $rd" + (+ (f-op 44) rm disp10 rd (f-rsvd 0)) + (set rd (zext DI (mem HI (add rm (ext DI disp10x2)))))) + +(dshmi ldw "Load word" + () + "ld.w $rm, $disp10x2, $rd" + (+ (f-op 33) rm disp10 rd (f-rsvd 0)) + (set rd (ext DI (mem HI (add rm (ext DI disp10x2)))))) + +(dshmi ldhil "Load high part (long word)" + () + "ldhi.l $rm, $disp6, $rd" + (+ (f-op 48) rm (f-ext 6) disp6 rd (f-rsvd 0)) + ; FIXME. + (unimp "ldhil")) + +(dshmi ldhiq "Load high part (quad word)" + () + "ldhi.q $rm, $disp6, $rd" + (+ (f-op 48) rm (f-ext 7) disp6 rd (f-rsvd 0)) + ; FIXME. + (unimp "ldhiq")) + +(dshmi ldlol "Load low part (long word)" + () + "ldlo.l $rm, $disp6, $rd" + (+ (f-op 48) rm (f-ext 2) disp6 rd (f-rsvd 0)) + ; FIXME. + (unimp "ldlol")) + +(dshmi ldloq "Load low part (quad word)" + () + "ldlo.q $rm, $disp6, $rd" + (+ (f-op 48) rm (f-ext 3) disp6 rd (f-rsvd 0)) + ; FIXME; + (unimp "ldloq")) + +(dshmi ldxb "Load byte (extended displacement)" + () + "ldx.b $rm, $rn, $rd" + (+ (f-op 16) rm (f-ext 0) rn rd (f-rsvd 0)) + (set rd (ext DI (mem QI (add rm rn))))) + +(dshmi ldxl "Load long word (extended displacement)" + () + "ldx.l $rm, $rn, $rd" + (+ (f-op 16) rm (f-ext 2) rn rd (f-rsvd 0)) + (set rd (ext DI (mem SI (add rm rn))))) + +(dshmi ldxq "Load quad word (extended displacement)" + () + "ldx.q $rm, $rn, $rd" + (+ (f-op 16) rm (f-ext 3) rn rd (f-rsvd 0)) + (set rd (mem DI (add rm rn)))) + +(dshmi ldxub "Load unsigned byte (extended displacement)" + () + "ldx.ub $rm, $rn, $rd" + (+ (f-op 16) rm (f-ext 4) rn rd (f-rsvd 0)) + (set rd (zext DI (mem UQI (add rm rn))))) + +(dshmi ldxuw "Load unsigned word (extended displacement)" + () + "ldx.uw $rm, $rn, $rd" + (+ (f-op 16) rm (f-ext 5) rn rd (f-rsvd 0)) + (set rd (zext DI (mem UHI (add rm rn))))) + +(dshmi ldxw "Load word (extended displacement)" + () + "ldx.w $rm, $rn, $rd" + (+ (f-op 16) rm (f-ext 1) rn rd (f-rsvd 0)) + (set rd (ext DI (mem HI (add rm rn))))) + + +; Macros to facilitate multimedia instructions. + +(define-pmacro (slice-byte expr) + (sequence ((QI result7) (QI result6) (QI result5) (QI result4) + (QI result3) (QI result2) (QI result1) (QI result0)) + (set result0 (expr (subword QI rm 7) (subword QI rn 7))) + (set result1 (expr (subword QI rm 6) (subword QI rn 6))) + (set result2 (expr (subword QI rm 5) (subword QI rn 5))) + (set result3 (expr (subword QI rm 4) (subword QI rn 4))) + (set result4 (expr (subword QI rm 3) (subword QI rn 3))) + (set result5 (expr (subword QI rm 2) (subword QI rn 2))) + (set result6 (expr (subword QI rm 1) (subword QI rn 1))) + (set result7 (expr (subword QI rm 0) (subword QI rn 0))) + (set rd (-join-qi result7 result6 result5 result4 result3 result2 + result1 result0)))) + +(define-pmacro (slice-word expr) + (sequence ((HI result3) (HI result2) (HI result1) (HI result0)) + (set result0 (expr (subword HI rm 3) (subword HI rn 3))) + (set result1 (expr (subword HI rm 2) (subword HI rn 2))) + (set result2 (expr (subword HI rm 1) (subword HI rn 1))) + (set result3 (expr (subword HI rm 0) (subword HI rn 0))) + (set rd (-join-hi result3 result2 result1 result0)))) + +(define-pmacro (slice-word-unop expr) + (sequence ((HI result3) (HI result2) (HI result1) (HI result0)) + (set result0 (expr (subword HI rm 3))) + (set result1 (expr (subword HI rm 2))) + (set result2 (expr (subword HI rm 1))) + (set result3 (expr (subword HI rm 0))) + (set rd (-join-hi result3 result2 result1 result0)))) + +(define-pmacro (slice-long expr) + (sequence ((SI result1) (SI result0)) + (set result0 (expr (subword SI rm 1) (subword SI rn 1))) + (set result1 (expr (subword SI rm 0) (subword SI rn 0))) + (set rd (-join-si result1 result0)))) + +(define-pmacro (slice-long-unop expr) + (sequence ((SI result1) (SI result0)) + (set result0 (expr (subword SI rm 1))) + (set result1 (expr (subword SI rm 0))) + (set rd (-join-si result1 result0)))) + +; Multimedia instructions. + +(dshmi mabsl "Multimedia absolute value (long word)" + () + "mabs.l $rm, $rd" + (+ (f-op 10) rm (f-ext 10) (f-right 63) rd (f-rsvd 0)) + (slice-long-unop abs)) + +(dshmi mabsw "Multimedia absolute value (word)" + () + "mabs.w $rm, $rd" + (+ (f-op 10) rm (f-ext 9) (f-right 63) rd (f-rsvd 0)) + (slice-word-unop abs)) + +(dshmi maddl "Multimedia add (long word)" + () + "madd.l $rm, $rn, $rd" + (+ (f-op 2) rm (f-ext 2) rn rd (f-rsvd 0)) + (slice-long add)) + +(dshmi maddw "Multimedia add (word)" + () + "madd.w $rm, $rn, $rd" + (+ (f-op 2) rm (f-ext 1) rn rd (f-rsvd 0)) + (slice-word add)) + +(define-pmacro (-maddsl arg1 arg2) (saturate SI 32 (add arg1 arg2))) +(dshmi maddsl "Multimedia add (saturating, long word)" + () + "madds.l $rm, $rn, $rd" + (+ (f-op 2) rm (f-ext 6) rn rd (f-rsvd 0)) + (slice-long -maddsl)) + +(define-pmacro (-maddsub arg1 arg2) (usaturate QI 8 (add arg1 arg2))) +(dshmi maddsub "Multimedia add (saturating, unsigned byte)" + () + "madds.ub $rm, $rn, $rd" + (+ (f-op 2) rm (f-ext 4) rn rd (f-rsvd 0)) + (slice-byte -maddsub)) + +(define-pmacro (-maddsw arg1 arg2) (saturate HI 16 (add arg1 arg2))) +(dshmi maddsw "Multimedia add (saturating, word)" + () + "madds.w $rm, $rn, $rd" + (+ (f-op 2) rm (f-ext 5) rn rd (f-rsvd 0)) + (slice-word -maddsw)) + +(define-pmacro (-mcmpeq mode arg1 arg2) + (if mode (eq arg1 arg2) (inv mode 0) (const mode 0))) + +(define-pmacro (-mcmpeqb arg1 arg2) (-mcmpeq QI arg1 arg2)) +(dshmi mcmpeqb "Multimedia compare equal (byte)" + () + "mcmpeq.b $rm, $rn, $rd" + (+ (f-op 10) rm (f-ext 0) rn rd (f-rsvd 0)) + (slice-byte -mcmpeqb)) + +(define-pmacro (-mcmpeql arg1 arg2) (-mcmpeq SI arg1 arg2)) +(dshmi mcmpeql "Multimedia compare equal (long word)" + () + "mcmpeq.l $rm, $rn, $rd" + (+ (f-op 10) rm (f-ext 2) rn rd (f-rsvd 0)) + (slice-long -mcmpeql)) + +(define-pmacro (-mcmpeqw arg1 arg2) (-mcmpeq HI arg1 arg2)) +(dshmi mcmpeqw "Multimedia compare equal (word)" + () + "mcmpeq.w $rm, $rn, $rd" + (+ (f-op 10) rm (f-ext 1) rn rd (f-rsvd 0)) + (slice-word -mcmpeqw)) + +(define-pmacro (-mcmpgt mode arg1 arg2) + (if mode (gt arg1 arg2) (inv mode 0) (const mode 0))) +(define-pmacro (-mcmpgtu mode arg1 arg2) + (if mode (gtu arg1 arg2) (inv mode 0) (const mode 0))) + +(define-pmacro (-mcmpgtl arg1 arg2) (-mcmpgt SI arg1 arg2)) +(dshmi mcmpgtl "Multimedia compare greater than (long word)" + () + "mcmpgt.l $rm, $rn, $rd" + (+ (f-op 10) rm (f-ext 6) rn rd (f-rsvd 0)) + (slice-long -mcmpgtl)) + +(define-pmacro (-mcmpgtub arg1 arg2) (-mcmpgtu QI arg1 arg2)) +(dshmi mcmpgtub "Multimediate compare unsigned greater than (byte)" + () + "mcmpgt.ub $rm, $rn, $rd" + (+ (f-op 10) rm (f-ext 4) rn rd (f-rsvd 0)) + (slice-byte -mcmpgtub)) + +(define-pmacro (-mcmpgtw arg1 arg2) (-mcmpgt HI arg1 arg2)) +(dshmi mcmpgtw "Multimedia compare greater than (word)" + () + "mcmpgt.w $rm, $rn, $rd" + (+ (f-op 10) rm (f-ext 5) rn rd (f-rsvd 0)) + (slice-word -mcmpgtw)) + +(dshmi mcmv "Multimedia conditional move" + () + "mcmv $rm, $rn, $rd" + (+ (f-op 18) rm (f-ext 3) rn rd (f-rsvd 0)) + (set rd (or (and rm rn) (and rd (inv rn))))) + +(dshmi mcnvslw "Multimedia convert/saturate (long to word)" + () + "mcnvs.lw $rm, $rn, $rd" + (+ (f-op 19) rm (f-ext 13) rn rd (f-rsvd 0)) + (sequence ((HI result3) (HI result2) (HI result1) (HI result0)) + (set result0 (saturate HI 16 (subword SI rm 0))) + (set result1 (saturate HI 16 (subword SI rm 1))) + (set result2 (saturate HI 16 (subword SI rn 0))) + (set result3 (saturate HI 16 (subword SI rn 1))) + (set rd (-join-hi result3 result2 result1 result0)))) + +(dshmi mcnvswb "Multimedia convert/saturate (word to byte)" + () + "mcnvs.wb $rm, $rn, $rd" + (+ (f-op 19) rm (f-ext 8) rn rd (f-rsvd 0)) + (sequence ((QI result7) (QI result6) (QI result5) (QI result4) + (QI result3) (QI result2) (QI result1) (QI result0)) + (set result0 (saturate QI 8 (subword HI rm 0))) + (set result1 (saturate QI 8 (subword HI rm 1))) + (set result2 (saturate QI 8 (subword HI rm 2))) + (set result3 (saturate QI 8 (subword HI rm 3))) + (set result4 (saturate QI 8 (subword HI rn 0))) + (set result5 (saturate QI 8 (subword HI rn 1))) + (set result6 (saturate QI 8 (subword HI rn 2))) + (set result7 (saturate QI 8 (subword HI rn 3))) + (set rd (-join-qi result7 result6 result5 result4 + result3 result2 result1 result0)))) + +(dshmi mcnvswub "Multimedia convert/saturate (word to unsigned byte)" + () + "mcnvs.wub $rm, $rn, $rd" + (+ (f-op 19) rm (f-ext 12) rn rd (f-rsvd 0)) + (sequence ((QI result7) (QI result6) (QI result5) (QI result4) + (QI result3) (QI result2) (QI result1) (QI result0)) + (set result0 (usaturate QI 8 (subword HI rm 0))) + (set result1 (usaturate QI 8 (subword HI rm 1))) + (set result2 (usaturate QI 8 (subword HI rm 2))) + (set result3 (usaturate QI 8 (subword HI rm 3))) + (set result4 (usaturate QI 8 (subword HI rn 0))) + (set result5 (usaturate QI 8 (subword HI rn 1))) + (set result6 (usaturate QI 8 (subword HI rn 2))) + (set result7 (usaturate QI 8 (subword HI rn 3))) + (set rd (-join-qi result7 result6 result5 result4 result3 + result2 result1 result0)))) + +; mexter -- generate an mexterN instruction, where: +; op = primary opcode +; extop = extended opcode + +(define-pmacro (make-mextr n op extop) + (dshmi (.sym mextr n) + (.str "Multimedia extract 64-bit slice (from byte " n ")") + () + (.str "mextr" n " $rm, $rn, $rd") + (+ (f-op op) rm (f-ext extop) rn rd (f-rsvd 0)) + (sequence ((QI count) (DI mask) (DI rhs)) + (set count (mul QI 8 (sub QI 8 n))) + (set mask (sll DI (inv 0) count)) + (set rhs (srl (and rm mask) count)) + (set count (mul QI 8 n)) + (set mask (srl DI (inv 0) count)) + (set rd (or DI rhs (sll DI (and rn mask) count)))))) + +(make-mextr 1 10 7) +(make-mextr 2 10 11) +(make-mextr 3 10 15) +(make-mextr 4 11 3) +(make-mextr 5 11 7) +(make-mextr 6 11 11) +(make-mextr 7 11 15) + +(dshmi mmacfxwl "Multimedia fractional multiply (word to long)" + () + "mmacfx.wl $rm, $rn, $rd" + (+ (f-op 18) rm (f-ext 1) rn rd (f-rsvd 0)) + (sequence ((SI temp) (SI result1) (SI result0)) + (set result0 (subword SI rd 0)) + (set result1 (subword SI rd 1)) + (set temp (mul (zext SI (subword HI rm 0)) (zext SI (subword HI rn 0)))) + (set temp (saturate SI 32 (sll temp 1))) + (set result0 (saturate SI 32 (add result0 temp))) + (set temp (mul (zext SI (subword HI rm 1)) (zext SI (subword HI rn 1)))) + (set temp (saturate SI 32 (sll temp 1))) + (set result1 (saturate SI 32 (add result1 temp))) + (set rd (-join-si result1 result0)))) + +(dshmi mmacnfx.wl "Multimedia fractional multiple (word to long)" + () + "mmacnfx.wl $rm, $rn, $rd" + (+ (f-op 18) rn (f-ext 5) rn rd (f-rsvd 0)) + (sequence ((SI temp) (SI result1) (SI result0)) + (set result0 (subword SI rd 0)) + (set result1 (subword SI rd 1)) + (set temp (mul (zext SI (subword HI rm 0)) (zext SI (subword HI rn 0)))) + (set temp (saturate SI 32 (sll temp 1))) + (set result0 (saturate SI 32 (sub result0 temp))) + (set temp (mul (zext SI (subword HI rm 1)) (zext SI (subword HI rn 1)))) + (set temp (saturate SI 32 (sll temp 1))) + (set result1 (saturate SI 32 (sub result1 temp))) + (set rd (-join-si result1 result0)))) + +(dshmi mmull "Multimedia multiply (long word)" + () + "mmul.l $rm, $rn, $rd" + (+ (f-op 19) rm (f-ext 2) rn rd (f-rsvd 0)) + (slice-long mul)) + +(dshmi mmulw "Multimedia multiply (word)" + () + "mmul.w $rm, $rn, $rd" + (+ (f-op 19) rm (f-ext 1) rn rd (f-rsvd 0)) + (slice-word mul)) + +(dshmi mmulfxl "Multimedia fractional multiply (long word)" + () + "mmulfx.l $rm, $rn, $rd" + (+ (f-op 19) rm (f-ext 6) rn rd (f-rsvd 0)) + (sequence ((DI temp) (SI result0) (SI result1)) + (set temp (mul (zext DI (subword SI rm 0)) (zext DI (subword SI rn 0)))) + (set result0 (saturate SI 32 (sra temp 31))) + (set temp (mul (zext DI (subword SI rm 1)) (zext DI (subword SI rn 1)))) + (set result1 (saturate SI 32 (sra temp 31))) + (set rd (-join-si result1 result0)))) + +(dshmi mmulfxw "Multimedia fractional multiply (word)" + () + "mmulfx.w $rm, $rn, $rd" + (+ (f-op 19) rm (f-ext 5) rn rd (f-rsvd 0)) + (sequence ((SI temp) (HI result0) (HI result1) (HI result2) (HI result3)) + (set temp (mul (zext SI (subword HI rm 0)) (zext SI (subword HI rn 0)))) + (set result0 (saturate HI 16 (sra temp 15))) + (set temp (mul (zext SI (subword HI rm 1)) (zext SI (subword HI rn 1)))) + (set result1 (saturate HI 16 (sra temp 15))) + (set temp (mul (zext SI (subword HI rm 2)) (zext SI (subword HI rn 2)))) + (set result2 (saturate HI 16 (sra temp 15))) + (set temp (mul (zext SI (subword HI rm 3)) (zext SI (subword HI rn 3)))) + (set result3 (saturate HI 16 (sra temp 15))) + (set rd (-join-hi result3 result2 result1 result0)))) + +(dshmi mmulfxrpw "Multimedia fractional multiply round positive (word op)" + () + "mmulfxrp.w $rm, $rn, $rd" + (+ (f-op 19) rm (f-ext 9) rn rd (f-rsvd 0)) + (sequence ((SI temp) (HI result0) (HI result1) (HI result2) (HI result3) (HI c)) + (set c (sll 1 14)) + (set temp (mul (zext SI (subword HI rm 0)) (zext SI (subword HI rn 0)))) + (set result0 (saturate HI 16 (sra (add temp c) 15))) + (set temp (mul (zext SI (subword HI rm 1)) (zext SI (subword HI rn 1)))) + (set result1 (saturate HI 16 (sra (add temp c) 15))) + (set temp (mul (zext SI (subword HI rm 2)) (zext SI (subword HI rn 2)))) + (set result2 (saturate HI 16 (sra (add temp c) 15))) + (set temp (mul (zext SI (subword HI rm 3)) (zext SI (subword HI rn 3)))) + (set result3 (saturate HI 16 (sra (add temp c) 15))) + (set rd (-join-hi result3 result2 result1 result0)))) + +(dshmi mmulhiwl "Multimedia multiply higher halves (word to long)" + () + "mmulhi.wl $rm, $rn, $rd" + (+ (f-op 19) rm (f-ext 14) rn rd (f-rsvd 0)) + (sequence ((SI result1) (SI result0)) + (set result0 (mul (zext SI (subword HI rm 2)) (zext SI (subword HI rn 2)))) + (set result1 (mul (zext SI (subword HI rm 3)) (zext SI (subword HI rn 3)))) + (set rd (-join-si result1 result0)))) + +(dshmi mmullowl "Multimedia multiply lower halves (word to long)" + () + "mmullo.wl $rm, $rn, $rd" + (+ (f-op 19) rm (f-ext 10) rn rd (f-rsvd 0)) + (sequence ((SI result1) (SI result0)) + (set result0 (mul (zext SI (subword HI rm 0)) (zext SI (subword HI rn 0)))) + (set result1 (mul (zext SI (subword HI rm 1)) (zext SI (subword HI rn 1)))) + (set rd (-join-si result1 result0)))) + +(dshmi mmulsumwq "Multimedia multiply and accumulate (word to quad)" + () + "mmulsum.wq $rm, $rn, $rd" + (+ (f-op 18) rm (f-ext 9) rn rd (f-rsvd 0)) + (sequence ((DI acc)) + (set acc (mul SI (zext SI (subword HI rm 0)) (zext SI (subword HI rn 0)))) + (set acc (add acc (mul SI (zext SI (subword HI rm 1)) (zext SI (subword HI rn 1))))) + (set acc (add acc (mul SI (zext SI (subword HI rm 2)) (zext SI (subword HI rn 2))))) + (set acc (add acc (mul SI (zext SI (subword HI rm 3)) (zext SI (subword HI rn 3))))) + (set rd (add rd acc)))) + +(dshmi movi "Move immediate" + () + "movi $imm16, $rd" + (+ (f-op 51) imm16 rd (f-rsvd 0)) + (set rd (ext DI imm16))) + +(dshmi mpermw "Multimedia permutate word" + () + "mperm.w $rm, $rn, $rd" + (+ (f-op 10) rm (f-ext 13) rn rd (f-rsvd 0)) + (sequence ((QI control) (HI result3) (HI result2) (HI result1) (HI result0)) + (set control (and QI rn #x3f)) + (set result0 (subword HI rm (sub 3 (and control 3)))) + (set result1 (subword HI rm (sub 3 (and (srl control 2) 3)))) + (set result2 (subword HI rm (sub 3 (and (srl control 4) 3)))) + (set result3 (subword HI rm (sub 3 (and (srl control 6) 3)))) + (set rd (-join-hi result3 result2 result1 result0)))) + +(dshmi msadubq "Multimedia absolute difference (byte)" + () + "msad.ubq $rm, $rn, $rd" + (+ (f-op 18) rm (f-ext 0) rn rd (f-rsvd 0)) + (sequence ((DI acc)) + (set acc (abs DI (sub (subword QI rm 0) (subword QI rn 1)))) + (set acc (add DI acc (abs (sub (subword QI rm 1) (subword QI rn 1))))) + (set acc (add DI acc (abs (sub (subword QI rm 2) (subword QI rn 2))))) + (set acc (add DI acc (abs (sub (subword QI rm 3) (subword QI rn 3))))) + (set acc (add DI acc (abs (sub (subword QI rm 4) (subword QI rn 4))))) + (set acc (add DI acc (abs (sub (subword QI rm 5) (subword QI rn 5))))) + (set acc (add DI acc (abs (sub (subword QI rm 6) (subword QI rn 6))))) + (set acc (add DI acc (abs (sub (subword QI rm 7) (subword QI rn 7))))) + (set rd (add rd acc)))) + +(define-pmacro (-mshaldsl arg) (saturate SI 32 (sll arg (and rn 31)))) +(dshmi mshaldsl "Multimedia saturating arithmetic left shift (long word)" + () + "mshalds.l $rm, $rn, $rd" + (+ (f-op 3) rm (f-ext 6) rn rd (f-rsvd 0)) + (slice-long-unop -mshaldsl)) + +(define-pmacro (-mshaldsw arg) (saturate HI 16 (sll arg (and rn 15)))) +(dshmi mshaldsw "Multimedia saturating arithmetic left shift (word)" + () + "mshalds.w $rm, $rn, $rd" + (+ (f-op 3) rm (f-ext 5) rn rd (f-rsvd 0)) + (slice-word-unop -mshaldsw)) + +(define-pmacro (-mshardl arg) (sra arg (and rn 31))) +(dshmi mshardl "Multimedia arithmetic right shift (long)" + () + "mshard.l $rm, $rn, $rd" + (+ (f-op 3) rm (f-ext 10) rn rd (f-rsvd 0)) + (slice-long-unop -mshardl)) + +(define-pmacro (-mshardw arg) (sra arg (and rn 15))) +(dshmi mshardw "Multimedia arithmetic right shift (word)" + () + "mshard.w $rm, $rn, $rd" + (+ (f-op 3) rm (f-ext 9) rn rd (f-rsvd 0)) + (slice-word-unop -mshardw)) + +(dshmi mshardsq "Multimedia saturating arithmetic right shift (quad word)" + () + "mshards.q $rm, $rn, $rd" + (+ (f-op 3) rm (f-ext 11) rn rd (f-rsvd 0)) + (set rd (saturate DI 16 (sra rm (and rn 63))))) + +(dshmi mshfhib "Multimedia shuffle higher-half (byte)" + () + "mshfhi.b $rm, $rn, $rd" + (+ (f-op 11) rm (f-ext 4) rn rd (f-rsvd 0)) + (sequence ((QI result7) (QI result6) (QI result5) (QI result4) + (QI result3) (QI result2) (QI result1) (QI result0)) + (set result0 (subword QI rm 4)) + (set result1 (subword QI rn 4)) + (set result2 (subword QI rm 5)) + (set result3 (subword QI rn 5)) + (set result4 (subword QI rm 6)) + (set result5 (subword QI rn 6)) + (set result6 (subword QI rm 7)) + (set result7 (subword QI rn 7)) + (set rd (-join-qi result7 result6 result5 result4 result3 + result2 result1 result0)))) + +(dshmi mshfhil "Multimedia shuffle higher-half (long)" + () + "mshfhi.l $rm, $rn, $rd" + (+ (f-op 11) rm (f-ext 6) rn rd (f-rsvd 0)) + (sequence ((SI result1) (SI result0)) + (set result0 (subword SI rm 1)) + (set result1 (subword SI rn 1)) + (set rd (-join-si result1 result0)))) + +(dshmi mshfhiw "Multimedia shuffle higher-half (word)" + () + "mshfhi.w $rm, $rn, $rd" + (+ (f-op 11) rm (f-ext 5) rn rd (f-rsvd 0)) + (sequence ((HI result3) (HI result2) (HI result1) (HI result0)) + (set result0 (subword HI rm 2)) + (set result1 (subword HI rn 2)) + (set result2 (subword HI rm 3)) + (set result3 (subword HI rn 3)) + (set rd (-join-hi result3 result2 result1 result0)))) + +(dshmi mshflob "Multimedia shuffle lower-half (byte)" + () + "mshflo.b $rm, $rn, $rd" + (+ (f-op 11) rm (f-ext 0) rn rd (f-rsvd 0)) + (sequence ((QI result7) (QI result6) (QI result5) (QI result4) + (QI result3) (QI result2) (QI result1) (QI result0)) + (set result0 (subword QI rm 0)) + (set result1 (subword QI rn 0)) + (set result2 (subword QI rm 1)) + (set result3 (subword QI rn 1)) + (set result4 (subword QI rm 2)) + (set result5 (subword QI rn 2)) + (set result6 (subword QI rm 3)) + (set result7 (subword QI rn 3)) + (set rd (-join-qi result7 result6 result5 result4 result3 + result2 result1 result0)))) + +(dshmi mshflol "Multimedia shuffle lower-half (long)" + () + "mshflo.l $rm, $rn, $rd" + (+ (f-op 11) rm (f-ext 2) rn rd (f-rsvd 0)) + (sequence ((SI result1) (SI result0)) + (set result0 (subword SI rm 0)) + (set result1 (subword SI rn 0)) + (set rd (-join-si result1 result0)))) + +(dshmi mshflow "Multimedia shuffle lower-half (word)" + () + "mshflo.w $rm, $rn, $rd" + (+ (f-op 11) rm (f-ext 1) rn rd (f-rsvd 0)) + (sequence ((HI result3) (HI result2) (HI result1) (HI result0)) + (set result0 (subword HI rm 0)) + (set result1 (subword HI rn 0)) + (set result2 (subword HI rm 1)) + (set result3 (subword HI rn 1)) + (set rd (-join-hi result3 result2 result1 result0)))) + +(define-pmacro (-mshlldl arg) (sll arg (and rn 31))) +(dshmi mshlldl "Multimedia logical left shift (long word)" + () + "mshlld.l $rm, $rn, $rd" + (+ (f-op 3) rm (f-ext 2) rn rd (f-rsvd 0)) + (slice-long-unop -mshlldl)) + +(define-pmacro (-mshlldw arg) (sll arg (and rn 15))) +(dshmi mshlldw "Multimedia logical left shift (word)" + () + "mshlld.w $rm, $rn, $rd" + (+ (f-op 3) rm (f-ext 1) rn rd (f-rsvd 0)) + (slice-word-unop -mshlldw)) + +(define-pmacro (-mshlrdl arg) (srl arg (and rn 31))) +(dshmi mshlrdl "Multimedia logical right shift (long word)" + () + "mshlrd.l $rm, $rn, $rd" + (+ (f-op 3) rm (f-ext 14) rn rd (f-rsvd 0)) + (slice-long-unop -mshlrdl)) + +(define-pmacro (-mshlrdw arg) (srl arg (and rn 15))) +(dshmi mshlrdw "Multimedia logical right shift (word)" + () + "mshlrd.w $rm, $rn, $rd" + (+ (f-op 3) rm (f-ext 13) rn rd (f-rsvd 0)) + (slice-word-unop -mshlrdw)) + +(dshmi msubl "Multimedia subtract (long word)" + () + "msub.l $rm, $rn, $rd" + (+ (f-op 2) rm (f-ext 10) rn rd (f-rsvd 0)) + (slice-long sub)) + +(dshmi msubw "Multimedia add (word)" + () + "msub.w $rm, $rn, $rd" + (+ (f-op 2) rm (f-ext 9) rn rd (f-rsvd 0)) + (slice-word sub)) + +(define-pmacro (-msubsl arg1 arg2) (saturate SI 32 (sub arg1 arg2))) +(dshmi msubsl "Multimedia subtract (saturating long)" + () + "msubs.l $rm, $rn, $rd" + (+ (f-op 2) rm (f-ext 14) rn rd (f-rsvd 0)) + (slice-long -msubsl)) + +(define-pmacro (-msubsub arg1 arg2) (usaturate QI 8 (sub arg1 arg2))) +(dshmi msubsub "Multimedia subtract (saturating byte)" + () + "msubs.ub $rm, $rn, $rd" + (+ (f-op 2) rm (f-ext 12) rn rd (f-rsvd 0)) + (slice-byte -msubsub)) + +(define-pmacro (-msubsw arg1 arg2) (saturate HI 16 (sub arg1 arg2))) +(dshmi msubsw "Multimedia subtract (saturating word)" + () + "msubs.w $rm, $rn, $rd" + (+ (f-op 2) rm (f-ext 13) rn rd (f-rsvd 0)) + (slice-byte -msubsw)) + +(dshmi mulsl "Multiply signed long" + () + "muls.l $rm, $rn, $rd" + (+ (f-op 1) rm (f-ext 14) rn rd (f-rsvd 0)) + (set rd (mul (ext DI (subword SI rm 1)) (ext DI (subword SI rn 1))))) + +(dshmi mulul "Multiply unsigned long" + () + "mulu.l $rm, $rn, $rd" + (+ (f-op 0) rm (f-ext 14) rn rd (f-rsvd 0)) + (set rd (mul (zext DI (subword SI rm 1)) (zext DI (subword SI rn 1))))) + +(dshmi nop "No operation" + () + "nop" + (+ (f-op 27) (f-left 63) (f-ext 0) (f-right 63) (f-dest 63) (f-rsvd 0)) + (nop)) + +(dshmi nsb "Number of consecutive sign bits" + () + "nsb $rm, $rd" + (+ (f-op 0) rm (f-ext 13) (f-right 63) rd (f-rsvd 0)) + ; Semantics requires a loop construct, so punt to C. + (set rd (c-call DI "sh64_nsb" rm))) + +(dshmi ocbi "Invalidate operand cache block" + () + "ocbi $rm, $disp6x32" + (+ (f-op 56) rm (f-ext 9) disp6x32 (f-dest 63) (f-rsvd 0)) + (unimp "ocbi")) + +(dshmi ocbp "Purge operand cache block" + () + "ocbp $rm, $disp6x32" + (+ (f-op 56) rm (f-ext 8) disp6x32 (f-dest 63) (f-rsvd 0)) + (unimp "ocbp")) + +(dshmi ocbwb "Write-back operand cache block" + () + "ocbwb $rm, $disp6x32" + (+ (f-op 56) rm (f-ext 12) disp6x32 (f-dest 63) (f-rsvd 0)) + (unimp "ocbwb")) + +(dshmi or "OR" + () + "or $rm, $rn, $rd" + (+ (f-op 1) rm (f-ext 9) rn rd (f-rsvd 0)) + (set rd (or rm rn))) + +(dshmi ori "OR immediate" + () + "ori $rm, $imm10, $rd" + (+ (f-op 55) rm imm10 rd (f-rsvd 0)) + (set rd (or rm (ext DI imm10)))) + +(dshmi prefi "Prefetch instruction" + () + "prefi $rm, $disp6x32" + (+ (f-op 56) rm (f-ext 1) disp6x32 (f-right 63) (f-rsvd 0)) + (unimp "prefi")) + +(dshmi pta "Prepare target register for SHmedia target" + () + "pta$likely $disp16, $tra" + (+ (f-op 58) disp16 likely (f-8-2 0) tra (f-rsvd 0)) + (set tra (add disp16 1))) + +(dshmi ptabs "Prepare target register with absolute value from register" + () + "ptabs$likely $rn, $tra" + (+ (f-op 26) (f-left 63) (f-ext 1) rn likely (f-8-2 0) tra (f-rsvd 0)) + (set tra rn)) + +(dshmi ptb "Prepare target register for SHcompact target" + () + "ptb$likely $disp16, $tra" + (+ (f-op 59) disp16 likely (f-8-2 0) tra (f-rsvd 0)) + (set tra disp16)) + +(dshmi ptrel "Prepare target register with relative value from register" + () + "ptrel$likely $rn, $tra" + (+ (f-op 26) (f-left 63) (f-ext 5) rn likely (f-8-2 0) tra (f-rsvd 0)) + (set tra (add pc rn))) + +(dshmi putcfg "Put configuration register" + () + "putcfg $rm, $disp6, $rd" + (+ (f-op 56) rm (f-ext 15) disp6 rd (f-rsvd 0)) + (unimp "putcfg")) + +(dshmi putcon "Put control register" + () + "putcon $rm, $crj" + (+ (f-op 27) rm (f-ext 15) (f-right 63) crj (f-rsvd 0)) + (set crj rm)) + +(dshmi rte "Return from exception" + () + "rte" + (+ (f-op 27) (f-left 63) (f-ext 3) (f-right 63) (f-dest 63) (f-rsvd 0)) + (unimp "rte")) + +(dshmi shard "Arithmetic right shift" + () + "shard $rm, $rn, $rd" + (+ (f-op 1) rm (f-ext 7) rn rd (f-rsvd 0)) + (set rd (sra rm (and rn 63)))) + +(dshmi shardl "Arithmetic right shift (long word)" + () + "shard.l $rm, $rn, $rd" + (+ (f-op 1) rm (f-ext 6) rn rd (f-rsvd 0)) + (set rd (ext DI (sra (subword SI rm 1) (and rn 63))))) + +(dshmi shari "Arithmetic right shift (immediate count)" + () + "shari $rm, $uimm6, $rd" + (+ (f-op 49) rm (f-ext 7) uimm6 rd (f-rsvd 0)) + (set rd (sra rm uimm6))) + +(dshmi sharil "Arithmetic right shift (long word, immediate count)" + () + "shari.l $rm, $uimm6, $rd" + (+ (f-op 49) rm (f-ext 6) uimm6 rd (f-rsvd 0)) + (set rd (ext DI (sra (subword SI rm 1) (and uimm6 63))))) + +(dshmi shlld "Logical left shift" + () + "shlld $rm, $rn, $rd" + (+ (f-op 1) rm (f-ext 1) rn rd (f-rsvd 0)) + (set rd (sll rm (and rn 63)))) + +(dshmi shlldl "Logical left shift (long word)" + () + "shlld.l $rm, $rn, $rd" + (+ (f-op 1) rm (f-ext 0) rn rd (f-rsvd 0)) + (set rd (ext DI (sll (subword SI rm 1) (and rn 63))))) + +(dshmi shlli "Logical left shift (immediate count)" + () + "shlli $rm, $uimm6, $rd" + (+ (f-op 49) rm (f-ext 1) uimm6 rd (f-rsvd 0)) + (set rd (sll rm uimm6))) + +(dshmi shllil "Logical left shift (long word, immediate count)" + () + "shlli.l $rm, $uimm6, $rd" + (+ (f-op 49) rm (f-ext 0) uimm6 rd (f-rsvd 0)) + (set rd (ext DI (sll (subword SI rm 1) (and uimm6 63))))) + +(dshmi shlrd "Logical right shift" + () + "shlrd $rm, $rn, $rd" + (+ (f-op 1) rm (f-ext 3) rn rd (f-rsvd 0)) + (set rd (srl rm (and rn 63)))) + +(dshmi shlrdl "Logical right shift (long word)" + () + "shlrd.l $rm, $rn, $rd" + (+ (f-op 1) rm (f-ext 2) rn rd (f-rsvd 0)) + (set rd (ext DI (srl (subword SI rm 1) (and rn 63))))) + +(dshmi shlri "Logical right shift (immediate count)" + () + "shlri $rm, $uimm6, $rd" + (+ (f-op 49) rm (f-ext 3) uimm6 rd (f-rsvd 0)) + (set rd (srl rm uimm6))) + +(dshmi shlril "Logical right shift (long word, immediate count)" + () + "shlri.l $rm, $uimm6, $rd" + (+ (f-op 49) rm (f-ext 2) uimm6 rd (f-rsvd 0)) + (set rd (ext DI (srl (subword SI rm 1) (and uimm6 63))))) + +(dshmi shori "Shift-or immediate" + () + "shori $uimm16, $rd" + (+ (f-op 50) uimm16 rd (f-rsvd 0)) + (set rd (or (sll rd 16) (zext DI uimm16)))) + +(dshmi sleep "Sleep" + () + "sleep" + (+ (f-op 27) (f-left 63) (f-ext 7) (f-right 63) (f-dest 63) (f-rsvd 0)) + (unimp "sleep")) + +(dshmi stb "Store byte" + () + "st.b $rm, $disp10, $rd" + (+ (f-op 40) rm disp10 rd (f-rsvd 0)) + (set (mem UQI (add rm (ext DI disp10))) (and QI rd #xff))) + +(dshmi stl "Store long word" + () + "st.l $rm, $disp10x4, $rd" + (+ (f-op 42) rm disp10x4 rd (f-rsvd 0)) + (set (mem SI (add rm (ext DI disp10x4))) (and SI rd #xffffffff))) + +(dshmi stq "Store quad word" + () + "st.q $rm, $disp10x8, $rd" + (+ (f-op 43) rm disp10x8 rd (f-rsvd 0)) + (set (mem DI (add rm (ext DI disp10x8))) rd)) + +(dshmi stw "Store word" + () + "st.w $rm, $disp10x2, $rd" + (+ (f-op 41) rm disp10x2 rd (f-rsvd 0)) + (set (mem HI (add rm (ext DI disp10x2))) (and HI rd #xffff))) + +(define-pmacro (-sthi-byte) + (sequence () + (set (mem UQI addr) (and QI val #xff)) + (set val (srl val 8)) + (set addr (add addr 1)))) + +(dshmi sthil "Store high part (long word)" + () + "sthi.l $rm, $disp6, $rd" + (+ (f-op 56) rm (f-ext 6) disp6 rd (f-rsvd 0)) + (sequence ((DI addr) (QI bytecount) (DI val)) + (set addr (add rm disp6)) + (set bytecount (add (and addr 3) 1)) + (if endian + (set val rd) + (set val (srl rd (sub 32 (mul 8 bytecount))))) + (set addr (add (sub addr bytecount) 1)) + (if (gt bytecount 3) + (-sthi-byte)) + (if (gt bytecount 2) + (-sthi-byte)) + (if (gt bytecount 1) + (-sthi-byte)) + (if (gt bytecount 0) + (-sthi-byte)))) + +(dshmi sthiq "Store high part (quad word)" + () + "sthi.q $rm, $disp6, $rd" + (+ (f-op 56) rm (f-ext 7) disp6 rd (f-rsvd 0)) + (sequence ((DI addr) (QI bytecount) (DI val)) + (set addr (add rm disp6)) + (set bytecount (add (and addr 7) 1)) + (if endian + (set val rd) + (set val (srl rd (sub 64 (mul 8 bytecount))))) + (set addr (add (sub addr bytecount) 1)) + (if (gt bytecount 7) + (-sthi-byte)) + (if (gt bytecount 6) + (-sthi-byte)) + (if (gt bytecount 5) + (-sthi-byte)) + (if (gt bytecount 4) + (-sthi-byte)) + (if (gt bytecount 3) + (-sthi-byte)) + (if (gt bytecount 2) + (-sthi-byte)) + (if (gt bytecount 1) + (-sthi-byte)) + (if (gt bytecount 0) + (-sthi-byte)))) + +(dshmi stlol "Store low part (long word)" + () + "stlo.l $rm, $disp6, $rd" + (+ (f-op 56) rm (f-ext 2) disp6 rd (f-rsvd 0)) + ; FIXME. + (unimp "stlol")) + +(dshmi stloq "Store low part (quad word)" + () + "stlo.q $rm, $disp6, $rd" + (+ (f-op 56) rm (f-ext 3) disp6 rd (f-rsvd 0)) + ; FIXME. + (unimp "stloq")) + +(dshmi stxb "Store byte (extended displacement)" + () + "stx.b $rm, $rn, $rd" + (+ (f-op 24) rm (f-ext 0) rn rd (f-rsvd 0)) + (set (mem UQI (add rm rn)) (subword QI rd 7))) + +(dshmi stxl "Store long (extended displacement)" + () + "stx.l $rm, $rn, $rd" + (+ (f-op 24) rm (f-ext 2) rn rd (f-rsvd 0)) + (set (mem SI (add rm rn)) (subword SI rd 1))) + +(dshmi stxq "Store quad word (extended displacement)" + () + "stx.q $rm, $rn, $rd" + (+ (f-op 24) rm (f-ext 3) rn rd (f-rsvd 0)) + (set (mem DI (add rm rn)) rd)) + +(dshmi stxw "Store word (extended displacement)" + () + "stx.w $rm, $rn, $rd" + (+ (f-op 24) rm (f-ext 1) rn rd (f-rsvd 0)) + (set (mem HI (add rm rn)) (subword HI rd 3))) + +(dshmi sub "Subtract" + () + "sub $rm, $rn, $rd" + (+ (f-op 0) rm (f-ext 11) rn rd (f-rsvd 0)) + (set rd (sub rm rn))) + +(dshmi subl "Subtract long" + () + "sub.l $rm, $rn, $rd" + (+ (f-op 0) rm (f-ext 10) rn rd (f-rsvd 0)) + (set rd (ext DI (sub (subword SI rm 1) (subword SI rn 1))))) + +(dshmi swapq "Swap quad words" + () + "swap.q $rm, $rn, $rd" + (+ (f-op 8) rm (f-ext 3) rn rd (f-rsvd 0)) + (sequence ((DI addr) (DI temp)) + (set addr (add rm rn)) + (set temp (mem DI addr)) + (set (mem DI addr) rd) + (set rd temp))) + +(dshmi synci "Synchronise instruction fetch" + () + "synci" + (+ (f-op 27) (f-left 63) (f-ext 2) (f-right 63) (f-dest 63) (f-rsvd 0)) + (unimp "synci")) + +(dshmi synco "Synchronise data operations" + () + "synco" + (+ (f-op 27) (f-left 63) (f-ext 6) (f-right 63) (f-dest 63) (f-rsvd 0)) + (unimp "synco")) + +(dshmi trapa "Trap" + () + "trapa $rm" + (+ (f-op 27) rm (f-ext 1) (f-right 63) (f-dest 63) (f-rsvd 0)) + (c-call "sh64_trapa" rm pc)) + +(dshmi xor "Exclusive OR" + () + "xor $rm, $rn, $rd" + (+ (f-op 1) rm (f-ext 13) rn rd (f-rsvd 0)) + (set rd (xor rm rn))) + +(dshmi xori "Exclusive OR immediate" + () + "xori $rm, $imm6, $rd" + (+ (f-op 49) rm (f-ext 13) rn rd (f-rsvd 0)) + (set rd (xor rm (ext DI imm6))))