From 23afb447a25061a1d77ffade099f9e45b7a5f378 Mon Sep 17 00:00:00 2001 From: Jim Kingdon Date: Fri, 17 Sep 1993 00:50:09 +0000 Subject: [PATCH] * stabs.texinfo (Negative Type Numbers): Re-write discussions of names, sizes, and formats to suggest how not to lose. --- gdb/doc/ChangeLog | 5 +++ gdb/doc/stabs.texinfo | 75 ++++++++++++++++++++++++++++++++----------- 2 files changed, 62 insertions(+), 18 deletions(-) diff --git a/gdb/doc/ChangeLog b/gdb/doc/ChangeLog index 72b904018f7..3d1dab9e0c5 100644 --- a/gdb/doc/ChangeLog +++ b/gdb/doc/ChangeLog @@ -1,3 +1,8 @@ +Thu Sep 16 17:48:55 1993 Jim Kingdon (kingdon@cirdan.cygnus.com) + + * stabs.texinfo (Negative Type Numbers): Re-write discussions of + names, sizes, and formats to suggest how not to lose. + Sat Sep 11 09:35:11 1993 Jim Kingdon (kingdon@poseidon.cygnus.com) * stabs.texinfo (Methods): Fix typo. diff --git a/gdb/doc/stabs.texinfo b/gdb/doc/stabs.texinfo index 627b16f2985..a09d1bf0b7e 100644 --- a/gdb/doc/stabs.texinfo +++ b/gdb/doc/stabs.texinfo @@ -1321,24 +1321,63 @@ Since the debugger knows about the builtin types anyway, the idea of negative type numbers is simply to give a special type number which indicates the builtin type. There is no stab defining these types. -I'm not sure whether anyone has tried to define what this means if -@code{int} can be other than 32 bits (or if other types can be other than -their customary size). If @code{int} has exactly one size for each -architecture, then it can be handled easily enough, but if the size of -@code{int} can vary according the compiler options, then it gets hairy. -The best way to do this would be to define separate negative type -numbers for 16-bit @code{int} and 32-bit @code{int}; therefore I have -indicated below the customary size (and other format information) for -each type. The information below is currently correct because AIX on -the RS6000 is the only system which uses these type numbers. If these -type numbers start to get used on other systems, I suspect the correct -thing to do is to define a new number in cases where a type does not -have the size and format indicated below (or avoid negative type numbers -in these cases). - -Part of the definition of the negative type number is -the name of the type. Types with identical size and format but -different names have different negative type numbers. +There are several subtle issues with negative type numbers. + +One is the size of the type. A builtin type (for example the C types +@code{int} or @code{long}) might have different sizes depending on +compiler options, the target architecture, the ABI, etc. This issue +doesn't come up for IBM tools since (so far) they just target the +RS/6000; the sizes indicated below for each size are what the IBM +RS/6000 tools use. To deal with differing sizes, either define separate +negative type numbers for each size (which works but requires changing +the debugger, and, unless you get both AIX dbx and GDB to accept the +change, introduces an incompatibility), or use a type attribute +(@pxref{String Field}) to define a new type with the appropriate size +(which merely requires a debugger which understands type attributes, +like AIX dbx). For example, + +@example +.stabs "boolean:t10=@@s8;-16",128,0,0,0 +@end example + +defines an 8-bit boolean type, and + +@example +.stabs "boolean:t10=@@s64;-16",128,0,0,0 +@end example + +defines a 64-bit boolean type. + +A similar issue is the format of the type. This comes up most often for +floating-point types, which could have various formats (particularly +extended doubles, which vary quite a bit even among IEEE systems). +Again, it is best to define a new negative type number for each +different format; changing the format based on the target system has +various problems. One such problem is that the Alpha has both VAX and +IEEE floating types. One can easily imagine one library using the VAX +types and another library in the same executable using the IEEE types. +Another example is that the interpretation of whether a boolean is true +or false can be based on the least significant bit, most significant +bit, whether it is zero, etc., and different compilers (or different +options to the same compiler) might provide different kinds of boolean. + +The last major issue is the names of the types. The name of a given +type depends @emph{only} on the negative type number given; these do not +vary depending on the language, the target system, or anything else. +One can always define separate type numbers---in the following list you +will see for example separate @code{int} and @code{integer*4} types +which are identical except for the name. But compatibility can be +maintained by not inventing new negative type numbers and instead just +defining a new type with a new name. For example: + +@example +.stabs "CARDINAL:t10=-8",128,0,0,0 +@end example + +Here is the list of negative type numbers. The phrase @dfn{integral +type} is used to mean twos-complement (I strongly suspect that all +machines which use stabs use twos-complement; most machines use +twos-complement these days). @table @code @item -1 -- 2.30.2