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author | Jim Blandy <jimb@codesourcery.com> | 2002-05-17 18:00:03 +0000 |
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committer | Jim Blandy <jimb@codesourcery.com> | 2002-05-17 18:00:03 +0000 |
commit | e2e0bcd1165b49ead57fd9e55e6797817a07c7fb (patch) | |
tree | b22a77bf9f5d319cde8b847532e5c1f6bdadf939 | |
parent | 84f0252a038f4c2ceb70d076f58159eaa8e3dfab (diff) | |
download | gdb-e2e0bcd1165b49ead57fd9e55e6797817a07c7fb.zip gdb-e2e0bcd1165b49ead57fd9e55e6797817a07c7fb.tar.gz gdb-e2e0bcd1165b49ead57fd9e55e6797817a07c7fb.tar.bz2 |
* gdb.texinfo (C Preprocessor Macros): New chapter.
Include it in the main menu.
(Contributors): Credit Jim Blandy with macro support.
(Compilation): Explain how to get macro information into the
executable.
(Expressions): Note that preprocessor macros are expanded.
-rw-r--r-- | gdb/doc/ChangeLog | 9 | ||||
-rw-r--r-- | gdb/doc/gdb.texinfo | 244 |
2 files changed, 250 insertions, 3 deletions
diff --git a/gdb/doc/ChangeLog b/gdb/doc/ChangeLog index bb46be3..577ddb1 100644 --- a/gdb/doc/ChangeLog +++ b/gdb/doc/ChangeLog @@ -1,3 +1,12 @@ +2002-05-17 Jim Blandy <jimb@redhat.com> + + * gdb.texinfo (C Preprocessor Macros): New chapter. + Include it in the main menu. + (Contributors): Credit Jim Blandy with macro support. + (Compilation): Explain how to get macro information into the + executable. + (Expressions): Note that preprocessor macros are expanded. + 2002-05-14 Daniel Jacobowitz <drow@mvista.com> * gdb.texinfo (Debug Session): Document new `udp:' and `tcp:' diff --git a/gdb/doc/gdb.texinfo b/gdb/doc/gdb.texinfo index 1080b8b..5d84047 100644 --- a/gdb/doc/gdb.texinfo +++ b/gdb/doc/gdb.texinfo @@ -128,6 +128,7 @@ Copyright (C) 1988-2002 Free Software Foundation, Inc. * Stack:: Examining the stack * Source:: Examining source files * Data:: Examining data +* Macros:: Preprocessor Macros * Tracepoints:: Debugging remote targets non-intrusively * Overlays:: Debugging programs that use overlays @@ -462,6 +463,8 @@ Romig-Koch, Rob Savoye, Jamie Smith, Mike Stump, Ian Taylor, Angela Thomas, Michael Tiemann, Tom Tromey, Ron Unrau, Jim Wilson, and David Zuhn have made contributions both large and small. +Jim Blandy added support for preprocessor macros, while working for Red +Hat. @node Sample Session @chapter A Sample @value{GDBN} Session @@ -1609,6 +1612,16 @@ and addresses in the executable code. To request debugging information, specify the @samp{-g} option when you run the compiler. +Most compilers do not include information about preprocessor macros in +the debugging information if you specify the @option{-g} flag alone, +because this information is rather large. Version 3.1 of @value{NGCC}, +the @sc{gnu} C compiler, provides macro information if you specify the +options @option{-gdwarf-2} and @option{-g3}; the former option requests +debugging information in the Dwarf 2 format, and the latter requests +``extra information''. In the future, we hope to find more compact ways +to represent macro information, so that it can be included with +@option{-g} alone. + Many C compilers are unable to handle the @samp{-g} and @samp{-O} options together. Using those compilers, you cannot generate optimized executables containing debugging information. @@ -4414,9 +4427,10 @@ Table}. @code{print} and many other @value{GDBN} commands accept an expression and compute its value. Any kind of constant, variable or operator defined by the programming language you are using is valid in an expression in -@value{GDBN}. This includes conditional expressions, function calls, casts -and string constants. It unfortunately does not include symbols defined -by preprocessor @code{#define} commands. +@value{GDBN}. This includes conditional expressions, function calls, +casts, and string constants. It also includes preprocessor macros, if +you compiled your program to include this information; see +@ref{Compilation}. @value{GDBN} supports array constants in expressions input by the user. The syntax is @{@var{element}, @var{element}@dots{}@}. For example, @@ -5774,6 +5788,230 @@ the @var{bias} argument is applied. @end table +@node Macros +@chapter C Preprocessor Macros + +Some languages, such as C and C++, provide a way to define and invoke +``preprocessor macros'' which expand into strings of tokens. +@value{GDBN} can evaluate expressions containing macro invocations, show +the result of macro expansion, and show a macro's definition, including +where it was defined. + +You may need to compile your program specially to provide @value{GDBN} +with information about preprocessor macros. Most compilers do not +include macros in their debugging information, even when you compile +with the @option{-g} flag. @xref{Compilation}. + +A program may define a macro at one point, remove that definition later, +and then provide a different definition after that. Thus, at different +points in the program, a macro may have different definitions, or have +no definition at all. If there is a current stack frame, @value{GDBN} +uses the macros in scope at that frame's source code line. Otherwise, +@value{GDBN} uses the macros in scope at the current listing location; +see @ref{List}. + +At the moment, @value{GDBN} does not support the @code{##} +token-splicing operator, the @code{#} stringification operator, or +variable-arity macros. + +Whenever @value{GDBN} evaluates an expression, it always expands any +macro invocations present in the expression. @value{GDBN} also provides +the following commands for working with macros explicitly. + +@table @code + +@kindex macro expand +@cindex macro expansion, showing the results of preprocessor +@cindex preprocessor macro expansion, showing the results of +@cindex expanding preprocessor macros +@item macro expand @var{expression} +@itemx macro exp @var{expression} +Show the results of expanding all preprocessor macro invocations in +@var{expression}. Since @value{GDBN} simply expands macros, but does +not parse the result, @var{expression} need not be a valid expression; +it can be any string of tokens. + +@kindex macro expand-once +@item macro expand-once @var{expression} +@itemx macro exp1 @var{expression} +@i{(This command is not yet implemented.)} Show the results of +expanding those preprocessor macro invocations that appear explicitly in +@var{expression}. Macro invocations appearing in that expansion are +left unchanged. This command allows you to see the effect of a +particular macro more clearly, without being confused by further +expansions. Since @value{GDBN} simply expands macros, but does not +parse the result, @var{expression} need not be a valid expression; it +can be any string of tokens. + +@kindex show macro +@cindex macro definition, showing +@cindex definition, showing a macro's +@item show macro @var{macro} +Show the definition of the macro named @var{macro}, and describe the +source location where that definition was established. + +@kindex macro define +@cindex user-defined macros +@cindex defining macros interactively +@cindex macros, user-defined +@item macro define @var{macro} @var{replacement-list} +@itemx macro define @var{macro}(@var{arglist}) @var{replacement-list} +@i{(This command is not yet implemented.)} Introduce a definition for a +preprocessor macro named @var{macro}, invocations of which are replaced +by the tokens given in @var{replacement-list}. The first form of this +command defines an ``object-like'' macro, which takes no arguments; the +second form defines a ``function-like'' macro, which takes the arguments +given in @var{arglist}. + +A definition introduced by this command is in scope in every expression +evaluated in @value{GDBN}, until it is removed with the @command{macro +undef} command, described below. The definition overrides all +definitions for @var{macro} present in the program being debugged, as +well as any previous user-supplied definition. + +@kindex macro undef +@item macro undef @var{macro} +@i{(This command is not yet implemented.)} Remove any user-supplied +definition for the macro named @var{macro}. This command only affects +definitions provided with the @command{macro define} command, described +above; it cannot remove definitions present in the program being +debugged. + +@end table + +@cindex macros, example of debugging with +Here is a transcript showing the above commands in action. First, we +show our source files: + +@smallexample +$ cat sample.c +#include <stdio.h> +#include "sample.h" + +#define M 42 +#define ADD(x) (M + x) + +main () +@{ +#define N 28 + printf ("Hello, world!\n"); +#undef N + printf ("We're so creative.\n"); +#define N 1729 + printf ("Goodbye, world!\n"); +@} +$ cat sample.h +#define Q < +$ +@end smallexample + +Now, we compile the program using the @sc{gnu} C compiler, @value{NGCC}. +We pass the @option{-gdwarf-2} and @option{-g3} flags to ensure the +compiler includes information about preprocessor macros in the debugging +information. + +@smallexample +$ gcc -gdwarf-2 -g3 sample.c -o sample +$ +@end smallexample + +Now, we start @value{GDBN} on our sample program: + +@smallexample +$ gdb -nw sample +GNU gdb 2002-05-06-cvs +Copyright 2002 Free Software Foundation, Inc. +GDB is free software, @dots{} +(gdb) +@end smallexample + +We can expand macros and examine their definitions, even when the +program is not running. @value{GDBN} uses the current listing position +to decide which macro definitions are in scope: + +@smallexample +(gdb) list main +3 +4 #define M 42 +5 #define ADD(x) (M + x) +6 +7 main () +8 @{ +9 #define N 28 +10 printf ("Hello, world!\n"); +11 #undef N +12 printf ("We're so creative.\n"); +(gdb) show macro ADD +Defined at /home/jimb/gdb/macros/play/sample.c:5 +#define ADD(x) (M + x) +(gdb) show macro Q +Defined at /home/jimb/gdb/macros/play/sample.h:1 + included at /home/jimb/gdb/macros/play/sample.c:2 +#define Q < +(gdb) macro expand ADD(1) +expands to: (42 + 1) +(gdb) macro expand-once ADD(1) +expands to: once (M + 1) +(gdb) +@end smallexample + +In the example above, note that @command{macro expand-once} expands only +the macro invocation explicit in the original text --- the invocation of +@code{ADD} --- but does not expand the invocation of the macro @code{M}, +which was introduced by @code{ADD}. + +Once the program is running, GDB uses the macro definitions in force at +the source line of the current stack frame: + +@smallexample +(gdb) break main +Breakpoint 1 at 0x8048370: file sample.c, line 10. +(gdb) run +Starting program: /home/jimb/gdb/macros/play/sample + +Breakpoint 1, main () at sample.c:10 +10 printf ("Hello, world!\n"); +(gdb) +@end smallexample + +At line 10, the definition of the macro @code{N} at line 9 is in force: + +@smallexample +(gdb) show macro N +Defined at /home/jimb/gdb/macros/play/sample.c:9 +#define N 28 +(gdb) macro expand N Q M +expands to: 28 < 42 +(gdb) print N Q M +$1 = 1 +(gdb) +@end smallexample + +As we step over directives that remove @code{N}'s definition, and then +give it a new definition, @value{GDBN} finds the definition (or lack +thereof) in force at each point: + +@smallexample +(gdb) next +Hello, world! +12 printf ("We're so creative.\n"); +(gdb) show macro N +The symbol `N' has no definition as a C/C++ preprocessor macro +at /home/jimb/gdb/macros/play/sample.c:12 +(gdb) next +We're so creative. +14 printf ("Goodbye, world!\n"); +(gdb) show macro N +Defined at /home/jimb/gdb/macros/play/sample.c:13 +#define N 1729 +(gdb) macro expand N Q M +expands to: 1729 < 42 +(gdb) print N Q M +$2 = 0 +(gdb) +@end smallexample + + @node Tracepoints @chapter Tracepoints @c This chapter is based on the documentation written by Michael |