GDB's language support is mainly driven by the symbol reader, although it is possible for the user to set the source language manually.
GDB chooses the source language by looking at the extension of the file recorded in the debug info; `.c' means C, `.f' means Fortran, etc. It may also use a special-purpose language identifier if the debug format supports it, like with DWARF.
To add other languages to GDB's expression parser, follow the following steps:
union exp_element list are in
`parse.c'.
Since we can't depend upon everyone having Bison, and YACC produces
parsers that define a bunch of global names, the following lines
must be included at the top of the YACC parser, to prevent the
various parsers from defining the same global names:
#define yyparse lang_parse #define yylex lang_lex #define yyerror lang_error #define yylval lang_lval #define yychar lang_char #define yydebug lang_debug #define yypact lang_pact #define yyr1 lang_r1 #define yyr2 lang_r2 #define yydef lang_def #define yychk lang_chk #define yypgo lang_pgo #define yyact lang_act #define yyexca lang_exca #define yyerrflag lang_errflag #define yynerrs lang_nerrsAt the bottom of your parser, define a
struct language_defn and
initialize it with the right values for your language. Define an
initialize_lang routine and have it call
`add_language(lang_language_defn)' to tell the rest of GDB
that your language exists. You'll need some other supporting variables
and functions, which will be used via pointers from your
lang_language_defn. See the declaration of struct
language_defn in `language.h', and the other `*-exp.y' files,
for more information.
evaluate_subexp function
defined in the file `eval.c'. Add cases
for new opcodes in two functions from `parse.c':
prefixify_subexp and length_of_subexp. These compute
the number of exp_elements that a given operation takes up.
enum language in `defs.h'.
Update the routines in `language.c' so your language is included.
These routines include type predicates and such, which (in some cases)
are language dependent. If your language does not appear in the switch
statement, an error is reported.
Also included in `language.c' is the code that updates the variable
current_language, and the routines that translate the
language_lang enumerated identifier into a printable
string.
Update the function _initialize_language to include your
language. This function picks the default language upon startup, so is
dependent upon which languages that GDB is built for.
Update allocate_symtab in `symfile.c' and/or symbol-reading
code so that the language of each symtab (source file) is set properly.
This is used to determine the language to use at each stack frame level.
Currently, the language is set based upon the extension of the source
file. If the language can be better inferred from the symbol
information, please set the language of the symtab in the symbol-reading
code.
Add helper code to print_subexp (in `expprint.c') to handle any new
expression opcodes you have added to `expression.h'. Also, add the
printed representations of your operators to op_print_tab.
lang_parse() and lang_error in
parse_exp_1 (defined in `parse.c').
_LANG_lang defined in it. Use #ifdefs to
leave out large routines that the user won't need if he or she is not
using your language.
Note that you do not need to do this in your YACC parser, since if GDB
is not build for lang, then `lang-exp.tab.o' (the
compiled form of your parser) is not linked into GDB at all.
See the file `configure.in' for how GDB is configured
for different languages.
HFILES and OBJS, otherwise your code may
not get linked in, or, worse yet, it may not get tarred into the
distribution!
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