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|
/* Support routines for building symbol tables in GDB's internal format.
Copyright 1986, 1987, 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995,
1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003
Free Software Foundation, Inc.
This file is part of GDB.
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 module provides subroutines used for creating and adding to
the symbol table. These routines are called from various symbol-
file-reading routines.
Routines to support specific debugging information formats (stabs,
DWARF, etc) belong somewhere else. */
#include "defs.h"
#include "bfd.h"
#include "gdb_obstack.h"
#include "symtab.h"
#include "symfile.h"
#include "objfiles.h"
#include "gdbtypes.h"
#include "gdb_assert.h"
#include "complaints.h"
#include "gdb_string.h"
#include "expression.h" /* For "enum exp_opcode" used by... */
#include "language.h" /* For "local_hex_string" */
#include "bcache.h"
#include "filenames.h" /* For DOSish file names */
#include "macrotab.h"
#include "demangle.h" /* Needed by SYMBOL_INIT_DEMANGLED_NAME. */
#include "block.h"
/* Ask buildsym.h to define the vars it normally declares `extern'. */
#define EXTERN
/**/
#include "buildsym.h" /* Our own declarations */
#undef EXTERN
/* For cleanup_undefined_types and finish_global_stabs (somewhat
questionable--see comment where we call them). */
#include "stabsread.h"
/* List of free `struct pending' structures for reuse. */
static struct pending *free_pendings;
/* Non-zero if symtab has line number info. This prevents an
otherwise empty symtab from being tossed. */
static int have_line_numbers;
static int compare_line_numbers (const void *ln1p, const void *ln2p);
/* Initial sizes of data structures. These are realloc'd larger if
needed, and realloc'd down to the size actually used, when
completed. */
#define INITIAL_CONTEXT_STACK_SIZE 10
#define INITIAL_LINE_VECTOR_LENGTH 1000
/* maintain the lists of symbols and blocks */
/* Add a pending list to free_pendings. */
void
add_free_pendings (struct pending *list)
{
register struct pending *link = list;
if (list)
{
while (link->next) link = link->next;
link->next = free_pendings;
free_pendings = list;
}
}
/* Add a symbol to one of the lists of symbols. */
void
add_symbol_to_list (struct symbol *symbol, struct pending **listhead)
{
register struct pending *link;
/* If this is an alias for another symbol, don't add it. */
if (symbol->ginfo.name && symbol->ginfo.name[0] == '#')
return;
/* We keep PENDINGSIZE symbols in each link of the list. If we
don't have a link with room in it, add a new link. */
if (*listhead == NULL || (*listhead)->nsyms == PENDINGSIZE)
{
if (free_pendings)
{
link = free_pendings;
free_pendings = link->next;
}
else
{
link = (struct pending *) xmalloc (sizeof (struct pending));
}
link->next = *listhead;
*listhead = link;
link->nsyms = 0;
}
(*listhead)->symbol[(*listhead)->nsyms++] = symbol;
}
/* Find a symbol named NAME on a LIST. NAME need not be
'\0'-terminated; LENGTH is the length of the name. */
struct symbol *
find_symbol_in_list (struct pending *list, char *name, int length)
{
int j;
char *pp;
while (list != NULL)
{
for (j = list->nsyms; --j >= 0;)
{
pp = SYMBOL_NAME (list->symbol[j]);
if (*pp == *name && strncmp (pp, name, length) == 0 &&
pp[length] == '\0')
{
return (list->symbol[j]);
}
}
list = list->next;
}
return (NULL);
}
/* At end of reading syms, or in case of quit, really free as many
`struct pending's as we can easily find. */
/* ARGSUSED */
void
really_free_pendings (void *dummy)
{
struct pending *next, *next1;
for (next = free_pendings; next; next = next1)
{
next1 = next->next;
xfree ((void *) next);
}
free_pendings = NULL;
free_pending_blocks ();
for (next = file_symbols; next != NULL; next = next1)
{
next1 = next->next;
xfree ((void *) next);
}
file_symbols = NULL;
for (next = global_symbols; next != NULL; next = next1)
{
next1 = next->next;
xfree ((void *) next);
}
global_symbols = NULL;
if (pending_macros)
free_macro_table (pending_macros);
}
/* This function is called to discard any pending blocks. */
void
free_pending_blocks (void)
{
#if 0 /* Now we make the links in the
symbol_obstack, so don't free
them. */
struct pending_block *bnext, *bnext1;
for (bnext = pending_blocks; bnext; bnext = bnext1)
{
bnext1 = bnext->next;
xfree ((void *) bnext);
}
#endif
pending_blocks = NULL;
}
/* Take one of the lists of symbols and make a block from it. Keep
the order the symbols have in the list (reversed from the input
file). Put the block on the list of pending blocks. */
void
finish_block (struct symbol *symbol, struct pending **listhead,
struct pending_block *old_blocks,
CORE_ADDR start, CORE_ADDR end,
struct objfile *objfile)
{
register struct pending *next, *next1;
register struct block *block;
register struct pending_block *pblock;
struct pending_block *opblock;
register int i;
register int j;
/* Count the length of the list of symbols. */
for (next = *listhead, i = 0;
next;
i += next->nsyms, next = next->next)
{
/* EMPTY */ ;
}
/* Copy the symbols into the block. */
if (symbol)
{
block = (struct block *)
obstack_alloc (&objfile->symbol_obstack,
(sizeof (struct block) +
((i - 1) * sizeof (struct symbol *))));
BLOCK_NSYMS (block) = i;
for (next = *listhead; next; next = next->next)
for (j = next->nsyms - 1; j >= 0; j--)
{
BLOCK_SYM (block, --i) = next->symbol[j];
}
}
else
{
int htab_size = BLOCK_HASHTABLE_SIZE (i);
block = (struct block *)
obstack_alloc (&objfile->symbol_obstack,
(sizeof (struct block) +
((htab_size - 1) * sizeof (struct symbol *))));
for (j = 0; j < htab_size; j++)
{
BLOCK_BUCKET (block, j) = 0;
}
BLOCK_BUCKETS (block) = htab_size;
for (next = *listhead; next; next = next->next)
{
for (j = next->nsyms - 1; j >= 0; j--)
{
struct symbol *sym;
unsigned int hash_index;
const char *name = SYMBOL_DEMANGLED_NAME (next->symbol[j]);
if (name == NULL)
name = SYMBOL_NAME (next->symbol[j]);
hash_index = msymbol_hash_iw (name);
hash_index = hash_index % BLOCK_BUCKETS (block);
sym = BLOCK_BUCKET (block, hash_index);
BLOCK_BUCKET (block, hash_index) = next->symbol[j];
next->symbol[j]->hash_next = sym;
}
}
}
BLOCK_START (block) = start;
BLOCK_END (block) = end;
/* Superblock filled in when containing block is made */
BLOCK_SUPERBLOCK (block) = NULL;
BLOCK_GCC_COMPILED (block) = processing_gcc_compilation;
/* Put the block in as the value of the symbol that names it. */
if (symbol)
{
struct type *ftype = SYMBOL_TYPE (symbol);
SYMBOL_BLOCK_VALUE (symbol) = block;
BLOCK_FUNCTION (block) = symbol;
BLOCK_HASHTABLE (block) = 0;
if (TYPE_NFIELDS (ftype) <= 0)
{
/* No parameter type information is recorded with the
function's type. Set that from the type of the
parameter symbols. */
int nparams = 0, iparams;
struct symbol *sym;
ALL_BLOCK_SYMBOLS (block, i, sym)
{
switch (SYMBOL_CLASS (sym))
{
case LOC_ARG:
case LOC_REF_ARG:
case LOC_REGPARM:
case LOC_REGPARM_ADDR:
case LOC_BASEREG_ARG:
case LOC_LOCAL_ARG:
nparams++;
break;
case LOC_UNDEF:
case LOC_CONST:
case LOC_STATIC:
case LOC_INDIRECT:
case LOC_REGISTER:
case LOC_LOCAL:
case LOC_TYPEDEF:
case LOC_LABEL:
case LOC_BLOCK:
case LOC_CONST_BYTES:
case LOC_BASEREG:
case LOC_UNRESOLVED:
case LOC_OPTIMIZED_OUT:
default:
break;
}
}
if (nparams > 0)
{
TYPE_NFIELDS (ftype) = nparams;
TYPE_FIELDS (ftype) = (struct field *)
TYPE_ALLOC (ftype, nparams * sizeof (struct field));
for (i = iparams = 0; iparams < nparams; i++)
{
sym = BLOCK_SYM (block, i);
switch (SYMBOL_CLASS (sym))
{
case LOC_ARG:
case LOC_REF_ARG:
case LOC_REGPARM:
case LOC_REGPARM_ADDR:
case LOC_BASEREG_ARG:
case LOC_LOCAL_ARG:
TYPE_FIELD_TYPE (ftype, iparams) = SYMBOL_TYPE (sym);
TYPE_FIELD_ARTIFICIAL (ftype, iparams) = 0;
iparams++;
break;
case LOC_UNDEF:
case LOC_CONST:
case LOC_STATIC:
case LOC_INDIRECT:
case LOC_REGISTER:
case LOC_LOCAL:
case LOC_TYPEDEF:
case LOC_LABEL:
case LOC_BLOCK:
case LOC_CONST_BYTES:
case LOC_BASEREG:
case LOC_UNRESOLVED:
case LOC_OPTIMIZED_OUT:
default:
break;
}
}
}
}
}
else
{
BLOCK_FUNCTION (block) = NULL;
BLOCK_HASHTABLE (block) = 1;
}
/* Now "free" the links of the list, and empty the list. */
for (next = *listhead; next; next = next1)
{
next1 = next->next;
next->next = free_pendings;
free_pendings = next;
}
*listhead = NULL;
#if 1
/* Check to be sure that the blocks have an end address that is
greater than starting address */
if (BLOCK_END (block) < BLOCK_START (block))
{
if (symbol)
{
complaint (&symfile_complaints,
"block end address less than block start address in %s (patched it)",
SYMBOL_PRINT_NAME (symbol));
}
else
{
complaint (&symfile_complaints,
"block end address 0x%s less than block start address 0x%s (patched it)",
paddr_nz (BLOCK_END (block)), paddr_nz (BLOCK_START (block)));
}
/* Better than nothing */
BLOCK_END (block) = BLOCK_START (block);
}
#endif
/* Install this block as the superblock of all blocks made since the
start of this scope that don't have superblocks yet. */
opblock = NULL;
for (pblock = pending_blocks;
pblock && pblock != old_blocks;
pblock = pblock->next)
{
if (BLOCK_SUPERBLOCK (pblock->block) == NULL)
{
#if 1
/* Check to be sure the blocks are nested as we receive
them. If the compiler/assembler/linker work, this just
burns a small amount of time. */
if (BLOCK_START (pblock->block) < BLOCK_START (block) ||
BLOCK_END (pblock->block) > BLOCK_END (block))
{
if (symbol)
{
complaint (&symfile_complaints,
"inner block not inside outer block in %s",
SYMBOL_PRINT_NAME (symbol));
}
else
{
complaint (&symfile_complaints,
"inner block (0x%s-0x%s) not inside outer block (0x%s-0x%s)",
paddr_nz (BLOCK_START (pblock->block)),
paddr_nz (BLOCK_END (pblock->block)),
paddr_nz (BLOCK_START (block)),
paddr_nz (BLOCK_END (block)));
}
if (BLOCK_START (pblock->block) < BLOCK_START (block))
BLOCK_START (pblock->block) = BLOCK_START (block);
if (BLOCK_END (pblock->block) > BLOCK_END (block))
BLOCK_END (pblock->block) = BLOCK_END (block);
}
#endif
BLOCK_SUPERBLOCK (pblock->block) = block;
}
opblock = pblock;
}
record_pending_block (objfile, block, opblock);
}
/* Record BLOCK on the list of all blocks in the file. Put it after
OPBLOCK, or at the beginning if opblock is NULL. This puts the
block in the list after all its subblocks.
Allocate the pending block struct in the symbol_obstack to save
time. This wastes a little space. FIXME: Is it worth it? */
void
record_pending_block (struct objfile *objfile, struct block *block,
struct pending_block *opblock)
{
register struct pending_block *pblock;
pblock = (struct pending_block *)
obstack_alloc (&objfile->symbol_obstack, sizeof (struct pending_block));
pblock->block = block;
if (opblock)
{
pblock->next = opblock->next;
opblock->next = pblock;
}
else
{
pblock->next = pending_blocks;
pending_blocks = pblock;
}
}
static struct blockvector *
make_blockvector (struct objfile *objfile)
{
register struct pending_block *next;
register struct blockvector *blockvector;
register int i;
/* Count the length of the list of blocks. */
for (next = pending_blocks, i = 0; next; next = next->next, i++)
{;
}
blockvector = (struct blockvector *)
obstack_alloc (&objfile->symbol_obstack,
(sizeof (struct blockvector)
+ (i - 1) * sizeof (struct block *)));
/* Copy the blocks into the blockvector. This is done in reverse
order, which happens to put the blocks into the proper order
(ascending starting address). finish_block has hair to insert
each block into the list after its subblocks in order to make
sure this is true. */
BLOCKVECTOR_NBLOCKS (blockvector) = i;
for (next = pending_blocks; next; next = next->next)
{
BLOCKVECTOR_BLOCK (blockvector, --i) = next->block;
}
#if 0 /* Now we make the links in the
obstack, so don't free them. */
/* Now free the links of the list, and empty the list. */
for (next = pending_blocks; next; next = next1)
{
next1 = next->next;
xfree (next);
}
#endif
pending_blocks = NULL;
#if 1 /* FIXME, shut this off after a while
to speed up symbol reading. */
/* Some compilers output blocks in the wrong order, but we depend on
their being in the right order so we can binary search. Check the
order and moan about it. FIXME. */
if (BLOCKVECTOR_NBLOCKS (blockvector) > 1)
{
for (i = 1; i < BLOCKVECTOR_NBLOCKS (blockvector); i++)
{
if (BLOCK_START (BLOCKVECTOR_BLOCK (blockvector, i - 1))
> BLOCK_START (BLOCKVECTOR_BLOCK (blockvector, i)))
{
CORE_ADDR start
= BLOCK_START (BLOCKVECTOR_BLOCK (blockvector, i));
complaint (&symfile_complaints, "block at %s out of order",
local_hex_string ((LONGEST) start));
}
}
}
#endif
return (blockvector);
}
/* Start recording information about source code that came from an
included (or otherwise merged-in) source file with a different
name. NAME is the name of the file (cannot be NULL), DIRNAME is
the directory in which it resides (or NULL if not known). */
void
start_subfile (char *name, char *dirname)
{
register struct subfile *subfile;
/* See if this subfile is already known as a subfile of the current
main source file. */
for (subfile = subfiles; subfile; subfile = subfile->next)
{
if (FILENAME_CMP (subfile->name, name) == 0)
{
current_subfile = subfile;
return;
}
}
/* This subfile is not known. Add an entry for it. Make an entry
for this subfile in the list of all subfiles of the current main
source file. */
subfile = (struct subfile *) xmalloc (sizeof (struct subfile));
memset ((char *) subfile, 0, sizeof (struct subfile));
subfile->next = subfiles;
subfiles = subfile;
current_subfile = subfile;
/* Save its name and compilation directory name */
subfile->name = (name == NULL) ? NULL : savestring (name, strlen (name));
subfile->dirname =
(dirname == NULL) ? NULL : savestring (dirname, strlen (dirname));
/* Initialize line-number recording for this subfile. */
subfile->line_vector = NULL;
/* Default the source language to whatever can be deduced from the
filename. If nothing can be deduced (such as for a C/C++ include
file with a ".h" extension), then inherit whatever language the
previous subfile had. This kludgery is necessary because there
is no standard way in some object formats to record the source
language. Also, when symtabs are allocated we try to deduce a
language then as well, but it is too late for us to use that
information while reading symbols, since symtabs aren't allocated
until after all the symbols have been processed for a given
source file. */
subfile->language = deduce_language_from_filename (subfile->name);
if (subfile->language == language_unknown &&
subfile->next != NULL)
{
subfile->language = subfile->next->language;
}
/* Initialize the debug format string to NULL. We may supply it
later via a call to record_debugformat. */
subfile->debugformat = NULL;
#if 0 /* OBSOLETE CFront */
// OBSOLETE /* cfront output is a C program, so in most ways it looks like a C
// OBSOLETE program. But to demangle we need to set the language to C++. We
// OBSOLETE can distinguish cfront code by the fact that it has #line
// OBSOLETE directives which specify a file name ending in .C. */
#endif /* OBSOLETE CFront */
/* If the filename of this subfile ends in .C, then change the
language of any pending subfiles from C to C++. We also accept
any other C++ suffixes accepted by deduce_language_from_filename. */
/* OBSOLETE (in particular, some people use .cxx with cfront). */
/* Likewise for f2c. */
if (subfile->name)
{
struct subfile *s;
enum language sublang = deduce_language_from_filename (subfile->name);
if (sublang == language_cplus || sublang == language_fortran)
for (s = subfiles; s != NULL; s = s->next)
if (s->language == language_c)
s->language = sublang;
}
/* And patch up this file if necessary. */
if (subfile->language == language_c
&& subfile->next != NULL
&& (subfile->next->language == language_cplus
|| subfile->next->language == language_fortran))
{
subfile->language = subfile->next->language;
}
}
/* For stabs readers, the first N_SO symbol is assumed to be the
source file name, and the subfile struct is initialized using that
assumption. If another N_SO symbol is later seen, immediately
following the first one, then the first one is assumed to be the
directory name and the second one is really the source file name.
So we have to patch up the subfile struct by moving the old name
value to dirname and remembering the new name. Some sanity
checking is performed to ensure that the state of the subfile
struct is reasonable and that the old name we are assuming to be a
directory name actually is (by checking for a trailing '/'). */
void
patch_subfile_names (struct subfile *subfile, char *name)
{
if (subfile != NULL && subfile->dirname == NULL && subfile->name != NULL
&& subfile->name[strlen (subfile->name) - 1] == '/')
{
subfile->dirname = subfile->name;
subfile->name = savestring (name, strlen (name));
last_source_file = name;
/* Default the source language to whatever can be deduced from
the filename. If nothing can be deduced (such as for a C/C++
include file with a ".h" extension), then inherit whatever
language the previous subfile had. This kludgery is
necessary because there is no standard way in some object
formats to record the source language. Also, when symtabs
are allocated we try to deduce a language then as well, but
it is too late for us to use that information while reading
symbols, since symtabs aren't allocated until after all the
symbols have been processed for a given source file. */
subfile->language = deduce_language_from_filename (subfile->name);
if (subfile->language == language_unknown &&
subfile->next != NULL)
{
subfile->language = subfile->next->language;
}
}
}
/* Handle the N_BINCL and N_EINCL symbol types that act like N_SOL for
switching source files (different subfiles, as we call them) within
one object file, but using a stack rather than in an arbitrary
order. */
void
push_subfile (void)
{
register struct subfile_stack *tem
= (struct subfile_stack *) xmalloc (sizeof (struct subfile_stack));
tem->next = subfile_stack;
subfile_stack = tem;
if (current_subfile == NULL || current_subfile->name == NULL)
{
internal_error (__FILE__, __LINE__, "failed internal consistency check");
}
tem->name = current_subfile->name;
}
char *
pop_subfile (void)
{
register char *name;
register struct subfile_stack *link = subfile_stack;
if (link == NULL)
{
internal_error (__FILE__, __LINE__, "failed internal consistency check");
}
name = link->name;
subfile_stack = link->next;
xfree ((void *) link);
return (name);
}
/* Add a linetable entry for line number LINE and address PC to the
line vector for SUBFILE. */
void
record_line (register struct subfile *subfile, int line, CORE_ADDR pc)
{
struct linetable_entry *e;
/* Ignore the dummy line number in libg.o */
if (line == 0xffff)
{
return;
}
/* Make sure line vector exists and is big enough. */
if (!subfile->line_vector)
{
subfile->line_vector_length = INITIAL_LINE_VECTOR_LENGTH;
subfile->line_vector = (struct linetable *)
xmalloc (sizeof (struct linetable)
+ subfile->line_vector_length * sizeof (struct linetable_entry));
subfile->line_vector->nitems = 0;
have_line_numbers = 1;
}
if (subfile->line_vector->nitems + 1 >= subfile->line_vector_length)
{
subfile->line_vector_length *= 2;
subfile->line_vector = (struct linetable *)
xrealloc ((char *) subfile->line_vector,
(sizeof (struct linetable)
+ (subfile->line_vector_length
* sizeof (struct linetable_entry))));
}
e = subfile->line_vector->item + subfile->line_vector->nitems++;
e->line = line;
e->pc = ADDR_BITS_REMOVE(pc);
}
/* Needed in order to sort line tables from IBM xcoff files. Sigh! */
static int
compare_line_numbers (const void *ln1p, const void *ln2p)
{
struct linetable_entry *ln1 = (struct linetable_entry *) ln1p;
struct linetable_entry *ln2 = (struct linetable_entry *) ln2p;
/* Note: this code does not assume that CORE_ADDRs can fit in ints.
Please keep it that way. */
if (ln1->pc < ln2->pc)
return -1;
if (ln1->pc > ln2->pc)
return 1;
/* If pc equal, sort by line. I'm not sure whether this is optimum
behavior (see comment at struct linetable in symtab.h). */
return ln1->line - ln2->line;
}
/* Start a new symtab for a new source file. Called, for example,
when a stabs symbol of type N_SO is seen, or when a DWARF
TAG_compile_unit DIE is seen. It indicates the start of data for
one original source file. */
void
start_symtab (char *name, char *dirname, CORE_ADDR start_addr)
{
last_source_file = name;
last_source_start_addr = start_addr;
file_symbols = NULL;
global_symbols = NULL;
within_function = 0;
have_line_numbers = 0;
/* Context stack is initially empty. Allocate first one with room
for 10 levels; reuse it forever afterward. */
if (context_stack == NULL)
{
context_stack_size = INITIAL_CONTEXT_STACK_SIZE;
context_stack = (struct context_stack *)
xmalloc (context_stack_size * sizeof (struct context_stack));
}
context_stack_depth = 0;
/* Initialize the list of sub source files with one entry for this
file (the top-level source file). */
subfiles = NULL;
current_subfile = NULL;
start_subfile (name, dirname);
}
/* Finish the symbol definitions for one main source file, close off
all the lexical contexts for that file (creating struct block's for
them), then make the struct symtab for that file and put it in the
list of all such.
END_ADDR is the address of the end of the file's text. SECTION is
the section number (in objfile->section_offsets) of the blockvector
and linetable.
Note that it is possible for end_symtab() to return NULL. In
particular, for the DWARF case at least, it will return NULL when
it finds a compilation unit that has exactly one DIE, a
TAG_compile_unit DIE. This can happen when we link in an object
file that was compiled from an empty source file. Returning NULL
is probably not the correct thing to do, because then gdb will
never know about this empty file (FIXME). */
struct symtab *
end_symtab (CORE_ADDR end_addr, struct objfile *objfile, int section)
{
register struct symtab *symtab = NULL;
register struct blockvector *blockvector;
register struct subfile *subfile;
register struct context_stack *cstk;
struct subfile *nextsub;
/* Finish the lexical context of the last function in the file; pop
the context stack. */
if (context_stack_depth > 0)
{
cstk = pop_context ();
/* Make a block for the local symbols within. */
finish_block (cstk->name, &local_symbols, cstk->old_blocks,
cstk->start_addr, end_addr, objfile);
if (context_stack_depth > 0)
{
/* This is said to happen with SCO. The old coffread.c
code simply emptied the context stack, so we do the
same. FIXME: Find out why it is happening. This is not
believed to happen in most cases (even for coffread.c);
it used to be an abort(). */
complaint (&symfile_complaints,
"Context stack not empty in end_symtab");
context_stack_depth = 0;
}
}
/* Reordered executables may have out of order pending blocks; if
OBJF_REORDERED is true, then sort the pending blocks. */
if ((objfile->flags & OBJF_REORDERED) && pending_blocks)
{
/* FIXME! Remove this horrid bubble sort and use merge sort!!! */
int swapped;
do
{
struct pending_block *pb, *pbnext;
pb = pending_blocks;
pbnext = pb->next;
swapped = 0;
while (pbnext)
{
/* swap blocks if unordered! */
if (BLOCK_START (pb->block) < BLOCK_START (pbnext->block))
{
struct block *tmp = pb->block;
pb->block = pbnext->block;
pbnext->block = tmp;
swapped = 1;
}
pb = pbnext;
pbnext = pbnext->next;
}
}
while (swapped);
}
/* Cleanup any undefined types that have been left hanging around
(this needs to be done before the finish_blocks so that
file_symbols is still good).
Both cleanup_undefined_types and finish_global_stabs are stabs
specific, but harmless for other symbol readers, since on gdb
startup or when finished reading stabs, the state is set so these
are no-ops. FIXME: Is this handled right in case of QUIT? Can
we make this cleaner? */
cleanup_undefined_types ();
finish_global_stabs (objfile);
if (pending_blocks == NULL
&& file_symbols == NULL
&& global_symbols == NULL
&& have_line_numbers == 0
&& pending_macros == NULL)
{
/* Ignore symtabs that have no functions with real debugging
info. */
blockvector = NULL;
}
else
{
/* Define the STATIC_BLOCK & GLOBAL_BLOCK, and build the
blockvector. */
finish_block (0, &file_symbols, 0, last_source_start_addr, end_addr,
objfile);
finish_block (0, &global_symbols, 0, last_source_start_addr, end_addr,
objfile);
blockvector = make_blockvector (objfile);
}
#ifndef PROCESS_LINENUMBER_HOOK
#define PROCESS_LINENUMBER_HOOK()
#endif
PROCESS_LINENUMBER_HOOK (); /* Needed for xcoff. */
/* Now create the symtab objects proper, one for each subfile. */
/* (The main file is the last one on the chain.) */
for (subfile = subfiles; subfile; subfile = nextsub)
{
int linetablesize = 0;
symtab = NULL;
/* If we have blocks of symbols, make a symtab. Otherwise, just
ignore this file and any line number info in it. */
if (blockvector)
{
if (subfile->line_vector)
{
linetablesize = sizeof (struct linetable) +
subfile->line_vector->nitems * sizeof (struct linetable_entry);
#if 0
/* I think this is artifact from before it went on the
obstack. I doubt we'll need the memory between now
and when we free it later in this function. */
/* First, shrink the linetable to make more memory. */
subfile->line_vector = (struct linetable *)
xrealloc ((char *) subfile->line_vector, linetablesize);
#endif
/* Like the pending blocks, the line table may be
scrambled in reordered executables. Sort it if
OBJF_REORDERED is true. */
if (objfile->flags & OBJF_REORDERED)
qsort (subfile->line_vector->item,
subfile->line_vector->nitems,
sizeof (struct linetable_entry), compare_line_numbers);
}
/* Now, allocate a symbol table. */
symtab = allocate_symtab (subfile->name, objfile);
/* Fill in its components. */
symtab->blockvector = blockvector;
symtab->macro_table = pending_macros;
if (subfile->line_vector)
{
/* Reallocate the line table on the symbol obstack */
symtab->linetable = (struct linetable *)
obstack_alloc (&objfile->symbol_obstack, linetablesize);
memcpy (symtab->linetable, subfile->line_vector, linetablesize);
}
else
{
symtab->linetable = NULL;
}
symtab->block_line_section = section;
if (subfile->dirname)
{
/* Reallocate the dirname on the symbol obstack */
symtab->dirname = (char *)
obstack_alloc (&objfile->symbol_obstack,
strlen (subfile->dirname) + 1);
strcpy (symtab->dirname, subfile->dirname);
}
else
{
symtab->dirname = NULL;
}
symtab->free_code = free_linetable;
symtab->free_ptr = NULL;
/* Use whatever language we have been using for this
subfile, not the one that was deduced in allocate_symtab
from the filename. We already did our own deducing when
we created the subfile, and we may have altered our
opinion of what language it is from things we found in
the symbols. */
symtab->language = subfile->language;
/* Save the debug format string (if any) in the symtab */
if (subfile->debugformat != NULL)
{
symtab->debugformat = obsavestring (subfile->debugformat,
strlen (subfile->debugformat),
&objfile->symbol_obstack);
}
/* All symtabs for the main file and the subfiles share a
blockvector, so we need to clear primary for everything
but the main file. */
symtab->primary = 0;
}
if (subfile->name != NULL)
{
xfree ((void *) subfile->name);
}
if (subfile->dirname != NULL)
{
xfree ((void *) subfile->dirname);
}
if (subfile->line_vector != NULL)
{
xfree ((void *) subfile->line_vector);
}
if (subfile->debugformat != NULL)
{
xfree ((void *) subfile->debugformat);
}
nextsub = subfile->next;
xfree ((void *) subfile);
}
/* Set this for the main source file. */
if (symtab)
{
symtab->primary = 1;
}
last_source_file = NULL;
current_subfile = NULL;
pending_macros = NULL;
return symtab;
}
/* Push a context block. Args are an identifying nesting level
(checkable when you pop it), and the starting PC address of this
context. */
struct context_stack *
push_context (int desc, CORE_ADDR valu)
{
register struct context_stack *new;
if (context_stack_depth == context_stack_size)
{
context_stack_size *= 2;
context_stack = (struct context_stack *)
xrealloc ((char *) context_stack,
(context_stack_size * sizeof (struct context_stack)));
}
new = &context_stack[context_stack_depth++];
new->depth = desc;
new->locals = local_symbols;
new->params = param_symbols;
new->old_blocks = pending_blocks;
new->start_addr = valu;
new->name = NULL;
local_symbols = NULL;
param_symbols = NULL;
return new;
}
/* Pop a context block. Returns the address of the context block just
popped. */
struct context_stack *
pop_context (void)
{
gdb_assert (context_stack_depth > 0);
return (&context_stack[--context_stack_depth]);
}
/* Compute a small integer hash code for the given name. */
int
hashname (char *name)
{
return (hash(name,strlen(name)) % HASHSIZE);
}
void
record_debugformat (char *format)
{
current_subfile->debugformat = savestring (format, strlen (format));
}
/* Merge the first symbol list SRCLIST into the second symbol list
TARGETLIST by repeated calls to add_symbol_to_list(). This
procedure "frees" each link of SRCLIST by adding it to the
free_pendings list. Caller must set SRCLIST to a null list after
calling this function.
Void return. */
void
merge_symbol_lists (struct pending **srclist, struct pending **targetlist)
{
register int i;
if (!srclist || !*srclist)
return;
/* Merge in elements from current link. */
for (i = 0; i < (*srclist)->nsyms; i++)
add_symbol_to_list ((*srclist)->symbol[i], targetlist);
/* Recurse on next. */
merge_symbol_lists (&(*srclist)->next, targetlist);
/* "Free" the current link. */
(*srclist)->next = free_pendings;
free_pendings = (*srclist);
}
/* Initialize anything that needs initializing when starting to read a
fresh piece of a symbol file, e.g. reading in the stuff
corresponding to a psymtab. */
void
buildsym_init (void)
{
free_pendings = NULL;
file_symbols = NULL;
global_symbols = NULL;
pending_blocks = NULL;
pending_macros = NULL;
}
/* Initialize anything that needs initializing when a completely new
symbol file is specified (not just adding some symbols from another
file, e.g. a shared library). */
void
buildsym_new_init (void)
{
buildsym_init ();
}
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