old-cross-binutils/gdb/dwarfread.c

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/* DWARF debugging format support for GDB.
Copyright (C) 1991, 1992, 1993, 1994 Free Software Foundation, Inc.
Written by Fred Fish at Cygnus Support. Portions based on dbxread.c,
mipsread.c, coffread.c, and dwarfread.c from a Data General SVR4 gdb port.
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., 675 Mass Ave, Cambridge, MA 02139, USA. */
/*
1993-06-09 01:28:54 +00:00
FIXME: Do we need to generate dependencies in partial symtabs?
(Perhaps we don't need to).
FIXME: Resolve minor differences between what information we put in the
partial symbol table and what dbxread puts in. For example, we don't yet
put enum constants there. And dbxread seems to invent a lot of typedefs
we never see. Use the new printpsym command to see the partial symbol table
contents.
FIXME: Figure out a better way to tell gdb about the name of the function
contain the user's entry point (I.E. main())
FIXME: See other FIXME's and "ifdef 0" scattered throughout the code for
other things to work on, if you get bored. :-)
*/
#include "defs.h"
#include "symtab.h"
#include "gdbtypes.h"
#include "symfile.h"
#include "objfiles.h"
#include "elf/dwarf.h"
#include "buildsym.h"
#include "demangle.h"
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
#include "expression.h" /* Needed for enum exp_opcode in language.h, sigh... */
#include "language.h"
#include "complaints.h"
#include <fcntl.h>
#include <string.h>
#ifndef NO_SYS_FILE
#include <sys/file.h>
#endif
/* FIXME -- convert this to SEEK_SET a la POSIX, move to config files. */
#ifndef L_SET
#define L_SET 0
#endif
/* Some macros to provide DIE info for complaints. */
#define DIE_ID (curdie!=NULL ? curdie->die_ref : 0)
#define DIE_NAME (curdie!=NULL && curdie->at_name!=NULL) ? curdie->at_name : ""
/* Complaints that can be issued during DWARF debug info reading. */
struct complaint no_bfd_get_N =
{
"DIE @ 0x%x \"%s\", no bfd support for %d byte data object", 0, 0
};
struct complaint malformed_die =
{
"DIE @ 0x%x \"%s\", malformed DIE, bad length (%d bytes)", 0, 0
};
struct complaint bad_die_ref =
{
"DIE @ 0x%x \"%s\", reference to DIE (0x%x) outside compilation unit", 0, 0
};
struct complaint unknown_attribute_form =
{
"DIE @ 0x%x \"%s\", unknown attribute form (0x%x)", 0, 0
};
struct complaint unknown_attribute_length =
{
"DIE @ 0x%x \"%s\", unknown attribute length, skipped remaining attributes", 0, 0
};
struct complaint unexpected_fund_type =
{
"DIE @ 0x%x \"%s\", unexpected fundamental type 0x%x", 0, 0
};
struct complaint unknown_type_modifier =
{
"DIE @ 0x%x \"%s\", unknown type modifier %u", 0, 0
};
struct complaint volatile_ignored =
{
"DIE @ 0x%x \"%s\", type modifier 'volatile' ignored", 0, 0
};
struct complaint const_ignored =
{
"DIE @ 0x%x \"%s\", type modifier 'const' ignored", 0, 0
};
struct complaint botched_modified_type =
{
"DIE @ 0x%x \"%s\", botched modified type decoding (mtype 0x%x)", 0, 0
};
struct complaint op_deref2 =
{
"DIE @ 0x%x \"%s\", OP_DEREF2 address 0x%x not handled", 0, 0
};
struct complaint op_deref4 =
{
"DIE @ 0x%x \"%s\", OP_DEREF4 address 0x%x not handled", 0, 0
};
struct complaint basereg_not_handled =
{
"DIE @ 0x%x \"%s\", BASEREG %d not handled", 0, 0
};
struct complaint dup_user_type_allocation =
{
"DIE @ 0x%x \"%s\", internal error: duplicate user type allocation", 0, 0
};
struct complaint dup_user_type_definition =
{
"DIE @ 0x%x \"%s\", internal error: duplicate user type definition", 0, 0
};
struct complaint missing_tag =
{
"DIE @ 0x%x \"%s\", missing class, structure, or union tag", 0, 0
};
struct complaint bad_array_element_type =
{
"DIE @ 0x%x \"%s\", bad array element type attribute 0x%x", 0, 0
};
struct complaint subscript_data_items =
{
"DIE @ 0x%x \"%s\", can't decode subscript data items", 0, 0
};
struct complaint unhandled_array_subscript_format =
{
"DIE @ 0x%x \"%s\", array subscript format 0x%x not handled yet", 0, 0
};
struct complaint unknown_array_subscript_format =
{
"DIE @ 0x%x \"%s\", unknown array subscript format %x", 0, 0
};
struct complaint not_row_major =
{
"DIE @ 0x%x \"%s\", array not row major; not handled correctly", 0, 0
};
typedef unsigned int DIE_REF; /* Reference to a DIE */
#ifndef GCC_PRODUCER
#define GCC_PRODUCER "GNU C "
#endif
#ifndef GPLUS_PRODUCER
#define GPLUS_PRODUCER "GNU C++ "
#endif
#ifndef LCC_PRODUCER
* cplus-dem.c (cplus_markers): Add table for gnu style and use throughout, in place of compile time constant CPLUS_MARKER. * cplus-dem.c (ARM_VTABLE_STRING, ARM_VTABLE_STRLEN): Add. * cplus-dem.c (cfront_special): New function, as suggested by pfieland@stratus.com. * cplus-dem.c (forget_types): New function. * cplus-dem.c (cplus_demangle): Call gnu_special, moved from demangle_prefix(). * cplus-dem.c (mop_up): Call forget_types(). * cplus-dem.c (AUTO_DEMANGLING, GNU_DEMANGLING, LUCID_DEMANGLING): Use throughout, instead of checking current_demangling_style. * cplus-dem.c (demangle_signature): When finding an explicit start of function args, forget all remembered types for lucid/cfront style demangling. * cplus-dem.c (demangle_prefix): In a sequence of two or more underbar characters, use last pair as the delimiter. Hoist gnu_special() call up to cplus_demangle(). Call cfront_special() when appropriate. * cplus-dem.c (cplus_special): Fix virtual table name demangling for inherited classes. * cplus-dem.c (demangle_args): Document quirks of numbered references to previously seen types. * dbxread.c (read_ofile_symtab, process_one_symbol): Use AUTO_DEMANGLING rather than explicitly checking current_demangling_style. * demangle.h: Add some comments. * demangle.h (AUTO_DEMANGLING, GNU_DEMANGLING, LUCID_DEMANGLING, CFRONT_DEMANGLING): New macros. * dwarfread.c (LCC_PRODUCER): Remove trailing space, which is not found in the actual producer string produced by lcc. * dwarfread.c (handle_producer): Use AUTO_DEMANGLING rather than explicitly checking current_demangling_style.
1992-08-14 19:14:15 +00:00
#define LCC_PRODUCER "NCR C/C++"
#endif
#ifndef CHILL_PRODUCER
#define CHILL_PRODUCER "GNU Chill "
#endif
/* Provide a default mapping from a DWARF register number to a gdb REGNUM. */
#ifndef DWARF_REG_TO_REGNUM
#define DWARF_REG_TO_REGNUM(num) (num)
#endif
/* Flags to target_to_host() that tell whether or not the data object is
expected to be signed. Used, for example, when fetching a signed
integer in the target environment which is used as a signed integer
in the host environment, and the two environments have different sized
ints. In this case, *somebody* has to sign extend the smaller sized
int. */
#define GET_UNSIGNED 0 /* No sign extension required */
#define GET_SIGNED 1 /* Sign extension required */
/* Defines for things which are specified in the document "DWARF Debugging
Information Format" published by UNIX International, Programming Languages
SIG. These defines are based on revision 1.0.0, Jan 20, 1992. */
#define SIZEOF_DIE_LENGTH 4
#define SIZEOF_DIE_TAG 2
#define SIZEOF_ATTRIBUTE 2
#define SIZEOF_FORMAT_SPECIFIER 1
#define SIZEOF_FMT_FT 2
#define SIZEOF_LINETBL_LENGTH 4
#define SIZEOF_LINETBL_LINENO 4
#define SIZEOF_LINETBL_STMT 2
#define SIZEOF_LINETBL_DELTA 4
#define SIZEOF_LOC_ATOM_CODE 1
#define FORM_FROM_ATTR(attr) ((attr) & 0xF) /* Implicitly specified */
/* Macros that return the sizes of various types of data in the target
environment.
FIXME: Currently these are just compile time constants (as they are in
other parts of gdb as well). They need to be able to get the right size
either from the bfd or possibly from the DWARF info. It would be nice if
the DWARF producer inserted DIES that describe the fundamental types in
the target environment into the DWARF info, similar to the way dbx stabs
producers produce information about their fundamental types. */
#define TARGET_FT_POINTER_SIZE(objfile) (TARGET_PTR_BIT / TARGET_CHAR_BIT)
#define TARGET_FT_LONG_SIZE(objfile) (TARGET_LONG_BIT / TARGET_CHAR_BIT)
/* The Amiga SVR4 header file <dwarf.h> defines AT_element_list as a
FORM_BLOCK2, and this is the value emitted by the AT&T compiler.
However, the Issue 2 DWARF specification from AT&T defines it as
a FORM_BLOCK4, as does the latest specification from UI/PLSIG.
For backwards compatibility with the AT&T compiler produced executables
we define AT_short_element_list for this variant. */
#define AT_short_element_list (0x00f0|FORM_BLOCK2)
/* External variables referenced. */
extern int info_verbose; /* From main.c; nonzero => verbose */
extern char *warning_pre_print; /* From utils.c */
/* The DWARF debugging information consists of two major pieces,
one is a block of DWARF Information Entries (DIE's) and the other
is a line number table. The "struct dieinfo" structure contains
the information for a single DIE, the one currently being processed.
In order to make it easier to randomly access the attribute fields
of the current DIE, which are specifically unordered within the DIE,
each DIE is scanned and an instance of the "struct dieinfo"
structure is initialized.
Initialization is done in two levels. The first, done by basicdieinfo(),
just initializes those fields that are vital to deciding whether or not
to use this DIE, how to skip past it, etc. The second, done by the
function completedieinfo(), fills in the rest of the information.
Attributes which have block forms are not interpreted at the time
the DIE is scanned, instead we just save pointers to the start
of their value fields.
Some fields have a flag <name>_p that is set when the value of the
field is valid (I.E. we found a matching attribute in the DIE). Since
we may want to test for the presence of some attributes in the DIE,
such as AT_low_pc, without restricting the values of the field,
we need someway to note that we found such an attribute.
*/
typedef char BLOCK;
struct dieinfo {
char * die; /* Pointer to the raw DIE data */
unsigned long die_length; /* Length of the raw DIE data */
DIE_REF die_ref; /* Offset of this DIE */
unsigned short die_tag; /* Tag for this DIE */
unsigned long at_padding;
unsigned long at_sibling;
BLOCK * at_location;
char * at_name;
unsigned short at_fund_type;
BLOCK * at_mod_fund_type;
unsigned long at_user_def_type;
BLOCK * at_mod_u_d_type;
unsigned short at_ordering;
BLOCK * at_subscr_data;
unsigned long at_byte_size;
unsigned short at_bit_offset;
unsigned long at_bit_size;
BLOCK * at_element_list;
unsigned long at_stmt_list;
unsigned long at_low_pc;
unsigned long at_high_pc;
unsigned long at_language;
unsigned long at_member;
unsigned long at_discr;
BLOCK * at_discr_value;
BLOCK * at_string_length;
char * at_comp_dir;
char * at_producer;
unsigned long at_start_scope;
unsigned long at_stride_size;
unsigned long at_src_info;
char * at_prototyped;
unsigned int has_at_low_pc:1;
unsigned int has_at_stmt_list:1;
unsigned int has_at_byte_size:1;
unsigned int short_element_list:1;
};
static int diecount; /* Approximate count of dies for compilation unit */
static struct dieinfo *curdie; /* For warnings and such */
static char *dbbase; /* Base pointer to dwarf info */
static int dbsize; /* Size of dwarf info in bytes */
static int dbroff; /* Relative offset from start of .debug section */
static char *lnbase; /* Base pointer to line section */
static int isreg; /* Kludge to identify register variables */
/* Kludge to identify basereg references. Nonzero if we have an offset
relative to a basereg. */
static int offreg;
/* Which base register is it relative to? */
static int basereg;
/* This value is added to each symbol value. FIXME: Generalize to
the section_offsets structure used by dbxread (once this is done,
pass the appropriate section number to end_symtab). */
static CORE_ADDR baseaddr; /* Add to each symbol value */
/* The section offsets used in the current psymtab or symtab. FIXME,
only used to pass one value (baseaddr) at the moment. */
static struct section_offsets *base_section_offsets;
/* Each partial symbol table entry contains a pointer to private data for the
read_symtab() function to use when expanding a partial symbol table entry
to a full symbol table entry. For DWARF debugging info, this data is
contained in the following structure and macros are provided for easy
access to the members given a pointer to a partial symbol table entry.
dbfoff Always the absolute file offset to the start of the ".debug"
section for the file containing the DIE's being accessed.
dbroff Relative offset from the start of the ".debug" access to the
first DIE to be accessed. When building the partial symbol
table, this value will be zero since we are accessing the
entire ".debug" section. When expanding a partial symbol
table entry, this value will be the offset to the first
DIE for the compilation unit containing the symbol that
triggers the expansion.
dblength The size of the chunk of DIE's being examined, in bytes.
lnfoff The absolute file offset to the line table fragment. Ignored
when building partial symbol tables, but used when expanding
them, and contains the absolute file offset to the fragment
of the ".line" section containing the line numbers for the
current compilation unit.
*/
struct dwfinfo {
file_ptr dbfoff; /* Absolute file offset to start of .debug section */
int dbroff; /* Relative offset from start of .debug section */
int dblength; /* Size of the chunk of DIE's being examined */
file_ptr lnfoff; /* Absolute file offset to line table fragment */
};
#define DBFOFF(p) (((struct dwfinfo *)((p)->read_symtab_private))->dbfoff)
#define DBROFF(p) (((struct dwfinfo *)((p)->read_symtab_private))->dbroff)
#define DBLENGTH(p) (((struct dwfinfo *)((p)->read_symtab_private))->dblength)
#define LNFOFF(p) (((struct dwfinfo *)((p)->read_symtab_private))->lnfoff)
/* The generic symbol table building routines have separate lists for
file scope symbols and all all other scopes (local scopes). So
we need to select the right one to pass to add_symbol_to_list().
We do it by keeping a pointer to the correct list in list_in_scope.
FIXME: The original dwarf code just treated the file scope as the first
local scope, and all other local scopes as nested local scopes, and worked
fine. Check to see if we really need to distinguish these in buildsym.c */
struct pending **list_in_scope = &file_symbols;
/* DIES which have user defined types or modified user defined types refer to
other DIES for the type information. Thus we need to associate the offset
of a DIE for a user defined type with a pointer to the type information.
Originally this was done using a simple but expensive algorithm, with an
array of unsorted structures, each containing an offset/type-pointer pair.
This array was scanned linearly each time a lookup was done. The result
was that gdb was spending over half it's startup time munging through this
array of pointers looking for a structure that had the right offset member.
The second attempt used the same array of structures, but the array was
sorted using qsort each time a new offset/type was recorded, and a binary
search was used to find the type pointer for a given DIE offset. This was
even slower, due to the overhead of sorting the array each time a new
offset/type pair was entered.
The third attempt uses a fixed size array of type pointers, indexed by a
value derived from the DIE offset. Since the minimum DIE size is 4 bytes,
we can divide any DIE offset by 4 to obtain a unique index into this fixed
size array. Since each element is a 4 byte pointer, it takes exactly as
much memory to hold this array as to hold the DWARF info for a given
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
compilation unit. But it gets freed as soon as we are done with it.
This has worked well in practice, as a reasonable tradeoff between memory
consumption and speed, without having to resort to much more complicated
algorithms. */
static struct type **utypes; /* Pointer to array of user type pointers */
static int numutypes; /* Max number of user type pointers */
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
/* Maintain an array of referenced fundamental types for the current
compilation unit being read. For DWARF version 1, we have to construct
the fundamental types on the fly, since no information about the
fundamental types is supplied. Each such fundamental type is created by
calling a language dependent routine to create the type, and then a
pointer to that type is then placed in the array at the index specified
by it's FT_<TYPENAME> value. The array has a fixed size set by the
FT_NUM_MEMBERS compile time constant, which is the number of predefined
fundamental types gdb knows how to construct. */
static struct type *ftypes[FT_NUM_MEMBERS]; /* Fundamental types */
1992-08-31 20:50:45 +00:00
/* Record the language for the compilation unit which is currently being
processed. We know it once we have seen the TAG_compile_unit DIE,
and we need it while processing the DIE's for that compilation unit.
It is eventually saved in the symtab structure, but we don't finalize
the symtab struct until we have processed all the DIE's for the
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
compilation unit. We also need to get and save a pointer to the
language struct for this language, so we can call the language
dependent routines for doing things such as creating fundamental
types. */
1992-08-31 20:50:45 +00:00
static enum language cu_language;
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
static const struct language_defn *cu_language_defn;
1992-08-31 20:50:45 +00:00
/* Forward declarations of static functions so we don't have to worry
about ordering within this file. */
static int
attribute_size PARAMS ((unsigned int));
static unsigned long
target_to_host PARAMS ((char *, int, int, struct objfile *));
static void
add_enum_psymbol PARAMS ((struct dieinfo *, struct objfile *));
static void
handle_producer PARAMS ((char *));
static void
read_file_scope PARAMS ((struct dieinfo *, char *, char *, struct objfile *));
1991-11-15 23:23:11 +00:00
static void
read_func_scope PARAMS ((struct dieinfo *, char *, char *, struct objfile *));
static void
read_lexical_block_scope PARAMS ((struct dieinfo *, char *, char *,
struct objfile *));
static void
scan_partial_symbols PARAMS ((char *, char *, struct objfile *));
static void
scan_compilation_units PARAMS ((char *, char *, file_ptr,
file_ptr, struct objfile *));
static void
add_partial_symbol PARAMS ((struct dieinfo *, struct objfile *));
static void
init_psymbol_list PARAMS ((struct objfile *, int));
static void
basicdieinfo PARAMS ((struct dieinfo *, char *, struct objfile *));
static void
completedieinfo PARAMS ((struct dieinfo *, struct objfile *));
static void
dwarf_psymtab_to_symtab PARAMS ((struct partial_symtab *));
static void
psymtab_to_symtab_1 PARAMS ((struct partial_symtab *));
static void
read_ofile_symtab PARAMS ((struct partial_symtab *));
static void
process_dies PARAMS ((char *, char *, struct objfile *));
static void
read_structure_scope PARAMS ((struct dieinfo *, char *, char *,
struct objfile *));
static struct type *
Create and use macros for iterating on symtabs, psymtabs, msymbols. * minsyms.c (iterate_over_msymbols): Remove; clunky and slow. * symfile.h, symtab.h (iterate_over_msymbols): Remove prototype * coffread.c (coff_symfile_read): iterate_over_symtabs => ALL_SYMTABS. (patch_opaque_types): Avoid dummy args and result. * objfiles.c (have_partial_symbols, have_full_symbols, have_minimal_symbols): explicit iteration => ALL_OBJFILES; simplify. (iterate_over_objfiles, iterate_over_symtabs, iterate_over_psymtabs): Remove, clunky and slow. * objfiles.h: Replace iterate_over_* prototypes with ALL_SYMTABS, ALL_PSYMTABS, and ALL_MSYMBOLS macros. * symmisc.c (dump_symtab, dump_psymtab, dump_msymbols, dump_objfile): Remove dummy args and results. Move filename comparisons to callers. (printsyms_command, printpsyms_command, printmsyms_command, printobjfiles_command): iterate_over_* => ALL_*. Compare filenames. * symtab.c (lookup_symtab_1, lookup_symtab, lookup_partial_symtab, lookup_symbol, find_main_psymtab, find_pc_symtab, sources_info, list_symbols, make_symbol_completion_list): Replace explicit iteration with ALL_SYMTABS, ALL_PSYMTABS, or ALL_MSYMBOLS. Eliminate Dijkstra flag crap, break out of loops with gotos. (lookup_symtab_1): Protect '/' tests from short filenames. (cplus_mangled_symbol): Move inline into lookup_symbol. * xcoffexec.c (relocate_objfile_msymbols): Remove poor hack. (relocate_minimal_symbol): Move inline to vmap_symtab. (vmap_symtab): Replace iteration with ALL_OBJFILES, iterate_over_msymbols with ALL_MSYMBOLS. Misc cleanup prior to release. * dwarfread.c (dwarf_build_psymtabs): Remove mainline test. * mipsread.c (compare_symtabs, compare_psymtabs): Remove, unused. * mipsread.c: Add prototypes for all static functions. * symmisc.c (dump_symtab_lines, dump_symtabs, dump_last_symtab, dump_blockvector, dump_block, dump_addrchass, dump_namespace, dump_symbol, dump_type, dump_linetable, dump_strtbl): Remove, unused. * xcoffread.c (dump_symtab_lines, dump_symtabs, dump_last_symtab, dump_blockvector, dump_block, dump_addrchass, dump_namespace, dump_symbol, dump_type, dump_linetable, dump_strtbl): Remove 2nd unused copy! * buildsym.c (define_symbol): Handle global register variables (from Pierre Willard). Complain if register numbers are too large.
1992-03-29 23:17:36 +00:00
decode_array_element_type PARAMS ((char *));
static struct type *
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
decode_subscript_data_item PARAMS ((char *, char *));
static void
dwarf_read_array_type PARAMS ((struct dieinfo *));
static void
read_tag_pointer_type PARAMS ((struct dieinfo *dip));
static void
read_tag_string_type PARAMS ((struct dieinfo *dip));
static void
read_subroutine_type PARAMS ((struct dieinfo *, char *, char *));
static void
read_enumeration PARAMS ((struct dieinfo *, char *, char *, struct objfile *));
static struct type *
struct_type PARAMS ((struct dieinfo *, char *, char *, struct objfile *));
static struct type *
enum_type PARAMS ((struct dieinfo *, struct objfile *));
static void
decode_line_numbers PARAMS ((char *));
static struct type *
decode_die_type PARAMS ((struct dieinfo *));
static struct type *
decode_mod_fund_type PARAMS ((char *));
static struct type *
decode_mod_u_d_type PARAMS ((char *));
static struct type *
decode_modified_type PARAMS ((char *, unsigned int, int));
static struct type *
decode_fund_type PARAMS ((unsigned int));
static char *
create_name PARAMS ((char *, struct obstack *));
static struct type *
lookup_utype PARAMS ((DIE_REF));
static struct type *
alloc_utype PARAMS ((DIE_REF, struct type *));
static struct symbol *
new_symbol PARAMS ((struct dieinfo *, struct objfile *));
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static void
synthesize_typedef PARAMS ((struct dieinfo *, struct objfile *,
struct type *));
static int
locval PARAMS ((char *));
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static void
set_cu_language PARAMS ((struct dieinfo *));
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
static struct type *
dwarf_fundamental_type PARAMS ((struct objfile *, int));
/*
LOCAL FUNCTION
dwarf_fundamental_type -- lookup or create a fundamental type
SYNOPSIS
struct type *
dwarf_fundamental_type (struct objfile *objfile, int typeid)
DESCRIPTION
DWARF version 1 doesn't supply any fundamental type information,
so gdb has to construct such types. It has a fixed number of
fundamental types that it knows how to construct, which is the
union of all types that it knows how to construct for all languages
that it knows about. These are enumerated in gdbtypes.h.
As an example, assume we find a DIE that references a DWARF
fundamental type of FT_integer. We first look in the ftypes
array to see if we already have such a type, indexed by the
gdb internal value of FT_INTEGER. If so, we simply return a
pointer to that type. If not, then we ask an appropriate
language dependent routine to create a type FT_INTEGER, using
defaults reasonable for the current target machine, and install
that type in ftypes for future reference.
RETURNS
Pointer to a fundamental type.
*/
static struct type *
dwarf_fundamental_type (objfile, typeid)
struct objfile *objfile;
int typeid;
{
if (typeid < 0 || typeid >= FT_NUM_MEMBERS)
{
error ("internal error - invalid fundamental type id %d", typeid);
}
/* Look for this particular type in the fundamental type vector. If one is
not found, create and install one appropriate for the current language
and the current target machine. */
if (ftypes[typeid] == NULL)
{
ftypes[typeid] = cu_language_defn -> la_fund_type(objfile, typeid);
}
return (ftypes[typeid]);
}
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/*
LOCAL FUNCTION
set_cu_language -- set local copy of language for compilation unit
SYNOPSIS
void
set_cu_language (struct dieinfo *dip)
DESCRIPTION
Decode the language attribute for a compilation unit DIE and
remember what the language was. We use this at various times
when processing DIE's for a given compilation unit.
RETURNS
No return value.
*/
static void
set_cu_language (dip)
struct dieinfo *dip;
{
switch (dip -> at_language)
{
case LANG_C89:
case LANG_C:
cu_language = language_c;
break;
case LANG_C_PLUS_PLUS:
cu_language = language_cplus;
break;
* Makefile.in (SFILES_MAINDIR): Add ch-exp.y. * Makefile.in (YYFILES): Add ch-exp.tab.c. * Makefile.in (YYOBJ): Add ch-exp.tab.o. * Makefile.in (saber_gdb): Add unload of ch-exp.y and load of ch-exp.tab.c. * Makefile.in (distclean): Add target ch-exp.tab.c. * Makefile.in (realclean): Add rm of ch-exp.tab.c. * Makefile.in (c-exp.tab.c, m2-exp.tab.c): Add dependency on Makefile since it contains sed patterns used in generation. Add sed pattern to also delete #include of any malloc.h. * Makefile.in (ch-exp.tab.o, ch-exp.tab.c): New targets. * ch-exp.y: New expression parser, for GNU-Chill. * c-exp.y, expr.c, expression.h, language.c, m2-exp.y, parser-defs.h, valarith.c, valops.c, value.h: Remap macros and function names to conform to K&R terminology with respect to logical and bitwise operators: UNOP_ZEROP => UNOP_LOGICAL_NOT UNOP_LOGNOT => UNOP_COMPLEMENT BINOP_LOGAND => BINOP_BITWISE_AND BINOP_LOGXOR => BINOP_BITWISE_XOR BINOP_LOGIOR => BINOP_BITWISE_IOR BINOP_AND => BINOP_LOGICAL_AND BINOP_OR => BINOP_LOGICAL_OR PREC_OR => PREC_LOGICAL_OR PREC_AND => PREC_LOGICAL_AND PREC_LOGIOR => PREC_BITWISE_IOR PREC_LOGXOR => PREC_BITWISE_XOR PREC_LOGAND => PREC_BITWISE_AND value_zerop() => value_logical_not() value_lognot() => value_complement() * c-exp.y (c_op_print_tab): Add explicit empty terminator. * m2-exp.y (m2_op_print_tab): Add explicit empty terminator. * defs.h (enum language): Add language_chill. * dwarfread.c (set_cu_language): Add LANG_CHILL case and make LANG_MODULA2 a recognized language. * eval.c (evaluate_subexp): Add OP_BOOL case. * expprint.c (print_subexp): Add OP_BOOL case. * gdbtypes.h (enum_typecode): Note TYPE_CODE_BOOL used for Chill as well as Modula-2. * gdbtypes.y (builtin_type_chill_bool, builtin_type_chill_long, builtin_type_chill_ulong, builtin_type_chill_real): Add. * i387-tdep.c (sys/dir.h): Remove, appears to be unnecessary and is nonexistant in some SVR4 based systems. * language.c (DEFAULT_ALLOCSIZE): Change from 3 => 4. * language.c (set_language_command): Add chill. * language.c (binop_result_type, integral_type, character_type, boolean_type, structured_type, value_true, binop_type_check): Add language_chill cases. * language.h (_LANG_chill): Define. * m2-exp.y (number_sign, modblock): Make static, #ifdef out unused modblock. * m2-exp.y (ANDAND): Rename to LOGICAL_AND. * source.c (source_info): Fix minor nits, print "1 line" rather than "1 lines", and "language is <lang>". * symfile.c (deduce_language_from_filename): Recognize the filename extensions ".chill", ".c186", and ".c286" for Chill. * valarith.c (value_binop): Handle TYPE_CODE_BOOL as well as TYPE_CODE_INT and TYPE_CODE_FLOAT. * valprint.c (val_print): Print TYPE_CODE_BOOL type values as "TRUE" or "FALSE". * valprint.c (typedef_print): Add case for language_chill. * values.c (value_from_longest): Handle TYPE_CODE_BOOL.
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case LANG_CHILL:
cu_language = language_chill;
break;
case LANG_MODULA2:
cu_language = language_m2;
break;
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case LANG_ADA83:
case LANG_COBOL74:
case LANG_COBOL85:
case LANG_FORTRAN77:
case LANG_FORTRAN90:
case LANG_PASCAL83:
* defs.h (STRCMP, STREQ, STREQN): New macros. * defs.h (demangle_and_match): Remove prototype. * dwarfread.c (STREQ, STREQN): Remove macros, replaced with STREQ and STREQN defined in defs.h. * dwarfread.c (set_cu_language): For completely unknown languages, try to deduce the language from the filename. Retain behavior that for known languages we don't know how to handle, we use language_unknown. * dwarfread.c (enum_type, symthesize_typedef): Initialize language and demangled name fields in symbol. * dwarfread.c, mipsread.c, partial-stab.h: For all usages of ADD_PSYMBOL_TO_LIST, add language and objfile parameters. * dwarfread.c (new_symbol): Attempt to demangle C++ symbol names and cache the results in SYMBOL_DEMANGLED_NAME for the symbol. * elfread.c (STREQ): Remove macro, use STREQ defined in defs.h. Replace usages throughout. * elfread.c (demangle.h): Include. * elfread.c (record_minimal_symbol): Remove prototype and function. * gdbtypes.h, symtab.h (B_SET, B_CLR, B_TST, B_TYPE, B_BYTES, B_CLRALL): Moved from symtab.h to gdbtypes.h. * infcmd.c (jump_command): Remove code to demangle name and add it to a cleanup list. Now just use SYMBOL_DEMANGLED_NAME. * minsyms.c (demangle.h): Include. * minsyms.c (lookup_minimal_symbol): Indent comment to match code. * minsyms.c (install_minimal_symbols): Attempt to demangle symbol names as C++ names, and cache them in SYMBOL_DEMANGLED_NAME. * mipsread.c (psymtab_language): Add static variable. * stabsread.c (demangle.h): Include. * stabsread.c (define_symbol): Attempt to demangle C++ symbol names and cache them in the SYMBOL_DEMANGLED_NAME field. * stack.c (return_command): Remove explicit demangling of name and use of cleanups. Just use SYMBOL_DEMANGLED_NAME. * symfile.c (demangle.h): Include. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Fix to match macros in symfile.h and allow them to be compiled if INLINE_ADD_PSYMBOL is not true. * symfile.h (INLINE_ADD_PSYMBOL): Default to true if not set. * symfile.h (ADD_PSYMBOL_*): Add language and objfile parameters. Add code to demangle and cache C++ symbol names. Use macro form if INLINE_ADD_PSYMBOL is true, otherwise use C function form. * symmisc.c (add_psymbol_to_list, add_psymbol_addr_to_list): Remove, also defined in symfile.c, which we already fixed. * symtab.c (expensive_mangler): Remove prototype and function. * symtab.c (find_methods): Remove physnames parameter and fix prototype to match. * symtab.c (completion_list_add_symbol): Name changed to completion_list_add_name. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): New macro, adds both the normal symbol name and the cached C++ demangled name. * symtab.c (lookup_demangled_partial_symbol, lookup_demangled_block_symbol): Remove prototypes and functions. * symtab.c (lookup_symbol): Remove use of expensive_mangler, use lookup_block_symbol instead of lookup_demangled_block_symbol. Remove code to try demangling names and matching them. * symtab.c (lookup_partial_symbol, lookup_block_symbol): Fix to try matching the cached demangled name if no match is found using the regular symbol name. * symtab.c (find_methods): Remove unused physnames array. * symtab.c (name_match, NAME_MATCH): Remove function and macro, replaced with SYMBOL_MATCHES_REGEXP from symtab.h. * symtab.c (completion_list_add_symbol): Rewrite to use cached C++ demangled symbol names. * symtab.h: Much reformatting of structures and such to add whitespace to make them more readable, and make them more consistent with other gdb structure definitions. * symtab.h (general_symbol_info): New struct containing fields common to all symbols. * symtab.h (SYMBOL_LANGUAGE, SYMBOL_DEMANGLED_NAME, SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP, MSYMBOL_INFO, MSYMBOL_TYPE): New macros. * symtab. (struct minimal_symbol, struct partial_symbol, struct symbol): Use general_symbol_info struct. * utils.c (demangle_and_match): Remove, no longer used. * valops.c (demangle.h): Include. * xcoffexec.c (eq): Remove macro, replace usages with STREQ. * blockframe.c, breakpoint.c, c-exp.y, c-valprint.c, dbxread.c, infcmd.c, m2-exp.y, minsyms.c, objfiles.h, solib.c, stack.c, symmisc.c, symtab.c, valops.c: Replace references to minimal symbol fields with appropriate macros. * breakpoint.c, buildsym.c, c-exp.y, c-typeprint.c, c-valprint.c, coffread.c, command.c, convex-tdep.c, cp-valprint.c, dbxread.c, demangle.c, elfread.c, energize.c, environ.c, exec.c, gdbtypes.c, i960-tdep.c, infrun.c, infrun-hacked.c, language.c, main.c, minsyms.c, mipsread.c, partial-stab.h, remote-es1800.c, remote-nindy.c, remote-udi.c, rs6000-tdep.c, solib.c, source.c, sparc-pinsn.c, stabsread.c, standalone.c, state.c, stuff.c, symfile.c, symmisc.c, symtab.c, symtab.h, tm-sysv4.h, tm-ultra3.h, values.c, xcoffexec.c, xcoffread.c: Replace strcmp and strncmp usages with STREQ, STREQN, or STRCMP as appropriate. * breakpoint.c, buildsym.c, c-typeprint.c, expprint.c, findvar.c, mipsread.c, printcmd.c, source.c, stabsread.c, stack.c, symmisc.c, tm-29k.h, valops.c, values.c: Replace SYMBOL_NAME references with SYMBOL_SOURCE_NAME or SYMBOL_LINKAGE_NAME as appropriate. * buildsym.c (start_subfile, patch_subfile_names): Default the source language to what can be deduced from the filename. * buildsym.c (end_symtab): Update the source language in the allocated symtab to match what we have been using. * buildsym.h (struct subfile): Add a language field. * c-typeprint.c (c_print_type): Remove code to do explicit demangling. * dbxread.c (psymtab_language): Add static variable. * dbxread.c (start_psymtab): Initialize psymtab_language using deduce_language_from_filename.
1992-12-23 06:34:57 +00:00
/* We don't know anything special about these yet. */
1992-08-31 20:50:45 +00:00
cu_language = language_unknown;
break;
* defs.h (STRCMP, STREQ, STREQN): New macros. * defs.h (demangle_and_match): Remove prototype. * dwarfread.c (STREQ, STREQN): Remove macros, replaced with STREQ and STREQN defined in defs.h. * dwarfread.c (set_cu_language): For completely unknown languages, try to deduce the language from the filename. Retain behavior that for known languages we don't know how to handle, we use language_unknown. * dwarfread.c (enum_type, symthesize_typedef): Initialize language and demangled name fields in symbol. * dwarfread.c, mipsread.c, partial-stab.h: For all usages of ADD_PSYMBOL_TO_LIST, add language and objfile parameters. * dwarfread.c (new_symbol): Attempt to demangle C++ symbol names and cache the results in SYMBOL_DEMANGLED_NAME for the symbol. * elfread.c (STREQ): Remove macro, use STREQ defined in defs.h. Replace usages throughout. * elfread.c (demangle.h): Include. * elfread.c (record_minimal_symbol): Remove prototype and function. * gdbtypes.h, symtab.h (B_SET, B_CLR, B_TST, B_TYPE, B_BYTES, B_CLRALL): Moved from symtab.h to gdbtypes.h. * infcmd.c (jump_command): Remove code to demangle name and add it to a cleanup list. Now just use SYMBOL_DEMANGLED_NAME. * minsyms.c (demangle.h): Include. * minsyms.c (lookup_minimal_symbol): Indent comment to match code. * minsyms.c (install_minimal_symbols): Attempt to demangle symbol names as C++ names, and cache them in SYMBOL_DEMANGLED_NAME. * mipsread.c (psymtab_language): Add static variable. * stabsread.c (demangle.h): Include. * stabsread.c (define_symbol): Attempt to demangle C++ symbol names and cache them in the SYMBOL_DEMANGLED_NAME field. * stack.c (return_command): Remove explicit demangling of name and use of cleanups. Just use SYMBOL_DEMANGLED_NAME. * symfile.c (demangle.h): Include. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Fix to match macros in symfile.h and allow them to be compiled if INLINE_ADD_PSYMBOL is not true. * symfile.h (INLINE_ADD_PSYMBOL): Default to true if not set. * symfile.h (ADD_PSYMBOL_*): Add language and objfile parameters. Add code to demangle and cache C++ symbol names. Use macro form if INLINE_ADD_PSYMBOL is true, otherwise use C function form. * symmisc.c (add_psymbol_to_list, add_psymbol_addr_to_list): Remove, also defined in symfile.c, which we already fixed. * symtab.c (expensive_mangler): Remove prototype and function. * symtab.c (find_methods): Remove physnames parameter and fix prototype to match. * symtab.c (completion_list_add_symbol): Name changed to completion_list_add_name. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): New macro, adds both the normal symbol name and the cached C++ demangled name. * symtab.c (lookup_demangled_partial_symbol, lookup_demangled_block_symbol): Remove prototypes and functions. * symtab.c (lookup_symbol): Remove use of expensive_mangler, use lookup_block_symbol instead of lookup_demangled_block_symbol. Remove code to try demangling names and matching them. * symtab.c (lookup_partial_symbol, lookup_block_symbol): Fix to try matching the cached demangled name if no match is found using the regular symbol name. * symtab.c (find_methods): Remove unused physnames array. * symtab.c (name_match, NAME_MATCH): Remove function and macro, replaced with SYMBOL_MATCHES_REGEXP from symtab.h. * symtab.c (completion_list_add_symbol): Rewrite to use cached C++ demangled symbol names. * symtab.h: Much reformatting of structures and such to add whitespace to make them more readable, and make them more consistent with other gdb structure definitions. * symtab.h (general_symbol_info): New struct containing fields common to all symbols. * symtab.h (SYMBOL_LANGUAGE, SYMBOL_DEMANGLED_NAME, SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP, MSYMBOL_INFO, MSYMBOL_TYPE): New macros. * symtab. (struct minimal_symbol, struct partial_symbol, struct symbol): Use general_symbol_info struct. * utils.c (demangle_and_match): Remove, no longer used. * valops.c (demangle.h): Include. * xcoffexec.c (eq): Remove macro, replace usages with STREQ. * blockframe.c, breakpoint.c, c-exp.y, c-valprint.c, dbxread.c, infcmd.c, m2-exp.y, minsyms.c, objfiles.h, solib.c, stack.c, symmisc.c, symtab.c, valops.c: Replace references to minimal symbol fields with appropriate macros. * breakpoint.c, buildsym.c, c-exp.y, c-typeprint.c, c-valprint.c, coffread.c, command.c, convex-tdep.c, cp-valprint.c, dbxread.c, demangle.c, elfread.c, energize.c, environ.c, exec.c, gdbtypes.c, i960-tdep.c, infrun.c, infrun-hacked.c, language.c, main.c, minsyms.c, mipsread.c, partial-stab.h, remote-es1800.c, remote-nindy.c, remote-udi.c, rs6000-tdep.c, solib.c, source.c, sparc-pinsn.c, stabsread.c, standalone.c, state.c, stuff.c, symfile.c, symmisc.c, symtab.c, symtab.h, tm-sysv4.h, tm-ultra3.h, values.c, xcoffexec.c, xcoffread.c: Replace strcmp and strncmp usages with STREQ, STREQN, or STRCMP as appropriate. * breakpoint.c, buildsym.c, c-typeprint.c, expprint.c, findvar.c, mipsread.c, printcmd.c, source.c, stabsread.c, stack.c, symmisc.c, tm-29k.h, valops.c, values.c: Replace SYMBOL_NAME references with SYMBOL_SOURCE_NAME or SYMBOL_LINKAGE_NAME as appropriate. * buildsym.c (start_subfile, patch_subfile_names): Default the source language to what can be deduced from the filename. * buildsym.c (end_symtab): Update the source language in the allocated symtab to match what we have been using. * buildsym.h (struct subfile): Add a language field. * c-typeprint.c (c_print_type): Remove code to do explicit demangling. * dbxread.c (psymtab_language): Add static variable. * dbxread.c (start_psymtab): Initialize psymtab_language using deduce_language_from_filename.
1992-12-23 06:34:57 +00:00
default:
/* If no at_language, try to deduce one from the filename */
cu_language = deduce_language_from_filename (dip -> at_name);
break;
1992-08-31 20:50:45 +00:00
}
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
cu_language_defn = language_def (cu_language);
1992-08-31 20:50:45 +00:00
}
/*
GLOBAL FUNCTION
dwarf_build_psymtabs -- build partial symtabs from DWARF debug info
SYNOPSIS
void dwarf_build_psymtabs (struct objfile *objfile,
struct section_offsets *section_offsets,
int mainline, file_ptr dbfoff, unsigned int dbfsize,
file_ptr lnoffset, unsigned int lnsize)
DESCRIPTION
This function is called upon to build partial symtabs from files
containing DIE's (Dwarf Information Entries) and DWARF line numbers.
It is passed a bfd* containing the DIES
and line number information, the corresponding filename for that
file, a base address for relocating the symbols, a flag indicating
whether or not this debugging information is from a "main symbol
table" rather than a shared library or dynamically linked file,
and file offset/size pairs for the DIE information and line number
information.
RETURNS
No return value.
*/
void
dwarf_build_psymtabs (objfile, section_offsets, mainline, dbfoff, dbfsize,
lnoffset, lnsize)
struct objfile *objfile;
struct section_offsets *section_offsets;
int mainline;
file_ptr dbfoff;
unsigned int dbfsize;
file_ptr lnoffset;
unsigned int lnsize;
{
bfd *abfd = objfile->obfd;
struct cleanup *back_to;
current_objfile = objfile;
dbsize = dbfsize;
dbbase = xmalloc (dbsize);
dbroff = 0;
if ((bfd_seek (abfd, dbfoff, L_SET) != 0) ||
(bfd_read (dbbase, dbsize, 1, abfd) != dbsize))
{
free (dbbase);
error ("can't read DWARF data from '%s'", bfd_get_filename (abfd));
}
back_to = make_cleanup (free, dbbase);
/* If we are reinitializing, or if we have never loaded syms yet, init.
Since we have no idea how many DIES we are looking at, we just guess
some arbitrary value. */
if (mainline || objfile -> global_psymbols.size == 0 ||
objfile -> static_psymbols.size == 0)
{
init_psymbol_list (objfile, 1024);
}
Create and use macros for iterating on symtabs, psymtabs, msymbols. * minsyms.c (iterate_over_msymbols): Remove; clunky and slow. * symfile.h, symtab.h (iterate_over_msymbols): Remove prototype * coffread.c (coff_symfile_read): iterate_over_symtabs => ALL_SYMTABS. (patch_opaque_types): Avoid dummy args and result. * objfiles.c (have_partial_symbols, have_full_symbols, have_minimal_symbols): explicit iteration => ALL_OBJFILES; simplify. (iterate_over_objfiles, iterate_over_symtabs, iterate_over_psymtabs): Remove, clunky and slow. * objfiles.h: Replace iterate_over_* prototypes with ALL_SYMTABS, ALL_PSYMTABS, and ALL_MSYMBOLS macros. * symmisc.c (dump_symtab, dump_psymtab, dump_msymbols, dump_objfile): Remove dummy args and results. Move filename comparisons to callers. (printsyms_command, printpsyms_command, printmsyms_command, printobjfiles_command): iterate_over_* => ALL_*. Compare filenames. * symtab.c (lookup_symtab_1, lookup_symtab, lookup_partial_symtab, lookup_symbol, find_main_psymtab, find_pc_symtab, sources_info, list_symbols, make_symbol_completion_list): Replace explicit iteration with ALL_SYMTABS, ALL_PSYMTABS, or ALL_MSYMBOLS. Eliminate Dijkstra flag crap, break out of loops with gotos. (lookup_symtab_1): Protect '/' tests from short filenames. (cplus_mangled_symbol): Move inline into lookup_symbol. * xcoffexec.c (relocate_objfile_msymbols): Remove poor hack. (relocate_minimal_symbol): Move inline to vmap_symtab. (vmap_symtab): Replace iteration with ALL_OBJFILES, iterate_over_msymbols with ALL_MSYMBOLS. Misc cleanup prior to release. * dwarfread.c (dwarf_build_psymtabs): Remove mainline test. * mipsread.c (compare_symtabs, compare_psymtabs): Remove, unused. * mipsread.c: Add prototypes for all static functions. * symmisc.c (dump_symtab_lines, dump_symtabs, dump_last_symtab, dump_blockvector, dump_block, dump_addrchass, dump_namespace, dump_symbol, dump_type, dump_linetable, dump_strtbl): Remove, unused. * xcoffread.c (dump_symtab_lines, dump_symtabs, dump_last_symtab, dump_blockvector, dump_block, dump_addrchass, dump_namespace, dump_symbol, dump_type, dump_linetable, dump_strtbl): Remove 2nd unused copy! * buildsym.c (define_symbol): Handle global register variables (from Pierre Willard). Complain if register numbers are too large.
1992-03-29 23:17:36 +00:00
/* Save the relocation factor where everybody can see it. */
base_section_offsets = section_offsets;
baseaddr = ANOFFSET (section_offsets, 0);
/* Follow the compilation unit sibling chain, building a partial symbol
table entry for each one. Save enough information about each compilation
unit to locate the full DWARF information later. */
scan_compilation_units (dbbase, dbbase + dbsize, dbfoff, lnoffset, objfile);
do_cleanups (back_to);
current_objfile = NULL;
}
/*
LOCAL FUNCTION
read_lexical_block_scope -- process all dies in a lexical block
SYNOPSIS
static void read_lexical_block_scope (struct dieinfo *dip,
char *thisdie, char *enddie)
DESCRIPTION
Process all the DIES contained within a lexical block scope.
Start a new scope, process the dies, and then close the scope.
*/
static void
read_lexical_block_scope (dip, thisdie, enddie, objfile)
struct dieinfo *dip;
char *thisdie;
char *enddie;
struct objfile *objfile;
{
register struct context_stack *new;
push_context (0, dip -> at_low_pc);
process_dies (thisdie + dip -> die_length, enddie, objfile);
new = pop_context ();
if (local_symbols != NULL)
{
finish_block (0, &local_symbols, new -> old_blocks, new -> start_addr,
dip -> at_high_pc, objfile);
}
local_symbols = new -> locals;
}
/*
LOCAL FUNCTION
lookup_utype -- look up a user defined type from die reference
SYNOPSIS
static type *lookup_utype (DIE_REF die_ref)
DESCRIPTION
Given a DIE reference, lookup the user defined type associated with
that DIE, if it has been registered already. If not registered, then
return NULL. Alloc_utype() can be called to register an empty
type for this reference, which will be filled in later when the
actual referenced DIE is processed.
*/
static struct type *
lookup_utype (die_ref)
DIE_REF die_ref;
{
struct type *type = NULL;
int utypeidx;
utypeidx = (die_ref - dbroff) / 4;
if ((utypeidx < 0) || (utypeidx >= numutypes))
{
complain (&bad_die_ref, DIE_ID, DIE_NAME);
}
else
{
type = *(utypes + utypeidx);
}
return (type);
}
/*
LOCAL FUNCTION
alloc_utype -- add a user defined type for die reference
SYNOPSIS
static type *alloc_utype (DIE_REF die_ref, struct type *utypep)
DESCRIPTION
Given a die reference DIE_REF, and a possible pointer to a user
defined type UTYPEP, register that this reference has a user
defined type and either use the specified type in UTYPEP or
make a new empty type that will be filled in later.
We should only be called after calling lookup_utype() to verify that
there is not currently a type registered for DIE_REF.
*/
static struct type *
alloc_utype (die_ref, utypep)
DIE_REF die_ref;
struct type *utypep;
{
struct type **typep;
int utypeidx;
utypeidx = (die_ref - dbroff) / 4;
typep = utypes + utypeidx;
if ((utypeidx < 0) || (utypeidx >= numutypes))
{
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
utypep = dwarf_fundamental_type (current_objfile, FT_INTEGER);
complain (&bad_die_ref, DIE_ID, DIE_NAME);
}
else if (*typep != NULL)
{
utypep = *typep;
complain (&dup_user_type_allocation, DIE_ID, DIE_NAME);
}
else
{
if (utypep == NULL)
{
utypep = alloc_type (current_objfile);
}
*typep = utypep;
}
return (utypep);
}
/*
LOCAL FUNCTION
decode_die_type -- return a type for a specified die
SYNOPSIS
static struct type *decode_die_type (struct dieinfo *dip)
DESCRIPTION
Given a pointer to a die information structure DIP, decode the
type of the die and return a pointer to the decoded type. All
dies without specific types default to type int.
*/
static struct type *
decode_die_type (dip)
struct dieinfo *dip;
{
struct type *type = NULL;
if (dip -> at_fund_type != 0)
{
type = decode_fund_type (dip -> at_fund_type);
}
else if (dip -> at_mod_fund_type != NULL)
{
type = decode_mod_fund_type (dip -> at_mod_fund_type);
}
else if (dip -> at_user_def_type)
{
if ((type = lookup_utype (dip -> at_user_def_type)) == NULL)
{
type = alloc_utype (dip -> at_user_def_type, NULL);
}
}
else if (dip -> at_mod_u_d_type)
{
type = decode_mod_u_d_type (dip -> at_mod_u_d_type);
}
else
{
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
type = dwarf_fundamental_type (current_objfile, FT_INTEGER);
}
return (type);
}
/*
LOCAL FUNCTION
struct_type -- compute and return the type for a struct or union
SYNOPSIS
static struct type *struct_type (struct dieinfo *dip, char *thisdie,
char *enddie, struct objfile *objfile)
DESCRIPTION
Given pointer to a die information structure for a die which
defines a union or structure (and MUST define one or the other),
and pointers to the raw die data that define the range of dies which
define the members, compute and return the user defined type for the
structure or union.
*/
static struct type *
struct_type (dip, thisdie, enddie, objfile)
struct dieinfo *dip;
char *thisdie;
char *enddie;
struct objfile *objfile;
{
struct type *type;
struct nextfield {
struct nextfield *next;
struct field field;
};
struct nextfield *list = NULL;
struct nextfield *new;
int nfields = 0;
int n;
struct dieinfo mbr;
char *nextdie;
int anonymous_size;
if ((type = lookup_utype (dip -> die_ref)) == NULL)
{
/* No forward references created an empty type, so install one now */
type = alloc_utype (dip -> die_ref, NULL);
}
INIT_CPLUS_SPECIFIC(type);
switch (dip -> die_tag)
{
1992-08-31 20:50:45 +00:00
case TAG_class_type:
TYPE_CODE (type) = TYPE_CODE_CLASS;
break;
case TAG_structure_type:
TYPE_CODE (type) = TYPE_CODE_STRUCT;
break;
case TAG_union_type:
TYPE_CODE (type) = TYPE_CODE_UNION;
break;
default:
/* Should never happen */
TYPE_CODE (type) = TYPE_CODE_UNDEF;
complain (&missing_tag, DIE_ID, DIE_NAME);
break;
}
/* Some compilers try to be helpful by inventing "fake" names for
anonymous enums, structures, and unions, like "~0fake" or ".0fake".
Thanks, but no thanks... */
if (dip -> at_name != NULL
&& *dip -> at_name != '~'
&& *dip -> at_name != '.')
{
TYPE_TAG_NAME (type) = obconcat (&objfile -> type_obstack,
"", "", dip -> at_name);
}
/* Use whatever size is known. Zero is a valid size. We might however
wish to check has_at_byte_size to make sure that some byte size was
given explicitly, but DWARF doesn't specify that explicit sizes of
zero have to present, so complaining about missing sizes should
probably not be the default. */
TYPE_LENGTH (type) = dip -> at_byte_size;
thisdie += dip -> die_length;
while (thisdie < enddie)
{
basicdieinfo (&mbr, thisdie, objfile);
completedieinfo (&mbr, objfile);
if (mbr.die_length <= SIZEOF_DIE_LENGTH)
{
break;
}
else if (mbr.at_sibling != 0)
{
nextdie = dbbase + mbr.at_sibling - dbroff;
}
else
{
nextdie = thisdie + mbr.die_length;
}
switch (mbr.die_tag)
{
case TAG_member:
/* Get space to record the next field's data. */
new = (struct nextfield *) alloca (sizeof (struct nextfield));
new -> next = list;
list = new;
/* Save the data. */
list -> field.name =
obsavestring (mbr.at_name, strlen (mbr.at_name),
&objfile -> type_obstack);
list -> field.type = decode_die_type (&mbr);
list -> field.bitpos = 8 * locval (mbr.at_location);
/* Handle bit fields. */
list -> field.bitsize = mbr.at_bit_size;
if (BITS_BIG_ENDIAN)
{
/* For big endian bits, the at_bit_offset gives the
additional bit offset from the MSB of the containing
anonymous object to the MSB of the field. We don't
have to do anything special since we don't need to
know the size of the anonymous object. */
list -> field.bitpos += mbr.at_bit_offset;
}
else
{
/* For little endian bits, we need to have a non-zero
at_bit_size, so that we know we are in fact dealing
with a bitfield. Compute the bit offset to the MSB
of the anonymous object, subtract off the number of
bits from the MSB of the field to the MSB of the
object, and then subtract off the number of bits of
the field itself. The result is the bit offset of
the LSB of the field. */
if (mbr.at_bit_size > 0)
{
if (mbr.has_at_byte_size)
{
/* The size of the anonymous object containing
the bit field is explicit, so use the
indicated size (in bytes). */
anonymous_size = mbr.at_byte_size;
}
else
{
/* The size of the anonymous object containing
the bit field matches the size of an object
of the bit field's type. DWARF allows
at_byte_size to be left out in such cases, as
a debug information size optimization. */
anonymous_size = TYPE_LENGTH (list -> field.type);
}
list -> field.bitpos +=
anonymous_size * 8 - mbr.at_bit_offset - mbr.at_bit_size;
}
}
nfields++;
break;
default:
process_dies (thisdie, nextdie, objfile);
break;
}
thisdie = nextdie;
}
/* Now create the vector of fields, and record how big it is. We may
not even have any fields, if this DIE was generated due to a reference
to an anonymous structure or union. In this case, TYPE_FLAG_STUB is
set, which clues gdb in to the fact that it needs to search elsewhere
for the full structure definition. */
if (nfields == 0)
{
TYPE_FLAGS (type) |= TYPE_FLAG_STUB;
}
else
{
TYPE_NFIELDS (type) = nfields;
TYPE_FIELDS (type) = (struct field *)
TYPE_ALLOC (type, sizeof (struct field) * nfields);
/* Copy the saved-up fields into the field vector. */
for (n = nfields; list; list = list -> next)
{
TYPE_FIELD (type, --n) = list -> field;
}
}
return (type);
}
/*
LOCAL FUNCTION
read_structure_scope -- process all dies within struct or union
SYNOPSIS
static void read_structure_scope (struct dieinfo *dip,
char *thisdie, char *enddie, struct objfile *objfile)
DESCRIPTION
Called when we find the DIE that starts a structure or union
scope (definition) to process all dies that define the members
of the structure or union. DIP is a pointer to the die info
struct for the DIE that names the structure or union.
NOTES
Note that we need to call struct_type regardless of whether or not
the DIE has an at_name attribute, since it might be an anonymous
structure or union. This gets the type entered into our set of
user defined types.
However, if the structure is incomplete (an opaque struct/union)
then suppress creating a symbol table entry for it since gdb only
wants to find the one with the complete definition. Note that if
it is complete, we just call new_symbol, which does it's own
checking about whether the struct/union is anonymous or not (and
suppresses creating a symbol table entry itself).
*/
static void
read_structure_scope (dip, thisdie, enddie, objfile)
struct dieinfo *dip;
char *thisdie;
char *enddie;
struct objfile *objfile;
{
struct type *type;
struct symbol *sym;
type = struct_type (dip, thisdie, enddie, objfile);
if (!(TYPE_FLAGS (type) & TYPE_FLAG_STUB))
{
1992-08-31 20:50:45 +00:00
sym = new_symbol (dip, objfile);
if (sym != NULL)
{
SYMBOL_TYPE (sym) = type;
1992-08-31 20:50:45 +00:00
if (cu_language == language_cplus)
{
synthesize_typedef (dip, objfile, type);
}
}
}
}
/*
LOCAL FUNCTION
decode_array_element_type -- decode type of the array elements
SYNOPSIS
static struct type *decode_array_element_type (char *scan, char *end)
DESCRIPTION
As the last step in decoding the array subscript information for an
array DIE, we need to decode the type of the array elements. We are
passed a pointer to this last part of the subscript information and
must return the appropriate type. If the type attribute is not
recognized, just warn about the problem and return type int.
*/
static struct type *
Create and use macros for iterating on symtabs, psymtabs, msymbols. * minsyms.c (iterate_over_msymbols): Remove; clunky and slow. * symfile.h, symtab.h (iterate_over_msymbols): Remove prototype * coffread.c (coff_symfile_read): iterate_over_symtabs => ALL_SYMTABS. (patch_opaque_types): Avoid dummy args and result. * objfiles.c (have_partial_symbols, have_full_symbols, have_minimal_symbols): explicit iteration => ALL_OBJFILES; simplify. (iterate_over_objfiles, iterate_over_symtabs, iterate_over_psymtabs): Remove, clunky and slow. * objfiles.h: Replace iterate_over_* prototypes with ALL_SYMTABS, ALL_PSYMTABS, and ALL_MSYMBOLS macros. * symmisc.c (dump_symtab, dump_psymtab, dump_msymbols, dump_objfile): Remove dummy args and results. Move filename comparisons to callers. (printsyms_command, printpsyms_command, printmsyms_command, printobjfiles_command): iterate_over_* => ALL_*. Compare filenames. * symtab.c (lookup_symtab_1, lookup_symtab, lookup_partial_symtab, lookup_symbol, find_main_psymtab, find_pc_symtab, sources_info, list_symbols, make_symbol_completion_list): Replace explicit iteration with ALL_SYMTABS, ALL_PSYMTABS, or ALL_MSYMBOLS. Eliminate Dijkstra flag crap, break out of loops with gotos. (lookup_symtab_1): Protect '/' tests from short filenames. (cplus_mangled_symbol): Move inline into lookup_symbol. * xcoffexec.c (relocate_objfile_msymbols): Remove poor hack. (relocate_minimal_symbol): Move inline to vmap_symtab. (vmap_symtab): Replace iteration with ALL_OBJFILES, iterate_over_msymbols with ALL_MSYMBOLS. Misc cleanup prior to release. * dwarfread.c (dwarf_build_psymtabs): Remove mainline test. * mipsread.c (compare_symtabs, compare_psymtabs): Remove, unused. * mipsread.c: Add prototypes for all static functions. * symmisc.c (dump_symtab_lines, dump_symtabs, dump_last_symtab, dump_blockvector, dump_block, dump_addrchass, dump_namespace, dump_symbol, dump_type, dump_linetable, dump_strtbl): Remove, unused. * xcoffread.c (dump_symtab_lines, dump_symtabs, dump_last_symtab, dump_blockvector, dump_block, dump_addrchass, dump_namespace, dump_symbol, dump_type, dump_linetable, dump_strtbl): Remove 2nd unused copy! * buildsym.c (define_symbol): Handle global register variables (from Pierre Willard). Complain if register numbers are too large.
1992-03-29 23:17:36 +00:00
decode_array_element_type (scan)
char *scan;
{
struct type *typep;
DIE_REF die_ref;
unsigned short attribute;
unsigned short fundtype;
int nbytes;
attribute = target_to_host (scan, SIZEOF_ATTRIBUTE, GET_UNSIGNED,
current_objfile);
scan += SIZEOF_ATTRIBUTE;
if ((nbytes = attribute_size (attribute)) == -1)
{
complain (&bad_array_element_type, DIE_ID, DIE_NAME, attribute);
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_INTEGER);
}
else
{
switch (attribute)
{
case AT_fund_type:
fundtype = target_to_host (scan, nbytes, GET_UNSIGNED,
current_objfile);
typep = decode_fund_type (fundtype);
break;
case AT_mod_fund_type:
typep = decode_mod_fund_type (scan);
break;
case AT_user_def_type:
die_ref = target_to_host (scan, nbytes, GET_UNSIGNED,
current_objfile);
if ((typep = lookup_utype (die_ref)) == NULL)
{
typep = alloc_utype (die_ref, NULL);
}
break;
case AT_mod_u_d_type:
typep = decode_mod_u_d_type (scan);
break;
default:
complain (&bad_array_element_type, DIE_ID, DIE_NAME, attribute);
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_INTEGER);
break;
}
}
return (typep);
}
/*
LOCAL FUNCTION
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
decode_subscript_data_item -- decode array subscript item
SYNOPSIS
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
static struct type *
decode_subscript_data_item (char *scan, char *end)
DESCRIPTION
The array subscripts and the data type of the elements of an
array are described by a list of data items, stored as a block
of contiguous bytes. There is a data item describing each array
dimension, and a final data item describing the element type.
The data items are ordered the same as their appearance in the
source (I.E. leftmost dimension first, next to leftmost second,
etc).
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
The data items describing each array dimension consist of four
parts: (1) a format specifier, (2) type type of the subscript
index, (3) a description of the low bound of the array dimension,
and (4) a description of the high bound of the array dimension.
The last data item is the description of the type of each of
the array elements.
We are passed a pointer to the start of the block of bytes
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
containing the remaining data items, and a pointer to the first
byte past the data. This function recursively decodes the
remaining data items and returns a type.
If we somehow fail to decode some data, we complain about it
and return a type "array of int".
BUGS
FIXME: This code only implements the forms currently used
by the AT&T and GNU C compilers.
The end pointer is supplied for error checking, maybe we should
use it for that...
*/
static struct type *
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
decode_subscript_data_item (scan, end)
char *scan;
char *end;
{
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
struct type *typep = NULL; /* Array type we are building */
struct type *nexttype; /* Type of each element (may be array) */
struct type *indextype; /* Type of this index */
* Makefile.in (VERSION): Bump to 4.7.4. * Makefile.in (SFILES_MAINDIR): Add typeprint.c, c-typeprint.c, m2-typeprint.c, c-valprint.c cp-valprint.c m2-valprint.c. * Makefile.in (HFILES): Add valprint.h. * Makefile.in (OBS): Add typeprint.o, c-typeprint.o, m2-typeprint.o, c-valprint.o, cp-valprint.o m2-valprint.o. * typeprint.c, typeprint.h: New files for language independent type printing functions. * c-typeprint.c, m2-typeprint.c: New files for language dependent type printing functions and definitions. * valprint.h: New include file for language independent value printing definitions. * c-valprint.c, cp-valprint.c, m2-valprint.c: New files for language dependent value printing functions. * c-exp.y (production ptype): Add range_type variable and use new create_range_type function. * c-exp.y (tokentab2, tokentab3), c-lang.c (c_op_print_tab), infcmd.c (path_var_name), language.c (unk_op_print_tab), m2-lang.c (m2_op_print_tab): Change from ANSI-obsolescent "const static" to ANSI-conformant "static const". * c-exp.y (c_create_fundamental_type): Remove unused nbytes. * c-exp.y (c_language_defn, cplus_language_defn): Add c_print_type, and c_val_print. * c-lang.h (c_print_type, c_val_print): Add prototypes. * coffread.c (decode_type): Add range_type variable and call to new create_range_type function. * complaints.c (complain): Remove unused val variable. * complaints.c (_initialize_complaints): Make it void. * convex-tdep.c (value_of_trapped_internalvar): Add range_type variable and call new create_range_type function. * defs.h (enum val_prettyprint): Move enum from value.h to here so we can avoid having to include value.h just for prototypes that need the enum (thanks ANSI). * dwarfread.c (struct_type): Local anonymous_size variable is only used if !BITS_BIG_ENDIAN. * dwarfread.c (decode_subscript_data_item): Add rangetype variable and call new create_range_type function. * elfread.c (elf_symfile_read): Remove unused dbx and text_sect variables. * eval.c (evaluate_subexp): Remove unused local variable name and the statement with no side effects that initializes it. * expprint.c (print_subexp): Change local_printstr to LA_PRINT_STRING. * gdbtypes.c (create_range_type): New function that creates a range type using code fragments from object file readers as an example of what has to be initialized. * gdbtypes.c (create_array_type): Removed index_type, low_bound, and high_bound parameters, replaced with a single range_type parameter. Change function body to use passed in range_type rather than handcrafting one. * gdbtypes.h (create_range_type): Add prototype. * gdbtypes.h (create_array_type): Change prototype parameters. * infrun.c (normal_stop): Remove unused local variables tem and c. * infrun.c (hook_stop_stub): Return 0 rather than random value. * language.c (unk_lang_print_type, unk_lang_val_print): Add stub functions that call error if called. * language.c (unknown_language_defn, auto_language_defn, local_language_defn): Add initializers unk_lang_print_type and unk_lang_val_print. * language.h (struct language_defn): Reformat for larger comments, add la_print_type and la_val_print members. Add LA_PRINT_TYPE and LA_VAL_PRINT macros. Change local_printchar to LA_PRINT_CHAR and local_printstr to LA_PRINT_STRING. * m2-lang.c (m2_create_fundamental_type): Remove unused local variable nbytes. * m2-lang.c (m2_language_defn): Add initializers m2_print_type and m2_val_print. * m2-lang.h (m2_print_type, m2_val_print): Add prototypes. * main.c (execute_command): Remove unused local variable cmdlines. * main.c (echo_command), stabsread.c (read_type), printcmd.c (clear_displays), symmisc.c (block_depth), values.c (clear_value_history): Make testing of truth value of assignment result explicit. * mipsread.c (upgrade_type): Update FIXME to include future use of create_range_type. * printcmd.c (ptype_command, ptype_eval, whatis_command, whatis_exp, maintenance_print_type): Move prototypes and functions to new typeprint.c. * printcmd.c (_initialize_printcmd): Move add_com calls for ptype_command and whatis_command to new typeprint.c. * ser-bsd.c (serial_open): Remove unused variable sgttyb. * source.c (find_source_lines): Local variable c only used when LSEEK_NOT_LINEAR is defined. * stabsread.c (read_array_type): Use new create_range_type function. * stabsread.c (read_range_type): Add new index_type variable and call new create_range_type function rather than handcrafting range types. * symmisc.c (type_print_1): Change usages to LA_PRINT_TYPE. * symtab.c (typedef_print usages): Use c_typedef_print, renamed. * symtab.c (type_print_base usages): Use c_type_print_base. * symtab.c (type_print_varspec_prefix usages): Use c_type_print_varspec_prefix. * symtab.c (type_print_method_args usages): Use cp_type_print_method_args. * valprint.c: Completely ripped apart and the fragments used to create c-valprint.c, cp-valprint.c, m2-valprint.c, and valprint.h. Remaining stuff is language independent. * value.h (struct fn_field): Forward declare for prototypes. * value.h (type_print_1): Remove prototype. * value.h (enum val_prettyprint): Moved to defs.h. * value.h (typedef_print): Prototype renamed to c_typedef_print. * value.h (baseclass_offset): Add prototype. **** start-sanitize-chill **** * Makefile.in (SFILES_MAINDIR): Add ch-typeprint.c, ch-valprint.c. * Makefile.in (OBS): Add ch-typeprint.o, ch-valprint.o. * ch-typeprint.c: New file for language dependent type printing. * ch-valprint.c: New file for language dependent value printing. * ch-exp.y (parse_number): Remove prototype and stub function. * ch-exp.y (decode_integer_literal): Removed unused digits and temp variables. * ch-exp.y (convert_float): Completely ifdef out for now. * ch-exp.y (tokentab2, tokentab3, tokentab4, tokentab5), ch-lang.c (chill_op_print_tab): Change from ANSI-obsolescent "const static" to ANSI-conformant "static const". * ch-exp.y (yylex): Add unhandled storage class enumeration literals to switch statement for completeness. * ch-lang.c (chill_create_fundamental_types): Remove unused nbytes variable. Change dummy type to 2 bytes to match int. Handle FT_VOID types gratuituously added to chill DWARF by compiler. Change FT_CHAR case to generate an TYPE_CODE_CHAR type rather than a one byte TYPE_CODE_INT type. * ch-lang.c (chill_language_defn): Add chill_print_type and chill_val_print. * ch-lang.h (chill_print_type, chill_val_print): Add prototypes. **** end-sanitize-chill ****
1992-12-18 20:21:32 +00:00
struct type *rangetype;
unsigned int format;
unsigned short fundtype;
unsigned long lowbound;
unsigned long highbound;
int nbytes;
format = target_to_host (scan, SIZEOF_FORMAT_SPECIFIER, GET_UNSIGNED,
current_objfile);
scan += SIZEOF_FORMAT_SPECIFIER;
switch (format)
{
case FMT_ET:
Create and use macros for iterating on symtabs, psymtabs, msymbols. * minsyms.c (iterate_over_msymbols): Remove; clunky and slow. * symfile.h, symtab.h (iterate_over_msymbols): Remove prototype * coffread.c (coff_symfile_read): iterate_over_symtabs => ALL_SYMTABS. (patch_opaque_types): Avoid dummy args and result. * objfiles.c (have_partial_symbols, have_full_symbols, have_minimal_symbols): explicit iteration => ALL_OBJFILES; simplify. (iterate_over_objfiles, iterate_over_symtabs, iterate_over_psymtabs): Remove, clunky and slow. * objfiles.h: Replace iterate_over_* prototypes with ALL_SYMTABS, ALL_PSYMTABS, and ALL_MSYMBOLS macros. * symmisc.c (dump_symtab, dump_psymtab, dump_msymbols, dump_objfile): Remove dummy args and results. Move filename comparisons to callers. (printsyms_command, printpsyms_command, printmsyms_command, printobjfiles_command): iterate_over_* => ALL_*. Compare filenames. * symtab.c (lookup_symtab_1, lookup_symtab, lookup_partial_symtab, lookup_symbol, find_main_psymtab, find_pc_symtab, sources_info, list_symbols, make_symbol_completion_list): Replace explicit iteration with ALL_SYMTABS, ALL_PSYMTABS, or ALL_MSYMBOLS. Eliminate Dijkstra flag crap, break out of loops with gotos. (lookup_symtab_1): Protect '/' tests from short filenames. (cplus_mangled_symbol): Move inline into lookup_symbol. * xcoffexec.c (relocate_objfile_msymbols): Remove poor hack. (relocate_minimal_symbol): Move inline to vmap_symtab. (vmap_symtab): Replace iteration with ALL_OBJFILES, iterate_over_msymbols with ALL_MSYMBOLS. Misc cleanup prior to release. * dwarfread.c (dwarf_build_psymtabs): Remove mainline test. * mipsread.c (compare_symtabs, compare_psymtabs): Remove, unused. * mipsread.c: Add prototypes for all static functions. * symmisc.c (dump_symtab_lines, dump_symtabs, dump_last_symtab, dump_blockvector, dump_block, dump_addrchass, dump_namespace, dump_symbol, dump_type, dump_linetable, dump_strtbl): Remove, unused. * xcoffread.c (dump_symtab_lines, dump_symtabs, dump_last_symtab, dump_blockvector, dump_block, dump_addrchass, dump_namespace, dump_symbol, dump_type, dump_linetable, dump_strtbl): Remove 2nd unused copy! * buildsym.c (define_symbol): Handle global register variables (from Pierre Willard). Complain if register numbers are too large.
1992-03-29 23:17:36 +00:00
typep = decode_array_element_type (scan);
break;
case FMT_FT_C_C:
fundtype = target_to_host (scan, SIZEOF_FMT_FT, GET_UNSIGNED,
current_objfile);
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
indextype = decode_fund_type (fundtype);
scan += SIZEOF_FMT_FT;
nbytes = TARGET_FT_LONG_SIZE (current_objfile);
lowbound = target_to_host (scan, nbytes, GET_UNSIGNED, current_objfile);
scan += nbytes;
highbound = target_to_host (scan, nbytes, GET_UNSIGNED, current_objfile);
scan += nbytes;
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
nexttype = decode_subscript_data_item (scan, end);
if (nexttype == NULL)
{
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
/* Munged subscript data or other problem, fake it. */
complain (&subscript_data_items, DIE_ID, DIE_NAME);
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
nexttype = dwarf_fundamental_type (current_objfile, FT_INTEGER);
}
* Makefile.in (VERSION): Bump to 4.7.4. * Makefile.in (SFILES_MAINDIR): Add typeprint.c, c-typeprint.c, m2-typeprint.c, c-valprint.c cp-valprint.c m2-valprint.c. * Makefile.in (HFILES): Add valprint.h. * Makefile.in (OBS): Add typeprint.o, c-typeprint.o, m2-typeprint.o, c-valprint.o, cp-valprint.o m2-valprint.o. * typeprint.c, typeprint.h: New files for language independent type printing functions. * c-typeprint.c, m2-typeprint.c: New files for language dependent type printing functions and definitions. * valprint.h: New include file for language independent value printing definitions. * c-valprint.c, cp-valprint.c, m2-valprint.c: New files for language dependent value printing functions. * c-exp.y (production ptype): Add range_type variable and use new create_range_type function. * c-exp.y (tokentab2, tokentab3), c-lang.c (c_op_print_tab), infcmd.c (path_var_name), language.c (unk_op_print_tab), m2-lang.c (m2_op_print_tab): Change from ANSI-obsolescent "const static" to ANSI-conformant "static const". * c-exp.y (c_create_fundamental_type): Remove unused nbytes. * c-exp.y (c_language_defn, cplus_language_defn): Add c_print_type, and c_val_print. * c-lang.h (c_print_type, c_val_print): Add prototypes. * coffread.c (decode_type): Add range_type variable and call to new create_range_type function. * complaints.c (complain): Remove unused val variable. * complaints.c (_initialize_complaints): Make it void. * convex-tdep.c (value_of_trapped_internalvar): Add range_type variable and call new create_range_type function. * defs.h (enum val_prettyprint): Move enum from value.h to here so we can avoid having to include value.h just for prototypes that need the enum (thanks ANSI). * dwarfread.c (struct_type): Local anonymous_size variable is only used if !BITS_BIG_ENDIAN. * dwarfread.c (decode_subscript_data_item): Add rangetype variable and call new create_range_type function. * elfread.c (elf_symfile_read): Remove unused dbx and text_sect variables. * eval.c (evaluate_subexp): Remove unused local variable name and the statement with no side effects that initializes it. * expprint.c (print_subexp): Change local_printstr to LA_PRINT_STRING. * gdbtypes.c (create_range_type): New function that creates a range type using code fragments from object file readers as an example of what has to be initialized. * gdbtypes.c (create_array_type): Removed index_type, low_bound, and high_bound parameters, replaced with a single range_type parameter. Change function body to use passed in range_type rather than handcrafting one. * gdbtypes.h (create_range_type): Add prototype. * gdbtypes.h (create_array_type): Change prototype parameters. * infrun.c (normal_stop): Remove unused local variables tem and c. * infrun.c (hook_stop_stub): Return 0 rather than random value. * language.c (unk_lang_print_type, unk_lang_val_print): Add stub functions that call error if called. * language.c (unknown_language_defn, auto_language_defn, local_language_defn): Add initializers unk_lang_print_type and unk_lang_val_print. * language.h (struct language_defn): Reformat for larger comments, add la_print_type and la_val_print members. Add LA_PRINT_TYPE and LA_VAL_PRINT macros. Change local_printchar to LA_PRINT_CHAR and local_printstr to LA_PRINT_STRING. * m2-lang.c (m2_create_fundamental_type): Remove unused local variable nbytes. * m2-lang.c (m2_language_defn): Add initializers m2_print_type and m2_val_print. * m2-lang.h (m2_print_type, m2_val_print): Add prototypes. * main.c (execute_command): Remove unused local variable cmdlines. * main.c (echo_command), stabsread.c (read_type), printcmd.c (clear_displays), symmisc.c (block_depth), values.c (clear_value_history): Make testing of truth value of assignment result explicit. * mipsread.c (upgrade_type): Update FIXME to include future use of create_range_type. * printcmd.c (ptype_command, ptype_eval, whatis_command, whatis_exp, maintenance_print_type): Move prototypes and functions to new typeprint.c. * printcmd.c (_initialize_printcmd): Move add_com calls for ptype_command and whatis_command to new typeprint.c. * ser-bsd.c (serial_open): Remove unused variable sgttyb. * source.c (find_source_lines): Local variable c only used when LSEEK_NOT_LINEAR is defined. * stabsread.c (read_array_type): Use new create_range_type function. * stabsread.c (read_range_type): Add new index_type variable and call new create_range_type function rather than handcrafting range types. * symmisc.c (type_print_1): Change usages to LA_PRINT_TYPE. * symtab.c (typedef_print usages): Use c_typedef_print, renamed. * symtab.c (type_print_base usages): Use c_type_print_base. * symtab.c (type_print_varspec_prefix usages): Use c_type_print_varspec_prefix. * symtab.c (type_print_method_args usages): Use cp_type_print_method_args. * valprint.c: Completely ripped apart and the fragments used to create c-valprint.c, cp-valprint.c, m2-valprint.c, and valprint.h. Remaining stuff is language independent. * value.h (struct fn_field): Forward declare for prototypes. * value.h (type_print_1): Remove prototype. * value.h (enum val_prettyprint): Moved to defs.h. * value.h (typedef_print): Prototype renamed to c_typedef_print. * value.h (baseclass_offset): Add prototype. **** start-sanitize-chill **** * Makefile.in (SFILES_MAINDIR): Add ch-typeprint.c, ch-valprint.c. * Makefile.in (OBS): Add ch-typeprint.o, ch-valprint.o. * ch-typeprint.c: New file for language dependent type printing. * ch-valprint.c: New file for language dependent value printing. * ch-exp.y (parse_number): Remove prototype and stub function. * ch-exp.y (decode_integer_literal): Removed unused digits and temp variables. * ch-exp.y (convert_float): Completely ifdef out for now. * ch-exp.y (tokentab2, tokentab3, tokentab4, tokentab5), ch-lang.c (chill_op_print_tab): Change from ANSI-obsolescent "const static" to ANSI-conformant "static const". * ch-exp.y (yylex): Add unhandled storage class enumeration literals to switch statement for completeness. * ch-lang.c (chill_create_fundamental_types): Remove unused nbytes variable. Change dummy type to 2 bytes to match int. Handle FT_VOID types gratuituously added to chill DWARF by compiler. Change FT_CHAR case to generate an TYPE_CODE_CHAR type rather than a one byte TYPE_CODE_INT type. * ch-lang.c (chill_language_defn): Add chill_print_type and chill_val_print. * ch-lang.h (chill_print_type, chill_val_print): Add prototypes. **** end-sanitize-chill ****
1992-12-18 20:21:32 +00:00
rangetype = create_range_type ((struct type *) NULL, indextype,
lowbound, highbound);
typep = create_array_type ((struct type *) NULL, nexttype, rangetype);
break;
case FMT_FT_C_X:
case FMT_FT_X_C:
case FMT_FT_X_X:
case FMT_UT_C_C:
case FMT_UT_C_X:
case FMT_UT_X_C:
case FMT_UT_X_X:
complain (&unhandled_array_subscript_format, DIE_ID, DIE_NAME, format);
* Makefile.in (VERSION): Bump to 4.7.4. * Makefile.in (SFILES_MAINDIR): Add typeprint.c, c-typeprint.c, m2-typeprint.c, c-valprint.c cp-valprint.c m2-valprint.c. * Makefile.in (HFILES): Add valprint.h. * Makefile.in (OBS): Add typeprint.o, c-typeprint.o, m2-typeprint.o, c-valprint.o, cp-valprint.o m2-valprint.o. * typeprint.c, typeprint.h: New files for language independent type printing functions. * c-typeprint.c, m2-typeprint.c: New files for language dependent type printing functions and definitions. * valprint.h: New include file for language independent value printing definitions. * c-valprint.c, cp-valprint.c, m2-valprint.c: New files for language dependent value printing functions. * c-exp.y (production ptype): Add range_type variable and use new create_range_type function. * c-exp.y (tokentab2, tokentab3), c-lang.c (c_op_print_tab), infcmd.c (path_var_name), language.c (unk_op_print_tab), m2-lang.c (m2_op_print_tab): Change from ANSI-obsolescent "const static" to ANSI-conformant "static const". * c-exp.y (c_create_fundamental_type): Remove unused nbytes. * c-exp.y (c_language_defn, cplus_language_defn): Add c_print_type, and c_val_print. * c-lang.h (c_print_type, c_val_print): Add prototypes. * coffread.c (decode_type): Add range_type variable and call to new create_range_type function. * complaints.c (complain): Remove unused val variable. * complaints.c (_initialize_complaints): Make it void. * convex-tdep.c (value_of_trapped_internalvar): Add range_type variable and call new create_range_type function. * defs.h (enum val_prettyprint): Move enum from value.h to here so we can avoid having to include value.h just for prototypes that need the enum (thanks ANSI). * dwarfread.c (struct_type): Local anonymous_size variable is only used if !BITS_BIG_ENDIAN. * dwarfread.c (decode_subscript_data_item): Add rangetype variable and call new create_range_type function. * elfread.c (elf_symfile_read): Remove unused dbx and text_sect variables. * eval.c (evaluate_subexp): Remove unused local variable name and the statement with no side effects that initializes it. * expprint.c (print_subexp): Change local_printstr to LA_PRINT_STRING. * gdbtypes.c (create_range_type): New function that creates a range type using code fragments from object file readers as an example of what has to be initialized. * gdbtypes.c (create_array_type): Removed index_type, low_bound, and high_bound parameters, replaced with a single range_type parameter. Change function body to use passed in range_type rather than handcrafting one. * gdbtypes.h (create_range_type): Add prototype. * gdbtypes.h (create_array_type): Change prototype parameters. * infrun.c (normal_stop): Remove unused local variables tem and c. * infrun.c (hook_stop_stub): Return 0 rather than random value. * language.c (unk_lang_print_type, unk_lang_val_print): Add stub functions that call error if called. * language.c (unknown_language_defn, auto_language_defn, local_language_defn): Add initializers unk_lang_print_type and unk_lang_val_print. * language.h (struct language_defn): Reformat for larger comments, add la_print_type and la_val_print members. Add LA_PRINT_TYPE and LA_VAL_PRINT macros. Change local_printchar to LA_PRINT_CHAR and local_printstr to LA_PRINT_STRING. * m2-lang.c (m2_create_fundamental_type): Remove unused local variable nbytes. * m2-lang.c (m2_language_defn): Add initializers m2_print_type and m2_val_print. * m2-lang.h (m2_print_type, m2_val_print): Add prototypes. * main.c (execute_command): Remove unused local variable cmdlines. * main.c (echo_command), stabsread.c (read_type), printcmd.c (clear_displays), symmisc.c (block_depth), values.c (clear_value_history): Make testing of truth value of assignment result explicit. * mipsread.c (upgrade_type): Update FIXME to include future use of create_range_type. * printcmd.c (ptype_command, ptype_eval, whatis_command, whatis_exp, maintenance_print_type): Move prototypes and functions to new typeprint.c. * printcmd.c (_initialize_printcmd): Move add_com calls for ptype_command and whatis_command to new typeprint.c. * ser-bsd.c (serial_open): Remove unused variable sgttyb. * source.c (find_source_lines): Local variable c only used when LSEEK_NOT_LINEAR is defined. * stabsread.c (read_array_type): Use new create_range_type function. * stabsread.c (read_range_type): Add new index_type variable and call new create_range_type function rather than handcrafting range types. * symmisc.c (type_print_1): Change usages to LA_PRINT_TYPE. * symtab.c (typedef_print usages): Use c_typedef_print, renamed. * symtab.c (type_print_base usages): Use c_type_print_base. * symtab.c (type_print_varspec_prefix usages): Use c_type_print_varspec_prefix. * symtab.c (type_print_method_args usages): Use cp_type_print_method_args. * valprint.c: Completely ripped apart and the fragments used to create c-valprint.c, cp-valprint.c, m2-valprint.c, and valprint.h. Remaining stuff is language independent. * value.h (struct fn_field): Forward declare for prototypes. * value.h (type_print_1): Remove prototype. * value.h (enum val_prettyprint): Moved to defs.h. * value.h (typedef_print): Prototype renamed to c_typedef_print. * value.h (baseclass_offset): Add prototype. **** start-sanitize-chill **** * Makefile.in (SFILES_MAINDIR): Add ch-typeprint.c, ch-valprint.c. * Makefile.in (OBS): Add ch-typeprint.o, ch-valprint.o. * ch-typeprint.c: New file for language dependent type printing. * ch-valprint.c: New file for language dependent value printing. * ch-exp.y (parse_number): Remove prototype and stub function. * ch-exp.y (decode_integer_literal): Removed unused digits and temp variables. * ch-exp.y (convert_float): Completely ifdef out for now. * ch-exp.y (tokentab2, tokentab3, tokentab4, tokentab5), ch-lang.c (chill_op_print_tab): Change from ANSI-obsolescent "const static" to ANSI-conformant "static const". * ch-exp.y (yylex): Add unhandled storage class enumeration literals to switch statement for completeness. * ch-lang.c (chill_create_fundamental_types): Remove unused nbytes variable. Change dummy type to 2 bytes to match int. Handle FT_VOID types gratuituously added to chill DWARF by compiler. Change FT_CHAR case to generate an TYPE_CODE_CHAR type rather than a one byte TYPE_CODE_INT type. * ch-lang.c (chill_language_defn): Add chill_print_type and chill_val_print. * ch-lang.h (chill_print_type, chill_val_print): Add prototypes. **** end-sanitize-chill ****
1992-12-18 20:21:32 +00:00
nexttype = dwarf_fundamental_type (current_objfile, FT_INTEGER);
rangetype = create_range_type ((struct type *) NULL, nexttype, 0, 0);
typep = create_array_type ((struct type *) NULL, nexttype, rangetype);
break;
default:
complain (&unknown_array_subscript_format, DIE_ID, DIE_NAME, format);
* Makefile.in (VERSION): Bump to 4.7.4. * Makefile.in (SFILES_MAINDIR): Add typeprint.c, c-typeprint.c, m2-typeprint.c, c-valprint.c cp-valprint.c m2-valprint.c. * Makefile.in (HFILES): Add valprint.h. * Makefile.in (OBS): Add typeprint.o, c-typeprint.o, m2-typeprint.o, c-valprint.o, cp-valprint.o m2-valprint.o. * typeprint.c, typeprint.h: New files for language independent type printing functions. * c-typeprint.c, m2-typeprint.c: New files for language dependent type printing functions and definitions. * valprint.h: New include file for language independent value printing definitions. * c-valprint.c, cp-valprint.c, m2-valprint.c: New files for language dependent value printing functions. * c-exp.y (production ptype): Add range_type variable and use new create_range_type function. * c-exp.y (tokentab2, tokentab3), c-lang.c (c_op_print_tab), infcmd.c (path_var_name), language.c (unk_op_print_tab), m2-lang.c (m2_op_print_tab): Change from ANSI-obsolescent "const static" to ANSI-conformant "static const". * c-exp.y (c_create_fundamental_type): Remove unused nbytes. * c-exp.y (c_language_defn, cplus_language_defn): Add c_print_type, and c_val_print. * c-lang.h (c_print_type, c_val_print): Add prototypes. * coffread.c (decode_type): Add range_type variable and call to new create_range_type function. * complaints.c (complain): Remove unused val variable. * complaints.c (_initialize_complaints): Make it void. * convex-tdep.c (value_of_trapped_internalvar): Add range_type variable and call new create_range_type function. * defs.h (enum val_prettyprint): Move enum from value.h to here so we can avoid having to include value.h just for prototypes that need the enum (thanks ANSI). * dwarfread.c (struct_type): Local anonymous_size variable is only used if !BITS_BIG_ENDIAN. * dwarfread.c (decode_subscript_data_item): Add rangetype variable and call new create_range_type function. * elfread.c (elf_symfile_read): Remove unused dbx and text_sect variables. * eval.c (evaluate_subexp): Remove unused local variable name and the statement with no side effects that initializes it. * expprint.c (print_subexp): Change local_printstr to LA_PRINT_STRING. * gdbtypes.c (create_range_type): New function that creates a range type using code fragments from object file readers as an example of what has to be initialized. * gdbtypes.c (create_array_type): Removed index_type, low_bound, and high_bound parameters, replaced with a single range_type parameter. Change function body to use passed in range_type rather than handcrafting one. * gdbtypes.h (create_range_type): Add prototype. * gdbtypes.h (create_array_type): Change prototype parameters. * infrun.c (normal_stop): Remove unused local variables tem and c. * infrun.c (hook_stop_stub): Return 0 rather than random value. * language.c (unk_lang_print_type, unk_lang_val_print): Add stub functions that call error if called. * language.c (unknown_language_defn, auto_language_defn, local_language_defn): Add initializers unk_lang_print_type and unk_lang_val_print. * language.h (struct language_defn): Reformat for larger comments, add la_print_type and la_val_print members. Add LA_PRINT_TYPE and LA_VAL_PRINT macros. Change local_printchar to LA_PRINT_CHAR and local_printstr to LA_PRINT_STRING. * m2-lang.c (m2_create_fundamental_type): Remove unused local variable nbytes. * m2-lang.c (m2_language_defn): Add initializers m2_print_type and m2_val_print. * m2-lang.h (m2_print_type, m2_val_print): Add prototypes. * main.c (execute_command): Remove unused local variable cmdlines. * main.c (echo_command), stabsread.c (read_type), printcmd.c (clear_displays), symmisc.c (block_depth), values.c (clear_value_history): Make testing of truth value of assignment result explicit. * mipsread.c (upgrade_type): Update FIXME to include future use of create_range_type. * printcmd.c (ptype_command, ptype_eval, whatis_command, whatis_exp, maintenance_print_type): Move prototypes and functions to new typeprint.c. * printcmd.c (_initialize_printcmd): Move add_com calls for ptype_command and whatis_command to new typeprint.c. * ser-bsd.c (serial_open): Remove unused variable sgttyb. * source.c (find_source_lines): Local variable c only used when LSEEK_NOT_LINEAR is defined. * stabsread.c (read_array_type): Use new create_range_type function. * stabsread.c (read_range_type): Add new index_type variable and call new create_range_type function rather than handcrafting range types. * symmisc.c (type_print_1): Change usages to LA_PRINT_TYPE. * symtab.c (typedef_print usages): Use c_typedef_print, renamed. * symtab.c (type_print_base usages): Use c_type_print_base. * symtab.c (type_print_varspec_prefix usages): Use c_type_print_varspec_prefix. * symtab.c (type_print_method_args usages): Use cp_type_print_method_args. * valprint.c: Completely ripped apart and the fragments used to create c-valprint.c, cp-valprint.c, m2-valprint.c, and valprint.h. Remaining stuff is language independent. * value.h (struct fn_field): Forward declare for prototypes. * value.h (type_print_1): Remove prototype. * value.h (enum val_prettyprint): Moved to defs.h. * value.h (typedef_print): Prototype renamed to c_typedef_print. * value.h (baseclass_offset): Add prototype. **** start-sanitize-chill **** * Makefile.in (SFILES_MAINDIR): Add ch-typeprint.c, ch-valprint.c. * Makefile.in (OBS): Add ch-typeprint.o, ch-valprint.o. * ch-typeprint.c: New file for language dependent type printing. * ch-valprint.c: New file for language dependent value printing. * ch-exp.y (parse_number): Remove prototype and stub function. * ch-exp.y (decode_integer_literal): Removed unused digits and temp variables. * ch-exp.y (convert_float): Completely ifdef out for now. * ch-exp.y (tokentab2, tokentab3, tokentab4, tokentab5), ch-lang.c (chill_op_print_tab): Change from ANSI-obsolescent "const static" to ANSI-conformant "static const". * ch-exp.y (yylex): Add unhandled storage class enumeration literals to switch statement for completeness. * ch-lang.c (chill_create_fundamental_types): Remove unused nbytes variable. Change dummy type to 2 bytes to match int. Handle FT_VOID types gratuituously added to chill DWARF by compiler. Change FT_CHAR case to generate an TYPE_CODE_CHAR type rather than a one byte TYPE_CODE_INT type. * ch-lang.c (chill_language_defn): Add chill_print_type and chill_val_print. * ch-lang.h (chill_print_type, chill_val_print): Add prototypes. **** end-sanitize-chill ****
1992-12-18 20:21:32 +00:00
nexttype = dwarf_fundamental_type (current_objfile, FT_INTEGER);
rangetype = create_range_type ((struct type *) NULL, nexttype, 0, 0);
typep = create_array_type ((struct type *) NULL, nexttype, rangetype);
break;
}
return (typep);
}
/*
LOCAL FUNCTION
dwarf_read_array_type -- read TAG_array_type DIE
SYNOPSIS
static void dwarf_read_array_type (struct dieinfo *dip)
DESCRIPTION
Extract all information from a TAG_array_type DIE and add to
the user defined type vector.
*/
static void
dwarf_read_array_type (dip)
struct dieinfo *dip;
{
struct type *type;
struct type *utype;
char *sub;
char *subend;
unsigned short blocksz;
int nbytes;
if (dip -> at_ordering != ORD_row_major)
{
/* FIXME: Can gdb even handle column major arrays? */
complain (&not_row_major, DIE_ID, DIE_NAME);
}
if ((sub = dip -> at_subscr_data) != NULL)
{
nbytes = attribute_size (AT_subscr_data);
blocksz = target_to_host (sub, nbytes, GET_UNSIGNED, current_objfile);
subend = sub + nbytes + blocksz;
sub += nbytes;
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
type = decode_subscript_data_item (sub, subend);
if ((utype = lookup_utype (dip -> die_ref)) == NULL)
{
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
/* Install user defined type that has not been referenced yet. */
alloc_utype (dip -> die_ref, type);
}
else if (TYPE_CODE (utype) == TYPE_CODE_UNDEF)
{
/* Ick! A forward ref has already generated a blank type in our
slot, and this type probably already has things pointing to it
(which is what caused it to be created in the first place).
If it's just a place holder we can plop our fully defined type
on top of it. We can't recover the space allocated for our
new type since it might be on an obstack, but we could reuse
it if we kept a list of them, but it might not be worth it
(FIXME). */
*utype = *type;
}
else
{
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
/* Double ick! Not only is a type already in our slot, but
someone has decorated it. Complain and leave it alone. */
complain (&dup_user_type_definition, DIE_ID, DIE_NAME);
}
}
}
/*
LOCAL FUNCTION
read_tag_pointer_type -- read TAG_pointer_type DIE
SYNOPSIS
static void read_tag_pointer_type (struct dieinfo *dip)
DESCRIPTION
Extract all information from a TAG_pointer_type DIE and add to
the user defined type vector.
*/
static void
read_tag_pointer_type (dip)
struct dieinfo *dip;
{
struct type *type;
struct type *utype;
type = decode_die_type (dip);
if ((utype = lookup_utype (dip -> die_ref)) == NULL)
{
utype = lookup_pointer_type (type);
alloc_utype (dip -> die_ref, utype);
}
else
{
TYPE_TARGET_TYPE (utype) = type;
TYPE_POINTER_TYPE (type) = utype;
/* We assume the machine has only one representation for pointers! */
/* FIXME: This confuses host<->target data representations, and is a
poor assumption besides. */
TYPE_LENGTH (utype) = sizeof (char *);
TYPE_CODE (utype) = TYPE_CODE_PTR;
}
}
/*
LOCAL FUNCTION
read_tag_string_type -- read TAG_string_type DIE
SYNOPSIS
static void read_tag_string_type (struct dieinfo *dip)
DESCRIPTION
Extract all information from a TAG_string_type DIE and add to
the user defined type vector. It isn't really a user defined
type, but it behaves like one, with other DIE's using an
AT_user_def_type attribute to reference it.
*/
static void
read_tag_string_type (dip)
struct dieinfo *dip;
{
struct type *utype;
struct type *indextype;
struct type *rangetype;
unsigned long lowbound = 0;
unsigned long highbound;
if (dip -> has_at_byte_size)
{
/* A fixed bounds string */
highbound = dip -> at_byte_size - 1;
}
else
{
/* A varying length string. Stub for now. (FIXME) */
highbound = 1;
}
indextype = dwarf_fundamental_type (current_objfile, FT_INTEGER);
rangetype = create_range_type ((struct type *) NULL, indextype, lowbound,
highbound);
utype = lookup_utype (dip -> die_ref);
if (utype == NULL)
{
/* No type defined, go ahead and create a blank one to use. */
utype = alloc_utype (dip -> die_ref, (struct type *) NULL);
}
else
{
/* Already a type in our slot due to a forward reference. Make sure it
is a blank one. If not, complain and leave it alone. */
if (TYPE_CODE (utype) != TYPE_CODE_UNDEF)
{
complain (&dup_user_type_definition, DIE_ID, DIE_NAME);
return;
}
}
/* Create the string type using the blank type we either found or created. */
utype = create_string_type (utype, rangetype);
}
/*
LOCAL FUNCTION
read_subroutine_type -- process TAG_subroutine_type dies
SYNOPSIS
static void read_subroutine_type (struct dieinfo *dip, char thisdie,
char *enddie)
DESCRIPTION
Handle DIES due to C code like:
struct foo {
int (*funcp)(int a, long l); (Generates TAG_subroutine_type DIE)
int b;
};
NOTES
The parameter DIES are currently ignored. See if gdb has a way to
include this info in it's type system, and decode them if so. Is
this what the type structure's "arg_types" field is for? (FIXME)
*/
static void
read_subroutine_type (dip, thisdie, enddie)
struct dieinfo *dip;
char *thisdie;
char *enddie;
{
struct type *type; /* Type that this function returns */
struct type *ftype; /* Function that returns above type */
/* Decode the type that this subroutine returns */
type = decode_die_type (dip);
/* Check to see if we already have a partially constructed user
defined type for this DIE, from a forward reference. */
if ((ftype = lookup_utype (dip -> die_ref)) == NULL)
{
/* This is the first reference to one of these types. Make
a new one and place it in the user defined types. */
ftype = lookup_function_type (type);
alloc_utype (dip -> die_ref, ftype);
}
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
else if (TYPE_CODE (ftype) == TYPE_CODE_UNDEF)
{
/* We have an existing partially constructed type, so bash it
into the correct type. */
TYPE_TARGET_TYPE (ftype) = type;
TYPE_FUNCTION_TYPE (type) = ftype;
TYPE_LENGTH (ftype) = 1;
TYPE_CODE (ftype) = TYPE_CODE_FUNC;
}
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
else
{
complain (&dup_user_type_definition, DIE_ID, DIE_NAME);
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
}
}
/*
LOCAL FUNCTION
read_enumeration -- process dies which define an enumeration
SYNOPSIS
static void read_enumeration (struct dieinfo *dip, char *thisdie,
char *enddie, struct objfile *objfile)
DESCRIPTION
Given a pointer to a die which begins an enumeration, process all
the dies that define the members of the enumeration.
NOTES
Note that we need to call enum_type regardless of whether or not we
have a symbol, since we might have an enum without a tag name (thus
no symbol for the tagname).
*/
static void
read_enumeration (dip, thisdie, enddie, objfile)
struct dieinfo *dip;
char *thisdie;
char *enddie;
struct objfile *objfile;
{
struct type *type;
struct symbol *sym;
type = enum_type (dip, objfile);
1992-08-31 20:50:45 +00:00
sym = new_symbol (dip, objfile);
if (sym != NULL)
{
SYMBOL_TYPE (sym) = type;
1992-08-31 20:50:45 +00:00
if (cu_language == language_cplus)
{
synthesize_typedef (dip, objfile, type);
}
}
}
/*
LOCAL FUNCTION
enum_type -- decode and return a type for an enumeration
SYNOPSIS
static type *enum_type (struct dieinfo *dip, struct objfile *objfile)
DESCRIPTION
Given a pointer to a die information structure for the die which
starts an enumeration, process all the dies that define the members
of the enumeration and return a type pointer for the enumeration.
At the same time, for each member of the enumeration, create a
symbol for it with namespace VAR_NAMESPACE and class LOC_CONST,
and give it the type of the enumeration itself.
NOTES
Note that the DWARF specification explicitly mandates that enum
constants occur in reverse order from the source program order,
for "consistency" and because this ordering is easier for many
compilers to generate. (Draft 6, sec 3.8.5, Enumeration type
Entries). Because gdb wants to see the enum members in program
source order, we have to ensure that the order gets reversed while
we are processing them.
*/
static struct type *
enum_type (dip, objfile)
struct dieinfo *dip;
struct objfile *objfile;
{
struct type *type;
struct nextfield {
struct nextfield *next;
struct field field;
};
struct nextfield *list = NULL;
struct nextfield *new;
int nfields = 0;
int n;
char *scan;
char *listend;
unsigned short blocksz;
struct symbol *sym;
int nbytes;
if ((type = lookup_utype (dip -> die_ref)) == NULL)
{
/* No forward references created an empty type, so install one now */
type = alloc_utype (dip -> die_ref, NULL);
}
TYPE_CODE (type) = TYPE_CODE_ENUM;
/* Some compilers try to be helpful by inventing "fake" names for
anonymous enums, structures, and unions, like "~0fake" or ".0fake".
Thanks, but no thanks... */
if (dip -> at_name != NULL
&& *dip -> at_name != '~'
&& *dip -> at_name != '.')
{
TYPE_TAG_NAME (type) = obconcat (&objfile -> type_obstack,
"", "", dip -> at_name);
}
if (dip -> at_byte_size != 0)
{
TYPE_LENGTH (type) = dip -> at_byte_size;
}
if ((scan = dip -> at_element_list) != NULL)
{
if (dip -> short_element_list)
{
nbytes = attribute_size (AT_short_element_list);
}
else
{
nbytes = attribute_size (AT_element_list);
}
blocksz = target_to_host (scan, nbytes, GET_UNSIGNED, objfile);
listend = scan + nbytes + blocksz;
scan += nbytes;
while (scan < listend)
{
new = (struct nextfield *) alloca (sizeof (struct nextfield));
new -> next = list;
list = new;
list -> field.type = NULL;
list -> field.bitsize = 0;
list -> field.bitpos =
target_to_host (scan, TARGET_FT_LONG_SIZE (objfile), GET_SIGNED,
objfile);
scan += TARGET_FT_LONG_SIZE (objfile);
list -> field.name = obsavestring (scan, strlen (scan),
&objfile -> type_obstack);
scan += strlen (scan) + 1;
nfields++;
/* Handcraft a new symbol for this enum member. */
sym = (struct symbol *) obstack_alloc (&objfile->symbol_obstack,
sizeof (struct symbol));
memset (sym, 0, sizeof (struct symbol));
SYMBOL_NAME (sym) = create_name (list -> field.name,
&objfile->symbol_obstack);
* tm-sun4sol2.h (CPLUS_MARKER): Remove, now set in tm-sysv4.h. * tm-sysv4.h (CPLUS_MARKER): By default, g++ uses '.' as the CPLUS_MARKER for all SVR4 systems, so follow suit. * defs.h (strdup_demangled): Remove prototype. * dwarfread.c (enum_type, synthesize_typedef): Use new macro SYMBOL_INIT_LANGUAGE_SPECIFIC. * dwarfread.c (new_symbol): Use SYMBOL_INIT_DEMANGLED_NAME. * minsyms.c (install_minimal_symbols, prim_record_minimal_symbol, prim_record_minimal_symbol_and_info): Use new macro SYMBOL_INIT_LANGUAGE_SPECIFIC. * minsyms.c (install_minimal_symbols): Use new macro SYMBOL_INIT_DEMANGLED_NAME. * stabsread.c (define_symbol): Use new macro SYMBOL_INIT_DEMANGLED_NAME. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Use new macro SYMBOL_INIT_DEMANGLED_NAME. * symfile.h (ADD_PSYMBOL_VT_TO_LIST): Use new macro SYMBOL_INIT_DEMANGLED_NAME. * symmisc.c (dump_msymbols, dump_symtab, print_partial_symbol): SYMBOL_DEMANGLED_NAME now tests language itself. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): SYMBOL_DEMANGLED_NAME now tests language itself. * symtab.h (SYMBOL_CPLUS_DEMANGLED_NAME): New macro that does what SYMBOL_DEMANGLED_NAME used to do, directly access the C++ mangled name member in the language dependent portion of a symbol. * symtab.h (SYMBOL_DEMANGLED_NAME): New macro that returns the mangled name member appropriate for a symbol's language. * symtab.h (SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP): SYMBOL_DEMANGLED_NAME now tests language itself. * symtab.h (SYMBOL_INIT_LANGUAGE_SPECIFIC): New macro that initializes language dependent portion of symbol. * symtab.h (SYMBOL_INIT_DEMANGLED_NAME): New macro that demangles and caches the demangled form of symbol names. * utils.c (fputs_demangled, fprint_symbol): Use current language to select an appropriate demangling algorithm. * utils.c (strdup_demangled): Remove, no longer used. **** start-sanitize-chill **** * symtab.h (SYMBOL_CHILL_DEMANGLED_NAME): New macro that directly access the Chill mangled name member in the language dependent portion of a symbol. * ch-lang.c (chill_demangle): New function, simple demangler. * defs.h (chill_demangle): Add prototype. * symtab.h (language_dependent_info): Add struct for Chill. **** end-sanitize-chill ****
1993-01-01 20:29:41 +00:00
SYMBOL_INIT_LANGUAGE_SPECIFIC (sym, cu_language);
SYMBOL_NAMESPACE (sym) = VAR_NAMESPACE;
SYMBOL_CLASS (sym) = LOC_CONST;
SYMBOL_TYPE (sym) = type;
SYMBOL_VALUE (sym) = list -> field.bitpos;
add_symbol_to_list (sym, list_in_scope);
}
/* Now create the vector of fields, and record how big it is. This is
where we reverse the order, by pulling the members off the list in
reverse order from how they were inserted. If we have no fields
(this is apparently possible in C++) then skip building a field
vector. */
if (nfields > 0)
{
TYPE_NFIELDS (type) = nfields;
TYPE_FIELDS (type) = (struct field *)
obstack_alloc (&objfile->symbol_obstack, sizeof (struct field) * nfields);
/* Copy the saved-up fields into the field vector. */
for (n = 0; (n < nfields) && (list != NULL); list = list -> next)
{
TYPE_FIELD (type, n++) = list -> field;
}
}
}
return (type);
}
/*
LOCAL FUNCTION
read_func_scope -- process all dies within a function scope
DESCRIPTION
Process all dies within a given function scope. We are passed
a die information structure pointer DIP for the die which
starts the function scope, and pointers into the raw die data
that define the dies within the function scope.
For now, we ignore lexical block scopes within the function.
The problem is that AT&T cc does not define a DWARF lexical
block scope for the function itself, while gcc defines a
lexical block scope for the function. We need to think about
how to handle this difference, or if it is even a problem.
(FIXME)
*/
static void
read_func_scope (dip, thisdie, enddie, objfile)
struct dieinfo *dip;
char *thisdie;
char *enddie;
struct objfile *objfile;
{
register struct context_stack *new;
if (objfile -> ei.entry_point >= dip -> at_low_pc &&
objfile -> ei.entry_point < dip -> at_high_pc)
{
objfile -> ei.entry_func_lowpc = dip -> at_low_pc;
objfile -> ei.entry_func_highpc = dip -> at_high_pc;
}
if (STREQ (dip -> at_name, "main")) /* FIXME: hardwired name */
{
objfile -> ei.main_func_lowpc = dip -> at_low_pc;
objfile -> ei.main_func_highpc = dip -> at_high_pc;
}
new = push_context (0, dip -> at_low_pc);
new -> name = new_symbol (dip, objfile);
list_in_scope = &local_symbols;
process_dies (thisdie + dip -> die_length, enddie, objfile);
new = pop_context ();
/* Make a block for the local symbols within. */
finish_block (new -> name, &local_symbols, new -> old_blocks,
new -> start_addr, dip -> at_high_pc, objfile);
list_in_scope = &file_symbols;
}
/*
LOCAL FUNCTION
handle_producer -- process the AT_producer attribute
DESCRIPTION
Perform any operations that depend on finding a particular
AT_producer attribute.
*/
static void
handle_producer (producer)
char *producer;
{
/* If this compilation unit was compiled with g++ or gcc, then set the
processing_gcc_compilation flag. */
processing_gcc_compilation =
STREQN (producer, GPLUS_PRODUCER, strlen (GPLUS_PRODUCER))
|| STREQN (producer, CHILL_PRODUCER, strlen (CHILL_PRODUCER))
|| STREQN (producer, GCC_PRODUCER, strlen (GCC_PRODUCER));
/* Select a demangling style if we can identify the producer and if
the current style is auto. We leave the current style alone if it
is not auto. We also leave the demangling style alone if we find a
gcc (cc1) producer, as opposed to a g++ (cc1plus) producer. */
* cplus-dem.c (cplus_markers): Add table for gnu style and use throughout, in place of compile time constant CPLUS_MARKER. * cplus-dem.c (ARM_VTABLE_STRING, ARM_VTABLE_STRLEN): Add. * cplus-dem.c (cfront_special): New function, as suggested by pfieland@stratus.com. * cplus-dem.c (forget_types): New function. * cplus-dem.c (cplus_demangle): Call gnu_special, moved from demangle_prefix(). * cplus-dem.c (mop_up): Call forget_types(). * cplus-dem.c (AUTO_DEMANGLING, GNU_DEMANGLING, LUCID_DEMANGLING): Use throughout, instead of checking current_demangling_style. * cplus-dem.c (demangle_signature): When finding an explicit start of function args, forget all remembered types for lucid/cfront style demangling. * cplus-dem.c (demangle_prefix): In a sequence of two or more underbar characters, use last pair as the delimiter. Hoist gnu_special() call up to cplus_demangle(). Call cfront_special() when appropriate. * cplus-dem.c (cplus_special): Fix virtual table name demangling for inherited classes. * cplus-dem.c (demangle_args): Document quirks of numbered references to previously seen types. * dbxread.c (read_ofile_symtab, process_one_symbol): Use AUTO_DEMANGLING rather than explicitly checking current_demangling_style. * demangle.h: Add some comments. * demangle.h (AUTO_DEMANGLING, GNU_DEMANGLING, LUCID_DEMANGLING, CFRONT_DEMANGLING): New macros. * dwarfread.c (LCC_PRODUCER): Remove trailing space, which is not found in the actual producer string produced by lcc. * dwarfread.c (handle_producer): Use AUTO_DEMANGLING rather than explicitly checking current_demangling_style.
1992-08-14 19:14:15 +00:00
if (AUTO_DEMANGLING)
{
if (STREQN (producer, GPLUS_PRODUCER, strlen (GPLUS_PRODUCER)))
{
set_demangling_style (GNU_DEMANGLING_STYLE_STRING);
}
else if (STREQN (producer, LCC_PRODUCER, strlen (LCC_PRODUCER)))
{
set_demangling_style (LUCID_DEMANGLING_STYLE_STRING);
}
}
}
/*
LOCAL FUNCTION
read_file_scope -- process all dies within a file scope
DESCRIPTION
Process all dies within a given file scope. We are passed a
pointer to the die information structure for the die which
starts the file scope, and pointers into the raw die data which
mark the range of dies within the file scope.
When the partial symbol table is built, the file offset for the line
number table for each compilation unit is saved in the partial symbol
table entry for that compilation unit. As the symbols for each
compilation unit are read, the line number table is read into memory
and the variable lnbase is set to point to it. Thus all we have to
do is use lnbase to access the line number table for the current
compilation unit.
*/
static void
read_file_scope (dip, thisdie, enddie, objfile)
struct dieinfo *dip;
char *thisdie;
char *enddie;
struct objfile *objfile;
{
struct cleanup *back_to;
struct symtab *symtab;
if (objfile -> ei.entry_point >= dip -> at_low_pc &&
objfile -> ei.entry_point < dip -> at_high_pc)
{
objfile -> ei.entry_file_lowpc = dip -> at_low_pc;
objfile -> ei.entry_file_highpc = dip -> at_high_pc;
}
1992-08-31 20:50:45 +00:00
set_cu_language (dip);
if (dip -> at_producer != NULL)
{
handle_producer (dip -> at_producer);
}
numutypes = (enddie - thisdie) / 4;
utypes = (struct type **) xmalloc (numutypes * sizeof (struct type *));
back_to = make_cleanup (free, utypes);
memset (utypes, 0, numutypes * sizeof (struct type *));
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
memset (ftypes, 0, FT_NUM_MEMBERS * sizeof (struct type *));
start_symtab (dip -> at_name, dip -> at_comp_dir, dip -> at_low_pc);
decode_line_numbers (lnbase);
process_dies (thisdie + dip -> die_length, enddie, objfile);
symtab = end_symtab (dip -> at_high_pc, 0, 0, objfile, 0);
if (symtab != NULL)
{
1992-08-31 20:50:45 +00:00
symtab -> language = cu_language;
}
do_cleanups (back_to);
utypes = NULL;
numutypes = 0;
}
/*
LOCAL FUNCTION
process_dies -- process a range of DWARF Information Entries
SYNOPSIS
static void process_dies (char *thisdie, char *enddie,
struct objfile *objfile)
DESCRIPTION
Process all DIE's in a specified range. May be (and almost
certainly will be) called recursively.
*/
static void
process_dies (thisdie, enddie, objfile)
char *thisdie;
char *enddie;
struct objfile *objfile;
{
char *nextdie;
struct dieinfo di;
while (thisdie < enddie)
{
basicdieinfo (&di, thisdie, objfile);
if (di.die_length < SIZEOF_DIE_LENGTH)
{
break;
}
else if (di.die_tag == TAG_padding)
{
nextdie = thisdie + di.die_length;
}
else
{
completedieinfo (&di, objfile);
if (di.at_sibling != 0)
{
nextdie = dbbase + di.at_sibling - dbroff;
}
else
{
nextdie = thisdie + di.die_length;
}
#ifdef SMASH_TEXT_ADDRESS
/* I think that these are always text, not data, addresses. */
SMASH_TEXT_ADDRESS (di.at_low_pc);
SMASH_TEXT_ADDRESS (di.at_high_pc);
#endif
switch (di.die_tag)
{
case TAG_compile_unit:
/* Skip Tag_compile_unit if we are already inside a compilation
unit, we are unable to handle nested compilation units
properly (FIXME). */
if (current_subfile == NULL)
read_file_scope (&di, thisdie, nextdie, objfile);
else
nextdie = thisdie + di.die_length;
break;
case TAG_global_subroutine:
case TAG_subroutine:
if (di.has_at_low_pc)
{
read_func_scope (&di, thisdie, nextdie, objfile);
}
break;
case TAG_lexical_block:
read_lexical_block_scope (&di, thisdie, nextdie, objfile);
break;
1992-08-31 20:50:45 +00:00
case TAG_class_type:
case TAG_structure_type:
case TAG_union_type:
read_structure_scope (&di, thisdie, nextdie, objfile);
break;
case TAG_enumeration_type:
read_enumeration (&di, thisdie, nextdie, objfile);
break;
case TAG_subroutine_type:
read_subroutine_type (&di, thisdie, nextdie);
break;
case TAG_array_type:
dwarf_read_array_type (&di);
break;
case TAG_pointer_type:
read_tag_pointer_type (&di);
break;
case TAG_string_type:
read_tag_string_type (&di);
break;
default:
new_symbol (&di, objfile);
break;
}
}
thisdie = nextdie;
}
}
/*
LOCAL FUNCTION
decode_line_numbers -- decode a line number table fragment
SYNOPSIS
static void decode_line_numbers (char *tblscan, char *tblend,
long length, long base, long line, long pc)
DESCRIPTION
Translate the DWARF line number information to gdb form.
The ".line" section contains one or more line number tables, one for
each ".line" section from the objects that were linked.
The AT_stmt_list attribute for each TAG_source_file entry in the
".debug" section contains the offset into the ".line" section for the
start of the table for that file.
The table itself has the following structure:
<table length><base address><source statement entry>
4 bytes 4 bytes 10 bytes
The table length is the total size of the table, including the 4 bytes
for the length information.
The base address is the address of the first instruction generated
for the source file.
Each source statement entry has the following structure:
<line number><statement position><address delta>
4 bytes 2 bytes 4 bytes
The line number is relative to the start of the file, starting with
line 1.
The statement position either -1 (0xFFFF) or the number of characters
from the beginning of the line to the beginning of the statement.
The address delta is the difference between the base address and
the address of the first instruction for the statement.
Note that we must copy the bytes from the packed table to our local
variables before attempting to use them, to avoid alignment problems
on some machines, particularly RISC processors.
BUGS
Does gdb expect the line numbers to be sorted? They are now by
chance/luck, but are not required to be. (FIXME)
The line with number 0 is unused, gdb apparently can discover the
span of the last line some other way. How? (FIXME)
*/
static void
decode_line_numbers (linetable)
char *linetable;
{
char *tblscan;
char *tblend;
unsigned long length;
unsigned long base;
unsigned long line;
unsigned long pc;
if (linetable != NULL)
{
tblscan = tblend = linetable;
length = target_to_host (tblscan, SIZEOF_LINETBL_LENGTH, GET_UNSIGNED,
current_objfile);
tblscan += SIZEOF_LINETBL_LENGTH;
tblend += length;
base = target_to_host (tblscan, TARGET_FT_POINTER_SIZE (objfile),
GET_UNSIGNED, current_objfile);
tblscan += TARGET_FT_POINTER_SIZE (objfile);
base += baseaddr;
while (tblscan < tblend)
{
line = target_to_host (tblscan, SIZEOF_LINETBL_LINENO, GET_UNSIGNED,
current_objfile);
tblscan += SIZEOF_LINETBL_LINENO + SIZEOF_LINETBL_STMT;
pc = target_to_host (tblscan, SIZEOF_LINETBL_DELTA, GET_UNSIGNED,
current_objfile);
tblscan += SIZEOF_LINETBL_DELTA;
pc += base;
if (line != 0)
{
record_line (current_subfile, line, pc);
}
}
}
}
/*
LOCAL FUNCTION
locval -- compute the value of a location attribute
SYNOPSIS
static int locval (char *loc)
DESCRIPTION
Given pointer to a string of bytes that define a location, compute
the location and return the value.
When computing values involving the current value of the frame pointer,
the value zero is used, which results in a value relative to the frame
pointer, rather than the absolute value. This is what GDB wants
anyway.
When the result is a register number, the global isreg flag is set,
otherwise it is cleared. This is a kludge until we figure out a better
way to handle the problem. Gdb's design does not mesh well with the
DWARF notion of a location computing interpreter, which is a shame
because the flexibility goes unused.
NOTES
Note that stack[0] is unused except as a default error return.
Note that stack overflow is not yet handled.
*/
static int
locval (loc)
char *loc;
{
unsigned short nbytes;
unsigned short locsize;
auto long stack[64];
int stacki;
char *end;
int loc_atom_code;
int loc_value_size;
nbytes = attribute_size (AT_location);
locsize = target_to_host (loc, nbytes, GET_UNSIGNED, current_objfile);
loc += nbytes;
end = loc + locsize;
stacki = 0;
stack[stacki] = 0;
isreg = 0;
offreg = 0;
loc_value_size = TARGET_FT_LONG_SIZE (current_objfile);
while (loc < end)
{
loc_atom_code = target_to_host (loc, SIZEOF_LOC_ATOM_CODE, GET_UNSIGNED,
current_objfile);
loc += SIZEOF_LOC_ATOM_CODE;
switch (loc_atom_code)
{
case 0:
/* error */
loc = end;
break;
case OP_REG:
/* push register (number) */
stack[++stacki]
= DWARF_REG_TO_REGNUM (target_to_host (loc, loc_value_size,
GET_UNSIGNED,
current_objfile));
loc += loc_value_size;
isreg = 1;
break;
case OP_BASEREG:
/* push value of register (number) */
/* Actually, we compute the value as if register has 0, so the
value ends up being the offset from that register. */
offreg = 1;
basereg = target_to_host (loc, loc_value_size, GET_UNSIGNED,
current_objfile);
loc += loc_value_size;
stack[++stacki] = 0;
break;
case OP_ADDR:
/* push address (relocated address) */
stack[++stacki] = target_to_host (loc, loc_value_size,
GET_UNSIGNED, current_objfile);
loc += loc_value_size;
break;
case OP_CONST:
/* push constant (number) FIXME: signed or unsigned! */
stack[++stacki] = target_to_host (loc, loc_value_size,
GET_SIGNED, current_objfile);
loc += loc_value_size;
break;
case OP_DEREF2:
/* pop, deref and push 2 bytes (as a long) */
complain (&op_deref2, DIE_ID, DIE_NAME, stack[stacki]);
break;
case OP_DEREF4: /* pop, deref and push 4 bytes (as a long) */
complain (&op_deref4, DIE_ID, DIE_NAME, stack[stacki]);
break;
case OP_ADD: /* pop top 2 items, add, push result */
stack[stacki - 1] += stack[stacki];
stacki--;
break;
}
}
return (stack[stacki]);
}
/*
LOCAL FUNCTION
read_ofile_symtab -- build a full symtab entry from chunk of DIE's
SYNOPSIS
static void read_ofile_symtab (struct partial_symtab *pst)
DESCRIPTION
When expanding a partial symbol table entry to a full symbol table
entry, this is the function that gets called to read in the symbols
for the compilation unit. A pointer to the newly constructed symtab,
which is now the new first one on the objfile's symtab list, is
stashed in the partial symbol table entry.
*/
static void
read_ofile_symtab (pst)
struct partial_symtab *pst;
{
struct cleanup *back_to;
unsigned long lnsize;
file_ptr foffset;
bfd *abfd;
char lnsizedata[SIZEOF_LINETBL_LENGTH];
abfd = pst -> objfile -> obfd;
current_objfile = pst -> objfile;
/* Allocate a buffer for the entire chunk of DIE's for this compilation
unit, seek to the location in the file, and read in all the DIE's. */
diecount = 0;
dbsize = DBLENGTH (pst);
dbbase = xmalloc (dbsize);
dbroff = DBROFF(pst);
foffset = DBFOFF(pst) + dbroff;
base_section_offsets = pst->section_offsets;
baseaddr = ANOFFSET (pst->section_offsets, 0);
if (bfd_seek (abfd, foffset, L_SET) ||
(bfd_read (dbbase, dbsize, 1, abfd) != dbsize))
{
free (dbbase);
error ("can't read DWARF data");
}
back_to = make_cleanup (free, dbbase);
/* If there is a line number table associated with this compilation unit
then read the size of this fragment in bytes, from the fragment itself.
Allocate a buffer for the fragment and read it in for future
processing. */
lnbase = NULL;
if (LNFOFF (pst))
{
if (bfd_seek (abfd, LNFOFF (pst), L_SET) ||
(bfd_read ((PTR) lnsizedata, sizeof (lnsizedata), 1, abfd) !=
sizeof (lnsizedata)))
{
error ("can't read DWARF line number table size");
}
lnsize = target_to_host (lnsizedata, SIZEOF_LINETBL_LENGTH,
GET_UNSIGNED, pst -> objfile);
lnbase = xmalloc (lnsize);
if (bfd_seek (abfd, LNFOFF (pst), L_SET) ||
(bfd_read (lnbase, lnsize, 1, abfd) != lnsize))
{
free (lnbase);
error ("can't read DWARF line numbers");
}
make_cleanup (free, lnbase);
}
process_dies (dbbase, dbbase + dbsize, pst -> objfile);
do_cleanups (back_to);
current_objfile = NULL;
pst -> symtab = pst -> objfile -> symtabs;
}
/*
LOCAL FUNCTION
psymtab_to_symtab_1 -- do grunt work for building a full symtab entry
SYNOPSIS
static void psymtab_to_symtab_1 (struct partial_symtab *pst)
DESCRIPTION
Called once for each partial symbol table entry that needs to be
expanded into a full symbol table entry.
*/
static void
psymtab_to_symtab_1 (pst)
struct partial_symtab *pst;
{
int i;
struct cleanup *old_chain;
if (pst != NULL)
{
if (pst->readin)
{
warning ("psymtab for %s already read in. Shouldn't happen.",
pst -> filename);
}
else
{
/* Read in all partial symtabs on which this one is dependent */
for (i = 0; i < pst -> number_of_dependencies; i++)
{
if (!pst -> dependencies[i] -> readin)
{
/* Inform about additional files that need to be read in. */
if (info_verbose)
{
fputs_filtered (" ", gdb_stdout);
wrap_here ("");
fputs_filtered ("and ", gdb_stdout);
wrap_here ("");
printf_filtered ("%s...",
pst -> dependencies[i] -> filename);
wrap_here ("");
gdb_flush (gdb_stdout); /* Flush output */
}
psymtab_to_symtab_1 (pst -> dependencies[i]);
}
}
if (DBLENGTH (pst)) /* Otherwise it's a dummy */
{
buildsym_init ();
old_chain = make_cleanup (really_free_pendings, 0);
read_ofile_symtab (pst);
if (info_verbose)
{
printf_filtered ("%d DIE's, sorting...", diecount);
wrap_here ("");
gdb_flush (gdb_stdout);
}
sort_symtab_syms (pst -> symtab);
do_cleanups (old_chain);
}
pst -> readin = 1;
}
}
}
/*
LOCAL FUNCTION
dwarf_psymtab_to_symtab -- build a full symtab entry from partial one
SYNOPSIS
static void dwarf_psymtab_to_symtab (struct partial_symtab *pst)
DESCRIPTION
This is the DWARF support entry point for building a full symbol
table entry from a partial symbol table entry. We are passed a
pointer to the partial symbol table entry that needs to be expanded.
*/
static void
dwarf_psymtab_to_symtab (pst)
struct partial_symtab *pst;
{
if (pst != NULL)
{
if (pst -> readin)
{
warning ("psymtab for %s already read in. Shouldn't happen.",
pst -> filename);
}
else
{
if (DBLENGTH (pst) || pst -> number_of_dependencies)
{
/* Print the message now, before starting serious work, to avoid
disconcerting pauses. */
if (info_verbose)
{
printf_filtered ("Reading in symbols for %s...",
pst -> filename);
gdb_flush (gdb_stdout);
}
psymtab_to_symtab_1 (pst);
#if 0 /* FIXME: Check to see what dbxread is doing here and see if
we need to do an equivalent or is this something peculiar to
stabs/a.out format.
Match with global symbols. This only needs to be done once,
after all of the symtabs and dependencies have been read in.
*/
scan_file_globals (pst -> objfile);
#endif
/* Finish up the verbose info message. */
if (info_verbose)
{
printf_filtered ("done.\n");
gdb_flush (gdb_stdout);
}
}
}
}
}
/*
LOCAL FUNCTION
init_psymbol_list -- initialize storage for partial symbols
SYNOPSIS
static void init_psymbol_list (struct objfile *objfile, int total_symbols)
DESCRIPTION
Initializes storage for all of the partial symbols that will be
created by dwarf_build_psymtabs and subsidiaries.
*/
static void
init_psymbol_list (objfile, total_symbols)
struct objfile *objfile;
int total_symbols;
{
/* Free any previously allocated psymbol lists. */
if (objfile -> global_psymbols.list)
{
Create and use macros for iterating on symtabs, psymtabs, msymbols. * minsyms.c (iterate_over_msymbols): Remove; clunky and slow. * symfile.h, symtab.h (iterate_over_msymbols): Remove prototype * coffread.c (coff_symfile_read): iterate_over_symtabs => ALL_SYMTABS. (patch_opaque_types): Avoid dummy args and result. * objfiles.c (have_partial_symbols, have_full_symbols, have_minimal_symbols): explicit iteration => ALL_OBJFILES; simplify. (iterate_over_objfiles, iterate_over_symtabs, iterate_over_psymtabs): Remove, clunky and slow. * objfiles.h: Replace iterate_over_* prototypes with ALL_SYMTABS, ALL_PSYMTABS, and ALL_MSYMBOLS macros. * symmisc.c (dump_symtab, dump_psymtab, dump_msymbols, dump_objfile): Remove dummy args and results. Move filename comparisons to callers. (printsyms_command, printpsyms_command, printmsyms_command, printobjfiles_command): iterate_over_* => ALL_*. Compare filenames. * symtab.c (lookup_symtab_1, lookup_symtab, lookup_partial_symtab, lookup_symbol, find_main_psymtab, find_pc_symtab, sources_info, list_symbols, make_symbol_completion_list): Replace explicit iteration with ALL_SYMTABS, ALL_PSYMTABS, or ALL_MSYMBOLS. Eliminate Dijkstra flag crap, break out of loops with gotos. (lookup_symtab_1): Protect '/' tests from short filenames. (cplus_mangled_symbol): Move inline into lookup_symbol. * xcoffexec.c (relocate_objfile_msymbols): Remove poor hack. (relocate_minimal_symbol): Move inline to vmap_symtab. (vmap_symtab): Replace iteration with ALL_OBJFILES, iterate_over_msymbols with ALL_MSYMBOLS. Misc cleanup prior to release. * dwarfread.c (dwarf_build_psymtabs): Remove mainline test. * mipsread.c (compare_symtabs, compare_psymtabs): Remove, unused. * mipsread.c: Add prototypes for all static functions. * symmisc.c (dump_symtab_lines, dump_symtabs, dump_last_symtab, dump_blockvector, dump_block, dump_addrchass, dump_namespace, dump_symbol, dump_type, dump_linetable, dump_strtbl): Remove, unused. * xcoffread.c (dump_symtab_lines, dump_symtabs, dump_last_symtab, dump_blockvector, dump_block, dump_addrchass, dump_namespace, dump_symbol, dump_type, dump_linetable, dump_strtbl): Remove 2nd unused copy! * buildsym.c (define_symbol): Handle global register variables (from Pierre Willard). Complain if register numbers are too large.
1992-03-29 23:17:36 +00:00
mfree (objfile -> md, (PTR)objfile -> global_psymbols.list);
}
if (objfile -> static_psymbols.list)
{
Create and use macros for iterating on symtabs, psymtabs, msymbols. * minsyms.c (iterate_over_msymbols): Remove; clunky and slow. * symfile.h, symtab.h (iterate_over_msymbols): Remove prototype * coffread.c (coff_symfile_read): iterate_over_symtabs => ALL_SYMTABS. (patch_opaque_types): Avoid dummy args and result. * objfiles.c (have_partial_symbols, have_full_symbols, have_minimal_symbols): explicit iteration => ALL_OBJFILES; simplify. (iterate_over_objfiles, iterate_over_symtabs, iterate_over_psymtabs): Remove, clunky and slow. * objfiles.h: Replace iterate_over_* prototypes with ALL_SYMTABS, ALL_PSYMTABS, and ALL_MSYMBOLS macros. * symmisc.c (dump_symtab, dump_psymtab, dump_msymbols, dump_objfile): Remove dummy args and results. Move filename comparisons to callers. (printsyms_command, printpsyms_command, printmsyms_command, printobjfiles_command): iterate_over_* => ALL_*. Compare filenames. * symtab.c (lookup_symtab_1, lookup_symtab, lookup_partial_symtab, lookup_symbol, find_main_psymtab, find_pc_symtab, sources_info, list_symbols, make_symbol_completion_list): Replace explicit iteration with ALL_SYMTABS, ALL_PSYMTABS, or ALL_MSYMBOLS. Eliminate Dijkstra flag crap, break out of loops with gotos. (lookup_symtab_1): Protect '/' tests from short filenames. (cplus_mangled_symbol): Move inline into lookup_symbol. * xcoffexec.c (relocate_objfile_msymbols): Remove poor hack. (relocate_minimal_symbol): Move inline to vmap_symtab. (vmap_symtab): Replace iteration with ALL_OBJFILES, iterate_over_msymbols with ALL_MSYMBOLS. Misc cleanup prior to release. * dwarfread.c (dwarf_build_psymtabs): Remove mainline test. * mipsread.c (compare_symtabs, compare_psymtabs): Remove, unused. * mipsread.c: Add prototypes for all static functions. * symmisc.c (dump_symtab_lines, dump_symtabs, dump_last_symtab, dump_blockvector, dump_block, dump_addrchass, dump_namespace, dump_symbol, dump_type, dump_linetable, dump_strtbl): Remove, unused. * xcoffread.c (dump_symtab_lines, dump_symtabs, dump_last_symtab, dump_blockvector, dump_block, dump_addrchass, dump_namespace, dump_symbol, dump_type, dump_linetable, dump_strtbl): Remove 2nd unused copy! * buildsym.c (define_symbol): Handle global register variables (from Pierre Willard). Complain if register numbers are too large.
1992-03-29 23:17:36 +00:00
mfree (objfile -> md, (PTR)objfile -> static_psymbols.list);
}
/* Current best guess is that there are approximately a twentieth
of the total symbols (in a debugging file) are global or static
oriented symbols */
objfile -> global_psymbols.size = total_symbols / 10;
objfile -> static_psymbols.size = total_symbols / 10;
objfile -> global_psymbols.next =
objfile -> global_psymbols.list = (struct partial_symbol *)
xmmalloc (objfile -> md, objfile -> global_psymbols.size
* sizeof (struct partial_symbol));
objfile -> static_psymbols.next =
objfile -> static_psymbols.list = (struct partial_symbol *)
xmmalloc (objfile -> md, objfile -> static_psymbols.size
* sizeof (struct partial_symbol));
}
/*
LOCAL FUNCTION
add_enum_psymbol -- add enumeration members to partial symbol table
DESCRIPTION
Given pointer to a DIE that is known to be for an enumeration,
extract the symbolic names of the enumeration members and add
partial symbols for them.
*/
static void
add_enum_psymbol (dip, objfile)
struct dieinfo *dip;
struct objfile *objfile;
{
char *scan;
char *listend;
unsigned short blocksz;
int nbytes;
if ((scan = dip -> at_element_list) != NULL)
{
if (dip -> short_element_list)
{
nbytes = attribute_size (AT_short_element_list);
}
else
{
nbytes = attribute_size (AT_element_list);
}
blocksz = target_to_host (scan, nbytes, GET_UNSIGNED, objfile);
scan += nbytes;
listend = scan + blocksz;
while (scan < listend)
{
scan += TARGET_FT_LONG_SIZE (objfile);
ADD_PSYMBOL_TO_LIST (scan, strlen (scan), VAR_NAMESPACE, LOC_CONST,
* defs.h (STRCMP, STREQ, STREQN): New macros. * defs.h (demangle_and_match): Remove prototype. * dwarfread.c (STREQ, STREQN): Remove macros, replaced with STREQ and STREQN defined in defs.h. * dwarfread.c (set_cu_language): For completely unknown languages, try to deduce the language from the filename. Retain behavior that for known languages we don't know how to handle, we use language_unknown. * dwarfread.c (enum_type, symthesize_typedef): Initialize language and demangled name fields in symbol. * dwarfread.c, mipsread.c, partial-stab.h: For all usages of ADD_PSYMBOL_TO_LIST, add language and objfile parameters. * dwarfread.c (new_symbol): Attempt to demangle C++ symbol names and cache the results in SYMBOL_DEMANGLED_NAME for the symbol. * elfread.c (STREQ): Remove macro, use STREQ defined in defs.h. Replace usages throughout. * elfread.c (demangle.h): Include. * elfread.c (record_minimal_symbol): Remove prototype and function. * gdbtypes.h, symtab.h (B_SET, B_CLR, B_TST, B_TYPE, B_BYTES, B_CLRALL): Moved from symtab.h to gdbtypes.h. * infcmd.c (jump_command): Remove code to demangle name and add it to a cleanup list. Now just use SYMBOL_DEMANGLED_NAME. * minsyms.c (demangle.h): Include. * minsyms.c (lookup_minimal_symbol): Indent comment to match code. * minsyms.c (install_minimal_symbols): Attempt to demangle symbol names as C++ names, and cache them in SYMBOL_DEMANGLED_NAME. * mipsread.c (psymtab_language): Add static variable. * stabsread.c (demangle.h): Include. * stabsread.c (define_symbol): Attempt to demangle C++ symbol names and cache them in the SYMBOL_DEMANGLED_NAME field. * stack.c (return_command): Remove explicit demangling of name and use of cleanups. Just use SYMBOL_DEMANGLED_NAME. * symfile.c (demangle.h): Include. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Fix to match macros in symfile.h and allow them to be compiled if INLINE_ADD_PSYMBOL is not true. * symfile.h (INLINE_ADD_PSYMBOL): Default to true if not set. * symfile.h (ADD_PSYMBOL_*): Add language and objfile parameters. Add code to demangle and cache C++ symbol names. Use macro form if INLINE_ADD_PSYMBOL is true, otherwise use C function form. * symmisc.c (add_psymbol_to_list, add_psymbol_addr_to_list): Remove, also defined in symfile.c, which we already fixed. * symtab.c (expensive_mangler): Remove prototype and function. * symtab.c (find_methods): Remove physnames parameter and fix prototype to match. * symtab.c (completion_list_add_symbol): Name changed to completion_list_add_name. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): New macro, adds both the normal symbol name and the cached C++ demangled name. * symtab.c (lookup_demangled_partial_symbol, lookup_demangled_block_symbol): Remove prototypes and functions. * symtab.c (lookup_symbol): Remove use of expensive_mangler, use lookup_block_symbol instead of lookup_demangled_block_symbol. Remove code to try demangling names and matching them. * symtab.c (lookup_partial_symbol, lookup_block_symbol): Fix to try matching the cached demangled name if no match is found using the regular symbol name. * symtab.c (find_methods): Remove unused physnames array. * symtab.c (name_match, NAME_MATCH): Remove function and macro, replaced with SYMBOL_MATCHES_REGEXP from symtab.h. * symtab.c (completion_list_add_symbol): Rewrite to use cached C++ demangled symbol names. * symtab.h: Much reformatting of structures and such to add whitespace to make them more readable, and make them more consistent with other gdb structure definitions. * symtab.h (general_symbol_info): New struct containing fields common to all symbols. * symtab.h (SYMBOL_LANGUAGE, SYMBOL_DEMANGLED_NAME, SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP, MSYMBOL_INFO, MSYMBOL_TYPE): New macros. * symtab. (struct minimal_symbol, struct partial_symbol, struct symbol): Use general_symbol_info struct. * utils.c (demangle_and_match): Remove, no longer used. * valops.c (demangle.h): Include. * xcoffexec.c (eq): Remove macro, replace usages with STREQ. * blockframe.c, breakpoint.c, c-exp.y, c-valprint.c, dbxread.c, infcmd.c, m2-exp.y, minsyms.c, objfiles.h, solib.c, stack.c, symmisc.c, symtab.c, valops.c: Replace references to minimal symbol fields with appropriate macros. * breakpoint.c, buildsym.c, c-exp.y, c-typeprint.c, c-valprint.c, coffread.c, command.c, convex-tdep.c, cp-valprint.c, dbxread.c, demangle.c, elfread.c, energize.c, environ.c, exec.c, gdbtypes.c, i960-tdep.c, infrun.c, infrun-hacked.c, language.c, main.c, minsyms.c, mipsread.c, partial-stab.h, remote-es1800.c, remote-nindy.c, remote-udi.c, rs6000-tdep.c, solib.c, source.c, sparc-pinsn.c, stabsread.c, standalone.c, state.c, stuff.c, symfile.c, symmisc.c, symtab.c, symtab.h, tm-sysv4.h, tm-ultra3.h, values.c, xcoffexec.c, xcoffread.c: Replace strcmp and strncmp usages with STREQ, STREQN, or STRCMP as appropriate. * breakpoint.c, buildsym.c, c-typeprint.c, expprint.c, findvar.c, mipsread.c, printcmd.c, source.c, stabsread.c, stack.c, symmisc.c, tm-29k.h, valops.c, values.c: Replace SYMBOL_NAME references with SYMBOL_SOURCE_NAME or SYMBOL_LINKAGE_NAME as appropriate. * buildsym.c (start_subfile, patch_subfile_names): Default the source language to what can be deduced from the filename. * buildsym.c (end_symtab): Update the source language in the allocated symtab to match what we have been using. * buildsym.h (struct subfile): Add a language field. * c-typeprint.c (c_print_type): Remove code to do explicit demangling. * dbxread.c (psymtab_language): Add static variable. * dbxread.c (start_psymtab): Initialize psymtab_language using deduce_language_from_filename.
1992-12-23 06:34:57 +00:00
objfile -> static_psymbols, 0, cu_language,
objfile);
scan += strlen (scan) + 1;
}
}
}
/*
LOCAL FUNCTION
add_partial_symbol -- add symbol to partial symbol table
DESCRIPTION
Given a DIE, if it is one of the types that we want to
add to a partial symbol table, finish filling in the die info
and then add a partial symbol table entry for it.
1992-08-31 20:50:45 +00:00
NOTES
The caller must ensure that the DIE has a valid name attribute.
*/
static void
add_partial_symbol (dip, objfile)
struct dieinfo *dip;
struct objfile *objfile;
{
switch (dip -> die_tag)
{
case TAG_global_subroutine:
ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name),
VAR_NAMESPACE, LOC_BLOCK,
objfile -> global_psymbols,
* defs.h (STRCMP, STREQ, STREQN): New macros. * defs.h (demangle_and_match): Remove prototype. * dwarfread.c (STREQ, STREQN): Remove macros, replaced with STREQ and STREQN defined in defs.h. * dwarfread.c (set_cu_language): For completely unknown languages, try to deduce the language from the filename. Retain behavior that for known languages we don't know how to handle, we use language_unknown. * dwarfread.c (enum_type, symthesize_typedef): Initialize language and demangled name fields in symbol. * dwarfread.c, mipsread.c, partial-stab.h: For all usages of ADD_PSYMBOL_TO_LIST, add language and objfile parameters. * dwarfread.c (new_symbol): Attempt to demangle C++ symbol names and cache the results in SYMBOL_DEMANGLED_NAME for the symbol. * elfread.c (STREQ): Remove macro, use STREQ defined in defs.h. Replace usages throughout. * elfread.c (demangle.h): Include. * elfread.c (record_minimal_symbol): Remove prototype and function. * gdbtypes.h, symtab.h (B_SET, B_CLR, B_TST, B_TYPE, B_BYTES, B_CLRALL): Moved from symtab.h to gdbtypes.h. * infcmd.c (jump_command): Remove code to demangle name and add it to a cleanup list. Now just use SYMBOL_DEMANGLED_NAME. * minsyms.c (demangle.h): Include. * minsyms.c (lookup_minimal_symbol): Indent comment to match code. * minsyms.c (install_minimal_symbols): Attempt to demangle symbol names as C++ names, and cache them in SYMBOL_DEMANGLED_NAME. * mipsread.c (psymtab_language): Add static variable. * stabsread.c (demangle.h): Include. * stabsread.c (define_symbol): Attempt to demangle C++ symbol names and cache them in the SYMBOL_DEMANGLED_NAME field. * stack.c (return_command): Remove explicit demangling of name and use of cleanups. Just use SYMBOL_DEMANGLED_NAME. * symfile.c (demangle.h): Include. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Fix to match macros in symfile.h and allow them to be compiled if INLINE_ADD_PSYMBOL is not true. * symfile.h (INLINE_ADD_PSYMBOL): Default to true if not set. * symfile.h (ADD_PSYMBOL_*): Add language and objfile parameters. Add code to demangle and cache C++ symbol names. Use macro form if INLINE_ADD_PSYMBOL is true, otherwise use C function form. * symmisc.c (add_psymbol_to_list, add_psymbol_addr_to_list): Remove, also defined in symfile.c, which we already fixed. * symtab.c (expensive_mangler): Remove prototype and function. * symtab.c (find_methods): Remove physnames parameter and fix prototype to match. * symtab.c (completion_list_add_symbol): Name changed to completion_list_add_name. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): New macro, adds both the normal symbol name and the cached C++ demangled name. * symtab.c (lookup_demangled_partial_symbol, lookup_demangled_block_symbol): Remove prototypes and functions. * symtab.c (lookup_symbol): Remove use of expensive_mangler, use lookup_block_symbol instead of lookup_demangled_block_symbol. Remove code to try demangling names and matching them. * symtab.c (lookup_partial_symbol, lookup_block_symbol): Fix to try matching the cached demangled name if no match is found using the regular symbol name. * symtab.c (find_methods): Remove unused physnames array. * symtab.c (name_match, NAME_MATCH): Remove function and macro, replaced with SYMBOL_MATCHES_REGEXP from symtab.h. * symtab.c (completion_list_add_symbol): Rewrite to use cached C++ demangled symbol names. * symtab.h: Much reformatting of structures and such to add whitespace to make them more readable, and make them more consistent with other gdb structure definitions. * symtab.h (general_symbol_info): New struct containing fields common to all symbols. * symtab.h (SYMBOL_LANGUAGE, SYMBOL_DEMANGLED_NAME, SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP, MSYMBOL_INFO, MSYMBOL_TYPE): New macros. * symtab. (struct minimal_symbol, struct partial_symbol, struct symbol): Use general_symbol_info struct. * utils.c (demangle_and_match): Remove, no longer used. * valops.c (demangle.h): Include. * xcoffexec.c (eq): Remove macro, replace usages with STREQ. * blockframe.c, breakpoint.c, c-exp.y, c-valprint.c, dbxread.c, infcmd.c, m2-exp.y, minsyms.c, objfiles.h, solib.c, stack.c, symmisc.c, symtab.c, valops.c: Replace references to minimal symbol fields with appropriate macros. * breakpoint.c, buildsym.c, c-exp.y, c-typeprint.c, c-valprint.c, coffread.c, command.c, convex-tdep.c, cp-valprint.c, dbxread.c, demangle.c, elfread.c, energize.c, environ.c, exec.c, gdbtypes.c, i960-tdep.c, infrun.c, infrun-hacked.c, language.c, main.c, minsyms.c, mipsread.c, partial-stab.h, remote-es1800.c, remote-nindy.c, remote-udi.c, rs6000-tdep.c, solib.c, source.c, sparc-pinsn.c, stabsread.c, standalone.c, state.c, stuff.c, symfile.c, symmisc.c, symtab.c, symtab.h, tm-sysv4.h, tm-ultra3.h, values.c, xcoffexec.c, xcoffread.c: Replace strcmp and strncmp usages with STREQ, STREQN, or STRCMP as appropriate. * breakpoint.c, buildsym.c, c-typeprint.c, expprint.c, findvar.c, mipsread.c, printcmd.c, source.c, stabsread.c, stack.c, symmisc.c, tm-29k.h, valops.c, values.c: Replace SYMBOL_NAME references with SYMBOL_SOURCE_NAME or SYMBOL_LINKAGE_NAME as appropriate. * buildsym.c (start_subfile, patch_subfile_names): Default the source language to what can be deduced from the filename. * buildsym.c (end_symtab): Update the source language in the allocated symtab to match what we have been using. * buildsym.h (struct subfile): Add a language field. * c-typeprint.c (c_print_type): Remove code to do explicit demangling. * dbxread.c (psymtab_language): Add static variable. * dbxread.c (start_psymtab): Initialize psymtab_language using deduce_language_from_filename.
1992-12-23 06:34:57 +00:00
dip -> at_low_pc, cu_language, objfile);
break;
case TAG_global_variable:
ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name),
VAR_NAMESPACE, LOC_STATIC,
objfile -> global_psymbols,
* defs.h (STRCMP, STREQ, STREQN): New macros. * defs.h (demangle_and_match): Remove prototype. * dwarfread.c (STREQ, STREQN): Remove macros, replaced with STREQ and STREQN defined in defs.h. * dwarfread.c (set_cu_language): For completely unknown languages, try to deduce the language from the filename. Retain behavior that for known languages we don't know how to handle, we use language_unknown. * dwarfread.c (enum_type, symthesize_typedef): Initialize language and demangled name fields in symbol. * dwarfread.c, mipsread.c, partial-stab.h: For all usages of ADD_PSYMBOL_TO_LIST, add language and objfile parameters. * dwarfread.c (new_symbol): Attempt to demangle C++ symbol names and cache the results in SYMBOL_DEMANGLED_NAME for the symbol. * elfread.c (STREQ): Remove macro, use STREQ defined in defs.h. Replace usages throughout. * elfread.c (demangle.h): Include. * elfread.c (record_minimal_symbol): Remove prototype and function. * gdbtypes.h, symtab.h (B_SET, B_CLR, B_TST, B_TYPE, B_BYTES, B_CLRALL): Moved from symtab.h to gdbtypes.h. * infcmd.c (jump_command): Remove code to demangle name and add it to a cleanup list. Now just use SYMBOL_DEMANGLED_NAME. * minsyms.c (demangle.h): Include. * minsyms.c (lookup_minimal_symbol): Indent comment to match code. * minsyms.c (install_minimal_symbols): Attempt to demangle symbol names as C++ names, and cache them in SYMBOL_DEMANGLED_NAME. * mipsread.c (psymtab_language): Add static variable. * stabsread.c (demangle.h): Include. * stabsread.c (define_symbol): Attempt to demangle C++ symbol names and cache them in the SYMBOL_DEMANGLED_NAME field. * stack.c (return_command): Remove explicit demangling of name and use of cleanups. Just use SYMBOL_DEMANGLED_NAME. * symfile.c (demangle.h): Include. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Fix to match macros in symfile.h and allow them to be compiled if INLINE_ADD_PSYMBOL is not true. * symfile.h (INLINE_ADD_PSYMBOL): Default to true if not set. * symfile.h (ADD_PSYMBOL_*): Add language and objfile parameters. Add code to demangle and cache C++ symbol names. Use macro form if INLINE_ADD_PSYMBOL is true, otherwise use C function form. * symmisc.c (add_psymbol_to_list, add_psymbol_addr_to_list): Remove, also defined in symfile.c, which we already fixed. * symtab.c (expensive_mangler): Remove prototype and function. * symtab.c (find_methods): Remove physnames parameter and fix prototype to match. * symtab.c (completion_list_add_symbol): Name changed to completion_list_add_name. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): New macro, adds both the normal symbol name and the cached C++ demangled name. * symtab.c (lookup_demangled_partial_symbol, lookup_demangled_block_symbol): Remove prototypes and functions. * symtab.c (lookup_symbol): Remove use of expensive_mangler, use lookup_block_symbol instead of lookup_demangled_block_symbol. Remove code to try demangling names and matching them. * symtab.c (lookup_partial_symbol, lookup_block_symbol): Fix to try matching the cached demangled name if no match is found using the regular symbol name. * symtab.c (find_methods): Remove unused physnames array. * symtab.c (name_match, NAME_MATCH): Remove function and macro, replaced with SYMBOL_MATCHES_REGEXP from symtab.h. * symtab.c (completion_list_add_symbol): Rewrite to use cached C++ demangled symbol names. * symtab.h: Much reformatting of structures and such to add whitespace to make them more readable, and make them more consistent with other gdb structure definitions. * symtab.h (general_symbol_info): New struct containing fields common to all symbols. * symtab.h (SYMBOL_LANGUAGE, SYMBOL_DEMANGLED_NAME, SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP, MSYMBOL_INFO, MSYMBOL_TYPE): New macros. * symtab. (struct minimal_symbol, struct partial_symbol, struct symbol): Use general_symbol_info struct. * utils.c (demangle_and_match): Remove, no longer used. * valops.c (demangle.h): Include. * xcoffexec.c (eq): Remove macro, replace usages with STREQ. * blockframe.c, breakpoint.c, c-exp.y, c-valprint.c, dbxread.c, infcmd.c, m2-exp.y, minsyms.c, objfiles.h, solib.c, stack.c, symmisc.c, symtab.c, valops.c: Replace references to minimal symbol fields with appropriate macros. * breakpoint.c, buildsym.c, c-exp.y, c-typeprint.c, c-valprint.c, coffread.c, command.c, convex-tdep.c, cp-valprint.c, dbxread.c, demangle.c, elfread.c, energize.c, environ.c, exec.c, gdbtypes.c, i960-tdep.c, infrun.c, infrun-hacked.c, language.c, main.c, minsyms.c, mipsread.c, partial-stab.h, remote-es1800.c, remote-nindy.c, remote-udi.c, rs6000-tdep.c, solib.c, source.c, sparc-pinsn.c, stabsread.c, standalone.c, state.c, stuff.c, symfile.c, symmisc.c, symtab.c, symtab.h, tm-sysv4.h, tm-ultra3.h, values.c, xcoffexec.c, xcoffread.c: Replace strcmp and strncmp usages with STREQ, STREQN, or STRCMP as appropriate. * breakpoint.c, buildsym.c, c-typeprint.c, expprint.c, findvar.c, mipsread.c, printcmd.c, source.c, stabsread.c, stack.c, symmisc.c, tm-29k.h, valops.c, values.c: Replace SYMBOL_NAME references with SYMBOL_SOURCE_NAME or SYMBOL_LINKAGE_NAME as appropriate. * buildsym.c (start_subfile, patch_subfile_names): Default the source language to what can be deduced from the filename. * buildsym.c (end_symtab): Update the source language in the allocated symtab to match what we have been using. * buildsym.h (struct subfile): Add a language field. * c-typeprint.c (c_print_type): Remove code to do explicit demangling. * dbxread.c (psymtab_language): Add static variable. * dbxread.c (start_psymtab): Initialize psymtab_language using deduce_language_from_filename.
1992-12-23 06:34:57 +00:00
0, cu_language, objfile);
break;
case TAG_subroutine:
ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name),
VAR_NAMESPACE, LOC_BLOCK,
objfile -> static_psymbols,
* defs.h (STRCMP, STREQ, STREQN): New macros. * defs.h (demangle_and_match): Remove prototype. * dwarfread.c (STREQ, STREQN): Remove macros, replaced with STREQ and STREQN defined in defs.h. * dwarfread.c (set_cu_language): For completely unknown languages, try to deduce the language from the filename. Retain behavior that for known languages we don't know how to handle, we use language_unknown. * dwarfread.c (enum_type, symthesize_typedef): Initialize language and demangled name fields in symbol. * dwarfread.c, mipsread.c, partial-stab.h: For all usages of ADD_PSYMBOL_TO_LIST, add language and objfile parameters. * dwarfread.c (new_symbol): Attempt to demangle C++ symbol names and cache the results in SYMBOL_DEMANGLED_NAME for the symbol. * elfread.c (STREQ): Remove macro, use STREQ defined in defs.h. Replace usages throughout. * elfread.c (demangle.h): Include. * elfread.c (record_minimal_symbol): Remove prototype and function. * gdbtypes.h, symtab.h (B_SET, B_CLR, B_TST, B_TYPE, B_BYTES, B_CLRALL): Moved from symtab.h to gdbtypes.h. * infcmd.c (jump_command): Remove code to demangle name and add it to a cleanup list. Now just use SYMBOL_DEMANGLED_NAME. * minsyms.c (demangle.h): Include. * minsyms.c (lookup_minimal_symbol): Indent comment to match code. * minsyms.c (install_minimal_symbols): Attempt to demangle symbol names as C++ names, and cache them in SYMBOL_DEMANGLED_NAME. * mipsread.c (psymtab_language): Add static variable. * stabsread.c (demangle.h): Include. * stabsread.c (define_symbol): Attempt to demangle C++ symbol names and cache them in the SYMBOL_DEMANGLED_NAME field. * stack.c (return_command): Remove explicit demangling of name and use of cleanups. Just use SYMBOL_DEMANGLED_NAME. * symfile.c (demangle.h): Include. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Fix to match macros in symfile.h and allow them to be compiled if INLINE_ADD_PSYMBOL is not true. * symfile.h (INLINE_ADD_PSYMBOL): Default to true if not set. * symfile.h (ADD_PSYMBOL_*): Add language and objfile parameters. Add code to demangle and cache C++ symbol names. Use macro form if INLINE_ADD_PSYMBOL is true, otherwise use C function form. * symmisc.c (add_psymbol_to_list, add_psymbol_addr_to_list): Remove, also defined in symfile.c, which we already fixed. * symtab.c (expensive_mangler): Remove prototype and function. * symtab.c (find_methods): Remove physnames parameter and fix prototype to match. * symtab.c (completion_list_add_symbol): Name changed to completion_list_add_name. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): New macro, adds both the normal symbol name and the cached C++ demangled name. * symtab.c (lookup_demangled_partial_symbol, lookup_demangled_block_symbol): Remove prototypes and functions. * symtab.c (lookup_symbol): Remove use of expensive_mangler, use lookup_block_symbol instead of lookup_demangled_block_symbol. Remove code to try demangling names and matching them. * symtab.c (lookup_partial_symbol, lookup_block_symbol): Fix to try matching the cached demangled name if no match is found using the regular symbol name. * symtab.c (find_methods): Remove unused physnames array. * symtab.c (name_match, NAME_MATCH): Remove function and macro, replaced with SYMBOL_MATCHES_REGEXP from symtab.h. * symtab.c (completion_list_add_symbol): Rewrite to use cached C++ demangled symbol names. * symtab.h: Much reformatting of structures and such to add whitespace to make them more readable, and make them more consistent with other gdb structure definitions. * symtab.h (general_symbol_info): New struct containing fields common to all symbols. * symtab.h (SYMBOL_LANGUAGE, SYMBOL_DEMANGLED_NAME, SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP, MSYMBOL_INFO, MSYMBOL_TYPE): New macros. * symtab. (struct minimal_symbol, struct partial_symbol, struct symbol): Use general_symbol_info struct. * utils.c (demangle_and_match): Remove, no longer used. * valops.c (demangle.h): Include. * xcoffexec.c (eq): Remove macro, replace usages with STREQ. * blockframe.c, breakpoint.c, c-exp.y, c-valprint.c, dbxread.c, infcmd.c, m2-exp.y, minsyms.c, objfiles.h, solib.c, stack.c, symmisc.c, symtab.c, valops.c: Replace references to minimal symbol fields with appropriate macros. * breakpoint.c, buildsym.c, c-exp.y, c-typeprint.c, c-valprint.c, coffread.c, command.c, convex-tdep.c, cp-valprint.c, dbxread.c, demangle.c, elfread.c, energize.c, environ.c, exec.c, gdbtypes.c, i960-tdep.c, infrun.c, infrun-hacked.c, language.c, main.c, minsyms.c, mipsread.c, partial-stab.h, remote-es1800.c, remote-nindy.c, remote-udi.c, rs6000-tdep.c, solib.c, source.c, sparc-pinsn.c, stabsread.c, standalone.c, state.c, stuff.c, symfile.c, symmisc.c, symtab.c, symtab.h, tm-sysv4.h, tm-ultra3.h, values.c, xcoffexec.c, xcoffread.c: Replace strcmp and strncmp usages with STREQ, STREQN, or STRCMP as appropriate. * breakpoint.c, buildsym.c, c-typeprint.c, expprint.c, findvar.c, mipsread.c, printcmd.c, source.c, stabsread.c, stack.c, symmisc.c, tm-29k.h, valops.c, values.c: Replace SYMBOL_NAME references with SYMBOL_SOURCE_NAME or SYMBOL_LINKAGE_NAME as appropriate. * buildsym.c (start_subfile, patch_subfile_names): Default the source language to what can be deduced from the filename. * buildsym.c (end_symtab): Update the source language in the allocated symtab to match what we have been using. * buildsym.h (struct subfile): Add a language field. * c-typeprint.c (c_print_type): Remove code to do explicit demangling. * dbxread.c (psymtab_language): Add static variable. * dbxread.c (start_psymtab): Initialize psymtab_language using deduce_language_from_filename.
1992-12-23 06:34:57 +00:00
dip -> at_low_pc, cu_language, objfile);
break;
case TAG_local_variable:
ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name),
VAR_NAMESPACE, LOC_STATIC,
objfile -> static_psymbols,
* defs.h (STRCMP, STREQ, STREQN): New macros. * defs.h (demangle_and_match): Remove prototype. * dwarfread.c (STREQ, STREQN): Remove macros, replaced with STREQ and STREQN defined in defs.h. * dwarfread.c (set_cu_language): For completely unknown languages, try to deduce the language from the filename. Retain behavior that for known languages we don't know how to handle, we use language_unknown. * dwarfread.c (enum_type, symthesize_typedef): Initialize language and demangled name fields in symbol. * dwarfread.c, mipsread.c, partial-stab.h: For all usages of ADD_PSYMBOL_TO_LIST, add language and objfile parameters. * dwarfread.c (new_symbol): Attempt to demangle C++ symbol names and cache the results in SYMBOL_DEMANGLED_NAME for the symbol. * elfread.c (STREQ): Remove macro, use STREQ defined in defs.h. Replace usages throughout. * elfread.c (demangle.h): Include. * elfread.c (record_minimal_symbol): Remove prototype and function. * gdbtypes.h, symtab.h (B_SET, B_CLR, B_TST, B_TYPE, B_BYTES, B_CLRALL): Moved from symtab.h to gdbtypes.h. * infcmd.c (jump_command): Remove code to demangle name and add it to a cleanup list. Now just use SYMBOL_DEMANGLED_NAME. * minsyms.c (demangle.h): Include. * minsyms.c (lookup_minimal_symbol): Indent comment to match code. * minsyms.c (install_minimal_symbols): Attempt to demangle symbol names as C++ names, and cache them in SYMBOL_DEMANGLED_NAME. * mipsread.c (psymtab_language): Add static variable. * stabsread.c (demangle.h): Include. * stabsread.c (define_symbol): Attempt to demangle C++ symbol names and cache them in the SYMBOL_DEMANGLED_NAME field. * stack.c (return_command): Remove explicit demangling of name and use of cleanups. Just use SYMBOL_DEMANGLED_NAME. * symfile.c (demangle.h): Include. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Fix to match macros in symfile.h and allow them to be compiled if INLINE_ADD_PSYMBOL is not true. * symfile.h (INLINE_ADD_PSYMBOL): Default to true if not set. * symfile.h (ADD_PSYMBOL_*): Add language and objfile parameters. Add code to demangle and cache C++ symbol names. Use macro form if INLINE_ADD_PSYMBOL is true, otherwise use C function form. * symmisc.c (add_psymbol_to_list, add_psymbol_addr_to_list): Remove, also defined in symfile.c, which we already fixed. * symtab.c (expensive_mangler): Remove prototype and function. * symtab.c (find_methods): Remove physnames parameter and fix prototype to match. * symtab.c (completion_list_add_symbol): Name changed to completion_list_add_name. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): New macro, adds both the normal symbol name and the cached C++ demangled name. * symtab.c (lookup_demangled_partial_symbol, lookup_demangled_block_symbol): Remove prototypes and functions. * symtab.c (lookup_symbol): Remove use of expensive_mangler, use lookup_block_symbol instead of lookup_demangled_block_symbol. Remove code to try demangling names and matching them. * symtab.c (lookup_partial_symbol, lookup_block_symbol): Fix to try matching the cached demangled name if no match is found using the regular symbol name. * symtab.c (find_methods): Remove unused physnames array. * symtab.c (name_match, NAME_MATCH): Remove function and macro, replaced with SYMBOL_MATCHES_REGEXP from symtab.h. * symtab.c (completion_list_add_symbol): Rewrite to use cached C++ demangled symbol names. * symtab.h: Much reformatting of structures and such to add whitespace to make them more readable, and make them more consistent with other gdb structure definitions. * symtab.h (general_symbol_info): New struct containing fields common to all symbols. * symtab.h (SYMBOL_LANGUAGE, SYMBOL_DEMANGLED_NAME, SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP, MSYMBOL_INFO, MSYMBOL_TYPE): New macros. * symtab. (struct minimal_symbol, struct partial_symbol, struct symbol): Use general_symbol_info struct. * utils.c (demangle_and_match): Remove, no longer used. * valops.c (demangle.h): Include. * xcoffexec.c (eq): Remove macro, replace usages with STREQ. * blockframe.c, breakpoint.c, c-exp.y, c-valprint.c, dbxread.c, infcmd.c, m2-exp.y, minsyms.c, objfiles.h, solib.c, stack.c, symmisc.c, symtab.c, valops.c: Replace references to minimal symbol fields with appropriate macros. * breakpoint.c, buildsym.c, c-exp.y, c-typeprint.c, c-valprint.c, coffread.c, command.c, convex-tdep.c, cp-valprint.c, dbxread.c, demangle.c, elfread.c, energize.c, environ.c, exec.c, gdbtypes.c, i960-tdep.c, infrun.c, infrun-hacked.c, language.c, main.c, minsyms.c, mipsread.c, partial-stab.h, remote-es1800.c, remote-nindy.c, remote-udi.c, rs6000-tdep.c, solib.c, source.c, sparc-pinsn.c, stabsread.c, standalone.c, state.c, stuff.c, symfile.c, symmisc.c, symtab.c, symtab.h, tm-sysv4.h, tm-ultra3.h, values.c, xcoffexec.c, xcoffread.c: Replace strcmp and strncmp usages with STREQ, STREQN, or STRCMP as appropriate. * breakpoint.c, buildsym.c, c-typeprint.c, expprint.c, findvar.c, mipsread.c, printcmd.c, source.c, stabsread.c, stack.c, symmisc.c, tm-29k.h, valops.c, values.c: Replace SYMBOL_NAME references with SYMBOL_SOURCE_NAME or SYMBOL_LINKAGE_NAME as appropriate. * buildsym.c (start_subfile, patch_subfile_names): Default the source language to what can be deduced from the filename. * buildsym.c (end_symtab): Update the source language in the allocated symtab to match what we have been using. * buildsym.h (struct subfile): Add a language field. * c-typeprint.c (c_print_type): Remove code to do explicit demangling. * dbxread.c (psymtab_language): Add static variable. * dbxread.c (start_psymtab): Initialize psymtab_language using deduce_language_from_filename.
1992-12-23 06:34:57 +00:00
0, cu_language, objfile);
break;
case TAG_typedef:
ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name),
VAR_NAMESPACE, LOC_TYPEDEF,
objfile -> static_psymbols,
* defs.h (STRCMP, STREQ, STREQN): New macros. * defs.h (demangle_and_match): Remove prototype. * dwarfread.c (STREQ, STREQN): Remove macros, replaced with STREQ and STREQN defined in defs.h. * dwarfread.c (set_cu_language): For completely unknown languages, try to deduce the language from the filename. Retain behavior that for known languages we don't know how to handle, we use language_unknown. * dwarfread.c (enum_type, symthesize_typedef): Initialize language and demangled name fields in symbol. * dwarfread.c, mipsread.c, partial-stab.h: For all usages of ADD_PSYMBOL_TO_LIST, add language and objfile parameters. * dwarfread.c (new_symbol): Attempt to demangle C++ symbol names and cache the results in SYMBOL_DEMANGLED_NAME for the symbol. * elfread.c (STREQ): Remove macro, use STREQ defined in defs.h. Replace usages throughout. * elfread.c (demangle.h): Include. * elfread.c (record_minimal_symbol): Remove prototype and function. * gdbtypes.h, symtab.h (B_SET, B_CLR, B_TST, B_TYPE, B_BYTES, B_CLRALL): Moved from symtab.h to gdbtypes.h. * infcmd.c (jump_command): Remove code to demangle name and add it to a cleanup list. Now just use SYMBOL_DEMANGLED_NAME. * minsyms.c (demangle.h): Include. * minsyms.c (lookup_minimal_symbol): Indent comment to match code. * minsyms.c (install_minimal_symbols): Attempt to demangle symbol names as C++ names, and cache them in SYMBOL_DEMANGLED_NAME. * mipsread.c (psymtab_language): Add static variable. * stabsread.c (demangle.h): Include. * stabsread.c (define_symbol): Attempt to demangle C++ symbol names and cache them in the SYMBOL_DEMANGLED_NAME field. * stack.c (return_command): Remove explicit demangling of name and use of cleanups. Just use SYMBOL_DEMANGLED_NAME. * symfile.c (demangle.h): Include. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Fix to match macros in symfile.h and allow them to be compiled if INLINE_ADD_PSYMBOL is not true. * symfile.h (INLINE_ADD_PSYMBOL): Default to true if not set. * symfile.h (ADD_PSYMBOL_*): Add language and objfile parameters. Add code to demangle and cache C++ symbol names. Use macro form if INLINE_ADD_PSYMBOL is true, otherwise use C function form. * symmisc.c (add_psymbol_to_list, add_psymbol_addr_to_list): Remove, also defined in symfile.c, which we already fixed. * symtab.c (expensive_mangler): Remove prototype and function. * symtab.c (find_methods): Remove physnames parameter and fix prototype to match. * symtab.c (completion_list_add_symbol): Name changed to completion_list_add_name. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): New macro, adds both the normal symbol name and the cached C++ demangled name. * symtab.c (lookup_demangled_partial_symbol, lookup_demangled_block_symbol): Remove prototypes and functions. * symtab.c (lookup_symbol): Remove use of expensive_mangler, use lookup_block_symbol instead of lookup_demangled_block_symbol. Remove code to try demangling names and matching them. * symtab.c (lookup_partial_symbol, lookup_block_symbol): Fix to try matching the cached demangled name if no match is found using the regular symbol name. * symtab.c (find_methods): Remove unused physnames array. * symtab.c (name_match, NAME_MATCH): Remove function and macro, replaced with SYMBOL_MATCHES_REGEXP from symtab.h. * symtab.c (completion_list_add_symbol): Rewrite to use cached C++ demangled symbol names. * symtab.h: Much reformatting of structures and such to add whitespace to make them more readable, and make them more consistent with other gdb structure definitions. * symtab.h (general_symbol_info): New struct containing fields common to all symbols. * symtab.h (SYMBOL_LANGUAGE, SYMBOL_DEMANGLED_NAME, SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP, MSYMBOL_INFO, MSYMBOL_TYPE): New macros. * symtab. (struct minimal_symbol, struct partial_symbol, struct symbol): Use general_symbol_info struct. * utils.c (demangle_and_match): Remove, no longer used. * valops.c (demangle.h): Include. * xcoffexec.c (eq): Remove macro, replace usages with STREQ. * blockframe.c, breakpoint.c, c-exp.y, c-valprint.c, dbxread.c, infcmd.c, m2-exp.y, minsyms.c, objfiles.h, solib.c, stack.c, symmisc.c, symtab.c, valops.c: Replace references to minimal symbol fields with appropriate macros. * breakpoint.c, buildsym.c, c-exp.y, c-typeprint.c, c-valprint.c, coffread.c, command.c, convex-tdep.c, cp-valprint.c, dbxread.c, demangle.c, elfread.c, energize.c, environ.c, exec.c, gdbtypes.c, i960-tdep.c, infrun.c, infrun-hacked.c, language.c, main.c, minsyms.c, mipsread.c, partial-stab.h, remote-es1800.c, remote-nindy.c, remote-udi.c, rs6000-tdep.c, solib.c, source.c, sparc-pinsn.c, stabsread.c, standalone.c, state.c, stuff.c, symfile.c, symmisc.c, symtab.c, symtab.h, tm-sysv4.h, tm-ultra3.h, values.c, xcoffexec.c, xcoffread.c: Replace strcmp and strncmp usages with STREQ, STREQN, or STRCMP as appropriate. * breakpoint.c, buildsym.c, c-typeprint.c, expprint.c, findvar.c, mipsread.c, printcmd.c, source.c, stabsread.c, stack.c, symmisc.c, tm-29k.h, valops.c, values.c: Replace SYMBOL_NAME references with SYMBOL_SOURCE_NAME or SYMBOL_LINKAGE_NAME as appropriate. * buildsym.c (start_subfile, patch_subfile_names): Default the source language to what can be deduced from the filename. * buildsym.c (end_symtab): Update the source language in the allocated symtab to match what we have been using. * buildsym.h (struct subfile): Add a language field. * c-typeprint.c (c_print_type): Remove code to do explicit demangling. * dbxread.c (psymtab_language): Add static variable. * dbxread.c (start_psymtab): Initialize psymtab_language using deduce_language_from_filename.
1992-12-23 06:34:57 +00:00
0, cu_language, objfile);
break;
1992-08-31 20:50:45 +00:00
case TAG_class_type:
case TAG_structure_type:
case TAG_union_type:
1992-08-31 20:50:45 +00:00
case TAG_enumeration_type:
/* Do not add opaque aggregate definitions to the psymtab. */
if (!dip -> has_at_byte_size)
break;
ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name),
STRUCT_NAMESPACE, LOC_TYPEDEF,
objfile -> static_psymbols,
* defs.h (STRCMP, STREQ, STREQN): New macros. * defs.h (demangle_and_match): Remove prototype. * dwarfread.c (STREQ, STREQN): Remove macros, replaced with STREQ and STREQN defined in defs.h. * dwarfread.c (set_cu_language): For completely unknown languages, try to deduce the language from the filename. Retain behavior that for known languages we don't know how to handle, we use language_unknown. * dwarfread.c (enum_type, symthesize_typedef): Initialize language and demangled name fields in symbol. * dwarfread.c, mipsread.c, partial-stab.h: For all usages of ADD_PSYMBOL_TO_LIST, add language and objfile parameters. * dwarfread.c (new_symbol): Attempt to demangle C++ symbol names and cache the results in SYMBOL_DEMANGLED_NAME for the symbol. * elfread.c (STREQ): Remove macro, use STREQ defined in defs.h. Replace usages throughout. * elfread.c (demangle.h): Include. * elfread.c (record_minimal_symbol): Remove prototype and function. * gdbtypes.h, symtab.h (B_SET, B_CLR, B_TST, B_TYPE, B_BYTES, B_CLRALL): Moved from symtab.h to gdbtypes.h. * infcmd.c (jump_command): Remove code to demangle name and add it to a cleanup list. Now just use SYMBOL_DEMANGLED_NAME. * minsyms.c (demangle.h): Include. * minsyms.c (lookup_minimal_symbol): Indent comment to match code. * minsyms.c (install_minimal_symbols): Attempt to demangle symbol names as C++ names, and cache them in SYMBOL_DEMANGLED_NAME. * mipsread.c (psymtab_language): Add static variable. * stabsread.c (demangle.h): Include. * stabsread.c (define_symbol): Attempt to demangle C++ symbol names and cache them in the SYMBOL_DEMANGLED_NAME field. * stack.c (return_command): Remove explicit demangling of name and use of cleanups. Just use SYMBOL_DEMANGLED_NAME. * symfile.c (demangle.h): Include. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Fix to match macros in symfile.h and allow them to be compiled if INLINE_ADD_PSYMBOL is not true. * symfile.h (INLINE_ADD_PSYMBOL): Default to true if not set. * symfile.h (ADD_PSYMBOL_*): Add language and objfile parameters. Add code to demangle and cache C++ symbol names. Use macro form if INLINE_ADD_PSYMBOL is true, otherwise use C function form. * symmisc.c (add_psymbol_to_list, add_psymbol_addr_to_list): Remove, also defined in symfile.c, which we already fixed. * symtab.c (expensive_mangler): Remove prototype and function. * symtab.c (find_methods): Remove physnames parameter and fix prototype to match. * symtab.c (completion_list_add_symbol): Name changed to completion_list_add_name. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): New macro, adds both the normal symbol name and the cached C++ demangled name. * symtab.c (lookup_demangled_partial_symbol, lookup_demangled_block_symbol): Remove prototypes and functions. * symtab.c (lookup_symbol): Remove use of expensive_mangler, use lookup_block_symbol instead of lookup_demangled_block_symbol. Remove code to try demangling names and matching them. * symtab.c (lookup_partial_symbol, lookup_block_symbol): Fix to try matching the cached demangled name if no match is found using the regular symbol name. * symtab.c (find_methods): Remove unused physnames array. * symtab.c (name_match, NAME_MATCH): Remove function and macro, replaced with SYMBOL_MATCHES_REGEXP from symtab.h. * symtab.c (completion_list_add_symbol): Rewrite to use cached C++ demangled symbol names. * symtab.h: Much reformatting of structures and such to add whitespace to make them more readable, and make them more consistent with other gdb structure definitions. * symtab.h (general_symbol_info): New struct containing fields common to all symbols. * symtab.h (SYMBOL_LANGUAGE, SYMBOL_DEMANGLED_NAME, SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP, MSYMBOL_INFO, MSYMBOL_TYPE): New macros. * symtab. (struct minimal_symbol, struct partial_symbol, struct symbol): Use general_symbol_info struct. * utils.c (demangle_and_match): Remove, no longer used. * valops.c (demangle.h): Include. * xcoffexec.c (eq): Remove macro, replace usages with STREQ. * blockframe.c, breakpoint.c, c-exp.y, c-valprint.c, dbxread.c, infcmd.c, m2-exp.y, minsyms.c, objfiles.h, solib.c, stack.c, symmisc.c, symtab.c, valops.c: Replace references to minimal symbol fields with appropriate macros. * breakpoint.c, buildsym.c, c-exp.y, c-typeprint.c, c-valprint.c, coffread.c, command.c, convex-tdep.c, cp-valprint.c, dbxread.c, demangle.c, elfread.c, energize.c, environ.c, exec.c, gdbtypes.c, i960-tdep.c, infrun.c, infrun-hacked.c, language.c, main.c, minsyms.c, mipsread.c, partial-stab.h, remote-es1800.c, remote-nindy.c, remote-udi.c, rs6000-tdep.c, solib.c, source.c, sparc-pinsn.c, stabsread.c, standalone.c, state.c, stuff.c, symfile.c, symmisc.c, symtab.c, symtab.h, tm-sysv4.h, tm-ultra3.h, values.c, xcoffexec.c, xcoffread.c: Replace strcmp and strncmp usages with STREQ, STREQN, or STRCMP as appropriate. * breakpoint.c, buildsym.c, c-typeprint.c, expprint.c, findvar.c, mipsread.c, printcmd.c, source.c, stabsread.c, stack.c, symmisc.c, tm-29k.h, valops.c, values.c: Replace SYMBOL_NAME references with SYMBOL_SOURCE_NAME or SYMBOL_LINKAGE_NAME as appropriate. * buildsym.c (start_subfile, patch_subfile_names): Default the source language to what can be deduced from the filename. * buildsym.c (end_symtab): Update the source language in the allocated symtab to match what we have been using. * buildsym.h (struct subfile): Add a language field. * c-typeprint.c (c_print_type): Remove code to do explicit demangling. * dbxread.c (psymtab_language): Add static variable. * dbxread.c (start_psymtab): Initialize psymtab_language using deduce_language_from_filename.
1992-12-23 06:34:57 +00:00
0, cu_language, objfile);
1992-08-31 20:50:45 +00:00
if (cu_language == language_cplus)
{
1992-08-31 20:50:45 +00:00
/* For C++, these implicitly act as typedefs as well. */
ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name),
1992-08-31 20:50:45 +00:00
VAR_NAMESPACE, LOC_TYPEDEF,
objfile -> static_psymbols,
* defs.h (STRCMP, STREQ, STREQN): New macros. * defs.h (demangle_and_match): Remove prototype. * dwarfread.c (STREQ, STREQN): Remove macros, replaced with STREQ and STREQN defined in defs.h. * dwarfread.c (set_cu_language): For completely unknown languages, try to deduce the language from the filename. Retain behavior that for known languages we don't know how to handle, we use language_unknown. * dwarfread.c (enum_type, symthesize_typedef): Initialize language and demangled name fields in symbol. * dwarfread.c, mipsread.c, partial-stab.h: For all usages of ADD_PSYMBOL_TO_LIST, add language and objfile parameters. * dwarfread.c (new_symbol): Attempt to demangle C++ symbol names and cache the results in SYMBOL_DEMANGLED_NAME for the symbol. * elfread.c (STREQ): Remove macro, use STREQ defined in defs.h. Replace usages throughout. * elfread.c (demangle.h): Include. * elfread.c (record_minimal_symbol): Remove prototype and function. * gdbtypes.h, symtab.h (B_SET, B_CLR, B_TST, B_TYPE, B_BYTES, B_CLRALL): Moved from symtab.h to gdbtypes.h. * infcmd.c (jump_command): Remove code to demangle name and add it to a cleanup list. Now just use SYMBOL_DEMANGLED_NAME. * minsyms.c (demangle.h): Include. * minsyms.c (lookup_minimal_symbol): Indent comment to match code. * minsyms.c (install_minimal_symbols): Attempt to demangle symbol names as C++ names, and cache them in SYMBOL_DEMANGLED_NAME. * mipsread.c (psymtab_language): Add static variable. * stabsread.c (demangle.h): Include. * stabsread.c (define_symbol): Attempt to demangle C++ symbol names and cache them in the SYMBOL_DEMANGLED_NAME field. * stack.c (return_command): Remove explicit demangling of name and use of cleanups. Just use SYMBOL_DEMANGLED_NAME. * symfile.c (demangle.h): Include. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Fix to match macros in symfile.h and allow them to be compiled if INLINE_ADD_PSYMBOL is not true. * symfile.h (INLINE_ADD_PSYMBOL): Default to true if not set. * symfile.h (ADD_PSYMBOL_*): Add language and objfile parameters. Add code to demangle and cache C++ symbol names. Use macro form if INLINE_ADD_PSYMBOL is true, otherwise use C function form. * symmisc.c (add_psymbol_to_list, add_psymbol_addr_to_list): Remove, also defined in symfile.c, which we already fixed. * symtab.c (expensive_mangler): Remove prototype and function. * symtab.c (find_methods): Remove physnames parameter and fix prototype to match. * symtab.c (completion_list_add_symbol): Name changed to completion_list_add_name. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): New macro, adds both the normal symbol name and the cached C++ demangled name. * symtab.c (lookup_demangled_partial_symbol, lookup_demangled_block_symbol): Remove prototypes and functions. * symtab.c (lookup_symbol): Remove use of expensive_mangler, use lookup_block_symbol instead of lookup_demangled_block_symbol. Remove code to try demangling names and matching them. * symtab.c (lookup_partial_symbol, lookup_block_symbol): Fix to try matching the cached demangled name if no match is found using the regular symbol name. * symtab.c (find_methods): Remove unused physnames array. * symtab.c (name_match, NAME_MATCH): Remove function and macro, replaced with SYMBOL_MATCHES_REGEXP from symtab.h. * symtab.c (completion_list_add_symbol): Rewrite to use cached C++ demangled symbol names. * symtab.h: Much reformatting of structures and such to add whitespace to make them more readable, and make them more consistent with other gdb structure definitions. * symtab.h (general_symbol_info): New struct containing fields common to all symbols. * symtab.h (SYMBOL_LANGUAGE, SYMBOL_DEMANGLED_NAME, SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP, MSYMBOL_INFO, MSYMBOL_TYPE): New macros. * symtab. (struct minimal_symbol, struct partial_symbol, struct symbol): Use general_symbol_info struct. * utils.c (demangle_and_match): Remove, no longer used. * valops.c (demangle.h): Include. * xcoffexec.c (eq): Remove macro, replace usages with STREQ. * blockframe.c, breakpoint.c, c-exp.y, c-valprint.c, dbxread.c, infcmd.c, m2-exp.y, minsyms.c, objfiles.h, solib.c, stack.c, symmisc.c, symtab.c, valops.c: Replace references to minimal symbol fields with appropriate macros. * breakpoint.c, buildsym.c, c-exp.y, c-typeprint.c, c-valprint.c, coffread.c, command.c, convex-tdep.c, cp-valprint.c, dbxread.c, demangle.c, elfread.c, energize.c, environ.c, exec.c, gdbtypes.c, i960-tdep.c, infrun.c, infrun-hacked.c, language.c, main.c, minsyms.c, mipsread.c, partial-stab.h, remote-es1800.c, remote-nindy.c, remote-udi.c, rs6000-tdep.c, solib.c, source.c, sparc-pinsn.c, stabsread.c, standalone.c, state.c, stuff.c, symfile.c, symmisc.c, symtab.c, symtab.h, tm-sysv4.h, tm-ultra3.h, values.c, xcoffexec.c, xcoffread.c: Replace strcmp and strncmp usages with STREQ, STREQN, or STRCMP as appropriate. * breakpoint.c, buildsym.c, c-typeprint.c, expprint.c, findvar.c, mipsread.c, printcmd.c, source.c, stabsread.c, stack.c, symmisc.c, tm-29k.h, valops.c, values.c: Replace SYMBOL_NAME references with SYMBOL_SOURCE_NAME or SYMBOL_LINKAGE_NAME as appropriate. * buildsym.c (start_subfile, patch_subfile_names): Default the source language to what can be deduced from the filename. * buildsym.c (end_symtab): Update the source language in the allocated symtab to match what we have been using. * buildsym.h (struct subfile): Add a language field. * c-typeprint.c (c_print_type): Remove code to do explicit demangling. * dbxread.c (psymtab_language): Add static variable. * dbxread.c (start_psymtab): Initialize psymtab_language using deduce_language_from_filename.
1992-12-23 06:34:57 +00:00
0, cu_language, objfile);
}
break;
}
}
/*
LOCAL FUNCTION
scan_partial_symbols -- scan DIE's within a single compilation unit
DESCRIPTION
Process the DIE's within a single compilation unit, looking for
interesting DIE's that contribute to the partial symbol table entry
for this compilation unit.
NOTES
There are some DIE's that may appear both at file scope and within
the scope of a function. We are only interested in the ones at file
scope, and the only way to tell them apart is to keep track of the
scope. For example, consider the test case:
static int i;
main () { int j; }
for which the relevant DWARF segment has the structure:
0x51:
0x23 global subrtn sibling 0x9b
name main
fund_type FT_integer
low_pc 0x800004cc
high_pc 0x800004d4
0x74:
0x23 local var sibling 0x97
name j
fund_type FT_integer
location OP_BASEREG 0xe
OP_CONST 0xfffffffc
OP_ADD
0x97:
0x4
0x9b:
0x1d local var sibling 0xb8
name i
fund_type FT_integer
location OP_ADDR 0x800025dc
0xb8:
0x4
We want to include the symbol 'i' in the partial symbol table, but
not the symbol 'j'. In essence, we want to skip all the dies within
the scope of a TAG_global_subroutine DIE.
Don't attempt to add anonymous structures or unions since they have
no name. Anonymous enumerations however are processed, because we
want to extract their member names (the check for a tag name is
done later).
Also, for variables and subroutines, check that this is the place
where the actual definition occurs, rather than just a reference
to an external.
*/
static void
scan_partial_symbols (thisdie, enddie, objfile)
char *thisdie;
char *enddie;
struct objfile *objfile;
{
char *nextdie;
char *temp;
struct dieinfo di;
while (thisdie < enddie)
{
basicdieinfo (&di, thisdie, objfile);
if (di.die_length < SIZEOF_DIE_LENGTH)
{
break;
}
else
{
nextdie = thisdie + di.die_length;
/* To avoid getting complete die information for every die, we
only do it (below) for the cases we are interested in. */
switch (di.die_tag)
{
case TAG_global_subroutine:
case TAG_subroutine:
completedieinfo (&di, objfile);
if (di.at_name && (di.has_at_low_pc || di.at_location))
{
add_partial_symbol (&di, objfile);
/* If there is a sibling attribute, adjust the nextdie
pointer to skip the entire scope of the subroutine.
Apply some sanity checking to make sure we don't
overrun or underrun the range of remaining DIE's */
if (di.at_sibling != 0)
{
temp = dbbase + di.at_sibling - dbroff;
if ((temp < thisdie) || (temp >= enddie))
{
complain (&bad_die_ref, DIE_ID, DIE_NAME,
di.at_sibling);
}
else
{
nextdie = temp;
}
}
}
break;
case TAG_global_variable:
case TAG_local_variable:
completedieinfo (&di, objfile);
if (di.at_name && (di.has_at_low_pc || di.at_location))
{
add_partial_symbol (&di, objfile);
}
break;
case TAG_typedef:
1992-08-31 20:50:45 +00:00
case TAG_class_type:
case TAG_structure_type:
case TAG_union_type:
completedieinfo (&di, objfile);
if (di.at_name)
{
add_partial_symbol (&di, objfile);
}
break;
case TAG_enumeration_type:
completedieinfo (&di, objfile);
1992-08-31 20:50:45 +00:00
if (di.at_name)
{
add_partial_symbol (&di, objfile);
}
add_enum_psymbol (&di, objfile);
break;
}
}
thisdie = nextdie;
}
}
/*
LOCAL FUNCTION
scan_compilation_units -- build a psymtab entry for each compilation
DESCRIPTION
This is the top level dwarf parsing routine for building partial
symbol tables.
It scans from the beginning of the DWARF table looking for the first
TAG_compile_unit DIE, and then follows the sibling chain to locate
each additional TAG_compile_unit DIE.
For each TAG_compile_unit DIE it creates a partial symtab structure,
calls a subordinate routine to collect all the compilation unit's
global DIE's, file scope DIEs, typedef DIEs, etc, and then links the
new partial symtab structure into the partial symbol table. It also
records the appropriate information in the partial symbol table entry
to allow the chunk of DIE's and line number table for this compilation
unit to be located and re-read later, to generate a complete symbol
table entry for the compilation unit.
Thus it effectively partitions up a chunk of DIE's for multiple
compilation units into smaller DIE chunks and line number tables,
and associates them with a partial symbol table entry.
NOTES
If any compilation unit has no line number table associated with
it for some reason (a missing at_stmt_list attribute, rather than
just one with a value of zero, which is valid) then we ensure that
the recorded file offset is zero so that the routine which later
reads line number table fragments knows that there is no fragment
to read.
RETURNS
Returns no value.
*/
static void
scan_compilation_units (thisdie, enddie, dbfoff, lnoffset, objfile)
char *thisdie;
char *enddie;
file_ptr dbfoff;
file_ptr lnoffset;
struct objfile *objfile;
{
char *nextdie;
struct dieinfo di;
struct partial_symtab *pst;
int culength;
int curoff;
file_ptr curlnoffset;
while (thisdie < enddie)
{
basicdieinfo (&di, thisdie, objfile);
if (di.die_length < SIZEOF_DIE_LENGTH)
{
break;
}
else if (di.die_tag != TAG_compile_unit)
{
nextdie = thisdie + di.die_length;
}
else
{
completedieinfo (&di, objfile);
1992-08-31 20:50:45 +00:00
set_cu_language (&di);
if (di.at_sibling != 0)
{
nextdie = dbbase + di.at_sibling - dbroff;
}
else
{
nextdie = thisdie + di.die_length;
}
curoff = thisdie - dbbase;
culength = nextdie - thisdie;
curlnoffset = di.has_at_stmt_list ? lnoffset + di.at_stmt_list : 0;
/* First allocate a new partial symbol table structure */
1992-08-31 20:50:45 +00:00
pst = start_psymtab_common (objfile, base_section_offsets,
di.at_name, di.at_low_pc,
objfile -> global_psymbols.next,
objfile -> static_psymbols.next);
pst -> texthigh = di.at_high_pc;
pst -> read_symtab_private = (char *)
obstack_alloc (&objfile -> psymbol_obstack,
sizeof (struct dwfinfo));
DBFOFF (pst) = dbfoff;
DBROFF (pst) = curoff;
DBLENGTH (pst) = culength;
LNFOFF (pst) = curlnoffset;
pst -> read_symtab = dwarf_psymtab_to_symtab;
/* Now look for partial symbols */
scan_partial_symbols (thisdie + di.die_length, nextdie, objfile);
pst -> n_global_syms = objfile -> global_psymbols.next -
(objfile -> global_psymbols.list + pst -> globals_offset);
pst -> n_static_syms = objfile -> static_psymbols.next -
(objfile -> static_psymbols.list + pst -> statics_offset);
sort_pst_symbols (pst);
/* If there is already a psymtab or symtab for a file of this name,
remove it. (If there is a symtab, more drastic things also
happen.) This happens in VxWorks. */
free_named_symtabs (pst -> filename);
}
thisdie = nextdie;
}
}
/*
LOCAL FUNCTION
new_symbol -- make a symbol table entry for a new symbol
SYNOPSIS
static struct symbol *new_symbol (struct dieinfo *dip,
struct objfile *objfile)
DESCRIPTION
Given a pointer to a DWARF information entry, figure out if we need
to make a symbol table entry for it, and if so, create a new entry
and return a pointer to it.
*/
static struct symbol *
new_symbol (dip, objfile)
struct dieinfo *dip;
struct objfile *objfile;
{
struct symbol *sym = NULL;
if (dip -> at_name != NULL)
{
sym = (struct symbol *) obstack_alloc (&objfile -> symbol_obstack,
sizeof (struct symbol));
memset (sym, 0, sizeof (struct symbol));
1992-08-31 20:50:45 +00:00
SYMBOL_NAME (sym) = create_name (dip -> at_name,
&objfile->symbol_obstack);
/* default assumptions */
SYMBOL_NAMESPACE (sym) = VAR_NAMESPACE;
SYMBOL_CLASS (sym) = LOC_STATIC;
SYMBOL_TYPE (sym) = decode_die_type (dip);
* defs.h (STRCMP, STREQ, STREQN): New macros. * defs.h (demangle_and_match): Remove prototype. * dwarfread.c (STREQ, STREQN): Remove macros, replaced with STREQ and STREQN defined in defs.h. * dwarfread.c (set_cu_language): For completely unknown languages, try to deduce the language from the filename. Retain behavior that for known languages we don't know how to handle, we use language_unknown. * dwarfread.c (enum_type, symthesize_typedef): Initialize language and demangled name fields in symbol. * dwarfread.c, mipsread.c, partial-stab.h: For all usages of ADD_PSYMBOL_TO_LIST, add language and objfile parameters. * dwarfread.c (new_symbol): Attempt to demangle C++ symbol names and cache the results in SYMBOL_DEMANGLED_NAME for the symbol. * elfread.c (STREQ): Remove macro, use STREQ defined in defs.h. Replace usages throughout. * elfread.c (demangle.h): Include. * elfread.c (record_minimal_symbol): Remove prototype and function. * gdbtypes.h, symtab.h (B_SET, B_CLR, B_TST, B_TYPE, B_BYTES, B_CLRALL): Moved from symtab.h to gdbtypes.h. * infcmd.c (jump_command): Remove code to demangle name and add it to a cleanup list. Now just use SYMBOL_DEMANGLED_NAME. * minsyms.c (demangle.h): Include. * minsyms.c (lookup_minimal_symbol): Indent comment to match code. * minsyms.c (install_minimal_symbols): Attempt to demangle symbol names as C++ names, and cache them in SYMBOL_DEMANGLED_NAME. * mipsread.c (psymtab_language): Add static variable. * stabsread.c (demangle.h): Include. * stabsread.c (define_symbol): Attempt to demangle C++ symbol names and cache them in the SYMBOL_DEMANGLED_NAME field. * stack.c (return_command): Remove explicit demangling of name and use of cleanups. Just use SYMBOL_DEMANGLED_NAME. * symfile.c (demangle.h): Include. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Fix to match macros in symfile.h and allow them to be compiled if INLINE_ADD_PSYMBOL is not true. * symfile.h (INLINE_ADD_PSYMBOL): Default to true if not set. * symfile.h (ADD_PSYMBOL_*): Add language and objfile parameters. Add code to demangle and cache C++ symbol names. Use macro form if INLINE_ADD_PSYMBOL is true, otherwise use C function form. * symmisc.c (add_psymbol_to_list, add_psymbol_addr_to_list): Remove, also defined in symfile.c, which we already fixed. * symtab.c (expensive_mangler): Remove prototype and function. * symtab.c (find_methods): Remove physnames parameter and fix prototype to match. * symtab.c (completion_list_add_symbol): Name changed to completion_list_add_name. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): New macro, adds both the normal symbol name and the cached C++ demangled name. * symtab.c (lookup_demangled_partial_symbol, lookup_demangled_block_symbol): Remove prototypes and functions. * symtab.c (lookup_symbol): Remove use of expensive_mangler, use lookup_block_symbol instead of lookup_demangled_block_symbol. Remove code to try demangling names and matching them. * symtab.c (lookup_partial_symbol, lookup_block_symbol): Fix to try matching the cached demangled name if no match is found using the regular symbol name. * symtab.c (find_methods): Remove unused physnames array. * symtab.c (name_match, NAME_MATCH): Remove function and macro, replaced with SYMBOL_MATCHES_REGEXP from symtab.h. * symtab.c (completion_list_add_symbol): Rewrite to use cached C++ demangled symbol names. * symtab.h: Much reformatting of structures and such to add whitespace to make them more readable, and make them more consistent with other gdb structure definitions. * symtab.h (general_symbol_info): New struct containing fields common to all symbols. * symtab.h (SYMBOL_LANGUAGE, SYMBOL_DEMANGLED_NAME, SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP, MSYMBOL_INFO, MSYMBOL_TYPE): New macros. * symtab. (struct minimal_symbol, struct partial_symbol, struct symbol): Use general_symbol_info struct. * utils.c (demangle_and_match): Remove, no longer used. * valops.c (demangle.h): Include. * xcoffexec.c (eq): Remove macro, replace usages with STREQ. * blockframe.c, breakpoint.c, c-exp.y, c-valprint.c, dbxread.c, infcmd.c, m2-exp.y, minsyms.c, objfiles.h, solib.c, stack.c, symmisc.c, symtab.c, valops.c: Replace references to minimal symbol fields with appropriate macros. * breakpoint.c, buildsym.c, c-exp.y, c-typeprint.c, c-valprint.c, coffread.c, command.c, convex-tdep.c, cp-valprint.c, dbxread.c, demangle.c, elfread.c, energize.c, environ.c, exec.c, gdbtypes.c, i960-tdep.c, infrun.c, infrun-hacked.c, language.c, main.c, minsyms.c, mipsread.c, partial-stab.h, remote-es1800.c, remote-nindy.c, remote-udi.c, rs6000-tdep.c, solib.c, source.c, sparc-pinsn.c, stabsread.c, standalone.c, state.c, stuff.c, symfile.c, symmisc.c, symtab.c, symtab.h, tm-sysv4.h, tm-ultra3.h, values.c, xcoffexec.c, xcoffread.c: Replace strcmp and strncmp usages with STREQ, STREQN, or STRCMP as appropriate. * breakpoint.c, buildsym.c, c-typeprint.c, expprint.c, findvar.c, mipsread.c, printcmd.c, source.c, stabsread.c, stack.c, symmisc.c, tm-29k.h, valops.c, values.c: Replace SYMBOL_NAME references with SYMBOL_SOURCE_NAME or SYMBOL_LINKAGE_NAME as appropriate. * buildsym.c (start_subfile, patch_subfile_names): Default the source language to what can be deduced from the filename. * buildsym.c (end_symtab): Update the source language in the allocated symtab to match what we have been using. * buildsym.h (struct subfile): Add a language field. * c-typeprint.c (c_print_type): Remove code to do explicit demangling. * dbxread.c (psymtab_language): Add static variable. * dbxread.c (start_psymtab): Initialize psymtab_language using deduce_language_from_filename.
1992-12-23 06:34:57 +00:00
/* If this symbol is from a C++ compilation, then attempt to cache the
demangled form for future reference. This is a typical time versus
space tradeoff, that was decided in favor of time because it sped up
C++ symbol lookups by a factor of about 20. */
SYMBOL_LANGUAGE (sym) = cu_language;
* tm-sun4sol2.h (CPLUS_MARKER): Remove, now set in tm-sysv4.h. * tm-sysv4.h (CPLUS_MARKER): By default, g++ uses '.' as the CPLUS_MARKER for all SVR4 systems, so follow suit. * defs.h (strdup_demangled): Remove prototype. * dwarfread.c (enum_type, synthesize_typedef): Use new macro SYMBOL_INIT_LANGUAGE_SPECIFIC. * dwarfread.c (new_symbol): Use SYMBOL_INIT_DEMANGLED_NAME. * minsyms.c (install_minimal_symbols, prim_record_minimal_symbol, prim_record_minimal_symbol_and_info): Use new macro SYMBOL_INIT_LANGUAGE_SPECIFIC. * minsyms.c (install_minimal_symbols): Use new macro SYMBOL_INIT_DEMANGLED_NAME. * stabsread.c (define_symbol): Use new macro SYMBOL_INIT_DEMANGLED_NAME. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Use new macro SYMBOL_INIT_DEMANGLED_NAME. * symfile.h (ADD_PSYMBOL_VT_TO_LIST): Use new macro SYMBOL_INIT_DEMANGLED_NAME. * symmisc.c (dump_msymbols, dump_symtab, print_partial_symbol): SYMBOL_DEMANGLED_NAME now tests language itself. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): SYMBOL_DEMANGLED_NAME now tests language itself. * symtab.h (SYMBOL_CPLUS_DEMANGLED_NAME): New macro that does what SYMBOL_DEMANGLED_NAME used to do, directly access the C++ mangled name member in the language dependent portion of a symbol. * symtab.h (SYMBOL_DEMANGLED_NAME): New macro that returns the mangled name member appropriate for a symbol's language. * symtab.h (SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP): SYMBOL_DEMANGLED_NAME now tests language itself. * symtab.h (SYMBOL_INIT_LANGUAGE_SPECIFIC): New macro that initializes language dependent portion of symbol. * symtab.h (SYMBOL_INIT_DEMANGLED_NAME): New macro that demangles and caches the demangled form of symbol names. * utils.c (fputs_demangled, fprint_symbol): Use current language to select an appropriate demangling algorithm. * utils.c (strdup_demangled): Remove, no longer used. **** start-sanitize-chill **** * symtab.h (SYMBOL_CHILL_DEMANGLED_NAME): New macro that directly access the Chill mangled name member in the language dependent portion of a symbol. * ch-lang.c (chill_demangle): New function, simple demangler. * defs.h (chill_demangle): Add prototype. * symtab.h (language_dependent_info): Add struct for Chill. **** end-sanitize-chill ****
1993-01-01 20:29:41 +00:00
SYMBOL_INIT_DEMANGLED_NAME (sym, &objfile -> symbol_obstack);
switch (dip -> die_tag)
{
case TAG_label:
SYMBOL_VALUE (sym) = dip -> at_low_pc;
SYMBOL_CLASS (sym) = LOC_LABEL;
break;
case TAG_global_subroutine:
case TAG_subroutine:
SYMBOL_VALUE (sym) = dip -> at_low_pc;
SYMBOL_TYPE (sym) = lookup_function_type (SYMBOL_TYPE (sym));
SYMBOL_CLASS (sym) = LOC_BLOCK;
if (dip -> die_tag == TAG_global_subroutine)
{
add_symbol_to_list (sym, &global_symbols);
}
else
{
add_symbol_to_list (sym, list_in_scope);
}
break;
case TAG_global_variable:
if (dip -> at_location != NULL)
{
SYMBOL_VALUE (sym) = locval (dip -> at_location);
add_symbol_to_list (sym, &global_symbols);
SYMBOL_CLASS (sym) = LOC_STATIC;
SYMBOL_VALUE (sym) += baseaddr;
}
break;
case TAG_local_variable:
if (dip -> at_location != NULL)
{
SYMBOL_VALUE (sym) = locval (dip -> at_location);
add_symbol_to_list (sym, list_in_scope);
if (isreg)
{
SYMBOL_CLASS (sym) = LOC_REGISTER;
}
else if (offreg)
{
SYMBOL_CLASS (sym) = LOC_BASEREG;
SYMBOL_BASEREG (sym) = basereg;
}
else
{
SYMBOL_CLASS (sym) = LOC_STATIC;
SYMBOL_VALUE (sym) += baseaddr;
}
}
break;
case TAG_formal_parameter:
if (dip -> at_location != NULL)
{
SYMBOL_VALUE (sym) = locval (dip -> at_location);
}
add_symbol_to_list (sym, list_in_scope);
if (isreg)
{
SYMBOL_CLASS (sym) = LOC_REGPARM;
}
else if (offreg)
{
SYMBOL_CLASS (sym) = LOC_BASEREG_ARG;
SYMBOL_BASEREG (sym) = basereg;
}
else
{
SYMBOL_CLASS (sym) = LOC_ARG;
}
break;
case TAG_unspecified_parameters:
/* From varargs functions; gdb doesn't seem to have any interest in
this information, so just ignore it for now. (FIXME?) */
break;
1992-08-31 20:50:45 +00:00
case TAG_class_type:
case TAG_structure_type:
case TAG_union_type:
case TAG_enumeration_type:
SYMBOL_CLASS (sym) = LOC_TYPEDEF;
SYMBOL_NAMESPACE (sym) = STRUCT_NAMESPACE;
add_symbol_to_list (sym, list_in_scope);
break;
case TAG_typedef:
SYMBOL_CLASS (sym) = LOC_TYPEDEF;
SYMBOL_NAMESPACE (sym) = VAR_NAMESPACE;
add_symbol_to_list (sym, list_in_scope);
break;
default:
/* Not a tag we recognize. Hopefully we aren't processing trash
data, but since we must specifically ignore things we don't
recognize, there is nothing else we should do at this point. */
break;
}
}
return (sym);
}
/*
1992-08-31 20:50:45 +00:00
LOCAL FUNCTION
synthesize_typedef -- make a symbol table entry for a "fake" typedef
SYNOPSIS
static void synthesize_typedef (struct dieinfo *dip,
struct objfile *objfile,
struct type *type);
DESCRIPTION
Given a pointer to a DWARF information entry, synthesize a typedef
for the name in the DIE, using the specified type.
This is used for C++ class, structs, unions, and enumerations to
set up the tag name as a type.
*/
static void
synthesize_typedef (dip, objfile, type)
struct dieinfo *dip;
struct objfile *objfile;
struct type *type;
{
struct symbol *sym = NULL;
if (dip -> at_name != NULL)
{
sym = (struct symbol *)
obstack_alloc (&objfile -> symbol_obstack, sizeof (struct symbol));
memset (sym, 0, sizeof (struct symbol));
SYMBOL_NAME (sym) = create_name (dip -> at_name,
&objfile->symbol_obstack);
* tm-sun4sol2.h (CPLUS_MARKER): Remove, now set in tm-sysv4.h. * tm-sysv4.h (CPLUS_MARKER): By default, g++ uses '.' as the CPLUS_MARKER for all SVR4 systems, so follow suit. * defs.h (strdup_demangled): Remove prototype. * dwarfread.c (enum_type, synthesize_typedef): Use new macro SYMBOL_INIT_LANGUAGE_SPECIFIC. * dwarfread.c (new_symbol): Use SYMBOL_INIT_DEMANGLED_NAME. * minsyms.c (install_minimal_symbols, prim_record_minimal_symbol, prim_record_minimal_symbol_and_info): Use new macro SYMBOL_INIT_LANGUAGE_SPECIFIC. * minsyms.c (install_minimal_symbols): Use new macro SYMBOL_INIT_DEMANGLED_NAME. * stabsread.c (define_symbol): Use new macro SYMBOL_INIT_DEMANGLED_NAME. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Use new macro SYMBOL_INIT_DEMANGLED_NAME. * symfile.h (ADD_PSYMBOL_VT_TO_LIST): Use new macro SYMBOL_INIT_DEMANGLED_NAME. * symmisc.c (dump_msymbols, dump_symtab, print_partial_symbol): SYMBOL_DEMANGLED_NAME now tests language itself. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): SYMBOL_DEMANGLED_NAME now tests language itself. * symtab.h (SYMBOL_CPLUS_DEMANGLED_NAME): New macro that does what SYMBOL_DEMANGLED_NAME used to do, directly access the C++ mangled name member in the language dependent portion of a symbol. * symtab.h (SYMBOL_DEMANGLED_NAME): New macro that returns the mangled name member appropriate for a symbol's language. * symtab.h (SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP): SYMBOL_DEMANGLED_NAME now tests language itself. * symtab.h (SYMBOL_INIT_LANGUAGE_SPECIFIC): New macro that initializes language dependent portion of symbol. * symtab.h (SYMBOL_INIT_DEMANGLED_NAME): New macro that demangles and caches the demangled form of symbol names. * utils.c (fputs_demangled, fprint_symbol): Use current language to select an appropriate demangling algorithm. * utils.c (strdup_demangled): Remove, no longer used. **** start-sanitize-chill **** * symtab.h (SYMBOL_CHILL_DEMANGLED_NAME): New macro that directly access the Chill mangled name member in the language dependent portion of a symbol. * ch-lang.c (chill_demangle): New function, simple demangler. * defs.h (chill_demangle): Add prototype. * symtab.h (language_dependent_info): Add struct for Chill. **** end-sanitize-chill ****
1993-01-01 20:29:41 +00:00
SYMBOL_INIT_LANGUAGE_SPECIFIC (sym, cu_language);
1992-08-31 20:50:45 +00:00
SYMBOL_TYPE (sym) = type;
SYMBOL_CLASS (sym) = LOC_TYPEDEF;
SYMBOL_NAMESPACE (sym) = VAR_NAMESPACE;
add_symbol_to_list (sym, list_in_scope);
}
}
/*
LOCAL FUNCTION
decode_mod_fund_type -- decode a modified fundamental type
SYNOPSIS
static struct type *decode_mod_fund_type (char *typedata)
DESCRIPTION
Decode a block of data containing a modified fundamental
type specification. TYPEDATA is a pointer to the block,
which starts with a length containing the size of the rest
of the block. At the end of the block is a fundmental type
code value that gives the fundamental type. Everything
in between are type modifiers.
We simply compute the number of modifiers and call the general
function decode_modified_type to do the actual work.
*/
static struct type *
decode_mod_fund_type (typedata)
char *typedata;
{
struct type *typep = NULL;
unsigned short modcount;
int nbytes;
/* Get the total size of the block, exclusive of the size itself */
nbytes = attribute_size (AT_mod_fund_type);
modcount = target_to_host (typedata, nbytes, GET_UNSIGNED, current_objfile);
typedata += nbytes;
/* Deduct the size of the fundamental type bytes at the end of the block. */
modcount -= attribute_size (AT_fund_type);
/* Now do the actual decoding */
typep = decode_modified_type (typedata, modcount, AT_mod_fund_type);
return (typep);
}
/*
LOCAL FUNCTION
decode_mod_u_d_type -- decode a modified user defined type
SYNOPSIS
static struct type *decode_mod_u_d_type (char *typedata)
DESCRIPTION
Decode a block of data containing a modified user defined
type specification. TYPEDATA is a pointer to the block,
which consists of a two byte length, containing the size
of the rest of the block. At the end of the block is a
four byte value that gives a reference to a user defined type.
Everything in between are type modifiers.
We simply compute the number of modifiers and call the general
function decode_modified_type to do the actual work.
*/
static struct type *
decode_mod_u_d_type (typedata)
char *typedata;
{
struct type *typep = NULL;
unsigned short modcount;
int nbytes;
/* Get the total size of the block, exclusive of the size itself */
nbytes = attribute_size (AT_mod_u_d_type);
modcount = target_to_host (typedata, nbytes, GET_UNSIGNED, current_objfile);
typedata += nbytes;
/* Deduct the size of the reference type bytes at the end of the block. */
modcount -= attribute_size (AT_user_def_type);
/* Now do the actual decoding */
typep = decode_modified_type (typedata, modcount, AT_mod_u_d_type);
return (typep);
}
/*
LOCAL FUNCTION
decode_modified_type -- decode modified user or fundamental type
SYNOPSIS
static struct type *decode_modified_type (char *modifiers,
unsigned short modcount, int mtype)
DESCRIPTION
Decode a modified type, either a modified fundamental type or
a modified user defined type. MODIFIERS is a pointer to the
block of bytes that define MODCOUNT modifiers. Immediately
following the last modifier is a short containing the fundamental
type or a long containing the reference to the user defined
type. Which one is determined by MTYPE, which is either
AT_mod_fund_type or AT_mod_u_d_type to indicate what modified
type we are generating.
We call ourself recursively to generate each modified type,`
until MODCOUNT reaches zero, at which point we have consumed
all the modifiers and generate either the fundamental type or
user defined type. When the recursion unwinds, each modifier
is applied in turn to generate the full modified type.
NOTES
If we find a modifier that we don't recognize, and it is not one
of those reserved for application specific use, then we issue a
warning and simply ignore the modifier.
BUGS
We currently ignore MOD_const and MOD_volatile. (FIXME)
*/
static struct type *
decode_modified_type (modifiers, modcount, mtype)
char *modifiers;
unsigned int modcount;
int mtype;
{
struct type *typep = NULL;
unsigned short fundtype;
DIE_REF die_ref;
char modifier;
int nbytes;
if (modcount == 0)
{
switch (mtype)
{
case AT_mod_fund_type:
nbytes = attribute_size (AT_fund_type);
fundtype = target_to_host (modifiers, nbytes, GET_UNSIGNED,
current_objfile);
typep = decode_fund_type (fundtype);
break;
case AT_mod_u_d_type:
nbytes = attribute_size (AT_user_def_type);
die_ref = target_to_host (modifiers, nbytes, GET_UNSIGNED,
current_objfile);
if ((typep = lookup_utype (die_ref)) == NULL)
{
typep = alloc_utype (die_ref, NULL);
}
break;
default:
complain (&botched_modified_type, DIE_ID, DIE_NAME, mtype);
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_INTEGER);
break;
}
}
else
{
modifier = *modifiers++;
typep = decode_modified_type (modifiers, --modcount, mtype);
switch (modifier)
{
case MOD_pointer_to:
typep = lookup_pointer_type (typep);
break;
case MOD_reference_to:
typep = lookup_reference_type (typep);
break;
case MOD_const:
complain (&const_ignored, DIE_ID, DIE_NAME); /* FIXME */
break;
case MOD_volatile:
complain (&volatile_ignored, DIE_ID, DIE_NAME); /* FIXME */
break;
default:
if (!(MOD_lo_user <= (unsigned char) modifier
&& (unsigned char) modifier <= MOD_hi_user))
{
complain (&unknown_type_modifier, DIE_ID, DIE_NAME, modifier);
}
break;
}
}
return (typep);
}
/*
LOCAL FUNCTION
decode_fund_type -- translate basic DWARF type to gdb base type
DESCRIPTION
Given an integer that is one of the fundamental DWARF types,
translate it to one of the basic internal gdb types and return
a pointer to the appropriate gdb type (a "struct type *").
NOTES
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
For robustness, if we are asked to translate a fundamental
type that we are unprepared to deal with, we return int so
callers can always depend upon a valid type being returned,
and so gdb may at least do something reasonable by default.
If the type is not in the range of those types defined as
application specific types, we also issue a warning.
*/
static struct type *
decode_fund_type (fundtype)
unsigned int fundtype;
{
struct type *typep = NULL;
switch (fundtype)
{
case FT_void:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_VOID);
break;
case FT_boolean: /* Was FT_set in AT&T version */
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_BOOLEAN);
break;
case FT_pointer: /* (void *) */
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_VOID);
typep = lookup_pointer_type (typep);
break;
case FT_char:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_CHAR);
break;
case FT_signed_char:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_SIGNED_CHAR);
break;
case FT_unsigned_char:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_UNSIGNED_CHAR);
break;
case FT_short:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_SHORT);
break;
case FT_signed_short:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_SIGNED_SHORT);
break;
case FT_unsigned_short:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_UNSIGNED_SHORT);
break;
case FT_integer:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_INTEGER);
break;
case FT_signed_integer:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_SIGNED_INTEGER);
break;
case FT_unsigned_integer:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_UNSIGNED_INTEGER);
break;
case FT_long:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_LONG);
break;
case FT_signed_long:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_SIGNED_LONG);
break;
case FT_unsigned_long:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_UNSIGNED_LONG);
break;
case FT_long_long:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_LONG_LONG);
break;
case FT_signed_long_long:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_SIGNED_LONG_LONG);
break;
case FT_unsigned_long_long:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_UNSIGNED_LONG_LONG);
break;
case FT_float:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_FLOAT);
break;
case FT_dbl_prec_float:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_DBL_PREC_FLOAT);
break;
case FT_ext_prec_float:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_EXT_PREC_FLOAT);
break;
case FT_complex:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_COMPLEX);
break;
case FT_dbl_prec_complex:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_DBL_PREC_COMPLEX);
break;
case FT_ext_prec_complex:
* c-exp.y (c_create_fundamental_type): New function to create language specific fundamental types for C. * m2-exp.y (m2_create_fundamental_type): New function to create language specific fundamental types for Modula 2. * c-exp.y (c_language_defn, cplus_language_defn): Add c_create_fundamental_type to language struct initializers. * m2-exp.y (m2_language_defn): Add m2_create_fundamental_type to language struct initializers. * dwarfread.c (expression.h, language.h): Include. * dwarfread.c (ftypes): New array to hold fundamental types for current compilation unit. * dwarfread.c (cu_language_defn): New pointer to language struct for language of current compilation unit. * dwarfread.c (dwarf_fundamental_type): New function to create/lookup fundamental types. * dwarfread.c (set_cu_language): Initialize cu_language_defn. * dwarfread.c (throughout): Replace lookup_fundamental_type with dwarf_fundamental_type. * dwarfread.c (read_file_scope): Zero out ftypes for each new compilation unit (may be different language or different objfile). * gdbtypes.c (lookup_fundamental_type): Move actual type creations into language specific fundamental type creation functions and call via create_fundamental_type. Add comment about this function being obsolescent. * gdbtypes.h (FT_BYTE, FT_UNSIGNED_BYTE): New types, true byte sized signed and unsigned integers. * gdbtypes.h (FT_NUM_MEMBERS): Increment, new types added. * language.c (language_def): New function to lookup a language struct given it's enumeration. * language.h (struct language_defn): Add la_fund_type, a pointer to a function that creates fundamental types for this language. * language.h (create_fundamental_type): New macro to create fundamental types based on the current language. * language.h (language_def): Add prototype. * language.c (unk_lang_create_fundamental_type): New function for initializing language structs, calls error if called. * language.c (unk_language_defn, auto_language_defn, local_language_defn): Use unk_lang_create_fundamental_type. **** start-sanitize-chill **** ch-exp.y (chill_create_fundamental_type): New function. ch-exp.y (chill_language_defn): Add chill_create_fundamental_type. ch-exp.y (_initialize_chill_exp): BOOL types are only one byte. **** end-sanitize-chill ****
1992-12-03 20:28:16 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_EXT_PREC_COMPLEX);
break;
}
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
if (typep == NULL)
{
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
typep = dwarf_fundamental_type (current_objfile, FT_INTEGER);
if (!(FT_lo_user <= fundtype && fundtype <= FT_hi_user))
{
complain (&unexpected_fund_type, DIE_ID, DIE_NAME, fundtype);
* gdbtypes.c (create_array_type): Complete rewrite. Now requires a optional type to decorate as an array type, the type of the index, and the bounds of the array. Records this additional info in the array type for use with languages with nonzero array bounds. * gdbtypes.h (enum type_code): Update comment for TYPE_CODE_ARRAY to note that arrays may have bounds. * gdbtypes.h (create_array_type): Update prototype. * c-exp.y (ptype production): Adjust for new create_array_type calling conventions. * coffread.c (decode_type): Call create_array_type rather than handcrafting array types. * convex-tdep.c (value_type): Remove, now use create_array_type. * convex-tdep.c (value_of_trapped_internalvar): Convert calls to vector_type into calls to create_array_type. * dwarfread.c (decode_subscr_data): Name changed to decode_subscript_data_item throughout. * dwarfread.c (decode_subscript_data_item): Rewrite to use create_array_type. Now records index type and range as well. * dwarfread.c (dwarf_read_array_type): Rewrite as part of change to use create_array_type. * dwarfread.c (read_subroutine_type): Test existing user defined types before decorating them, to ensure they are blank, and complain about it if they are not. * dwarfread.c (decode_fund_type): For unrecognized types, always return some valid type (type integer). If the unrecognized type cannot be an implementation defined type, complain as well. * m88k-tdep.c (pushed_size): Update comment for TYPE_CODE_ARRAY. * m88k-tdep.c (store_param): Update comment for TYPE_CODE_ARRAY. * mipsread.c (upgrade_type): Add FIXME comment that code to handcraft arrays should be replaced with call to create_array_type. * stabsread.c (read_array_type): Replace code to handcraft array types with call to create_array_type. * valprint.c (type_print_varspec_prefix): Minor formatting change, join lines that don't need to be split.
1992-12-15 02:52:11 +00:00
}
}
return (typep);
}
/*
LOCAL FUNCTION
create_name -- allocate a fresh copy of a string on an obstack
DESCRIPTION
Given a pointer to a string and a pointer to an obstack, allocates
a fresh copy of the string on the specified obstack.
*/
static char *
create_name (name, obstackp)
char *name;
struct obstack *obstackp;
{
int length;
char *newname;
length = strlen (name) + 1;
newname = (char *) obstack_alloc (obstackp, length);
strcpy (newname, name);
return (newname);
}
/*
LOCAL FUNCTION
basicdieinfo -- extract the minimal die info from raw die data
SYNOPSIS
void basicdieinfo (char *diep, struct dieinfo *dip,
struct objfile *objfile)
DESCRIPTION
Given a pointer to raw DIE data, and a pointer to an instance of a
die info structure, this function extracts the basic information
from the DIE data required to continue processing this DIE, along
with some bookkeeping information about the DIE.
The information we absolutely must have includes the DIE tag,
and the DIE length. If we need the sibling reference, then we
will have to call completedieinfo() to process all the remaining
DIE information.
Note that since there is no guarantee that the data is properly
aligned in memory for the type of access required (indirection
through anything other than a char pointer), and there is no
guarantee that it is in the same byte order as the gdb host,
we call a function which deals with both alignment and byte
swapping issues. Possibly inefficient, but quite portable.
We also take care of some other basic things at this point, such
as ensuring that the instance of the die info structure starts
out completely zero'd and that curdie is initialized for use
in error reporting if we have a problem with the current die.
NOTES
All DIE's must have at least a valid length, thus the minimum
DIE size is SIZEOF_DIE_LENGTH. In order to have a valid tag, the
DIE size must be at least SIZEOF_DIE_TAG larger, otherwise they
are forced to be TAG_padding DIES.
Padding DIES must be at least SIZEOF_DIE_LENGTH in length, implying
that if a padding DIE is used for alignment and the amount needed is
less than SIZEOF_DIE_LENGTH, then the padding DIE has to be big
enough to align to the next alignment boundry.
We do some basic sanity checking here, such as verifying that the
length of the die would not cause it to overrun the recorded end of
the buffer holding the DIE info. If we find a DIE that is either
too small or too large, we force it's length to zero which should
cause the caller to take appropriate action.
*/
static void
basicdieinfo (dip, diep, objfile)
struct dieinfo *dip;
char *diep;
struct objfile *objfile;
{
curdie = dip;
memset (dip, 0, sizeof (struct dieinfo));
dip -> die = diep;
dip -> die_ref = dbroff + (diep - dbbase);
dip -> die_length = target_to_host (diep, SIZEOF_DIE_LENGTH, GET_UNSIGNED,
objfile);
if ((dip -> die_length < SIZEOF_DIE_LENGTH) ||
((diep + dip -> die_length) > (dbbase + dbsize)))
{
complain (&malformed_die, DIE_ID, DIE_NAME, dip -> die_length);
dip -> die_length = 0;
}
else if (dip -> die_length < (SIZEOF_DIE_LENGTH + SIZEOF_DIE_TAG))
{
dip -> die_tag = TAG_padding;
}
else
{
diep += SIZEOF_DIE_LENGTH;
dip -> die_tag = target_to_host (diep, SIZEOF_DIE_TAG, GET_UNSIGNED,
objfile);
}
}
/*
LOCAL FUNCTION
completedieinfo -- finish reading the information for a given DIE
SYNOPSIS
void completedieinfo (struct dieinfo *dip, struct objfile *objfile)
DESCRIPTION
Given a pointer to an already partially initialized die info structure,
scan the raw DIE data and finish filling in the die info structure
from the various attributes found.
Note that since there is no guarantee that the data is properly
aligned in memory for the type of access required (indirection
through anything other than a char pointer), and there is no
guarantee that it is in the same byte order as the gdb host,
we call a function which deals with both alignment and byte
swapping issues. Possibly inefficient, but quite portable.
NOTES
Each time we are called, we increment the diecount variable, which
keeps an approximate count of the number of dies processed for
each compilation unit. This information is presented to the user
if the info_verbose flag is set.
*/
static void
completedieinfo (dip, objfile)
struct dieinfo *dip;
struct objfile *objfile;
{
char *diep; /* Current pointer into raw DIE data */
char *end; /* Terminate DIE scan here */
unsigned short attr; /* Current attribute being scanned */
unsigned short form; /* Form of the attribute */
int nbytes; /* Size of next field to read */
diecount++;
diep = dip -> die;
end = diep + dip -> die_length;
diep += SIZEOF_DIE_LENGTH + SIZEOF_DIE_TAG;
while (diep < end)
{
attr = target_to_host (diep, SIZEOF_ATTRIBUTE, GET_UNSIGNED, objfile);
diep += SIZEOF_ATTRIBUTE;
if ((nbytes = attribute_size (attr)) == -1)
{
complain (&unknown_attribute_length, DIE_ID, DIE_NAME);
diep = end;
continue;
}
switch (attr)
{
case AT_fund_type:
dip -> at_fund_type = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
break;
case AT_ordering:
dip -> at_ordering = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
break;
case AT_bit_offset:
dip -> at_bit_offset = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
break;
case AT_sibling:
dip -> at_sibling = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
break;
case AT_stmt_list:
dip -> at_stmt_list = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
dip -> has_at_stmt_list = 1;
break;
case AT_low_pc:
dip -> at_low_pc = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
dip -> at_low_pc += baseaddr;
dip -> has_at_low_pc = 1;
break;
case AT_high_pc:
dip -> at_high_pc = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
dip -> at_high_pc += baseaddr;
break;
case AT_language:
dip -> at_language = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
break;
case AT_user_def_type:
dip -> at_user_def_type = target_to_host (diep, nbytes,
GET_UNSIGNED, objfile);
break;
case AT_byte_size:
dip -> at_byte_size = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
dip -> has_at_byte_size = 1;
break;
case AT_bit_size:
dip -> at_bit_size = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
break;
case AT_member:
dip -> at_member = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
break;
case AT_discr:
dip -> at_discr = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
break;
case AT_location:
dip -> at_location = diep;
break;
case AT_mod_fund_type:
dip -> at_mod_fund_type = diep;
break;
case AT_subscr_data:
dip -> at_subscr_data = diep;
break;
case AT_mod_u_d_type:
dip -> at_mod_u_d_type = diep;
break;
case AT_element_list:
dip -> at_element_list = diep;
dip -> short_element_list = 0;
break;
case AT_short_element_list:
dip -> at_element_list = diep;
dip -> short_element_list = 1;
break;
case AT_discr_value:
dip -> at_discr_value = diep;
break;
case AT_string_length:
dip -> at_string_length = diep;
break;
case AT_name:
dip -> at_name = diep;
break;
case AT_comp_dir:
/* For now, ignore any "hostname:" portion, since gdb doesn't
know how to deal with it. (FIXME). */
dip -> at_comp_dir = strrchr (diep, ':');
if (dip -> at_comp_dir != NULL)
{
dip -> at_comp_dir++;
}
else
{
dip -> at_comp_dir = diep;
}
break;
case AT_producer:
dip -> at_producer = diep;
break;
case AT_start_scope:
dip -> at_start_scope = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
break;
case AT_stride_size:
dip -> at_stride_size = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
break;
case AT_src_info:
dip -> at_src_info = target_to_host (diep, nbytes, GET_UNSIGNED,
objfile);
break;
case AT_prototyped:
dip -> at_prototyped = diep;
break;
default:
/* Found an attribute that we are unprepared to handle. However
it is specifically one of the design goals of DWARF that
consumers should ignore unknown attributes. As long as the
form is one that we recognize (so we know how to skip it),
we can just ignore the unknown attribute. */
break;
}
form = FORM_FROM_ATTR (attr);
switch (form)
{
case FORM_DATA2:
diep += 2;
break;
case FORM_DATA4:
case FORM_REF:
diep += 4;
break;
case FORM_DATA8:
diep += 8;
break;
case FORM_ADDR:
diep += TARGET_FT_POINTER_SIZE (objfile);
break;
case FORM_BLOCK2:
diep += 2 + target_to_host (diep, nbytes, GET_UNSIGNED, objfile);
break;
case FORM_BLOCK4:
diep += 4 + target_to_host (diep, nbytes, GET_UNSIGNED, objfile);
break;
case FORM_STRING:
diep += strlen (diep) + 1;
break;
default:
complain (&unknown_attribute_form, DIE_ID, DIE_NAME, form);
diep = end;
break;
}
}
}
/*
LOCAL FUNCTION
target_to_host -- swap in target data to host
SYNOPSIS
target_to_host (char *from, int nbytes, int signextend,
struct objfile *objfile)
DESCRIPTION
Given pointer to data in target format in FROM, a byte count for
the size of the data in NBYTES, a flag indicating whether or not
the data is signed in SIGNEXTEND, and a pointer to the current
objfile in OBJFILE, convert the data to host format and return
the converted value.
NOTES
FIXME: If we read data that is known to be signed, and expect to
use it as signed data, then we need to explicitly sign extend the
result until the bfd library is able to do this for us.
*/
static unsigned long
target_to_host (from, nbytes, signextend, objfile)
char *from;
int nbytes;
int signextend; /* FIXME: Unused */
struct objfile *objfile;
{
unsigned long rtnval;
switch (nbytes)
{
case 8:
rtnval = bfd_get_64 (objfile -> obfd, (bfd_byte *) from);
break;
case 4:
rtnval = bfd_get_32 (objfile -> obfd, (bfd_byte *) from);
break;
case 2:
rtnval = bfd_get_16 (objfile -> obfd, (bfd_byte *) from);
break;
case 1:
rtnval = bfd_get_8 (objfile -> obfd, (bfd_byte *) from);
break;
default:
complain (&no_bfd_get_N, DIE_ID, DIE_NAME, nbytes);
rtnval = 0;
break;
}
return (rtnval);
}
/*
LOCAL FUNCTION
attribute_size -- compute size of data for a DWARF attribute
SYNOPSIS
static int attribute_size (unsigned int attr)
DESCRIPTION
Given a DWARF attribute in ATTR, compute the size of the first
piece of data associated with this attribute and return that
size.
Returns -1 for unrecognized attributes.
*/
static int
attribute_size (attr)
unsigned int attr;
{
int nbytes; /* Size of next data for this attribute */
unsigned short form; /* Form of the attribute */
form = FORM_FROM_ATTR (attr);
switch (form)
{
case FORM_STRING: /* A variable length field is next */
nbytes = 0;
break;
case FORM_DATA2: /* Next 2 byte field is the data itself */
case FORM_BLOCK2: /* Next 2 byte field is a block length */
nbytes = 2;
break;
case FORM_DATA4: /* Next 4 byte field is the data itself */
case FORM_BLOCK4: /* Next 4 byte field is a block length */
case FORM_REF: /* Next 4 byte field is a DIE offset */
nbytes = 4;
break;
case FORM_DATA8: /* Next 8 byte field is the data itself */
nbytes = 8;
break;
case FORM_ADDR: /* Next field size is target sizeof(void *) */
nbytes = TARGET_FT_POINTER_SIZE (objfile);
break;
default:
complain (&unknown_attribute_form, DIE_ID, DIE_NAME, form);
nbytes = -1;
break;
}
return (nbytes);
}