quakeforge/tools/qfcc/source/struct.c

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/*
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struct.c
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structure support
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Copyright (C) 2001 Bill Currie <bill@taniwha.org>
Copyright (C) 2011 Bill Currie <bill@taniwha.org>
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Author: Bill Currie <bill@taniwha.org>
Date: 2001/12/08
Date: 2011/01/17
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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:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
*/
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#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
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#ifdef HAVE_STRING_H
# include <string.h>
#endif
#ifdef HAVE_STRINGS_H
# include <strings.h>
#endif
#include <stdlib.h>
#include <QF/dstring.h>
#include <QF/hash.h>
#include <QF/pr_obj.h>
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#include <QF/sys.h>
#include <QF/va.h>
#include "tools/qfcc/include/class.h"
#include "tools/qfcc/include/def.h"
#include "tools/qfcc/include/defspace.h"
#include "tools/qfcc/include/diagnostic.h"
#include "tools/qfcc/include/emit.h"
#include "tools/qfcc/include/expr.h"
#include "tools/qfcc/include/obj_type.h"
#include "tools/qfcc/include/qfcc.h"
#include "tools/qfcc/include/reloc.h"
#include "tools/qfcc/include/shared.h"
#include "tools/qfcc/include/strpool.h"
#include "tools/qfcc/include/struct.h"
#include "tools/qfcc/include/symtab.h"
#include "tools/qfcc/include/type.h"
#include "tools/qfcc/include/value.h"
static symbol_t *
find_tag (ty_meta_e meta, symbol_t *tag, type_t *type)
{
const char *tag_name;
symbol_t *sym;
if (tag) {
tag_name = va (0, "tag %s", tag->name);
} else {
const char *path = GETSTR (pr.source_file);
const char *file = strrchr (path, '/');
if (!file++)
file = path;
tag_name = va (0, "tag .%s.%d", file, pr.source_line);
}
sym = symtab_lookup (current_symtab, tag_name);
if (sym) {
if (sym->table == current_symtab && sym->type->meta != meta)
error (0, "%s defined as wrong kind of tag", tag->name);
if (sym->type->meta == meta)
return sym;
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}
sym = new_symbol (tag_name);
if (!type)
type = new_type ();
if (!type->name)
type->name = sym->name;
sym->type = type;
sym->type->type = ev_invalid;
sym->type->meta = meta;
sym->sy_type = sy_type;
return sym;
}
symbol_t *
find_struct (int su, symbol_t *tag, type_t *type)
{
ty_meta_e meta = ty_struct;
if (su == 'u')
meta = ty_union;
return find_tag (meta, tag, type);
}
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symbol_t *
build_struct (int su, symbol_t *tag, symtab_t *symtab, type_t *type)
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{
symbol_t *sym = find_struct (su, tag, type);
symbol_t *s;
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int alignment = 1;
symbol_t *as;
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symtab->parent = 0; // disconnect struct's symtab from parent scope
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if (sym->table == current_symtab && sym->type->t.symtab) {
error (0, "%s defined as wrong kind of tag", tag->name);
return sym;
}
for (s = symtab->symbols; s; s = s->next) {
if (s->sy_type != sy_var)
continue;
if (is_class (s->type)) {
error (0, "statically allocated instance of class %s",
s->type->t.class->name);
}
if (su == 's') {
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symtab->size = RUP (symtab->size, s->type->alignment);
s->s.offset = symtab->size;
symtab->size += type_size (s->type);
} else {
int size = type_size (s->type);
if (size > symtab->size)
symtab->size = size;
}
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if (s->type->alignment > alignment) {
alignment = s->type->alignment;
}
if (s->visibility == vis_anonymous) {
symtab_t *anonymous;
symbol_t *t = s->next;
int offset = s->s.offset;
if (!is_struct (s->type)) {
internal_error (0, "non-struct/union anonymous field");
}
anonymous = s->type->t.symtab;
for (as = anonymous->symbols; as; as = as->next) {
if (as->visibility == vis_anonymous || as->sy_type!= sy_var) {
continue;
}
if (Hash_Find (symtab->tab, as->name)) {
error (0, "ambiguous field `%s' in anonymous %s",
as->name, su == 's' ? "struct" : "union");
} else {
s->next = copy_symbol (as);
s = s->next;
s->s.offset += offset;
s->table = symtab;
Hash_Add (symtab->tab, s);
}
}
s->next = t;
}
}
if (!type)
sym->type = find_type (sym->type); // checks the tag, not the symtab
sym->type->t.symtab = symtab;
if (alignment > sym->type->alignment) {
sym->type->alignment = alignment;
}
if (!type && sym->type->type_def->external) //FIXME should not be necessary
sym->type->type_def = qfo_encode_type (sym->type, pr.type_data);
return sym;
}
symbol_t *
find_enum (symbol_t *tag)
{
return find_tag (ty_enum, tag, 0);
}
symtab_t *
start_enum (symbol_t *sym)
{
if (sym->table == current_symtab && sym->type->t.symtab) {
error (0, "%s defined as wrong kind of tag", sym->name);
sym = find_enum (0);
}
sym->type->t.symtab = new_symtab (current_symtab, stab_local);
return sym->type->t.symtab;
}
symbol_t *
finish_enum (symbol_t *sym)
{
symbol_t *enum_sym;
symbol_t *name;
type_t *enum_type;
symtab_t *enum_tab;
enum_type = sym->type = find_type (sym->type);
enum_tab = enum_type->t.symtab;
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enum_type->alignment = 1;
for (name = enum_tab->symbols; name; name = name->next) {
name->type = sym->type;
enum_sym = new_symbol_type (name->name, enum_type);
enum_sym->sy_type = sy_const;
enum_sym->s.value = name->s.value;
symtab_addsymbol (enum_tab->parent, enum_sym);
}
return sym;
}
void
add_enum (symbol_t *enm, symbol_t *name, expr_t *val)
{
type_t *enum_type = enm->type;
symtab_t *enum_tab = enum_type->t.symtab;
int value;
if (name->table == current_symtab || name->table == enum_tab)
error (0, "%s redefined", name->name);
if (name->table)
name = new_symbol (name->name);
name->sy_type = sy_const;
name->type = enum_type;
value = 0;
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if (enum_tab->symbols)
value = ((symbol_t *)(enum_tab->symtail))->s.value->v.integer_val + 1;
if (val) {
convert_name (val);
if (!is_constant (val))
error (val, "non-constant initializer");
else if (!is_integer_val (val))
error (val, "invalid initializer type");
else
value = expr_integer (val);
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}
name->s.value = new_integer_val (value);
symtab_addsymbol (enum_tab, name);
}
int
enum_as_bool (type_t *enm, expr_t **zero, expr_t **one)
{
symtab_t *symtab = enm->t.symtab;
symbol_t *zero_sym = 0;
symbol_t *one_sym = 0;
symbol_t *sym;
int val, v;
if (!symtab)
return 0;
for (sym = symtab->symbols; sym; sym = sym->next) {
if (sym->sy_type != sy_const)
continue;
val = sym->s.value->v.integer_val;
if (!val) {
zero_sym = sym;
} else {
if (one_sym) {
v = one_sym->s.value->v.integer_val;
if (val * val > v * v)
continue;
}
one_sym = sym;
}
}
if (!zero_sym || !one_sym)
return 0;
*zero = new_symbol_expr (zero_sym);
*one = new_symbol_expr (one_sym);
return 1;
}
symbol_t *
make_structure (const char *name, int su, struct_def_t *defs, type_t *type)
{
symtab_t *strct;
symbol_t *field;
symbol_t *sym = 0;
if (name)
sym = new_symbol (name);
if (su == 'u')
strct = new_symtab (0, stab_union);
else
strct = new_symtab (0, stab_struct);
while (defs->name) {
field = new_symbol_type (defs->name, defs->type);
field->sy_type = sy_var;
if (!symtab_addsymbol (strct, field))
internal_error (0, "duplicate symbol: %s", defs->name);
defs++;
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}
sym = build_struct (su, sym, strct, type);
return sym;
}
def_t *
emit_structure (const char *name, int su, struct_def_t *defs, type_t *type,
void *data, defspace_t *space, storage_class_t storage)
{
int i, j;
int saw_null = 0;
int saw_func = 0;
symbol_t *struct_sym;
symbol_t *field_sym;
def_t *struct_def;
def_t field_def;
name = save_string (name);
if (!type)
type = make_structure (0, su, defs, 0)->type;
if (!is_struct (type) || (su == 's' && type->meta != ty_struct)
|| (su == 'u' && type->meta != ty_union))
internal_error (0, "structure %s type mismatch", name);
for (i = 0, field_sym = type->t.symtab->symbols; field_sym;
i++, field_sym = field_sym->next) {
if (!defs[i].name)
internal_error (0, "structure %s unexpected end of defs", name);
if (field_sym->type != defs[i].type)
internal_error (0, "structure %s.%s field type mismatch", name,
defs[i].name);
if ((!defs[i].emit && saw_func) || (defs[i].emit && saw_null))
internal_error (0, "structure %s mixed emit/copy", name);
if (!defs[i].emit)
saw_null = 1;
if (defs[i].emit)
saw_func = 1;
}
if (defs[i].name)
internal_error (0, "structure %s too many defs", name);
if (storage != sc_global && storage != sc_static)
internal_error (0, "structure %s must be global or static", name);
if (!space) {
space = pr.far_data;
}
struct_sym = make_symbol (name, type, space, storage);
struct_def = struct_sym->s.def;
if (struct_def->initialized)
internal_error (0, "structure %s already initialized", name);
struct_def->initialized = struct_def->constant = 1;
struct_def->nosave = 1;
for (i = 0, field_sym = type->t.symtab->symbols; field_sym;
i++, field_sym = field_sym->next) {
field_def.type = field_sym->type;
field_def.name = save_string (va (0, "%s.%s", name, field_sym->name));
field_def.space = struct_def->space;
field_def.offset = struct_def->offset + field_sym->s.offset;
if (!defs[i].emit) {
//FIXME relocs? arrays? structs?
pr_type_t *val = (pr_type_t *) data;
memcpy (D_POINTER (void, &field_def), val,
type_size (field_def.type) * sizeof (pr_type_t));
data = &val[type_size (field_def.type)];
} else {
if (is_array (field_def.type)) {
type_t *type = field_def.type->t.array.type;
for (j = 0; j < field_def.type->t.array.size; j++) {
defs[i].emit (&field_def, data, j);
field_def.offset += type_size (type);
}
} else {
defs[i].emit (&field_def, data, 0);
}
}
}
return struct_def;
}