quakeforge/tools/qfcc/source/class.c

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/*
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class.c
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QC class support code
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Copyright (C) 2002 Bill Currie
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Author: Bill Currie <bill@taniwha.org>
Date: 2002/5/7
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
static __attribute__ ((used)) const char rcsid[] =
"$Id$";
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#ifdef HAVE_STRING_H
# include <string.h>
#endif
#ifdef HAVE_STRINGS_H
# include <strings.h>
#endif
#include <stdlib.h>
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#include "QF/dstring.h"
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#include "QF/hash.h"
#include "QF/pr_obj.h"
#include "QF/va.h"
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#include "qfcc.h"
#include "codespace.h"
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#include "class.h"
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#include "def.h"
#include "defspace.h"
#include "emit.h"
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#include "expr.h"
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#include "immediate.h"
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#include "method.h"
#include "options.h"
#include "reloc.h"
#include "strpool.h"
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#include "struct.h"
#include "symtab.h"
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#include "type.h"
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static hashtab_t *class_hash;
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static hashtab_t *category_hash;
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static hashtab_t *protocol_hash;
class_t class_id = {1, "id"};
class_t class_Class = {1, "Class"};
class_t class_Protocol = {1, "Protocl"};
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static const char *
class_get_key (void *class, void *unused)
{
return ((class_t *) class)->name;
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}
static const char *
protocol_get_key (void *protocol, void *unused)
{
return ((protocol_t *) protocol)->name;
}
const char *
get_class_name (class_type_t *class_type, int pretty)
{
switch (class_type->type) {
case ct_class:
if (pretty)
return class_type->c.class->name;
else
return va ("%s_", class_type->c.class->name);
case ct_category:
if (pretty)
return va ("%s (%s)", class_type->c.category->class->name,
class_type->c.category->name);
else
return va ("%s_%s", class_type->c.category->class->name,
class_type->c.category->name);
case ct_protocol:
return va ("<%s>", class_type->c.protocol->name);
}
return "???";
}
void
class_init (void)
{
class_id.type = &type_id;
class_Class.type = &type_Class;
class_Protocol.type = &type_Protocol;
class_Class.super_class = get_class (new_symbol ("Object"), 1);
class_Class.methods = new_methodlist ();
}
def_t *
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class_def (class_type_t *class_type, int external)
{
const char *name = 0;
type_t *type = 0;
storage_class_t storage = external ? st_extern : st_global;
switch (class_type->type) {
case ct_category:
name = va ("_OBJ_CATEGORY_%s_%s",
class_type->c.category->class->name,
class_type->c.category->name);
type = &type_category;
break;
case ct_class:
name = va ("_OBJ_CLASS_%s", class_type->c.class->name);
type = type_Class.t.fldptr.type;
break;
case ct_protocol:
return 0; // probably in error recovery
}
return get_def (type, name, pr.scope, storage);
}
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class_t *
get_class (symbol_t *sym, int create)
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{
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class_t *c;
type_t new;
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if (!class_hash)
class_hash = Hash_NewTable (1021, class_get_key, 0, 0);
if (sym) {
c = Hash_Find (class_hash, sym->name);
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if (c || !create)
return c;
}
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c = calloc (sizeof (class_t), 1);
if (sym)
c->name = sym->name;
new = *type_Class.t.fldptr.type;
new.t.class = c;
c->type = find_type (&new);
c->methods = new_methodlist ();
c->class_type.type = ct_class;
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c->class_type.c.class = c;
if (sym)
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Hash_Add (class_hash, c);
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return c;
}
static void
set_self_type (class_t *class, method_t *method)
{
if (method->instance)
method->params->type = pointer_type (class->type);
else
method->params->type = &type_Class;
}
static void
methods_set_self_type (class_t *class, methodlist_t *methods)
{
method_t *method;
for (method = methods->head; method; method = method->next)
set_self_type (class, method);
}
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void
class_add_methods (class_t *class, methodlist_t *methods)
{
if (!methods)
return;
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*class->methods->tail = methods->head;
class->methods->tail = methods->tail;
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free (methods);
methods_set_self_type (class, class->methods);
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}
void
class_add_protocols (class_t *class, protocollist_t *protocols)
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{
int i;
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protocol_t *p;
methodlist_t *methods;
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if (!protocols)
return;
methods = class->methods;
for (i = 0; i < protocols->count; i++) {
p = protocols->list[i];
copy_methods (methods, p->methods);
if (p->protocols)
class_add_protocols (class, p->protocols);
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}
class->protocols = protocols;
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}
static void
begin_category (category_t *category)
{
pr_category_t *pr_category;
class_t *class = category->class;
current_class = &category->class_type;
category->def = class_def (current_class, 0);
category->def->initialized = category->def->constant = 1;
category->def->nosave = 1;
pr_category = &G_STRUCT (pr_category_t, category->def->ofs);
EMIT_STRING (pr_category->category_name, category->name);
EMIT_STRING (pr_category->class_name, class->name);
EMIT_DEF (pr_category->protocols,
emit_protocol_list (category->protocols,
va ("%s_%s", class->name, category->name)));
}
static void
begin_class (class_t *class)
{
def_t *meta_def;
pr_class_t *meta;
pr_class_t *cls;
current_class = &class->class_type;
class->def = class_def (current_class, 0);
meta_def = get_def (type_Class.t.fldptr.type,
va ("_OBJ_METACLASS_%s", class->name),
pr.scope, st_static);
meta_def->initialized = meta_def->constant = 1;
meta_def->nosave = 1;
meta = &G_STRUCT (pr_class_t, meta_def->ofs);
EMIT_STRING (meta->class_pointer, class->name);
if (class->super_class)
EMIT_STRING (meta->super_class, class->super_class->name);
EMIT_STRING (meta->name, class->name);
meta->info = _PR_CLS_META;
meta->instance_size = type_size (type_Class.t.fldptr.type);
#if 0 //FIXME
EMIT_DEF (meta->ivars,
emit_struct (type_Class.t.fldptr.type->t.class->ivars,
"Class"));
#endif
class->def->initialized = class->def->constant = 1;
class->def->nosave = 1;
cls = &G_STRUCT (pr_class_t, class->def->ofs);
EMIT_DEF (cls->class_pointer, meta_def);
if (class->super_class) {
class_type_t class_type = {ct_class, {0}};
class_type.c.class = class->super_class;
EMIT_STRING (cls->super_class, class->super_class->name);
class_def (&class_type, 1);
}
EMIT_STRING (cls->name, class->name);
cls->info = _PR_CLS_CLASS;
EMIT_DEF (cls->protocols,
emit_protocol_list (class->protocols, class->name));
}
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void
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class_begin (class_type_t *class_type)
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{
switch (class_type->type) {
case ct_category:
begin_category (class_type->c.category);
break;
case ct_class:
begin_class (class_type->c.class);
break;
case ct_protocol:
return; // probably error recovery
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}
}
void
emit_class_ref (const char *class_name)
{
def_t *def;
def_t *ref;
def = get_def (&type_pointer, va (".obj_class_ref_%s", class_name),
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pr.scope, st_static);
if (def->initialized)
return;
def->initialized = def->constant = 1;
def->nosave = 1;
ref = get_def (&type_integer, va (".obj_class_name_%s", class_name),
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pr.scope, st_extern);
if (!ref->external)
G_INT (def->ofs) = ref->ofs;
reloc_def_def (ref, def->ofs);
}
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static void
emit_class_name (const char *class_name)
{
def_t *def;
def = get_def (&type_integer, va (".obj_class_name_%s", class_name),
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pr.scope, st_global);
if (def->initialized)
return;
def->initialized = def->constant = 1;
def->nosave = 1;
G_INT (def->ofs) = 0;
}
void
emit_category_ref (const char *class_name, const char *category_name)
{
def_t *def;
def_t *ref;
def = get_def (&type_pointer,
va (".obj_category_ref_%s_%s", class_name, category_name),
pr.scope, st_static);
if (def->initialized)
return;
def->initialized = def->constant = 1;
def->nosave = 1;
ref = get_def (&type_integer,
va (".obj_category_name_%s_%s", class_name, category_name),
pr.scope, st_extern);
if (!ref->external)
G_INT (def->ofs) = ref->ofs;
reloc_def_def (ref, def->ofs);
}
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static void
emit_category_name (const char *class_name, const char *category_name)
{
def_t *def;
def = get_def (&type_integer,
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va (".obj_category_name_%s_%s", class_name, category_name),
pr.scope, st_global);
if (def->initialized)
return;
def->initialized = def->constant = 1;
def->nosave = 1;
G_INT (def->ofs) = 0;
}
static void
finish_category (category_t *category)
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{
pr_category_t *pr_category;
class_t *class = category->class;
char *name;
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if (!category->def) // probably in error recovery
return;
name = nva ("%s_%s", class->name, category->name);
pr_category = &G_STRUCT (pr_category_t, category->def->ofs);
EMIT_DEF (pr_category->instance_methods,
emit_methods (category->methods, name, 1));
EMIT_DEF (pr_category->class_methods,
emit_methods (category->methods, name, 0));
free (name);
emit_class_ref (class->name);
emit_category_name (class->name, category->name);
}
static void
finish_class (class_t *class)
{
pr_class_t *meta;
pr_class_t *cls;
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if (!class->def) // probably in error recovery
return;
cls = &G_STRUCT (pr_class_t, class->def->ofs);
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meta = &G_STRUCT (pr_class_t, cls->class_pointer);
EMIT_DEF (meta->methods, emit_methods (class->methods,
class->name, 0));
cls->instance_size = class->ivars ? class->ivars->size : 0;
#if 0 // FIXME
EMIT_DEF (cls->ivars, emit_struct (class->ivars, class->name));
#endif
EMIT_DEF (cls->methods, emit_methods (class->methods,
class->name, 1));
if (class->super_class)
emit_class_ref (class->super_class->name);
emit_class_name (class->name);
}
void
class_finish (class_type_t *class_type)
{
switch (class_type->type) {
case ct_category:
finish_category (class_type->c.category);
break;
case ct_class:
finish_class (class_type->c.class);
break;
case ct_protocol:
return; // probably in error recovery
}
}
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class_t *
extract_class (class_type_t *class_type)
{
switch (class_type->type) {
case ct_class:
return current_class->c.class;
case ct_category:
return current_class->c.category->class;
case ct_protocol:
return 0; // probably in error recovery
}
return 0; // should not happen
}
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int
class_access (class_type_t *class_type, class_t *class)
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{
class_t *cur;
if (class_type) {
if (!(cur = extract_class (class_type)))
return vis_private;
if (cur == class)
return vis_private;
cur = cur->super_class;
while (cur) {
if (cur == class)
return vis_protected;
cur = cur->super_class;
}
}
return vis_public;
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}
symbol_t *
class_find_ivar (class_t *class, int vis, const char *name)
{
symbol_t *ivar;
ivar = symtab_lookup (class->ivars, name);
if (ivar) {
if (ivar->visibility > (vis_e) vis)
goto access_error;
return ivar;
}
error (0, "%s.%s does not exist", class->name, name);
return 0;
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access_error:
error (0, "%s.%s is not accessable here", class->name, name);
return 0;
}
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expr_t *
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class_ivar_expr (class_type_t *class_type, const char *name)
{
symbol_t *ivar;
class_t *class;
if (!class_type || !(class = extract_class (class_type)))
return 0;
ivar = symtab_lookup (class->ivars, name);
if (!ivar)
return 0;
return binary_expr ('.', new_name_expr ("self"), new_name_expr (name));
}
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method_t *
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class_find_method (class_type_t *class_type, method_t *method)
{
methodlist_t *methods = 0, *start_methods;
method_t *m;
dstring_t *sel;
class_t *class = 0, *start_class;
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const char *class_name;
const char *category_name = 0;
switch (class_type->type) {
case ct_category:
methods = class_type->c.category->methods;
category_name = class_type->c.category->name;
class = class_type->c.category->class;
break;
case ct_class:
class = class_type->c.class;
methods = class->methods;
break;
case ct_protocol:
return 0; // probably in error recovery
}
class_name = class->name;
start_methods = methods;
start_class = class;
while (class) {
for (m = methods->head; m; m = m->next)
if (method_compare (method, m)) {
if (m->type != method->type)
error (0, "method type mismatch");
if (methods != start_methods) {
m = copy_method (m);
set_self_type (start_class, m);
add_method (start_methods, m);
}
method_set_param_names (m, method);
return m;
}
if (class->methods == methods)
class = class->super_class;
else
methods = class->methods;
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}
sel = dstring_newstr ();
selector_name (sel, (keywordarg_t *)method->selector);
set_self_type (start_class, method);
add_method (start_methods, method);
dstring_delete (sel);
return method;
}
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method_t *
class_message_response (class_t *class, int class_msg, expr_t *sel)
{
selector_t *selector;
method_t *m;
class_t *c = class;
category_t *cat;
if (sel->type != ex_value && sel->e.value.type != ev_pointer
&& sel->e.value.v.pointer.type != type_SEL.t.fldptr.type) {
error (sel, "not a selector");
return 0;
}
selector = get_selector (sel);
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if (class->type == &type_id) {
m = find_method (selector->name);
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if (m)
return m;
//FIXME right option?
if (options.warnings.interface_check)
warning (sel, "could not find method for %c%s",
class_msg ? '+' : '-', selector->name);
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return 0;
} else {
while (c) {
for (cat = c->categories; cat; cat = cat->next) {
for (m = cat->methods->head; m; m = m->next) {
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if (((!c->super_class && class_msg)
|| class_msg != m->instance)
&& strcmp (selector->name, m->name) == 0)
return m;
}
}
for (m = c->methods->head; m; m = m->next) {
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if (((!c->super_class && class_msg)
|| class_msg != m->instance)
&& strcmp (selector->name, m->name) == 0)
return m;
}
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c = c->super_class;
}
//FIXME right option?
if (options.warnings.interface_check)
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warning (sel, "%s may not respond to %c%s", class->name,
class_msg ? '+' : '-', selector->name);
}
return 0;
}
static uintptr_t
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category_get_hash (void *_c, void *unused)
{
category_t *c = (category_t *) _c;
return Hash_String (c->name) ^ Hash_String (c->class->name);
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}
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static int
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category_compare (void *_c1, void *_c2, void *unused)
{
category_t *c1 = (category_t *) _c1;
category_t *c2 = (category_t *) _c2;
return strcmp (c1->name, c2->name) == 0
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&& strcmp (c1->class->name, c2->class->name) == 0;
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}
symtab_t *
class_new_ivars (class_t *class)
{
symtab_t *ivars;
symtab_t *super_ivars = 0;
if (class->super_class)
super_ivars = class->super_class->ivars;
ivars = new_symtab (super_ivars, stab_local);
return ivars;
}
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void
class_add_ivars (class_t *class, symtab_t *ivars)
{
class->ivars = ivars;
}
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void
class_check_ivars (class_t *class, symtab_t *ivars)
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{
#if 0 //FIXME
if (!struct_compare_fields (class->ivars, ivars)) {
//FIXME right option?
if (options.warnings.interface_check)
warning (0, "instance variable missmatch for %s", class->name);
}
#endif
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class->ivars = ivars;
}
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category_t *
get_category (symbol_t *class_name, const char *category_name, int create)
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{
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category_t *category;
class_t *class;
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if (!category_hash) {
category_hash = Hash_NewTable (1021, 0, 0, 0);
Hash_SetHashCompare (category_hash,
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category_get_hash, category_compare);
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}
class = get_class (class_name, 0);
if (!class) {
error (0, "undefined class %s", class_name->name);
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return 0;
}
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if (class_name && category_name) {
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category_t _c = {0, category_name, class};
category = Hash_FindElement (category_hash, &_c);
if (category || !create)
return category;
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}
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category = calloc (sizeof (category_t), 1);
category->next = class->categories;
class->categories = category;
category->name = category_name;
category->class = class;
category->methods = new_methodlist ();
category->class_type.type = ct_category;
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category->class_type.c.category = category;
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if (class_name && category_name)
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Hash_AddElement (category_hash, category);
return category;
}
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void
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category_add_methods (category_t *category, methodlist_t *methods)
{
if (!methods)
return;
*category->methods->tail = methods->head;
category->methods->tail = methods->tail;
free (methods);
methods_set_self_type (category->class, category->methods);
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}
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void
category_add_protocols (category_t *category, protocollist_t *protocols)
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{
int i;
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protocol_t *p;
methodlist_t *methods;
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if (!protocols)
return;
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methods = category->methods;
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for (i = 0; i < protocols->count; i++) {
p = protocols->list[i];
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copy_methods (methods, p->methods);
if (p->protocols)
category_add_protocols (category, p->protocols);
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}
category->protocols = protocols;
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}
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def_t *
class_pointer_def (class_t *class)
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{
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def_t *def;
class_type_t class_type = {ct_class, {0}};
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class_type.c.class = class;
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def = get_def (pointer_type (class->type),
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va ("_OBJ_CLASS_POINTER_%s", class->name),
pr.scope, st_static);
if (def->initialized)
return def;
def->initialized = def->constant = 1;
def->nosave = 1;
if (!class->def)
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class->def = class_def (&class_type, 1);
if (!class->def->external)
G_INT (def->ofs) = class->def->ofs;
reloc_def_def (class->def, def->ofs);
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return def;
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}
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void
class_finish_module (void)
{
static struct_def_t symtab_struct[] = {
{"sel_ref_cnt", &type_integer},
{"refs", &type_SEL},
{"cls_def_cnt", &type_integer},
{"cat_def_cnt", &type_integer},
{"defs", 0}, // type will be filled in at run time
{0, 0}
};
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class_t **classes = 0, **cl;
category_t **categories = 0, **ca;
int num_classes = 0;
int num_categories = 0;
def_t *selector_table_def;
type_t *symtab_type;
//symbol_t *symtab_sym;
def_t *symtab_def;
pr_symtab_t *symtab;
pointer_t *def_ptr;
symbol_t *module_sym;
//FIXME pr_module_t *module;
symbol_t *exec_class_sym;
symbol_t *init_sym;
function_t *init_func;
expr_t *init_expr;
selector_table_def = emit_selectors ();
if (class_hash) {
classes = (class_t **) Hash_GetList (class_hash);
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for (cl = classes; *cl; cl++)
if ((*cl)->def && !(*cl)->def->external)
num_classes++;
}
if (category_hash) {
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categories = (category_t **) Hash_GetList (category_hash);
for (ca = categories; *ca; ca++)
if ((*ca)->def && !(*ca)->def->external)
num_categories++;
}
if (!selector_table_def && !num_classes && !num_categories)
return;
symtab_struct[4].type = array_type (&type_pointer,
num_classes + num_categories);
symtab_type = make_structure (0, 's', symtab_struct, 0)->type;
symtab_def = get_def (symtab_type, "_OBJ_SYMTAB", pr.scope, st_static);
symtab_def->initialized = symtab_def->constant = 1;
symtab_def->nosave = 1;
symtab = &G_STRUCT (pr_symtab_t, symtab_def->ofs);
if (selector_table_def) {
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symtab->sel_ref_cnt = selector_table_def->type->t.array.size;
EMIT_DEF (symtab->refs, selector_table_def);
}
symtab->cls_def_cnt = num_classes;
symtab->cat_def_cnt = num_categories;
def_ptr = symtab->defs;
if (classes) {
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for (cl = classes; *cl; cl++) {
if ((*cl)->def && !(*cl)->def->external) {
reloc_def_def ((*cl)->def, POINTER_OFS (def_ptr));
*def_ptr++ = (*cl)->def->ofs;
}
}
}
if (categories) {
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for (ca = categories; *ca; ca++) {
if ((*ca)->def && !(*ca)->def->external) {
reloc_def_def ((*ca)->def, POINTER_OFS (def_ptr));
*def_ptr++ = (*ca)->def->ofs;
}
}
}
module_sym = new_symbol_type ("_OBJ_MODULE", &type_module);
//FIXME module = &G_STRUCT (pr_module_t, module_def->ofs);
//FIXME module->size = type_size (&type_module);
//FIXME EMIT_STRING (module->name, G_GETSTR (pr.source_file));
//FIXME EMIT_DEF (module->symtab, symtab_def);
exec_class_sym = new_symbol_type ("__obj_exec_class",
&type_obj_exec_class);
symtab_addsymbol (current_symtab, exec_class_sym);
init_sym = new_symbol_type (".ctor", &type_function);
symtab_addsymbol (current_symtab, init_sym);
init_expr = new_block_expr ();
append_expr (init_expr,
build_function_call (new_symbol_expr (exec_class_sym),
exec_class_sym->type,
address_expr (new_symbol_expr (module_sym),
0, 0)));
current_func = init_func = begin_function (init_sym, 0, current_symtab);
build_code_function (init_sym, 0, init_expr);;
current_func = 0;
}
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protocol_t *
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get_protocol (const char *name, int create)
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{
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protocol_t *p;
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if (!protocol_hash)
protocol_hash = Hash_NewTable (1021, protocol_get_key, 0, 0);
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if (name) {
p = Hash_Find (protocol_hash, name);
if (p || !create)
return p;
}
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p = calloc (sizeof (protocol_t), 1);
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p->name = name;
p->methods = new_methodlist ();
p->class_type.type = ct_protocol;
p->class_type.c.protocol = p;
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if (name)
Hash_Add (protocol_hash, p);
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return p;
}
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void
protocol_add_methods (protocol_t *protocol, methodlist_t *methods)
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{
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if (!methods)
return;
*protocol->methods->tail = methods->head;
protocol->methods->tail = methods->tail;
free (methods);
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}
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void
protocol_add_protocols (protocol_t *protocol, protocollist_t *protocols)
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{
protocol->protocols = protocols;
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}
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def_t *
protocol_def (protocol_t *protocol)
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{
return get_def (&type_Protocol, protocol->name, pr.scope, st_static);
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}
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protocollist_t *
new_protocol_list (void)
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{
protocollist_t *protocollist = malloc (sizeof (protocollist_t));
protocollist->count = 0;
protocollist->list = 0;
return protocollist;
}
protocollist_t *
add_protocol (protocollist_t *protocollist, const char *name)
{
protocol_t *protocol = get_protocol (name, 0);
if (!protocol) {
error (0, "undefined protocol `%s'", name);
return protocollist;
}
protocollist->count++;
protocollist->list = realloc (protocollist->list,
sizeof (protocol_t) * protocollist->count);
protocollist->list[protocollist->count - 1] = protocol;
return protocollist;
}
def_t *
emit_protocol (protocol_t *protocol)
{
def_t *proto_def;
pr_protocol_t *proto;
proto_def = get_def (&type_Protocol,
va ("_OBJ_PROTOCOL_%s", protocol->name),
pr.scope, st_none);
if (proto_def)
return proto_def;
proto_def = get_def (&type_Protocol,
va ("_OBJ_PROTOCOL_%s", protocol->name),
pr.scope, st_static);
proto_def->initialized = proto_def->constant = 1;
proto_def->nosave = 1;
proto = &G_STRUCT (pr_protocol_t, proto_def->ofs);
proto->class_pointer = 0;
EMIT_STRING (proto->protocol_name, protocol->name);
EMIT_DEF (proto->protocol_list,
emit_protocol_list (protocol->protocols,
va ("PROTOCOL_%s", protocol->name)));
EMIT_DEF (proto->instance_methods,
emit_method_descriptions (protocol->methods, protocol->name, 1));
EMIT_DEF (proto->class_methods,
emit_method_descriptions (protocol->methods, protocol->name, 0));
emit_class_ref ("Protocol");
return proto_def;
}
def_t *
emit_protocol_list (protocollist_t *protocols, const char *name)
{
static struct_def_t proto_list_struct[] = {
{"next", &type_pointer},
{"count", &type_integer},
{"list", 0}, // type will be filled in at run time
{0, 0},
};
type_t *proto_list_type;
def_t *proto_list_def;
//symbol_t *proto_list_sym;
pr_protocol_list_t *proto_list;
int i;
if (!protocols)
return 0;
proto_list_struct[2].type = array_type (&type_pointer, protocols->count);
proto_list_type = make_structure (0, 's', proto_list_struct, 0)->type;
proto_list_def = get_def (proto_list_type,
va ("_OBJ_PROTOCOLS_%s", name),
pr.scope, st_static);
proto_list_def->initialized = proto_list_def->constant = 1;
proto_list_def->nosave = 1;
proto_list = &G_STRUCT (pr_protocol_list_t, proto_list_def->ofs);
proto_list->next = 0;
proto_list->count = protocols->count;
for (i = 0; i < protocols->count; i++)
EMIT_DEF (proto_list->list[i], emit_protocol (protocols->list[i]));
return proto_list_def;
}
void
clear_classes (void)
{
if (class_hash)
Hash_FlushTable (class_hash);
if (protocol_hash)
Hash_FlushTable (protocol_hash);
if (category_hash)
Hash_FlushTable (category_hash);
if (class_hash)
class_Class.super_class = get_class (new_symbol ("Object"), 1);
}
symtab_t *
class_to_struct (class_t *class, symtab_t *symtab)
{
symtab_t *parent = symtab->parent;
symtab_t *ivars = class->ivars;
symtab_t *ancestor;
if (!ivars)
return symtab;
// disconnect the struct symbol table from the scope
symtab->parent = 0;
// find the ancestor of the ivars symbol table chain
for (ancestor = ivars; ancestor->parent; ancestor = ancestor->parent)
;
// connect the ivars symbol table chain to the struct symbol table
ancestor->parent = symtab;
// create a new struct symbol table from the ivars symbol table chain
symtab = symtab_flat_copy (ivars, 0);
// disconnect the ivars symbol table chain
ancestor->parent = 0;
// connect the new struct symbol table to the scope
symtab->parent = parent;
return symtab;
}