gambas-source-code/main/gbx/gbx_class.c
gambas 3dd1fd493e Fix the JIT compiler: '_init' method, Lock instruction, Object datatype, and DO / REPEAT loops at the beginning of a function now work correctly.
[INTERPRETER]
* BUG: JIT compiler does not run static initializers anymore when loading a class. Otherwise bytecode can be modified before being compiled, leading to a JIT compiler crash.

[COMPILER]
* BUG: Fix LOCK subroutine meta-information.

[GB.JIT]
* NEW: Don't display abortion debugging message if there is no compilation to abort.
* BUG: Object variables are correctly managed now.
* BUG: DO...LOOP and REPEAT...UNTIL at the beginning of the function now is correctly compiled in all cases.
2019-04-04 22:58:06 +02:00

1566 lines
33 KiB
C

/***************************************************************************
gbx_class.c
(c) 2000-2017 Benoît Minisini <g4mba5@gmail.com>
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, 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., 51 Franklin Street, Fifth Floor, Boston,
MA 02110-1301, USA.
***************************************************************************/
#define __GBX_CLASS_C
#include "gb_common.h"
#include "gb_common_buffer.h"
#include "gb_common_case.h"
#include "gb_alloc.h"
#include "gb_error.h"
#include "gb_limit.h"
#include <ctype.h>
#include "gb_buffer.h"
#include "gb_file.h"
#include "gbx_type.h"
#include "gbx_exec.h"
#include "gbx_debug.h"
#include "gb_magic.h"
#include "gbx_stream.h"
#include "gbx_struct.h"
#include "gbx_string.h"
#include "gbx_object.h"
#include "gbx_variant.h"
#include "gbx_number.h"
#include "gbx_c_array.h"
#include "gbx_jit.h"
#include "gambas.h"
#include "gbx_class.h"
//#define DEBUG_COMP 1
//#define DEBUG_LOAD 1
//#define DEBUG_DESC 1
// We are exiting...
bool CLASS_exiting = FALSE;
/* Global class table */
static TABLE _global_table;
/* List of all classes */
static CLASS *_classes = NULL;
/* First created class (must be 'Class' class) */
static CLASS *_first = NULL;
/* This flag forces CLASS_find() to only register in the global table */
static bool _global = FALSE;
#ifdef DEBUG
static CLASS *Class;
#endif
void CLASS_init(void)
{
TABLE_create_static(&_global_table, sizeof(CLASS_SYMBOL), TF_IGNORE_CASE);
CLASS_init_native();
}
TABLE *CLASS_get_table(void)
{
return &_global_table;
}
CLASS *CLASS_get_list(void)
{
return _classes;
}
static void exit_class(CLASS *class, bool native)
{
//CLASS_DESC *desc;
/*if (!class->ready && !CLASS_is_virtual(class))
printf("WARNING: class %s was never loaded.\n", class->name);*/
#if DEBUG_LOAD
fprintf(stderr, "Exiting class %s...\n", class->name);
#endif
/* Est-ce que _exit marche pour les classes gambas ? */
if (CLASS_is_native(class) != native)
return;
if (!CLASS_is_loaded(class))
return;
EXEC_public(class, NULL, "_exit", 0);
}
static void unload_class(CLASS *class)
{
#if DEBUG_LOAD
fprintf(stderr, "Unloading class %s...\n", class->name);
#endif
if (class->free_name)
FREE(&class->name);
if (class->is_struct)
{
FREE(&class->load->dyn);
if (class->debug)
FREE(&class->load->global);
FREE(&class->load);
FREE(&class->data);
}
else if (!CLASS_is_native(class))
{
#ifdef OS_64BITS
if (class->load)
{
FREE(&class->load->desc);
FREE(&class->load->cst);
FREE(&class->load->class_ref);
FREE(&class->load->unknown);
FREE(&class->load->event);
FREE(&class->load->ext);
FREE(&class->load->local);
FREE(&class->load->array);
if (class->debug)
{
int i;
FUNCTION *func;
for (i = 0; i < class->load->n_func; i++)
{
func = &class->load->func[i];
FREE(&func->debug->local);
}
FREE(&class->load->global);
FREE(&class->load->debug);
}
FREE(&class->load->func);
}
#endif
if (class->load)
FREE(&class->load->prof);
FREE(&class->load);
//if (!class->mmapped)
FREE(&class->data);
}
else
{
FREE(&class->signature);
FREE(&class->data);
}
if (class->free_event)
FREE(&class->event);
FREE(&class->stat);
FREE(&class->table);
FREE(&class->sort);
class->ready = FALSE;
class->loaded = FALSE;
}
#define SWAP_FIELD(_v, _s, _d, _f) (_v = _s->_f, _s->_f = _d->_f, _d->_f = _v)
static void class_replace_global(CLASS *class)
{
CLASS_DESC_SYMBOL *cds;
CLASS *parent;
const char *name;
char *old_name;
CLASS *old_class;
int len;
CLASS swap;
char *swap_name;
bool swap_free_name;
int nprefix;
int i;
if (!CLASS_is_loaded(class))
return;
name = class->name;
len = strlen(name);
parent = class->parent;
if (parent)
{
for (nprefix = 0;; nprefix++)
{
if (parent->name[nprefix] != '^')
break;
}
nprefix++;
}
else
nprefix = 1;
ALLOC(&old_name, len + nprefix + 1);
for (i = 0; i < nprefix; i++)
old_name[i] = '^';
strcpy(&old_name[i], name);
old_class = CLASS_find_global(old_name);
FREE(&old_name);
swap = *class;
*class = *old_class;
*old_class = swap;
SWAP_FIELD(swap_name, class, old_class, name);
SWAP_FIELD(swap_free_name, class, old_class, free_name);
SWAP_FIELD(parent, class, old_class, next);
SWAP_FIELD(i, class, old_class, count);
SWAP_FIELD(i, class, old_class, ref);
for (i = 0; i < old_class->n_desc; i++)
{
cds = &old_class->table[i];
if (cds->desc && cds->desc->method.class == class)
cds->desc->method.class = old_class;
}
CLASS_inheritance(class, old_class);
}
static void release_class(CLASS *class)
{
#if DEBUG_LOAD
fprintf(stderr, "release_class: %s\n", class->name);
#endif
OBJECT_release(class, NULL);
class->exit = TRUE;
}
void CLASS_clean_up(bool silent)
{
int n, nc, nb;
//CLASS_SYMBOL *csym;
CLASS *class;
#if DEBUG_LOAD
fprintf(stderr, "\n------------------- CLASS_clean_up -------------------\n\n");
#endif
#if DEBUG_LOAD
fprintf(stderr, "Freeing auto-creatable objects...\n");
#endif
CLASS_exiting = TRUE;
// Free automatic instances
for (class = _classes; class; class = class->next)
{
if (class->instance)
{
#if DEBUG_LOAD
fprintf(stderr, "Freeing instance of %p %s\n", class, class->name);
#endif
OBJECT_UNREF(class->instance);
}
}
// Count how many classes should be freed
nc = 0;
for (class = _classes; class; class = class->next)
{
if (!CLASS_is_native(class) && CLASS_is_loaded(class))
{
#if DEBUG_LOAD
fprintf(stderr, "Must free: %p (%s) %s [%d]\n", class, class->component ? class->component->name : "-", class->name, class->count);
#endif
nc++;
}
}
#if DEBUG_LOAD
fprintf(stderr, "Must free %d classes...\n", nc);
#endif
#if DEBUG_LOAD
fprintf(stderr, "Calling _exit on loaded classes...\n");
#endif
for (class = _classes; class; class = class->next)
exit_class(class, FALSE);
#if DEBUG_LOAD
fprintf(stderr, "Freeing classes with no instance...\n");
#endif
// Free classes having no instance
n = 0;
for(;;)
{
nb = n;
for (class = _classes; class; class = class->next)
{
if (class->count == 0 && !CLASS_is_native(class) && CLASS_is_loaded(class) && !class->exit)
{
release_class(class);
n++;
}
}
if (n == nb) // nothing could be done
break;
}
#if DEBUG_LOAD
fprintf(stderr, "Freeing other classes...\n");
#endif
// Remaining objects are circular references
// Everything is forced to be freed
if (n < nc)
{
if (!silent)
ERROR_warning("circular references detected:");
for(;;)
{
nb = n;
for (class = _classes; class; class = class->next)
{
if (!CLASS_is_native(class) && CLASS_is_loaded(class) && !class->exit && (!class->array_class || class->array_class->count == 0)) // && !class->astruct_class)
{
if (!silent)
fprintf(stderr, "gbx" GAMBAS_VERSION_STRING ": % 5d %s\n", class->count, class->name);
release_class(class);
n++;
}
}
if (n == nb) // nothing could be done
break;
}
}
#if DEBUG_LOAD
fprintf(stderr, "Calling _exit on native classes...\n");
#endif
for (class = _classes; class; class = class->next)
exit_class(class, TRUE);
}
void CLASS_exit()
{
CLASS *class, *next;
#if DEBUG_LOAD
fprintf(stderr, "Unloading classes...\n");
#endif
for (class = _classes; class; class = class->next)
unload_class(class);
#if DEBUG_LOAD
fprintf(stderr, "Destroying classes...\n");
#endif
class = _classes;
while (class)
{
next = class->next;
FREE(&class);
class = next;
}
TABLE_delete_static(&_global_table);
}
CLASS *CLASS_look(const char *name, int len)
{
CLASS_SYMBOL *csym;
ARCHIVE *arch = NULL;
int index;
#if DEBUG_COMP
fprintf(stderr, "CLASS_look: %s in %s", name, _global ? "global" : "local");
#endif
//if (CP && CP->component && CP->component->archive)
if (!_global && !ARCHIVE_get_current(&arch))
{
if (TABLE_find_symbol(arch->classes, name, len, &index))
{
#if DEBUG_COMP
fprintf(stderr, " -> in %s\n", arch->name ? arch->name : "main");
#endif
csym = (CLASS_SYMBOL *)TABLE_get_symbol(arch->classes, index);
return csym->class;
}
}
if (TABLE_find_symbol(&_global_table, name, len, &index))
{
#if DEBUG_COMP
fprintf(stderr, " -> %d in global\n", index);
#endif
csym = (CLASS_SYMBOL *)TABLE_get_symbol(&_global_table, index);
return csym->class;
}
else
{
#if DEBUG_COMP
fprintf(stderr, " -> ?\n");
#endif
return NULL;
}
}
CLASS *CLASS_find(const char *name)
{
CLASS_SYMBOL *csym;
CLASS *class;
int index;
int len;
ARCHIVE *arch = NULL;
bool global;
if (name == NULL)
name = COMMON_buffer;
len = strlen(name);
#if DEBUG_LOAD
fprintf(stderr, "CLASS_find: %s (%d)\n", name, _global);
#endif
class = CLASS_look(name, len);
if (class)
return class;
//if (CP && CP->component && CP->component->archive)
if (!_global && !ARCHIVE_get_current(&arch))
{
global = FALSE;
TABLE_add_symbol(arch->classes, name, len, &index);
#if DEBUG_LOAD || DEBUG_COMP
fprintf(stderr, "Not found -> creating new one in %s\n", arch->name ? arch->name : "main");
#endif
csym = (CLASS_SYMBOL *)TABLE_get_symbol(arch->classes, index);
}
else
{
global = TRUE;
TABLE_add_symbol(&_global_table, name, len, &index);
#if DEBUG_LOAD || DEBUG_COMP
fprintf(stderr, "Not found -> creating new one in global\n");
#endif
csym = (CLASS_SYMBOL *)TABLE_get_symbol(&_global_table, index);
}
ALLOC_ZERO(&class, sizeof(CLASS));
csym->class = class;
class->ref = 1;
class->next = _classes;
_classes = class;
ALLOC(&class->name, len + 1);
strcpy((char *)class->name, name);
csym->sym.name = class->name;
class->free_name = TRUE;
// The first class must be the Class class!
if (_first == NULL)
_first = class;
class->class = _first;
class->global = global;
if (arch)
class->component = arch->current_component;
return class;
}
int CLASS_count(void)
{
return TABLE_count(&_global_table);
}
CLASS *CLASS_get(const char *name)
{
CLASS *class = CLASS_find(name);
if (!CLASS_is_loaded(class) && !class->in_load)
CLASS_load(class);
return class;
}
CLASS *CLASS_look_global(const char *name, int len)
{
CLASS *class;
_global = TRUE;
class = CLASS_look(name, len);
_global = FALSE;
return class;
}
CLASS *CLASS_find_global(const char *name)
{
CLASS *class;
_global = TRUE;
class = CLASS_find(name);
_global = FALSE;
return class;
}
bool CLASS_inherits(CLASS *class, CLASS *parent)
{
for(;;)
{
class = class->parent;
if (class == NULL)
return FALSE;
if (class == parent)
return TRUE;
}
}
int CLASS_find_symbol_with_prefix(CLASS *class, const char *name, const char *prefix)
{
return SYMBOL_find(class->table, class->sort, class->n_desc, sizeof(CLASS_DESC_SYMBOL), TF_IGNORE_CASE, name, strlen(name), prefix);
}
CLASS_DESC_SYMBOL *CLASS_get_symbol(CLASS *class, const char *name)
{
int index;
index = CLASS_find_symbol(class, name);
if (index == NO_SYMBOL)
return NULL;
else
return &class->table[index];
}
CLASS_DESC *CLASS_get_symbol_desc(CLASS *class, const char *name)
{
CLASS_DESC_SYMBOL *cds = CLASS_get_symbol(class, name);
if (cds == NULL)
return NULL;
else
return cds->desc;
}
short CLASS_get_symbol_index_kind(CLASS *class, const char *name, int kind, int kind2)
{
CLASS_DESC *desc;
int index;
index = CLASS_find_symbol(class, name);
if (index != NO_SYMBOL)
{
desc = CLASS_get_desc(class, index);
if (desc)
if ((CLASS_DESC_get_type(desc) == kind) || (CLASS_DESC_get_type(desc) == kind2))
return (short)index;
}
return (short)NO_SYMBOL;
}
CLASS_DESC *CLASS_get_symbol_desc_kind(CLASS *class, const char *name, int kind, int kind2)
{
short index;
index = CLASS_get_symbol_index_kind(class, name, kind, kind2);
if (index == NO_SYMBOL)
return NULL;
else
return CLASS_get_desc(class, index);
}
CLASS_DESC_EVENT *CLASS_get_event_desc(CLASS *class, const char *name)
{
int index;
CLASS_DESC *cd;
index = CLASS_find_symbol_with_prefix(class, name, ":");
if (index == NO_SYMBOL)
return NULL;
cd = class->table[index].desc;
if (CLASS_DESC_get_type(cd) != CD_EVENT)
return NULL;
return &cd->event;
}
char *CLASS_DESC_get_signature(CLASS_DESC *cd)
{
char *res = NULL;
TYPE *sign;
int i, n;
TYPE type;
switch (CLASS_DESC_get_type(cd))
{
case CD_METHOD:
case CD_STATIC_METHOD:
sign = cd->method.signature;
n = cd->method.npmax;
break;
case CD_EVENT:
sign = cd->event.signature;
n = cd->event.npmax;
break;
case CD_EXTERN:
sign = cd->ext.signature;
n = cd->ext.npmax;
break;
default:
return NULL;
}
for (i = 0; i < n; i++)
{
type = sign[i];
res = STRING_add(res, TYPE_to_string(type), 0);
if (TYPE_is_object(type))
res = STRING_add_char(res, ';');
}
return res;
}
// NOTE: The _free method can be called during a conversion, so we must save the EXEC structure
static void error_CLASS_free(void *object, EXEC_GLOBAL *save)
{
EXEC = *save;
((OBJECT *)object)->ref = 0;
OBJECT_release(OBJECT_class(object), object);
}
void CLASS_free(void *object)
{
CLASS *class = OBJECT_class(object);
EXEC_GLOBAL save;
if (!class->has_free)
{
OBJECT_release(class, object);
return;
}
save = EXEC;
ON_ERROR_2(error_CLASS_free, object, &save)
{
((OBJECT *)object)->ref = 1; // Prevents anybody from freeing the object!
EXEC_special_inheritance(SPEC_FREE, class, object, 0, TRUE);
if (((OBJECT *)object)->ref != 1)
THROW(E_FREEREF);
error_CLASS_free(object, &save);
}
END_ERROR
}
#if DEBUG_REF
void CLASS_ref(void *object)
{
char *name;
((OBJECT *)object)->ref++;
if (OBJECT_class(object) == FREE_MARK)
name = "*ALREADY FREED*";
else
name = OBJECT_class(object)->name;
#if DEBUG_MEMORY
fprintf(stderr, "%s: %s: ref(%s <%d>) -> %ld\n", OBJECT_ref_where,
DEBUG_get_current_position(),
name, GET_ALLOC_ID(object), ((OBJECT *)object)->ref);
#else
fprintf(stderr, "%s: %s: ref(%s %p) -> %ld\n", OBJECT_ref_where,
DEBUG_get_current_position(),
name, object, ((OBJECT *)object)->ref);
#endif
fflush(stdout);
}
bool CLASS_unref(void *ob, bool can_free)
{
char *name;
OBJECT *object = (OBJECT *)ob;
if (OBJECT_class(object) == FREE_MARK)
name = "*ALREADY FREED*";
else
name = OBJECT_class(object)->name;
#if DEBUG_MEMORY
if (object->ref <= 0)
fprintf(stderr, "*** <%d> REF = %ld !\n", GET_ALLOC_ID(object), object->ref);
fprintf(stderr, "%s: %s: unref(%s <%d>) -> %ld\n", OBJECT_ref_where,
DEBUG_get_current_position(),
name, GET_ALLOC_ID(object), object->ref - 1);
#else
if (object->ref <= 0)
fprintf(stderr, "*** %p REF = %ld !\n", object, object->ref);
fprintf(stderr, "%s, %s: unref(%s %p) -> %ld\n", OBJECT_ref_where,
DEBUG_get_current_position(),
name, object, object->ref - 1);
#endif
fflush(stdout);
/*if (strcmp(OBJECT_class(object)->name, "Class") == 0)
fprintf(stderr, "Class ?\n");*/
if ((--(object->ref) <= 0) && can_free)
{
#if DEBUG_MEMORY
fprintf(stderr, "FREE <%d> !\n", GET_ALLOC_ID(object));
#else
fprintf(stderr, "FREE %p !\n", object);
#endif
CLASS_free(object);
return TRUE;
}
return FALSE;
}
#endif
void CLASS_do_nothing()
{
}
int CLASS_return_zero()
{
return 0;
}
static CLASS *_sorted_class;
static int partition(CLASS_DESC_SYMBOL *cds, ushort *sym, const int start, const int end)
{
int pos = start;
short pivot = sym[start];
int i;
ushort val;
int len;
const char *s1, *s2;
int result;
for (i = start + 1; i <= end; i++)
{
len = cds[sym[i]].len;
result = len - cds[pivot].len;
if (result > 0)
continue;
if (result == 0)
{
#if TABLE_USE_KEY
result = cds[sym[i]].key - cds[pivot].key;
if (result > 0)
continue;
else if (result == 0)
#endif
{
s1 = cds[sym[i]].name;
s2 = cds[pivot].name;
while (len)
{
result = tolower(*s1++) - tolower(*s2++);
if (result)
break;
len--;
}
if (result == 0)
{
if (*cds[pivot].name != '.')
ERROR_panic("Symbol '%s' declared twice in class '%s'\n", cds[sym[i]].name, _sorted_class->name);
}
if (result >= 0)
continue;
}
}
pos++; // incrémente compteur cad la place finale du pivot
//echanger(tableau, compteur, i); // élément positionné
val = sym[pos];
sym[pos] = sym[i];
sym[i] = val;
}
//echanger(tableau, compteur, debut); // le pivot est placé
val = sym[pos];
sym[pos] = sym[start];
sym[start] = val;
return pos; // et sa position est retournée
}
static void my_qsort(CLASS_DESC_SYMBOL *cds, ushort *sym, const int start, const int end)
{
if (start < end) // cas d'arrêt pour la récursivité
{
int pivot = partition(cds, sym, start, end); // division du tableau
my_qsort(cds, sym, start, pivot - 1); // trie partie1
my_qsort(cds, sym, pivot + 1, end); // trie partie2
}
}
void CLASS_sort(CLASS *class)
{
ushort *sym;
ushort i;
if (!class->n_desc)
return;
SYMBOL_compute_keys(class->table, class->n_desc, sizeof(CLASS_DESC_SYMBOL), TF_IGNORE_CASE);
_sorted_class = class;
ALLOC(&sym, sizeof(ushort) * class->n_desc);
for (i = 0; i < class->n_desc; i++)
sym[i] = i;
//qsort(sym, class->n_desc, sizeof(ushort), (int (*)(const void *, const void *))sort_desc);
my_qsort(class->table, sym, 0, class->n_desc - 1);
class->sort = sym;
#if DEBUG_DESC
{
SYMBOL *s;
fprintf(stderr, "\nSORT %s\n", class->name);
for (i = 0; i < class->n_desc; i++)
{
s = (SYMBOL *)&class->table[sym[i]];
fprintf(stderr, "[%d] %.*s (%d)\n", i, (int)s->len, s->name, sym[i]);
}
fputc('\n', stderr);
}
#endif
}
void CLASS_inheritance(CLASS *class, CLASS *parent)
{
if (class->parent != NULL)
THROW_CLASS(class, "Multiple inheritance", "");
class->parent = parent;
parent->has_child = TRUE;
TRY
{
CLASS_load(class->parent);
}
CATCH
{
THROW_CLASS(class, "Cannot load parent class: ", STRING_new_temp_zero(ERROR_current->info.msg));
}
END_TRY
if (!class->check)
{
class->check = class->parent->check;
class->must_check = class->parent->must_check;
}
if (!class->has_free)
class->has_free = class->parent->has_free;
// CREATE STATIC is inherited, but not CREATE PRIVATE
if (parent->auto_create)
class->auto_create = TRUE;
if (!class->array_type)
class->array_type = parent->array_type;
//fprintf(stderr, "CLASS_inheritance: %s %s\n", class->name, class->auto_create ? "AUTO CREATE" : "");
}
const char *CLASS_DESC_get_type_name(const CLASS_DESC *desc)
{
switch (desc->gambas.val3._int[1])
{
case CD_PROPERTY_ID: return desc->gambas.val2 < 0 ? "r" : "p";
case CD_VARIABLE_ID: return "v";
case CD_METHOD_ID: return "m";
case CD_STATIC_PROPERTY_ID: return desc->gambas.val2 < 0 ? "R" : "P";
case CD_STATIC_VARIABLE_ID: return "V";
case CD_STATIC_METHOD_ID: return "M";
case CD_CONSTANT_ID: return "C";
case CD_EVENT_ID: return ":";
case CD_EXTERN_ID: return "X";
default:
//fprintf(stderr, "CLASS_DESC_get_type_name: %s: %ld\n", desc->gambas.name, desc->gambas.val4);
return "?";
}
}
static bool check_signature(char type, const CLASS_DESC *desc, const CLASS_DESC *pdesc)
{
TYPE *sd, *sp;
int nsd, nsp;
if (!TYPE_are_compatible(desc->property.type, pdesc->property.type))
return TRUE;
switch (type)
{
case CD_METHOD:
case CD_STATIC_METHOD:
sd = desc->method.signature;
nsd = desc->method.npmax;
sp = pdesc->method.signature;
nsp = pdesc->method.npmax;
break;
case CD_EVENT:
sd = desc->event.signature;
nsd = desc->event.npmax;
sp = pdesc->event.signature;
nsp = pdesc->event.npmax;
break;
case CD_EXTERN:
sd = desc->ext.signature;
nsd = desc->ext.npmax;
sp = pdesc->ext.signature;
nsp = pdesc->ext.npmax;
break;
case CD_VARIABLE:
case CD_STATIC_VARIABLE:
return TRUE;
default:
return FALSE;
}
return TYPE_compare_signature(sd, nsd, sp, nsp, TRUE);
}
void CLASS_make_description(CLASS *class, const CLASS_DESC *desc, int n_desc, int *first)
{
static const char *nonher[] = { "_new", "_free", "_init", "_exit", NULL };
int ind;
int i, j;
const char *name;
const char **pnonher;
CLASS *parent;
char type, parent_type;
CLASS_DESC_SYMBOL *cds;
bool check;
#if DEBUG_DESC
fprintf(stderr, "\n---- %s\n", class->name);
#endif
// Compute number of public descriptions
class->n_desc = n_desc;
if (class->parent)
class->n_desc += class->parent->n_desc;
// Make the description symbol table
if (class->n_desc)
ALLOC(&class->table, sizeof(CLASS_DESC_SYMBOL) * class->n_desc);
i = 0;
if (class->parent && class->parent->n_desc)
{
for (j = 0; j < class->parent->n_desc; j++)
{
class->table[i] = class->parent->table[j];
i++;
}
for (j = 0; j < n_desc; j++)
{
if (CLASS_is_native(class))
{
name = &(desc[j].gambas.name[1]);
type = CLASS_DESC_get_type(&desc[j]);
//ptype = (const char*)desc[j].gambas.type;
//fprintf(stderr, "%s -> ", ptype);
//desc[j].gambas.type = TYPE_from_string(&ptype);
//fprintf(stderr, "%p\n", (void *)desc[j].gambas.type);
}
else
{
name = desc[j].gambas.name;
type = *CLASS_DESC_get_type_name(&desc[j]);
}
//fprintf(stderr, "%s.%s\n", class->name, name);
// An inherited symbol has two or more entries in the table. Only the first one
// will be used, and so it must point at the new description, not the inherited one.
check = FALSE;
parent = class;
while ((parent = parent->parent))
{
ind = CLASS_find_symbol(parent, name);
if (ind == NO_SYMBOL)
continue;
cds = &parent->table[ind];
// The parent class public symbols of non-native classes were replaced by the symbol kind returned by CLASS_DESC_get_type_name()
// Only the first inheritance level is tested against signature compatibility
if (cds->desc && !check)
{
parent_type = CLASS_DESC_get_type(cds->desc);
if (parent_type != type)
{
#if DEBUG_DESC
fprintf(stderr, "type = '%c' parent_type = '%c'\n", type, parent_type);
#endif
THROW(E_OVERRIDE, CLASS_get_name(parent), cds->name, CLASS_get_name(class));
}
if (!CLASS_is_native(class) && strcasecmp(name, "_new"))
{
//fprintf(stderr, "check_signature: %s\n", name);
if (check_signature(type, &desc[j], cds->desc))
THROW(E_OVERRIDE, CLASS_get_name(parent), cds->name, CLASS_get_name(class));
}
check = TRUE;
}
cds = &class->table[ind];
#if DEBUG_DESC
fprintf(stderr, "%s: [%d] (%p %ld) := (%p %ld)\n", name, ind, cds->desc, cds->desc ? cds->desc->gambas.val1 : 0, &desc[j], desc[j].gambas.val1);
#endif
cds->desc = (CLASS_DESC *)&desc[j];
cds->name = ".";
cds->len = 1;
/*if (!desc[j].gambas.val1 && index(CD_CALL_SOMETHING_LIST, type) != NULL)
{
//#if DEBUG_DESC
fprintf(stderr, "CLASS_make_description: '%s.%s' gambas.val1: %ld -> %ld\n", class->name, desc[j].gambas.name, desc[j].gambas.val1, class->parent->table[ind].desc->gambas.val1);
//#endif
((CLASS_DESC *)desc)[j].gambas.val1 = class->parent->table[ind].desc->gambas.val1;
}*/
}
}
for (pnonher = nonher; *pnonher; pnonher++)
{
ind = CLASS_find_symbol(class->parent, *pnonher);
if (ind != NO_SYMBOL)
{
cds = &class->table[ind];
cds->desc = NULL;
cds->name = ".";
cds->len = 1;
}
}
}
*first = i;
for (j = 0; j < n_desc; j++, i++)
{
class->table[i].desc = (CLASS_DESC *)&desc[j];
name = desc[j].gambas.name;
/* On saute le caractère de type de symbole */
if (CLASS_is_native(class))
{
name++;
if (*name == '!')
name++;
}
class->table[i].name = (char *)name;
class->table[i].len = strlen(name);
}
#if DEBUG_DESC
{
CLASS_DESC_SYMBOL *cds;
for (i = 0; i < class->n_desc; i++)
{
cds = &class->table[i];
fprintf(stderr, "%d: %.*s %p\n", i, cds->len, cds->name, cds->desc);
}
}
#endif
}
/* 'all' means that size_dynamic is the entire size of the object, not just the size of the data */
/* And check if the class is a stream */
void CLASS_calc_info(CLASS *class, int n_event, int size_dynamic, bool all, int size_static)
{
// If the class is native and static, then size_dynamic == 0. But if we want to inherit
// the static class, and make the inherited class dynamic, then class->off_event must
// start after the object header. So we fix size_dynamic accordingly.
if (all && size_dynamic == 0)
size_dynamic = sizeof(OBJECT);
if (class->parent)
{
if (all)
class->off_event = size_dynamic;
else
class->off_event = class->parent->off_event + size_dynamic;
class->n_event = class->parent->n_event + n_event;
}
else
{
if (all)
class->off_event = size_dynamic;
else
class->off_event = sizeof(OBJECT) + size_dynamic;
class->n_event = n_event;
}
if (class->n_event)
class->size = class->off_event + sizeof(OBJECT_EVENT) + class->n_event * sizeof(ushort);
else
class->size = class->off_event;
class->size_stat = size_static;
if (size_static)
ALLOC_ZERO(&class->stat, class->size_stat);
else
class->stat = NULL;
class->is_stream = (class == CLASS_Stream) || (class->parent && class->parent->is_stream);
class->is_simple = class->parent == NULL && !class->is_virtual && !class->must_check;
if (class->parent)
class->parent->is_simple = FALSE;
}
void CLASS_make_event(CLASS *class, int *first)
{
int i, ev;
*first = 0;
if (class->n_event == 0)
return;
if (!CLASS_is_native(class))
{
if (class->parent == NULL)
{
class->event = class->load->event;
class->free_event = FALSE;
return;
}
}
ALLOC_ZERO(&class->event, sizeof(CLASS_EVENT) * class->n_event);
if (class->parent != NULL)
{
ev = class->parent->n_event;
for (i = 0; i < ev; i++)
class->event[i] = class->parent->event[i];
}
else
ev = 0;
class->free_event = TRUE;
*first = ev;
}
int CLASS_get_inheritance(CLASS *class, CLASS **her)
{
int nher = 0;
while ((nher < MAX_INHERITANCE) && (class != NULL))
{
*her++ = class;
nher++;
class = class->parent;
}
return nher;
}
void *CLASS_auto_create(CLASS *class, int nparam)
{
void *ob = class->instance;
//fprintf(stderr, ">>> CLASS_auto_create: %s (%p)\n", class->name, ob);
// We automatically release invalid automatic instances
if (ob)
{
if (OBJECT_is_valid(ob))
{
RELEASE_MANY(SP, nparam);
//fprintf(stderr, "<<< CLASS_auto_create: %s (%p): valid=1\n", class->name, ob);
return ob;
}
OBJECT_UNREF(class->instance);
class->instance = NULL;
}
/*fprintf(stderr, "CLASS_auto_create: create %s\n", class->name);*/
OBJECT_create_and_set(&class->instance, class, NULL, NULL, nparam);
//ob = class->instance;
//OBJECT_REF(ob, "CLASS_auto_create");
//fprintf(stderr, "<<< CLASS_auto_create: %s (%p) valid=%d\n", class->name, ob, OBJECT_is_valid(ob));
return class->instance;
}
//#define SET_OPTIONAL_OPERATOR(_class, _op, _func) if (!CLASS_has_operator(_class, _op)) (_class)->operators[_op] = (EXEC_no_operator##_func)
void CLASS_search_special(CLASS *class)
{
static int _operator_strength = 0;
int sym;
class->special[SPEC_NEW] = CLASS_get_symbol_index_kind(class, "_new", CD_METHOD, 0);
class->special[SPEC_FREE] = CLASS_get_symbol_index_kind(class, "_free", CD_METHOD, 0);
class->special[SPEC_GET] = CLASS_get_symbol_index_kind(class, "_get", CD_METHOD, CD_STATIC_METHOD);
class->special[SPEC_PUT] = CLASS_get_symbol_index_kind(class, "_put", CD_METHOD, CD_STATIC_METHOD);
class->special[SPEC_FIRST] = CLASS_get_symbol_index_kind(class, "_first", CD_METHOD, CD_STATIC_METHOD);
class->special[SPEC_NEXT] = CLASS_get_symbol_index_kind(class, "_next", CD_METHOD, CD_STATIC_METHOD);
class->special[SPEC_CALL] = CLASS_get_symbol_index_kind(class, "_call", CD_METHOD, CD_STATIC_METHOD);
class->special[SPEC_UNKNOWN] = CLASS_get_symbol_index_kind(class, "_unknown", CD_METHOD, CD_STATIC_METHOD);
class->special[SPEC_PROPERTY] = CLASS_get_symbol_index_kind(class, "_property", CD_METHOD, CD_STATIC_METHOD);
class->special[SPEC_COMPARE] = CLASS_get_symbol_index_kind(class, "_compare", CD_METHOD, 0);
class->special[SPEC_ATTACH] = CLASS_get_symbol_index_kind(class, "_attach", CD_METHOD, 0);
class->special[SPEC_READY] = CLASS_get_symbol_index_kind(class, "_ready", CD_METHOD, 0);
sym = CLASS_get_symbol_index_kind(class, "_@_convert", CD_CONSTANT, 0);
if (sym != NO_SYMBOL)
{
class->has_convert = TRUE;
class->convert = CLASS_get_desc(class, sym)->constant.value._pointer;
}
sym = CLASS_get_symbol_index_kind(class, "_@_operator", CD_CONSTANT, 0);
if (sym != NO_SYMBOL)
{
class->has_operators = TRUE;
class->operators = CLASS_get_desc(class, sym)->constant.value._pointer;
_operator_strength++;
CLASS_set_operator_strength(class, _operator_strength);
}
if (class->special[SPEC_NEXT] != NO_SYMBOL)
class->enum_static = CLASS_DESC_get_type(CLASS_get_desc(class, class->special[SPEC_NEXT])) == CD_STATIC_METHOD;
if (class->special[SPEC_UNKNOWN] != NO_SYMBOL)
class->unknown_static = CLASS_DESC_get_type(CLASS_get_desc(class, class->special[SPEC_UNKNOWN])) == CD_STATIC_METHOD;
if (class->special[SPEC_PROPERTY] != NO_SYMBOL)
class->property_static = CLASS_DESC_get_type(CLASS_get_desc(class, class->special[SPEC_PROPERTY])) == CD_STATIC_METHOD;
if (class->special[SPEC_FREE] != NO_SYMBOL)
class->has_free = TRUE;
}
CLASS *CLASS_check_global(CLASS *class)
{
if (CLASS_is_loaded(class))
{
if (COMPONENT_current && class->component == COMPONENT_current)
ERROR_panic("Class '%s' declared twice in the component '%s'.", CLASS_get_name(class), class->component->name);
/*if (class->has_child)
THROW(E_CLASS, class->name, "Overriding an already inherited class is forbidden", "");*/
class_replace_global(class);
}
return class;
}
CLASS_DESC_METHOD *CLASS_get_special_desc(CLASS *class, int spec)
{
short index = class->special[spec];
if (index == NO_SYMBOL)
return NULL;
else
return &CLASS_get_desc(class, index)->method;
}
CLASS_DESC_SYMBOL *CLASS_get_next_sorted_symbol(CLASS *class, int *index)
{
CLASS_DESC_SYMBOL *old = NULL;
CLASS_DESC_SYMBOL *cur;
for(;;)
{
if (*index >= class->n_desc)
return NULL;
cur = &class->table[class->sort[*index]];
if (*index > 0)
old = &class->table[class->sort[*index - 1]];
(*index)++;
if (!cur->desc)
continue;
if (old && !TABLE_compare_ignore_case(cur->name, cur->len, old->name, old->len))
continue;
return cur;
}
}
void CLASS_create_array_class(CLASS *class)
{
void *save = TYPE_joker;
char *name_joker;
GB_DESC *desc;
CLASS *array_type = (CLASS *)class->array_type;
name_joker = STRING_new(class->name, strlen(class->name) - 2);
if (!array_type)
{
array_type = class->global ? CLASS_find_global(name_joker) : CLASS_find(name_joker);
class->array_type = (TYPE)array_type;
}
TYPE_joker = array_type;
array_type->array_class = class;
ALLOC(&desc, sizeof(GB_DESC) * ARRAY_TEMPLATE_NDESC);
memcpy(desc, NATIVE_TemplateArray, sizeof(GB_DESC) * ARRAY_TEMPLATE_NDESC);
((CLASS_DESC_GAMBAS *)desc)->name = class->name;
CLASS_register_class(desc, class);
class->is_array = TRUE;
class->quick_array = CQA_ARRAY;
class->data = (char *)desc;
STRING_free(&name_joker);
TYPE_joker = save;
}
CLASS *CLASS_get_array_class(CLASS *class)
{
if (!class->array_class)
{
char name[strlen(class->name) + 3];
strcpy(name, class->name);
strcat(name, "[]");
class->array_class = class->global ? CLASS_find_global(name) : CLASS_find(name);
CLASS_create_array_class(class->array_class);
}
return class->array_class;
}
void CLASS_create_array_of_struct_class(CLASS *class)
{
void *save = TYPE_joker;
char *name_joker;
GB_DESC *desc;
CLASS *array_type = (CLASS *)class->array_type;
//fprintf(stderr, "CLASS_create_array_class: create %s\n", class->name);
name_joker = STRING_new(&class->name[1], strlen(class->name) - 3);
if (!array_type)
{
array_type = class->global ? CLASS_find_global(name_joker) : CLASS_find(name_joker);
class->array_type = (TYPE)array_type;
}
TYPE_joker = array_type;
array_type->astruct_class = class;
ALLOC(&desc, sizeof(GB_DESC) * ARRAY_OF_STRUCT_TEMPLATE_NDESC);
memcpy(desc, NATIVE_TemplateArrayOfStruct, sizeof(GB_DESC) * ARRAY_OF_STRUCT_TEMPLATE_NDESC);
((CLASS_DESC_GAMBAS *)desc)->name = class->name;
CLASS_register_class(desc, class);
class->is_array = TRUE;
class->is_array_of_struct = TRUE;
class->data = (char *)desc;
STRING_free(&name_joker);
TYPE_joker = save;
}
CLASS *CLASS_get_array_of_struct_class(CLASS *class)
{
if (!class->astruct_class)
{
char name[strlen(class->name) + 4];
sprintf(name, "$%s[]", class->name);
class->astruct_class = class->global ? CLASS_find_global(name) : CLASS_find(name);
CLASS_create_array_of_struct_class(class->astruct_class);
}
return class->astruct_class;
}
int CLASS_sizeof(CLASS *class)
{
if (CLASS_is_struct(class))
return class->size - sizeof(CSTRUCT);
else
return class->size - sizeof(OBJECT);
}
char *CLASS_get_name(CLASS *class)
{
char *name = class->name;
while (*name == '^')
name++;
return name;
}
CLASS *CLASS_find_load_from(const char *name, const char *from)
{
COMPONENT *save;
CLASS *save_cp;
COMPONENT *comp = NULL;
CLASS *class;
comp = COMPONENT_find(from);
save = COMPONENT_current;
save_cp = CP;
COMPONENT_current = comp;
CP = NULL;
class = CLASS_find(name);
if (!CLASS_is_loaded(class) && !class->in_load)
CLASS_load_without_init(class);
COMPONENT_current = save;
CP = save_cp;
return class;
}