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gambas-source-code/main/gbx/gbx_class.c
Benoît Minisini d3501bf140 [DEVELOPMENT ENVIRONMENT] 
* NEW: Work continues on integrating the database manager.
* NEW: Some cosmetic changes in the way controls are drawing on the form
  editor.
* NEW: Panels with Border property set to None are now drawn with a light 
  border.
* BUG: Fix the "Show tab" button and menu.

[INTERPRETER]
* NEW: _attach is a new dynamic special method that is called when an 
  object is attached to or detached from its event observer. The first 
  argument of this method is the event observer, and the second argument 
  the event handler prefix.

[COMPILER]
* NEW: An expression can be a NEW instruction now. Beware that it does not 
  work inside braces.

[GB.DB]
* BUG: Fix an error message in the sqlite handler.

[GB.DB.FORM]
* NEW: DataSource.Table can now be any SQL query. The Filter property is 
  ignored in that case.
* BUG: Setting DataSource.Table to NULL correctly resets the DataSource and
  its children.
* NEW: DataView automatically adjusts the height of its rows to the 
  contents.
* NEW: DataSource.CacheSize is a new property to set the number of rows 
  stored in the internal DataSource cache. When this property is set to 
  zero, the cache size takes its default value (64 rows).

[GB.DB.SQLITE2]
* BUG: Fix a crash in datatype mapping.

[GB.DB.SQLITE3]
* BUG: Fix a crash in datatype mapping.

[GB.QT4]
* BUG: Window.AutoResize property works as expected now.
* OPT: Some optimizations in GridView.
* NEW: GridView.Rows[].Visible returns if a specific row is visible.
* NEW: GridView.Rows[].EnsureVisible ensures that a specific row is 
  visible.
* BUG: Draw.Style.Panel draws the same thing as a panel border now.
* BUG: Window.Closed always returns the accurate value now.


git-svn-id: svn://localhost/gambas/trunk@2108 867c0c6c-44f3-4631-809d-bfa615b0a4ec
2009-07-12 21:49:13 +00:00

1211 lines
26 KiB
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/***************************************************************************
class.c
Class loader
(c) 2000-2007 Benoit Minisini <gambas@users.sourceforge.net>
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 1, 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.
***************************************************************************/
#define __GBX_CLASS_C
#include "gb_common.h"
#include "gb_common_buffer.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_string.h"
#include "gbx_object.h"
#include "gbx_variant.h"
#include "gbx_number.h"
#include "gbx_c_array.h"
#include "gambas.h"
#include "gbx_class.h"
//#define DEBUG_COMP 1
//#define DEBUG_LOAD 1
//#define DEBUG_DESC 1
/* 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)
{
//if (sizeof(CLASS) > 128)
// fprintf(stderr, "Warning: Use the 64 bits version of Gambas at your own risk!\n");
TABLE_create_static(&_global_table, sizeof(CLASS_SYMBOL), TF_IGNORE_CASE);
CLASS_init_native();
}
TABLE *CLASS_get_table(void)
{
return &_global_table;
}
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;
EXEC_public(class, NULL, "_exit", 0);
/*desc = CLASS_get_symbol_desc_kind(class, "_exit", CD_STATIC_METHOD, 0);
if (!desc)
return;
EXEC.desc = &desc->method;
EXEC.native = CLASS_is_native(class);
EXEC.class = class;
EXEC.object = NULL;
EXEC.nparam = 0;
EXEC.drop = TRUE;
EXEC.use_stack = FALSE;
EXEC_native();*/
}
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, "unload_class");
if (!CLASS_is_native(class))
{
#ifdef OS_64BITS
if (class->load)
{
FREE(&class->load->desc, "unload_class");
FREE(&class->load->cst, "unload_class");
FREE(&class->load->class_ref, "unload_class");
FREE(&class->load->unknown, "unload_class");
FREE(&class->load->event, "unload_class");
FREE(&class->load->ext, "unload_class");
FREE(&class->load->local, "unload_class");
FREE(&class->load->array, "unload_class");
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, "unload_class");
}
FREE(&class->load->global, "unload_class");
FREE(&class->load->debug, "unload_class");
}
FREE(&class->load->func, "unload_class");
}
#endif
FREE(&class->load, "unload_class");
if (!class->mmapped)
FREE(&class->data, "unload_class");
}
else
{
if (class->signature)
FREE(&class->signature, "unload_class");
if (class->data)
FREE(&class->data, "unload_class");
}
if (class->free_event)
FREE(&class->event, "unload_class");
if (class->stat)
FREE(&class->stat, "unload_class");
if (class->table)
FREE(&class->table, "unload_class");
class->state = CS_NULL;
}
void CLASS_clean_up(bool silent)
{
int n, nc, nb;
//CLASS_SYMBOL *csym;
CLASS *class;
#if DEBUG_LOAD
fprintf(stderr, "\n------------------- CLASS_exit -------------------\n\n");
#endif
#if DEBUG_LOAD
fprintf(stderr, "Freeing auto-creatable objects...\n");
#endif
// Count how many classes should be freed
// And free automatic instances
nc = 0;
for (class = _classes; class; class = class->next)
{
if (class->instance)
OBJECT_UNREF(class->instance, "CLASS_exit");
if (!CLASS_is_native(class) && class->state)
{
/*printf("Must free: %s\n", class->name);*/
nc++;
}
}
#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;
while (n < nc)
{
nb = n;
for (class = _classes; class; class = class->next)
{
/*if (!CLASS_is_native(class) && class->ready && !class->exit)
printf("%s: %d ready = %d\n", class->name, class->count, class->ready);*/
if (class->count == 0 && !CLASS_is_native(class) && class->state && !class->exit)
{
/*printf("Freeing %s\n", class->name);*/
OBJECT_release(class, NULL);
class->exit = TRUE;
n++;
}
}
if (n == nb) /* On n'a rien pu faire */
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)
fprintf(stderr, "WARNING: circular references detected\n");
for (class = _classes; class; class = class->next)
{
if (!CLASS_is_native(class) && class->state && !class->exit)
{
if (!silent)
fprintf(stderr, "%s (%d)\n", class->name, class->count);
OBJECT_release(class, NULL);
class->exit = TRUE;
n++;
}
}
}
#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_exit");
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\n", name, _global ? "global" : "local");
if (_global && (!strcmp(name, "CControl[]") || !strcmp(name, "CControl")))
BREAKPOINT();
#endif
//if (CP && CP->component && CP->component->archive)
if (!_global && !ARCHIVE_get_current(&arch))
{
if (TABLE_find_symbol(arch->classes, name, len, (SYMBOL **)(void *)&csym, NULL))
{
#if DEBUG_COMP
fprintf(stderr, " -> in %s\n", arch->name ? arch->name : "main");
#endif
return csym->class;
}
}
if (TABLE_find_symbol(&_global_table, name, len, (SYMBOL **)(void *)&csym, &index))
{
#if DEBUG_COMP
fprintf(stderr, " -> %d in global\n", index);
#endif
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, (SYMBOL **)(void *)&csym, NULL);
#if DEBUG_LOAD || DEBUG_COMP
fprintf(stderr, "Not found -> creating new one in %s\n", arch->name ? arch->name : "main");
#endif
}
else
{
global = TRUE;
TABLE_add_symbol(&_global_table, name, len, (SYMBOL **)(void *)&csym, &index);
#if DEBUG_LOAD || DEBUG_COMP
fprintf(stderr, "Not found -> creating new one in global\n");
#endif
}
ALLOC_ZERO(&class, sizeof(CLASS), "CLASS_find");
csym->class = class;
/*csym->class->id = index;*/
class->state = CS_NULL;
class->count = 0;
class->ref = 1;
class->next = _classes;
_classes = class;
ALLOC(&class->name, len + 1, "CLASS_find");
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;
return class;
}
int CLASS_count(void)
{
return TABLE_count(&_global_table);
}
CLASS *CLASS_get(const char *name)
{
CLASS *class = CLASS_find(name);
if (class->state == CS_NULL)
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(CLASS *class, const char *name)
{
int index;
//printf("%s.%s\n", class->name, name);
//if (!strcmp(class->name, "Collection") && !strcmp(name, "Exist"))
// printf("STOP\n");
SYMBOL_find(class->table, class->n_desc, sizeof(CLASS_DESC_SYMBOL), TF_IGNORE_CASE, name, strlen(name), NULL, &index);
//if (strcmp(name, "m1") == 0)
//printf("find: %s in %s -> %d\n", name, class->name, index);
return index;
}
int CLASS_find_symbol_with_prefix(CLASS *class, const char *name, const char *prefix)
{
int index;
SYMBOL_find(class->table, class->n_desc, sizeof(CLASS_DESC_SYMBOL), TF_IGNORE_CASE, name, strlen(name), prefix, &index);
return index;
}
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;
}
const char *CLASS_DESC_get_signature(CLASS_DESC *cd)
{
#if 0
switch (CLASS_DESC_get_type(cd))
{
case CD_METHOD:
case CD_STATIC_METHOD:
return cd->method.help;
case CD_EVENT:
return cd->event.help;
case CD_PROPERTY:
case CD_STATIC_PROPERTY:
return cd->property.help;
default:
return NULL;
}
#endif
return NULL;
}
void CLASS_free(void *object)
{
CLASS *class = OBJECT_class(object);
((OBJECT *)object)->ref = 1; /* Prevents anybody from freeing the object ! */
//fprintf(stderr, "CLASS_free: %s %p\n", class->name, object);
EXEC_special_inheritance(SPEC_FREE, class, object, 0, TRUE);
((OBJECT *)object)->ref = 0;
OBJECT_release(class, object);
}
#if DEBUG_REF
void CLASS_ref(void *object)
{
((OBJECT *)object)->ref++;
#if DEBUG_MEMORY
fprintf(stderr, "%s: %s: ref(%s <%d>) -> %d\n", OBJECT_ref_where,
DEBUG_get_current_position(),
OBJECT_class(object)->name, GET_ALLOC_ID(object), ((OBJECT *)object)->ref);
#else
fprintf(stderr, "%s: %s: ref(%s %p) -> %d\n", OBJECT_ref_where,
DEBUG_get_current_position(),
OBJECT_class(object)->name, object, ((OBJECT *)object)->ref);
#endif
fflush(stdout);
}
bool CLASS_unref(void *ob, bool can_free)
{
OBJECT *object = (OBJECT *)ob;
#if DEBUG_MEMORY
if (object->ref <= 0)
fprintf(stderr, "*** <%d> REF = %d !\n", GET_ALLOC_ID(object), object->ref);
fprintf(stderr, "%s: %s: unref(%s <%d>) -> %d\n", OBJECT_ref_where,
DEBUG_get_current_position(),
OBJECT_class(object)->name, GET_ALLOC_ID(object), object->ref - 1);
#else
if (object->ref <= 0)
fprintf(stderr, "*** %p REF = %d !\n", object, object->ref);
fprintf(stderr, "%s, %s: unref(%s %p) -> %d\n", OBJECT_ref_where,
DEBUG_get_current_position(),
OBJECT_class(object)->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_DESC_SYMBOL *SortClassDesc;
static int sort_desc(ushort *i1, ushort *i2)
{
/*return strcmp(SortClassDesc[*i1].load.symbol.name, SortClassDesc[*i2].load.symbol.name);*/
return TABLE_compare_ignore_case_len(
SortClassDesc[*i1].name,
SortClassDesc[*i1].len,
SortClassDesc[*i2].name,
SortClassDesc[*i2].len
);
}
void CLASS_sort(CLASS *class)
{
ushort *sym;
ushort i;
if (class->n_desc == 0)
return;
ALLOC(&sym, sizeof(ushort) * class->n_desc, "CLASS_sort");
for (i = 0; i < class->n_desc; i++)
sym[i] = i;
SortClassDesc = class->table;
qsort(sym, class->n_desc, sizeof(ushort), (int (*)(const void *, const void *))sort_desc);
for (i = 0; i < class->n_desc; i++)
class->table[i].sort = sym[i];
#if DEBUG_DESC
{
SYMBOL *sym;
fprintf(stderr, "\nSORT %s\n", class->name);
for (i = 0; i < class->n_desc; i++)
{
sym = (SYMBOL *)&class->table[i];
//sym = (SYMBOL *)&class->table[sym->sort];
fprintf(stderr, "[%d] (%d) %.*s\n", i, (int)sym->sort, (int)sym->len, sym->name);
}
}
#endif
FREE(&sym, "CLASS_sort");
}
#define GET_IF_NULL(_callback) if (class->_callback == NULL) class->_callback = class->parent->_callback
void CLASS_inheritance(CLASS *class, CLASS *parent)
{
if (class->parent != NULL)
THROW(E_CLASS, class->name, "Multiple inheritance", "");
class->parent = parent;
TRY
{
CLASS_load(class->parent);
}
CATCH
{
THROW(E_CLASS, class->name, "Cannot load parent class ", parent->name);
}
END_TRY
GET_IF_NULL(check);
// CREATE STATIC is inherited, but not CREATE PRIVATE
if (parent->auto_create)
class->auto_create = TRUE;
//fprintf(stderr, "CLASS_inheritance: %s %s\n", class->name, class->auto_create ? "AUTO CREATE" : "");
}
CLASS *CLASS_replace_global(const char *name)
{
CLASS_SYMBOL *csym;
char *new_name;
CLASS *class;
CLASS *new_class;
int len;
class = CLASS_find_global(name);
if (class->state)
{
len = strlen(name);
ALLOC(&new_name, len + 2, "CLASS_replace_global");
snprintf(new_name, len + 2, ">%s", name);
new_class = CLASS_replace_global(new_name);
FREE(&new_name, "CLASS_replace_global");
new_name = (char *)new_class->name;
TABLE_find_symbol(&_global_table, name, len, (SYMBOL **)(void *)&csym, NULL);
csym->class = new_class;
TABLE_find_symbol(&_global_table, new_name, len + 1, (SYMBOL **)(void *)&csym, NULL);
csym->class = class;
new_class->name = class->name;
class->name = new_name;
class = new_class;
}
return class;
}
const char *CLASS_DESC_get_type_name(CLASS_DESC *desc)
{
switch (desc->gambas.val4)
{
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: return "?";
}
}
// A symbol can be overridden by a more powerful one:
// - A read-only property can be overridden by a read-write property.
// - A constant can be overridden by any property.
static bool check_override(char parent_type, char type)
{
if (parent_type == type)
return FALSE;
if (parent_type == 'r' && type == 'p')
return FALSE;
if (parent_type == 'R' && type == 'P')
return FALSE;
if (parent_type == 'C' && (type == 'R' || type == 'P'))
return FALSE;
return TRUE;
}
void CLASS_make_description(CLASS *class, 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;
#if DEBUG_DESC
fprintf(stderr, "\n---- %s\n", class->name);
#endif
/* Number of descriptions */
class->n_desc = n_desc;
if (class->parent)
class->n_desc += class->parent->n_desc;
/* Fabrication de la table */
if (class->n_desc)
ALLOC(&class->table, sizeof(CLASS_DESC_SYMBOL) * class->n_desc, "CLASS_make_description");
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];
class->table[i].sort = 0;
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]);
}
else
{
name = desc[j].gambas.name;
type = *CLASS_DESC_get_type_name(&desc[j]);
}
//fprintf(stderr, "%s.%s\n", class->name, name);
// A 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.
parent = class;
while ((parent = parent->parent))
{
ind = CLASS_find_symbol(parent, name);
if (ind != NO_SYMBOL)
{
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()
if (cds->desc)
{
parent_type = CLASS_DESC_get_type(cds->desc);
if (check_override(parent_type, type))
{
fprintf(stderr, "type = '%c' parent_type = '%c'\n", type, parent_type);
THROW(E_OVERRIDE, parent->name, cds->name, class->name);
}
}
cds = &class->table[ind];
#if DEBUG_DESC
fprintf(stderr, "%s: [%d] (%p %d) := (%p %d)\n", name, ind, cds->desc, cds->desc ? cds->desc->gambas.val1 : 0, &desc[j], desc[j].gambas.val1);
#endif
cds->desc = &desc[j];
cds->sort = 0;
cds->name = ".";
cds->len = 1;
if (!desc[j].gambas.val1 && index(CD_CALL_SOMETHING_LIST, type) != NULL)
{
#if DEBUG_DESC
fprintf(stderr, "'%s' gambas.val1: %d -> %d\n", desc[j].gambas.name, desc[j].gambas.val1, class->parent->table[ind].desc->gambas.val1);
#endif
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->sort = 0;
cds->name = ".";
cds->len = 1;
}
}
}
*first = i;
for (j = 0; j < n_desc; j++, i++)
{
class->table[i].desc = &desc[j];
/* On saute le caractère de type de symbole */
if (CLASS_is_native(class))
class->table[i].name = &(desc[j].gambas.name[1]);
else
class->table[i].name = desc[j].gambas.name;
class->table[i].sort = 0;
class->table[i].len = strlen(class->table[i].name);
}
#if DEBUG_DESC
{
CLASS_DESC_SYMBOL *cds;
for (i = 0; i < class->n_desc; i++)
{
cds = &class->table[i];
fprintf(stderr, "%d (%d): %.*s %p\n", i, cds->sort, 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 (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;
}
class->size = class->off_event + sizeof(OBJECT_EVENT) + class->n_event * sizeof(ushort);
class->size_stat = size_static;
if (size_static)
ALLOC_ZERO(&class->stat, class->size_stat, "CLASS_calc_info");
else
class->stat = NULL;
class->is_stream = (class == CLASS_Stream) || (class->parent && class->parent->is_stream);
}
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, "CLASS_make_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);
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_auto_create");
class->instance = NULL;
}
/*fprintf(stderr, "CLASS_auto_create: create %s\n", class->name);*/
OBJECT_create(&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 ob;
}
void CLASS_search_special(CLASS *class)
{
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_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_PRINT] = CLASS_get_symbol_index_kind(class, "_print", CD_METHOD, 0);
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;
}
CLASS *CLASS_check_global(char *name)
{
CLASS *class, *parent;
class = CLASS_find_global(name);
if (class->state)
{
if (COMPONENT_current && class->component == COMPONENT_current)
ERROR_panic("Class '%s' declared twice in the component '%s'.", class->name, class->component->name);
parent = class;
class = CLASS_replace_global(name);
CLASS_inheritance(class, parent);
}
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->table[*index].sort];
if (*index > 0)
old = &class->table[class->table[*index - 1].sort];
(*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;
//fprintf(stderr, "CLASS_create_array_class: create %s\n", class->name);
STRING_new(&name_joker, class->name, strlen(class->name) - 2);
TYPE_joker = class->array_type = class->global ? CLASS_find_global(name_joker) : CLASS_find(name_joker);
class->array_type->array_class = class;
ALLOC(&desc, sizeof(GB_DESC) * ARRAY_TEMPLATE_NDESC, "CLASS_create_array_class");
memcpy(desc, NATIVE_TemplateArray, sizeof(GB_DESC) * ARRAY_TEMPLATE_NDESC);
((CLASS_DESC_GAMBAS *)desc)->name = class->name;
CLASS_register_class(desc, class);
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;
}
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