gambas-source-code/main/gbx/gbx_api.c
gambas f2f9623c14 Correctly catch errors raised inside event handlers in all cases.
[INTERPRETER]
* BUG: Correctly catch errors raised inside event handlers in all cases.
2020-09-27 01:14:54 +02:00

2497 lines
42 KiB
C

/***************************************************************************
gbx_api.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_API_C
#include "gb_common.h"
#include "gb_common_case.h"
#include "gb_common_buffer.h"
#include "gb_error.h"
#include "gb_alloc.h"
#include "gb_list.h"
#include <stdarg.h>
#include "gbx_class.h"
#include "gbx_exec.h"
#include "gbx_event.h"
#include "gbx_stack.h"
#include "gbx_stream.h"
#include "gbx_library.h"
#include "gbx_watch.h"
#include "gbx_project.h"
#include "gbx_eval.h"
#include "gbx_local.h"
#include "gb_hash.h"
#include "gb_file.h"
#include "gbx_number.h"
#include "gbx_object.h"
#include "gbx_string.h"
#include "gbx_date.h"
#include "gbx_regexp.h"
#include "gbx_c_array.h"
#include "gbx_c_timer.h"
#include "gbx_component.h"
#include "gbx_c_gambas.h"
#include "gbx_c_observer.h"
#include "gbx_debug.h"
#include "gbx_c_file.h"
#include "gbx_extern.h"
#include "gbx_compare.h"
#include "gbx_subr.h"
#include "gbx_math.h"
#include "gbx_struct.h"
#include "gbx_signal.h"
#include "gbx_jit.h"
#include "gbx.h"
#include "gambas.h"
#include "gbx_api.h"
typedef
struct {
OBJECT *object;
CLASS_DESC_METHOD *desc;
}
GB_API_FUNCTION;
const void *const GAMBAS_Api[] =
{
(void *)GB_VERSION,
(void *)GB_GetInterface,
(void *)GB_Hook,
(void *)GB_LoadComponent,
(void *)COMPONENT_can_load_library,
(void *)COMPONENT_exist,
(void *)COMPONENT_is_loaded,
(void *)GB_CurrentComponent,
(void *)COMPONENT_get_info,
(void *)COMPONENT_signal,
(void *)LIBRARY_declare_one,
(void *)GB_Push,
(void *)GB_GetFunction,
(void *)GB_Call,
(void *)GB_GetClassInterface,
(void *)GB_GetProperty,
(void *)GB_SetProperty,
(void *)GB_Serialize,
(void *)GB_UnSerialize,
(void *)WATCH_one_loop,
(void *)GB_Wait,
(void *)EVENT_post,
(void *)EVENT_post2,
(void *)CTIMER_every,
(void *)GB_Raise,
(void *)GB_RaiseBegin,
(void *)GB_RaiseEnd,
(void *)EVENT_post_event,
(void *)EVENT_check_post,
(void *)GB_CanRaise,
(void *)GB_GetEvent,
(void *)GB_GetLastEventName,
(void *)CTIMER_raise,
(void *)GB_Stopped,
(void *)GB_NParam,
(void *)GB_Conv,
(void *)GB_GetUnknown,
(void *)GB_Error,
(void *)ERROR_propagate,
(void *)GB_Deprecated,
(void *)GB_OnErrorBegin,
(void *)GB_OnErrorEnd,
(void *)GB_GetClass,
(void *)GB_GetClassName,
(void *)GB_ExistClass,
(void *)CLASS_find_global,
(void *)GB_ExistClassLocal,
(void *)CLASS_find,
(void *)GB_GetArrayType,
(void *)CLASS_get_array_class,
(void *)CLASS_find_load_from,
(void *)GB_Is,
(void *)GB_Ref,
(void *)GB_Unref,
//(void *)GB_UnrefKeep,
(void *)GB_Detach,
(void *)GB_Attach,
(void *)OBJECT_parent,
(void *)GB_Create,
(void *)GB_New,
(void *)CLASS_auto_create,
(void *)GB_CheckObject,
(void *)GB_GetEnum,
(void *)GB_StopEnum,
(void *)GB_BeginEnum,
(void *)GB_EndEnum,
(void *)GB_NextEnum,
(void *)GB_StopAllEnum,
(void *)GB_GetReturnValue,
(void *)GB_Return,
(void *)GB_ReturnInteger,
(void *)GB_ReturnLong,
(void *)GB_ReturnPointer,
(void *)GB_ReturnBoolean,
(void *)GB_ReturnDate,
(void *)GB_ReturnObject,
(void *)GB_ReturnNull,
(void *)GB_ReturnSingle,
(void *)GB_ReturnFloat,
(void *)GB_ReturnVariant,
(void *)GB_ReturnConvVariant,
(void *)GB_ReturnBorrow,
(void *)GB_ReturnRelease,
(void *)GB_ReturnPtr,
(void *)GB_ReturnSelf,
(void *)GB_ReturnString,
(void *)GB_ReturnVoidString,
(void *)GB_ReturnConstString,
(void *)GB_ReturnConstZeroString,
(void *)GB_ReturnNewString,
(void *)GB_ReturnNewZeroString,
(void *)STRING_new,
(void *)GB_NewZeroString,
(void *)GB_TempString,
(void *)GB_RefString,
(void *)GB_FreeString,
(void *)STRING_free_later,
(void *)STRING_extend,
(void *)STRING_add,
(void *)STRING_add_char,
(void *)GB_StringLength,
(void *)GB_ToZeroString,
(void *)REGEXP_match,
(void *)NUMBER_from_string,
(void *)GB_NumberToString,
(void *)LOCAL_gettext,
(void *)STRING_subst,
(void *)STRING_subst_add,
(void *)STRING_make,
(void *)GB_ConvString,
(void *)STRING_conv_file_name,
(void *)GB_RealFileName,
(void *)GB_LoadFile,
(void *)STREAM_unmap,
(void *)GB_TempDir,
(void *)GB_TempFile,
(void *)GB_CopyFile,
(void *)GB_BrowseProject,
(void *)GB_BrowseDirectory,
(void *)GB_StatFile,
(void *)GB_Store,
(void *)GB_StoreString,
(void *)GB_StoreObject,
(void *)GB_StoreVariant,
(void *)VALUE_read,
(void *)GB_BorrowValue,
(void *)GB_ReleaseValue,
(void *)COMPARE_variant,
(void *)GB_SplitDate,
(void *)GB_MakeDate,
(void *)DATE_from_time,
(void *)DATE_timer,
(void *)GB_Watch,
(void *)GB_Eval,
(void *)GB_Alloc,
(void *)GB_AllocZero,
(void *)GB_Free,
(void *)GB_Realloc,
(void *)GB_NewArray,
(void *)ARRAY_delete,
(void *)GB_CountArray,
(void *)GB_Add,
(void *)ARRAY_insert_many,
(void *)ARRAY_remove_many,
(void *)GB_tolower,
(void *)GB_toupper,
(void *)strcasecmp,
(void *)strncasecmp,
(void *)GB_AppName,
(void *)GB_AppTitle,
(void *)GB_AppVersion,
(void *)GB_AppPath,
(void *)GB_AppStartupClass,
(void *)GB_SystemCharset,
(void *)LOCAL_get_lang,
(void *)LOCAL_set_lang,
(void *)GB_SystemDomainName,
(void *)GB_IsRightToLeft,
(void *)GB_SystemPath,
(void *)GB_SystemHasForked,
(void *)GB_SystemDebug,
(void *)FILE_get_home,
(void *)DATE_get_timezone,
(void *)GB_ArrayNew,
(void *)GB_ArrayCount,
(void *)GB_ArrayAdd,
(void *)GB_ArrayGet,
(void *)GB_ArrayType,
(void *)GB_CollectionNew,
(void *)GB_CollectionCount,
(void *)GB_CollectionSet,
(void *)GB_CollectionGet,
(void *)GB_CollectionEnum,
(void *)GB_HashTableNew,
(void *)HASH_TABLE_delete,
(void *)HASH_TABLE_size,
(void *)GB_HashTableAdd,
(void *)GB_HashTableRemove,
(void *)GB_HashTableGet,
(void *)GB_HashTableEnum,
(void *)GB_HashTableFirst,
(void *)GB_StreamGet,
(void *)GB_StreamSetSwapping,
(void *)GB_StreamSetAvailableNow,
(void *)GB_StreamBlock,
(void *)GB_StreamRead,
(void *)GB_StreamWrite,
(void *)STREAM_get_readable,
(void *)STREAM_eof,
(void *)STREAM_handle,
(void *)STRING_start_len,
(void *)STRING_end,
(void *)STRING_make,
(void *)DEBUG_get_current_position,
(void *)DEBUG_enter_event_loop,
(void *)DEBUG_leave_event_loop,
(void *)SIGNAL_register,
(void *)SIGNAL_unregister,
(void *)LIST_insert,
(void *)LIST_remove,
NULL
};
const void *const GAMBAS_DebugApi[] =
{
(void *)GB_DebugGetExec,
(void *)STACK_get_frame,
(void *)ERROR_print_at,
(void *)ERROR_save,
(void *)ERROR_restore,
(void *)VALUE_to_string,
(void *)LOCAL_format_date,
(void *)LOCAL_format_number,
(void *)DEBUG_get_value,
(void *)DEBUG_set_value,
(void *)CARRAY_get_value,
(void *)DEBUG_enum_keys,
(void *)CLASS_get_next_sorted_symbol,
(void *)DEBUG_get_object_access_type,
(void *)DEBUG_find_class,
(void *)CARRAY_get_array_bounds,
(void *)GB_DebugBreakOnError,
(void *)DEBUG_enter_eval,
(void *)DEBUG_leave_eval,
NULL
};
const void *const GAMBAS_JitApi[] =
{
(void *)&SP,
(void *)&EXEC_current,
(void *)&TEMP,
(void *)&EXEC_debug,
(void *)&EXEC_super,
(void *)JIT_debug,
(void *)JIT_get_code,
(void *)THROW,
(void *)THROW_TYPE,
(void *)JIT_get_constant,
(void *)JIT_get_class_ref,
(void *)EXEC_subr_table,
(void *)STRING_char_table,
(void *)UNBORROW,
(void *)EXEC_new,
(void *)EXEC_push_array,
(void *)EXEC_pop_array,
(void *)VALUE_convert,
(void *)EXEC_push_unknown,
(void *)JIT_call_unknown,
(void *)EXEC_pop_unknown,
(void *)EXEC_enum_first,
(void *)EXEC_enum_next,
(void *)SYMBOL_find,
(void *)JIT_load_class,
(void *)JIT_load_class_without_init,
(void *)&ERROR_current,
(void *)&ERROR_handler,
(void *)ERROR_reset,
(void *)ERROR_set_last,
(void *)&EXEC_got_error,
(void *)&EVENT_Last,
(void *)EXEC_push_complex,
(void *)EXEC_push_vargs,
(void *)EXEC_drop_vargs,
(void *)EXEC_quit,
(void *)EXEC_push_unknown_event,
(void *)EXTERN_get_addr,
(void *)DEBUG_get_position,
(void *)RELEASE_many,
(void *)CSTRUCT_create_static,
(void *)CARRAY_create_static,
(void *)CARRAY_get_array_class,
(void *)JIT_add_string_local,
(void *)JIT_add_string_global,
NULL
};
bool GAMBAS_DoNotRaiseEvent = FALSE;
bool GAMBAS_StopEvent = FALSE;
static bool _event_stopped = FALSE;
static int _raise_event_level = 0;
#define CATCH_ERROR \
bool ret = FALSE; \
TRY
#define END_CATCH_ERROR \
CATCH \
{ \
ret = TRUE; \
} \
END_TRY \
if (ret) EXEC_set_native_error(TRUE); \
return ret;
#define CATCH_ERROR_INT \
int ret = 0; \
TRY
#define END_CATCH_ERROR_INT \
CATCH \
{ \
ret = -1; \
} \
END_TRY \
if (ret < 0) EXEC_set_native_error(TRUE); \
return ret;
bool GB_GetInterface(const char *name, int version, void *iface)
{
GB_LoadComponent(name);
if (LIBRARY_get_interface_by_name(name, version, iface))
ERROR_panic("Cannot find interface of library '%s'", name);
return FALSE;
}
void *GB_Hook(int type, void *hook)
{
void *old_hook;
void **phook = (void **)(void *)&EXEC_Hook;
if ((type < 0) || (type > GB_HOOK_MAX))
return NULL;
type--;
old_hook = phook[type];
if (hook)
phook[type] = hook;
type++;
if (type == GB_HOOK_LOOP && !old_hook)
{
if (phook[GB_HOOK_WATCH])
WATCH_transfer_watch();
if (phook[GB_HOOK_TIMER])
WATCH_transfer_timer();
}
return old_hook;
}
bool GB_LoadComponent(const char *name)
{
CATCH_ERROR
{
COMPONENT *comp = COMPONENT_create(name);
COMPONENT_load(comp);
}
END_CATCH_ERROR
}
static void push(int nval, va_list args)
{
TYPE type;
STACK_check(nval);
while (nval)
{
type = va_arg(args, int);
SP->type = type;
switch(type)
{
case T_INTEGER:
case T_BOOLEAN:
SP->_integer.value = va_arg(args, int);
break;
case T_LONG:
SP->_long.value = va_arg(args, int64_t);
break;
case T_STRING:
SP->type = T_CSTRING;
SP->_string.addr = va_arg(args, char *);
SP->_string.start = 0;
SP->_string.len = va_arg(args, int);
if (SP->_string.len <= 0 && SP->_string.addr)
SP->_string.len = strlen(SP->_string.addr);
break;
case T_FLOAT:
SP->_float.value = va_arg(args, double);
break;
case T_OBJECT:
SP->_object.object = va_arg(args, void *);
OBJECT_REF_CHECK(SP->_object.object);
break;
default:
ERROR_panic("GB.Push: unknown datatype");
break;
}
SP++;
nval--;
}
}
void GB_Push(int nval, ...)
{
va_list args;
va_start(args, nval);
push(nval, args);
va_end(args);
}
static void error(int code, CLASS *class, const char *name)
{
GB_Error((char *)(intptr_t)code, CLASS_get_name(class), name);
}
static CLASS_DESC *get_desc(CLASS *class, const char *name)
{
int index;
index = CLASS_find_symbol(class, name);
if (index == NO_SYMBOL)
{
error(E_NSYMBOL, class, name);
return NULL;
}
else
return class->table[index].desc;
}
void *GB_GetProperty(void *object, const char *name)
{
CLASS_DESC *desc;
CLASS *class;
char type;
//if (GB_CheckObject(object))
// return;
if (OBJECT_is_class(object))
{
class = (CLASS *)object;
object = NULL;
}
else
{
class = OBJECT_class(object);
}
desc = get_desc(class, name);
if (!desc)
return NULL;
type = CLASS_DESC_get_type(desc);
if (type == CD_PROPERTY || type == CD_PROPERTY_READ || type == CD_VARIABLE)
{
if (!object)
{
error(E_DYNAMIC, class, name);
return NULL;
}
}
else if (type == CD_STATIC_PROPERTY || type == CD_STATIC_PROPERTY_READ || type == CD_STATIC_VARIABLE || type == CD_CONSTANT)
{
if (object)
{
error(E_STATIC, class, name);
return NULL;
}
}
else
{
error(E_NPROPERTY, class, name);
return NULL;
}
if (type == CD_VARIABLE)
VALUE_read(&TEMP, (char *)object + desc->variable.offset, desc->property.type);
else if (type == CD_STATIC_VARIABLE)
VALUE_read(&TEMP, (char *)class->stat + desc->variable.offset, desc->property.type);
else if (type == CD_CONSTANT)
VALUE_read(&TEMP, (void *)&desc->constant.value, desc->constant.type);
else
{
if (desc->property.native)
{
if (EXEC_call_native(desc->property.read, object, desc->property.type, 0))
{
EXEC_set_native_error(TRUE);
return NULL;
}
}
else
{
EXEC.class = desc->property.class;
EXEC.object = object;
EXEC.nparam = 0;
EXEC.native = FALSE;
EXEC.index = (int)(intptr_t)desc->property.read;
//EXEC.func = &class->load->func[(long)desc->property.read];
EXEC_function_keep();
TEMP = *RP;
UNBORROW(RP);
RP->type = T_VOID;
}
}
return &TEMP;
}
bool GB_SetProperty(void *object, const char *name, GB_VALUE *val)
{
VALUE *value = (VALUE *)val;
CLASS_DESC *desc;
CLASS *class;
char type;
if (OBJECT_is_class(object))
{
class = (CLASS *)object;
object = NULL;
}
else
{
class = OBJECT_class(object);
}
desc = get_desc(class, name);
if (!desc)
return TRUE;
type = CLASS_DESC_get_type(desc);
if (type == CD_PROPERTY || type == CD_VARIABLE)
{
if (!object)
{
if (!class->auto_create)
{
error(E_DYNAMIC, class, name);
return TRUE;
}
object = EXEC_auto_create(class, TRUE);
}
}
else if (type == CD_STATIC_PROPERTY || type == CD_STATIC_VARIABLE)
{
if (object)
{
error(E_STATIC, class, name);
return TRUE;
}
}
else if (type == CD_PROPERTY_READ || type == CD_STATIC_PROPERTY_READ)
{
error(E_NWRITE, class, name);
return TRUE;
}
else
{
error(E_NPROPERTY, class, name);
return TRUE;
}
if (type == CD_VARIABLE)
VALUE_write(value, (char *)object + desc->variable.offset, desc->variable.type);
else if (type == CD_STATIC_VARIABLE)
VALUE_write(value, (char *)class->stat + desc->variable.offset, desc->variable.type);
else
{
if (desc->property.native)
{
VALUE_conv(value, desc->property.type);
if (EXEC_call_native(desc->property.write, object, 0, value))
{
EXEC_set_native_error(TRUE);
return TRUE;
}
}
else
{
*SP = *value;
BORROW(SP);
SP++;
EXEC.class = desc->property.class;
EXEC.object = object;
EXEC.nparam = 1;
EXEC.native = FALSE;
EXEC.index = (int)(intptr_t)desc->property.write;
//EXEC.func = &class->load->func[(long)desc->property.write];
EXEC_function();
/*VALUE_write(value, OBJECT_get_prop_addr(object, desc), desc->property.type);*/
}
}
return FALSE;
}
bool GB_CanRaise(void *object, int event_id)
{
ushort *event_tab;
int func_id;
COBSERVER *obs;
if (!object || !OBJECT_has_events(object))
return FALSE;
LIST_for_each(obs, OBJECT_event(object)->observer)
{
if (OBJECT_parent(obs) && obs->event && obs->event[event_id])
return TRUE;
}
if (!OBJECT_parent(object))
return FALSE;
event_tab = OBJECT_event(object)->event;
func_id = event_tab[event_id];
return (func_id != 0);
}
static int get_event_func_id(ushort *event_tab, int event_id)
{
int func_id;
if (!event_tab)
return 0;
func_id = event_tab[event_id];
if (!func_id)
return 0;
return func_id;
}
static bool raise_event(OBJECT *observer, void *object, int func_id, int nparam)
{
bool stop_event;
CLASS *class;
CLASS_DESC_METHOD *desc;
void *old_last;
bool result;
func_id--;
if (OBJECT_is_class(observer))
{
class = (CLASS *)observer; //OBJECT_class(object);
observer = NULL;
}
else
class = OBJECT_class(observer);
desc = &class->table[func_id].desc->method;
old_last = EVENT_Last;
EVENT_Last = object;
//OBJECT_REF(object, "raise_event");
// if (arg)
// {
// EXEC_dup(nparam);
// }
// else
// {
// va_start(args, nparam);
// push(nparam, args);
// va_end(args);
// }
stop_event = GAMBAS_StopEvent;
GAMBAS_StopEvent = FALSE;
TRY
{
EXEC_public_desc(class, observer, desc, nparam);
}
CATCH
{
if (ERROR->info.code && ERROR->info.code != E_ABORT && !STACK_has_error_handler())
{
ERROR_hook();
if (EXEC_debug)
{
DEBUG.Main(TRUE);
MAIN_exit(TRUE, 0);
}
else
{
if (!ERROR_print(TRUE))
MAIN_exit(TRUE, 1);
}
}
else
PROPAGATE();
}
END_TRY
if (RP->type == T_VOID)
result = FALSE;
else
result = RP->_boolean.value != 0;
if (GAMBAS_StopEvent)
result = TRUE;
GAMBAS_StopEvent = stop_event;
//OBJECT_UNREF(object, "raise_event");
EVENT_Last = old_last;
EXEC_release_return_value();
return result;
}
// If nparam < 0, the args are already on the stack
static GB_RAISE_HANDLER *_GB_Raise_handler = NULL;
static void error_GB_Raise(void *object, intptr_t nparam)
{
RELEASE_MANY(SP, (int)nparam);
OBJECT_UNREF(object);
_raise_event_level--;
if (_GB_Raise_handler && _GB_Raise_handler->level == _raise_event_level)
{
(*_GB_Raise_handler->callback)(_GB_Raise_handler->data);
_GB_Raise_handler = _GB_Raise_handler->old;
}
}
void GB_RaiseBegin(GB_RAISE_HANDLER *handler)
{
handler->old = _GB_Raise_handler;
handler->level = _raise_event_level;
_GB_Raise_handler = handler;
}
void GB_RaiseEnd(GB_RAISE_HANDLER *handler)
{
_GB_Raise_handler = handler->old;
}
bool GB_Raise(void *object, int event_id, int nparam, ...)
{
OBJECT *parent;
int func_id;
int result;
va_list args;
bool arg;
COBSERVER *obs;
if (GAMBAS_DoNotRaiseEvent)
return FALSE;
if (!OBJECT_is_valid(object) || !OBJECT_has_events(object))
return FALSE;
OBJECT_REF(object);
arg = nparam < 0;
nparam = abs(nparam);
_raise_event_level++;
ON_ERROR_2(error_GB_Raise, object, nparam)
{
if (!arg)
{
va_start(args, nparam);
push(nparam, args);
va_end(args);
}
result = FALSE;
// Observers before
LIST_for_each(obs, OBJECT_event(object)->observer)
{
parent = OBJECT_active_parent(obs);
if (!parent)
continue;
if (obs->after)
continue;
//if (obs->object != object)
// continue;
func_id = get_event_func_id(obs->event, event_id);
if (!func_id)
continue;
if (!OBJECT_is_valid(parent))
{
OBJECT_detach((OBJECT *)obs);
continue;
}
EXEC_dup(nparam);
result = raise_event(parent, object, func_id, nparam);
if (result)
goto __RETURN;
}
// Parent
parent = OBJECT_active_parent(object);
if (parent)
{
func_id = get_event_func_id(OBJECT_event(object)->event, event_id);
#if DEBUG_EVENT
CLASS *class = OBJECT_class(object);
fprintf(stderr, "GB_Raise(%p, %d, %s)\n", object, event_id, class->event[event_id].name);
fprintf(stderr, "func_id = %d parent = (%s %p)\n", func_id, parent->class->name, parent);
if (OBJECT_is_locked(parent))
fprintf(stderr, "parent is locked!\n");
#endif
if (func_id)
{
if (!OBJECT_is_valid(parent))
OBJECT_detach(object);
else
{
EXEC_dup(nparam);
result = raise_event(parent, object, func_id, nparam);
if (result)
goto __RETURN;
}
}
}
// Observers after
LIST_for_each(obs, OBJECT_event(object)->observer)
{
parent = OBJECT_active_parent(obs);
if (!parent)
continue;
if (!obs->after)
continue;
//if (obs->object != object)
// continue;
func_id = get_event_func_id(obs->event, event_id);
if (!func_id)
continue;
if (!OBJECT_is_valid(parent))
{
OBJECT_detach((OBJECT *)obs);
continue;
}
EXEC_dup(nparam);
result = raise_event(parent, object, func_id, nparam);
if (result)
goto __RETURN;
}
__RETURN:
RELEASE_MANY(SP, nparam);
OBJECT_UNREF(object);
}
END_ERROR
_raise_event_level--;
return result;
}
bool GB_GetFunction(GB_FUNCTION *_func, void *object, const char *name, const char *sign, const char *type)
{
GB_API_FUNCTION *func = (GB_API_FUNCTION *)_func;
char len_min, nparam, npvar;
TYPE *tsign;
TYPE tret;
int index;
CLASS *class;
int kind;
CLASS_DESC *desc;
bool error;
const char *err;
if (OBJECT_is_class(object))
{
class = (CLASS *)object;
kind = CD_STATIC_METHOD;
}
else
{
class = OBJECT_class(object);
kind = CD_METHOD;
}
CLASS_load(class);
index = CLASS_find_symbol(class, name);
if (index == NO_SYMBOL)
{
err = "Symbol not found";
goto _NOT_FOUND;
}
desc = class->table[index].desc;
if (CLASS_DESC_get_type(desc) != kind)
{
err = kind == CD_METHOD ? "Not a method" : "Not a static method";
goto _NOT_FOUND;
}
if (sign)
{
TYPE_signature_length(sign, &len_min, &nparam, &npvar);
tsign = NULL;
if (nparam)
{
ALLOC(&tsign, nparam * sizeof(TYPE));
tsign = TYPE_transform_signature(&tsign, sign, nparam);
}
error = TYPE_compare_signature(desc->method.signature, desc->method.npmax, tsign, nparam, FALSE);
if (nparam)
FREE(&tsign);
if (error)
{
err = "Parameters do not match";
goto _NOT_FOUND;
}
}
if (type)
{
tret = TYPE_from_string(&type);
if (tret != desc->method.type)
{
if (tret == T_VOID)
err = "Must be a procedure";
else if (desc->method.type == T_VOID)
err = "Must be a function";
else
err = "Return type does not match";
goto _NOT_FOUND;
}
}
func->object = kind == CD_STATIC_METHOD ? NULL : object;
func->desc = &desc->method;
if (!func->desc)
abort();
return FALSE;
_NOT_FOUND:
GB_Error("Unable to find method &1 in class &2. &3", name, CLASS_get_name(class), err);
func->object = NULL;
func->desc = NULL;
return TRUE;
}
void *GB_GetClassInterface(void *_class, const char *_name)
{
CLASS_DESC *desc;
int index;
CLASS *class = (CLASS *)_class;
int len = strlen(_name);
char name[len + 4];
CLASS_load(class);
strcpy(name, "_@");
strcat(name, _name);
index = CLASS_find_symbol(class, name);
if (index == NO_SYMBOL)
goto __NOT_FOUND;
desc = class->table[index].desc;
if (CLASS_DESC_get_type(desc) != CD_CONSTANT)
goto __NOT_FOUND;
if (desc->constant.type != T_POINTER)
goto __NOT_FOUND;
return desc->constant.value._pointer;
__NOT_FOUND:
return NULL;
}
GB_VALUE *GB_Call(GB_FUNCTION *_func, int nparam, int release)
{
GB_API_FUNCTION *func = (GB_API_FUNCTION *)_func;
bool stop_event;
if (!func || !func->desc)
GB_Error("Unknown function call");
//TEMP.type = GB_T_NULL;
else
{
stop_event = GAMBAS_StopEvent;
EXEC_public_desc(func->desc->class, func->object, func->desc, nparam);
_event_stopped = GAMBAS_StopEvent;
GAMBAS_StopEvent = stop_event;
if (release)
EXEC_release_return_value();
else
{
UNBORROW(RP);
TEMP = *RP;
RP->type = T_VOID;
}
}
return (GB_VALUE *)&TEMP;
}
int GB_GetEvent(void *class, char *name)
{
CLASS_DESC_EVENT *cd;
cd = CLASS_get_event_desc((CLASS *)class, name);
if (!cd)
return (-1);
else
return cd->index;
}
char *GB_GetLastEventName()
{
return EVENT_Name;
}
bool GB_Stopped(void)
{
return _event_stopped;
}
int GB_NParam(void)
{
return EXEC_unknown_nparam;
}
const char *GB_GetUnknown(void)
{
return EXEC_unknown_name;
}
void GB_OnErrorBegin(GB_ERROR_HANDLER *handler)
{
handler->prev = ERROR_handler;
handler->context = ERROR_current;
ERROR_handler = (ERROR_HANDLER *)handler;
}
void GB_OnErrorEnd(GB_ERROR_HANDLER *handler)
{
ERROR_handler = (ERROR_HANDLER *)handler->prev;
}
void GB_Error(const char *error, ...)
{
va_list args;
char *arg[4];
int i;
if (!error)
{
EXEC_set_native_error(FALSE);
return;
}
va_start(args, error);
for (i = 0; i < 4; i++)
arg[i] = va_arg(args, char *);
va_end(args);
ERROR_define(error, arg);
EXEC_set_native_error(TRUE);
}
void GB_Deprecated(const char *msg, const char *func, const char *repl)
{
if (EXEC_debug)
{
if (repl)
GB_Error("&1: &2 is deprecated. Use &3 instead", msg, func, repl);
else
GB_Error("&1: &2 is deprecated. Do not use it anymore", msg, func);
}
else
{
DEBUG_where();
if (repl)
fprintf(stderr, "%s: %s is deprecated. Use %s instead\n", msg, func, repl);
else
fprintf(stderr, "%s: %s is deprecated. Do not use it anymore\n", msg, func);
}
}
#if DEBUG_REF
#include <execinfo.h>
static void print_stack_backtrace()
{
void *trace[16];
char **messages = (char **)NULL;
int i, trace_size = 0;
trace_size = backtrace(trace, 16);
messages = backtrace_symbols(trace, trace_size);
//printf("[bt] Execution path:\n");
fprintf(stderr, "[ ");
for (i=0; i<trace_size; ++i)
fprintf(stderr, "%s ", messages[i]);
fprintf(stderr, "] ");
}
#endif
void GB_Ref(void *object)
{
#if TRACE_MEMORY
CLASS *save = CP;
CP = NULL;
#endif
if (object)
{
#if DEBUG_REF
print_stack_backtrace();
#endif
OBJECT_REF(object);
}
#if TRACE_MEMORY
CP = save;
#endif
}
void GB_Unref(void **object)
{
#if TRACE_MEMORY
CLASS *save = CP;
CP = NULL;
#endif
if (*object)
{
#if DEBUG_REF
print_stack_backtrace();
#endif
OBJECT_UNREF(*object);
}
#if TRACE_MEMORY
CP = save;
#endif
}
/*void GB_UnrefKeep(void **object, int delete)
{
#if TRACE_MEMORY
CLASS *save = CP;
CP = NULL;
#endif
if (*object != NULL)
{
#if DEBUG_REF
//print_stack_backtrace();
#endif
if (delete)
{
OBJECT_UNREF(*object);
}
else
{
OBJECT_UNREF_KEEP(*object);
}
}
#if TRACE_MEMORY
CP = save;
#endif
}*/
void GB_Detach(void *object)
{
if (object)
{
#if DEBUG_REF
//print_stack_backtrace();
#endif
OBJECT_detach(object);
}
}
void GB_Attach(void *object, void *parent, const char *name)
{
if (object)
{
#if DEBUG_REF
//print_stack_backtrace();
#endif
OBJECT_attach(object, parent, name);
}
}
void GB_StopEnum(void)
{
/* Do not forget than even if we stop the enumeration, the return value
of _next will be converted
*/
//VALUE_default(&TEMP, *GAMBAS_ReturnType);
TEMP.type = T_VOID;
EXEC_enum->stop = TRUE;
}
void *GB_GetEnum(void)
{
return (void *)&EXEC_enum->data;
}
static void *_enum_object;
void *GB_BeginEnum(void *enum_object)
{
CENUM *old = EXEC_enum;
EXEC_enum = NULL;
_enum_object = enum_object;
return old;
}
void GB_EndEnum(void *old_enum)
{
EXEC_enum = old_enum;
}
bool GB_NextEnum(void)
{
for(;;)
{
EXEC_enum = CENUM_get_next(EXEC_enum);
if (!EXEC_enum)
return TRUE;
if (EXEC_enum->enum_object == _enum_object && !EXEC_enum->stop)
return FALSE;
}
}
void GB_StopAllEnum(void *enum_object)
{
void *save = GB_BeginEnum(enum_object);
while (!GB_NextEnum())
GB_StopEnum();
GB_EndEnum(save);
}
GB_VALUE *GB_GetReturnValue(void)
{
return (GB_VALUE *)&TEMP;
}
void GB_Return(GB_TYPE type, ...)
{
static void *jump[16] = {
&&__VOID, &&__BOOLEAN, &&__BYTE, &&__SHORT, &&__INTEGER, &&__LONG, &&__SINGLE, &&__FLOAT, &&__DATE,
&&__STRING, &&__STRING, &&__POINTER, &&__VARIANT, &&__FUNCTION, &&__CLASS, &&__NULL
};
VALUE *ret = &TEMP;
va_list args;
va_start(args, type);
ret->type = type;
if (TYPE_is_object(type))
goto __OBJECT;
else
goto *jump[type];
__BOOLEAN:
ret->_integer.value = va_arg(args, int) ? (-1) : 0;
goto __CONV;
__BYTE:
ret->_integer.value = va_arg(args, int);
goto __CONV;
__SHORT:
ret->_integer.value = va_arg(args, int);
goto __CONV;
__INTEGER:
ret->_integer.value = va_arg(args, int);
goto __CONV;
__LONG:
ret->_long.value = va_arg(args, int64_t);
goto __CONV;
__SINGLE:
ret->_single.value = va_arg(args, double);
goto __CONV;
__FLOAT:
ret->_float.value = va_arg(args, double);
goto __CONV;
__DATE:
ret->_date.date = va_arg(args, int);
ret->_date.time = va_arg(args, int);
goto __CONV;
__OBJECT:
ret->_object.object = va_arg(args, void *);
goto __CONV;
__POINTER:
ret->_pointer.value = va_arg(args, void *);
goto __CONV;
__CLASS:
ret->_class.class = va_arg(args, CLASS *);
goto __CONV;
__CONV:
__STRING:
__VOID:
__VARIANT:
__FUNCTION:
__NULL:
va_end(args);
return;
}
void GB_ReturnInteger(int val)
{
TEMP.type = T_INTEGER;
TEMP._integer.value = val;
}
void GB_ReturnLong(int64_t val)
{
TEMP.type = T_LONG;
TEMP._long.value = val;
}
void GB_ReturnPointer(void *val)
{
TEMP.type = T_POINTER;
TEMP._pointer.value = val;
}
void GB_ReturnSingle(float val)
{
TEMP.type = T_SINGLE;
TEMP._single.value = val;
}
void GB_ReturnFloat(double val)
{
TEMP.type = T_FLOAT;
TEMP._float.value = val;
}
void GB_ReturnDate(GB_DATE *date)
{
TEMP.type = T_DATE;
if (date)
{
TEMP._date.date = date->value.date;
TEMP._date.time = date->value.time;
}
else
{
TEMP._date.date = 0;
TEMP._date.time = 0;
}
}
void GB_ReturnBoolean(int val)
{
TEMP.type = T_BOOLEAN;
TEMP._boolean.value = val ? -1 : 0;
}
void GB_ReturnObject(void *val)
{
if (val == NULL)
GB_ReturnNull();
else
{
TEMP.type = T_OBJECT; //OBJECT_class(val);
TEMP._object.object = val;
}
}
void GB_ReturnVariant(GB_VARIANT_VALUE *val)
{
TEMP._variant.type = T_VARIANT;
if (!val)
{
TEMP._variant.vtype = T_NULL;
}
else
{
//VALUE_read(&TEMP, value, type);
TEMP._variant.vtype = val->type;
if (TEMP._variant.vtype == T_VOID)
TEMP._variant.vtype = T_NULL;
VARIANT_copy_value(&TEMP._variant, (VARIANT *)val);
}
}
void GB_ReturnConvVariant(void)
{
BORROW(&TEMP);
VALUE_conv(&TEMP, T_VARIANT);
UNBORROW(&TEMP);
}
void GB_ReturnBorrow(void)
{
BORROW(&TEMP);
}
void GB_ReturnRelease(void)
{
UNBORROW(&TEMP);
}
void GB_ReturnPtr(GB_TYPE type, void *value)
{
if (type == T_VOID)
return;
if (!value)
VALUE_default(&TEMP, type);
else
VALUE_read(&TEMP, value, type);
}
void GB_ReturnSelf(void *object)
{
if (object)
{
TEMP.type = T_OBJECT;
TEMP._object.object = object;
}
else
{
TEMP.type = T_CLASS;
TEMP._class.class = NULL;
}
}
char *GB_ToZeroString(GB_STRING *src)
{
char *str;
str = STRING_new_temp(src->value.addr + src->value.start, src->value.len);
if (str == NULL)
return "";
else
return str;
}
void GB_ReturnString(char *str)
{
TEMP.type = T_STRING;
TEMP._string.addr = str;
TEMP._string.start = 0;
TEMP._string.len = STRING_length(str);
if (TEMP._string.len == 0)
TEMP._string.addr = 0;
}
void GB_ReturnConstString(const char *str, int len)
{
TEMP.type = T_CSTRING;
TEMP._string.addr = (char *)str;
TEMP._string.start = 0;
TEMP._string.len = len;
if (TEMP._string.len == 0)
TEMP._string.addr = 0;
}
void GB_ReturnConstZeroString(const char *str)
{
int len;
if (str)
len = strlen(str);
else
len = 0;
GB_ReturnConstString(str, len);
}
void GB_ReturnNewString(const char *src, int len)
{
if (len <= 0)
{
if (*src)
{
ERROR_warning("please use GB.ReturnNewZeroString() instead of GB.ReturnNewString()");
len = strlen(src);
}
else
{
GB_ReturnVoidString();
return;
}
}
GB_ReturnString(STRING_new_temp(src, len));
}
void GB_ReturnNewZeroString(const char *src)
{
GB_ReturnString(STRING_new_temp_zero(src));
}
void GB_ReturnNull(void)
{
VALUE_null(&TEMP);
}
void GB_ReturnVoidString(void)
{
STRING_void_value(&TEMP);
}
void *GB_GetClass(void *object)
{
if (object)
return OBJECT_class(object);
else
return EXEC.class;
}
char *GB_GetClassName(void *object)
{
CLASS *class = GB_GetClass(object);
return class == CLASS_Class ? CLASS_get_name((CLASS *)object) : CLASS_get_name(class);
}
bool GB_Is(void *object, void *class)
{
CLASS *ob_class;
if (!object)
return FALSE;
ob_class = OBJECT_class(object);
return ((ob_class == class) || CLASS_inherits(ob_class, class));
}
bool GB_LoadFile(const char *path, int lenp, char **addr, int *len)
{
bool ret = FALSE;
//fprintf(stderr, "GB_LoadFile: %.*s\n", lenp ? lenp : strlen(path), path);
TRY
{
*addr = 0;
*len = 0;
STREAM_map(STRING_conv_file_name(path, lenp), addr, len);
}
CATCH
{
if (*addr)
STREAM_unmap(*addr, *len);
ret = TRUE;
}
END_TRY
if (ret)
EXEC_set_native_error(TRUE);
return ret;
}
bool GB_ExistFile(const char *path)
{
return FILE_exist(path);
}
void GB_Store(GB_TYPE type, GB_VALUE *src, void *dst)
{
if (src != NULL)
VALUE_write((VALUE *)src, dst, type);
else
VALUE_free(dst, type);
}
void GB_StoreString(GB_STRING *src, char **dst)
{
STRING_unref(dst);
if (src)
{
*dst = STRING_new(src->value.addr + src->value.start, src->value.len);
}
else
*dst = NULL;
}
void GB_StoreObject(GB_OBJECT *src, void **dst)
{
void *object;
if (src)
object = src->value;
else
object = NULL;
OBJECT_REF_CHECK(object);
OBJECT_UNREF(*dst);
*dst = object;
}
void GB_StoreVariant(GB_VARIANT *src, void *dst)
{
/*GB_Store(GB_T_VARIANT, (GB_VALUE *)src, dst);*/
if (src)
{
VALUE_write((VALUE *)src, dst, T_VARIANT);
/*VARIANT_keep((VARIANT *)&src->value);
VARIANT_free((VARIANT *)dst);
*((VARIANT *)dst) = *((VARIANT *)&src->value);*/
}
else
{
VARIANT_free((VARIANT *)dst);
((VARIANT *)dst)->type = T_NULL;
}
}
void GB_BorrowValue(GB_VALUE *value)
{
BORROW((VALUE *)value);
}
void GB_ReleaseValue(GB_VALUE *value)
{
RELEASE((VALUE *)value);
}
void GB_Watch(int fd, int flag, void *callback, intptr_t param)
{
HOOK_DEFAULT(watch, WATCH_watch)(fd, flag, callback, param);
}
void *GB_Create(void *class, const char *name, void *parent)
{
void *object;
object = OBJECT_new(class, name, parent);
OBJECT_UNREF_KEEP(object);
return object;
}
void *GB_New(void *class, const char *name, void *parent)
{
if (name && !parent)
{
parent = OP;
if (!parent)
parent = CP;
}
if (!((CLASS *)class)->no_create)
{
int nparam = 0;
if (!name && parent)
{
nparam = (int)(intptr_t)parent;
parent = NULL;
}
return OBJECT_create(class, name, parent, nparam);
}
else
return GB_Create(class, name, parent);
}
bool GB_CheckObject(void *object)
{
CLASS *class;
if (object == NULL)
{
GB_Error((char *)E_NULL);
return TRUE;
}
class = OBJECT_class(object);
if (class->check && (*(class->check))(object))
{
GB_Error((char *)E_IOBJECT);
return TRUE;
}
return FALSE;
}
const char *GB_AppName(void)
{
return PROJECT_name;
}
const char *GB_AppPath(void)
{
return PROJECT_path;
}
const char *GB_AppTitle(void)
{
return LOCAL_gettext(PROJECT_title);
}
const char *GB_AppVersion(void)
{
return PROJECT_version;
}
void *GB_AppStartupClass(void)
{
return PROJECT_class;
}
void *GB_Eval(void *expr, void *func)
{
bool err = EVAL_expression((EXPRESSION *)expr, (EVAL_FUNCTION)func);
EXEC_set_native_error(err);
if (err)
return NULL;
else
return &TEMP;
}
void GB_Alloc(void **addr, int len)
{
ALLOC(addr, len);
}
void GB_AllocZero(void **addr, int len)
{
ALLOC_ZERO(addr, len);
}
void GB_Free(void **addr)
{
FREE(addr);
}
void GB_Realloc(void **addr, int len)
{
REALLOC(addr, len);
}
bool GB_Conv(GB_VALUE *arg, GB_TYPE type)
{
CATCH_ERROR
{
VALUE_conv((VALUE *)arg, (GB_TYPE)type);
}
END_CATCH_ERROR
}
DATE_SERIAL *GB_SplitDate(GB_VALUE *arg)
{
return DATE_split((VALUE *)arg);
}
bool GB_MakeDate(DATE_SERIAL *date, GB_DATE *arg)
{
return DATE_make(date, (VALUE *)arg);
}
int GB_StringLength(const char *str)
{
return STRING_length(str);
}
bool GB_NumberToString(int local, double value, const char *format, char **str, int *len)
{
return
LOCAL_format_number
(
value,
format ? LF_USER : LF_GENERAL_NUMBER,
format,
format ? strlen(format) : 0,
str, len, local != 0
);
}
void GB_HashTableNew(GB_HASHTABLE *hash, int mode)
{
HASH_TABLE_create((HASH_TABLE **)hash, sizeof(void *), mode);
}
void GB_HashTableAdd(GB_HASHTABLE hash, const char *key, int len, void *data)
{
if (len <= 0)
len = strlen(key);
*((void **)HASH_TABLE_insert((HASH_TABLE *)hash, key, len)) = data;
}
void GB_HashTableRemove(GB_HASHTABLE hash, const char *key, int len)
{
if (len <= 0)
len = strlen(key);
HASH_TABLE_remove((HASH_TABLE *)hash, key, len);
}
bool GB_HashTableGet(GB_HASHTABLE hash, const char *key, int len, void **data)
{
void **pdata;
if (len <= 0)
len = strlen(key);
pdata = (void **)HASH_TABLE_lookup((HASH_TABLE *)hash, key, len, FALSE);
if (pdata)
{
*data = *pdata;
return FALSE;
}
else
return TRUE;
}
void GB_HashTableEnum(GB_HASHTABLE hash, GB_HASHTABLE_ENUM_FUNC func)
{
HASH_ENUM iter;
void **pdata;
CLEAR(&iter);
for(;;)
{
pdata = (void **)HASH_TABLE_next((HASH_TABLE *)hash, &iter, FALSE);
if (!pdata)
break;
(*func)(*pdata);
}
}
bool GB_HashTableFirst(GB_HASHTABLE hash, void **data)
{
HASH_ENUM iter;
void **pdata;
CLEAR(&iter);
pdata = (void **)HASH_TABLE_next((HASH_TABLE *)hash, &iter, FALSE);
if (pdata)
{
*data = *pdata;
return FALSE;
}
else
return TRUE;
}
void GB_NewArray(void *pdata, int size, int count)
{
ARRAY_create_with_size(pdata, size, 16);
if (count)
ARRAY_add_data(pdata, count, TRUE);
}
int GB_CountArray(void *data)
{
return ARRAY_count(data);
}
void *GB_Add(void *pdata)
{
return ARRAY_add_void_size(pdata);
}
char *GB_NewZeroString(char *src)
{
return STRING_new_zero(src);
}
char *GB_TempString(char *src, int len)
{
return STRING_new_temp(src, len);
}
char *GB_RefString(char *str)
{
STRING_ref(str);
return str;
}
void GB_FreeString(char **str)
{
STRING_unref(str);
*str = NULL;
}
bool GB_ConvString(char **result, const char *str, int len, const char *src, const char *dst)
{
CATCH_ERROR
{
STRING_conv(result, str, len, src, dst, TRUE);
}
END_CATCH_ERROR
}
char *GB_SystemCharset(void)
{
return LOCAL_is_UTF8 ? "UTF-8" : LOCAL_encoding;
}
char *GB_SystemDomainName(void)
{
char host[256], domain[256];
if (gethostname(host, sizeof(host) - 1))
return "";
if (getdomainname(domain, sizeof(domain) - 1))
return "";
if ((strlen(host) + strlen(domain)) > COMMON_BUF_MAX)
return "";
*COMMON_buffer = 0;
if (*domain && strcmp(domain, "(none)"))
{
strcpy(COMMON_buffer, domain);
strcat(COMMON_buffer, ".");
}
strcat(COMMON_buffer, host);
return COMMON_buffer;
}
bool GB_IsRightToLeft(void)
{
return LOCAL_local.rtl;
}
char *GB_SystemPath(void)
{
return PROJECT_exec_path;
}
/*void GB_StreamInit(GB_STREAM *stream, int fd)
{
STREAM *s = (STREAM *)stream;
s->type = &STREAM_direct;
s->direct.fd = fd;
}*/
GB_STREAM *GB_StreamGet(void *object)
{
return (GB_STREAM *)CSTREAM_TO_STREAM(object);
}
void GB_StreamSetSwapping(GB_STREAM *stream, int v)
{
((STREAM *)stream)->common.swap = v;
}
void GB_StreamSetAvailableNow(GB_STREAM *stream, int v)
{
((STREAM *)stream)->common.available_now = v;
}
bool GB_StreamBlock(GB_STREAM *stream, int block)
{
STREAM *st = (STREAM *)stream;
bool old = STREAM_is_blocking(st);
STREAM_blocking(st, block);
return old;
}
int GB_StreamRead(GB_STREAM *stream, void *addr, int len)
{
CATCH_ERROR_INT
{
if (len < 0)
ret = STREAM_read_max((STREAM *)stream, addr, -len);
else
ret = STREAM_read((STREAM *)stream, addr, len);
}
END_CATCH_ERROR_INT
}
int GB_StreamWrite(GB_STREAM *stream, void *addr, int len)
{
CATCH_ERROR_INT
{
STREAM_write((STREAM *)stream, addr, len);
ret = len;
}
END_CATCH_ERROR_INT
}
int GB_tolower(int c)
{
return tolower(c);
}
int GB_toupper(int c)
{
return toupper(c);
}
char *GB_TempDir(void)
{
return FILE_make_temp(NULL, NULL);
}
char *GB_TempFile(const char *pattern)
{
int len;
return FILE_make_temp(&len, pattern);
}
bool GB_CopyFile(const char *src, const char *dst)
{
CATCH_ERROR
{
FILE_copy(src, dst);
}
END_CATCH_ERROR
}
#if 0
int GB_FindFile(const char *dir, int recursive, int follow, void (*found)(const char *))
{
int ret = 0;
char *pattern;
int len_pattern;
char *str;
TRY
{
if (recursive)
FILE_recursive_dir(dir, found, NULL, 0, follow);
else
{
FILE_dir_first(dir, NULL, 0);
while (!FILE_dir_next(&pattern, &len_pattern))
{
if (!LOCAL_is_UTF8)
{
if (STRING_conv(&str, pattern, len_pattern, LOCAL_encoding, SC_UTF8, FALSE))
STRING_new(&str, pattern, len_pattern);
else
STRING_ref(str);
}
else
STRING_new(&str, pattern, len_pattern);
(*found)(str);
STRING_unref(&str);
}
}
}
CATCH
{
ret = 1;
GAMBAS_Error = TRUE;
}
END_TRY;
return ret;
}
#endif
bool GB_StatFile(const char *path, GB_FILE_STAT *info, bool follow)
{
CATCH_ERROR
{
FILE_stat(path, (FILE_STAT *)info, follow);
}
END_CATCH_ERROR
}
char *GB_RealFileName(const char *name, int len)
{
char *path = STRING_conv_file_name(name, len);
char *real;
char *temp;
if (!STREAM_in_archive(path))
return path;
temp = FILE_make_temp(NULL, NULL);
real = STRING_new_temp(NULL, strlen(temp) + strlen(path) + strlen("/data/"));
snprintf(real, strlen(temp) + strlen(path) + strlen("/data/") + 1, "%s/data/%s", temp, path);
if (!FILE_exist(real))
{
TRY
{
FILE_make_path_dir(real);
FILE_copy(path, real);
}
CATCH
{
real = path;
}
END_TRY
}
return real;
}
static GB_BROWSE_PROJECT_CALLBACK _browse_project_func;
static void project_file_found(const char *path)
{
FILE_STAT info;
FILE_stat(path, &info, FALSE);
(*_browse_project_func)(path, info.size);
}
void GB_BrowseProject(GB_BROWSE_PROJECT_CALLBACK func)
{
ARCHIVE *arch = NULL;
ARCHIVE_get_current(&arch);
if (!arch || (arch == ARCHIVE_main && !EXEC_arch))
{
_browse_project_func = func;
FILE_recursive_dir(PROJECT_path, project_file_found, NULL, 0, FALSE);
}
else
ARCHIVE_browse(arch, func);
}
void GB_BrowseDirectory(const char *dir, GB_BROWSE_CALLBACK before, GB_BROWSE_CALLBACK after)
{
FILE_recursive_dir(dir, before, after, 0, FALSE);
}
const char *GB_CurrentComponent()
{
ARCHIVE *arch;
ARCHIVE_get_current(&arch);
return arch->name ? arch->name : "";
}
void *GB_DebugGetExec(void)
{
return &EXEC_current;
}
void GB_DebugBreakOnError(bool b)
{
EXEC_break_on_error = b;
}
bool GB_SystemDebug(void)
{
return EXEC_debug;
}
void GB_SystemHasForked(void)
{
MATH_init();
FILE_init();
LOCAL_init();
if (EXEC_profile)
DEBUG.Profile.Cancel();
EXEC_profile = FALSE;
EXEC_profile_instr = FALSE;
SIGNAL_has_forked();
}
bool GB_ExistClass(const char *name)
{
return CLASS_look_global(name, strlen(name)) != NULL;
}
bool GB_ExistClassLocal(const char *name)
{
return CLASS_look(name, strlen(name)) != NULL;
}
TYPE GB_GetArrayType(void *klass)
{
return ((CLASS *)klass)->array_type;
}
void GB_Wait(int delay)
{
struct timespec rem;
double wait;
double stop, time;
DEBUG_enter_event_loop();
if (delay <= 0)
{
HOOK_DEFAULT(wait, WATCH_wait)(delay);
}
else
{
wait = delay / 1000.0;
DATE_timer(&stop, FALSE);
stop += wait;
for(;;)
{
HOOK_DEFAULT(wait, WATCH_wait)((int)(wait * 1000 + 0.5));
if (DATE_timer(&time, FALSE))
break;
wait = stop - time;
if (wait <= 0.0)
break;
rem.tv_sec = 0;
rem.tv_nsec = 1000000;
nanosleep(&rem, &rem);
}
}
DEBUG_leave_event_loop();
}
bool GB_Serialize(const char *path, GB_VALUE *value)
{
STREAM stream;
CATCH_ERROR
{
STREAM_open(&stream, path, STO_CREATE);
STREAM_write_type(&stream, T_VARIANT, (VALUE *)value);
STREAM_close(&stream);
}
END_CATCH_ERROR
}
bool GB_UnSerialize(const char *path, GB_VALUE *value)
{
STREAM stream;
CATCH_ERROR
{
STREAM_open(&stream, path, STO_READ);
STREAM_read_type(&stream, T_VARIANT, (VALUE *)value);
STREAM_close(&stream);
}
END_CATCH_ERROR
}