gambas-source-code/main/gbx/gbx_c_array.c
Benoît Minisini fa8ba3d4c1 [INTERPRETER]
* BUG: Raise a memory error when trying to allocate a too large 
  array.

[GB.GTK]
* BUG: Fix the management of cell spanning.

[GB.QT4]
* BUG: Fix the management of cell spanning.


git-svn-id: svn://localhost/gambas/trunk@2143 867c0c6c-44f3-4631-809d-bfa615b0a4ec
2009-07-21 13:14:01 +00:00

1672 lines
38 KiB
C

/***************************************************************************
gbx_c_array.c
The Array native classes.
(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_C_ARRAY_C
#include "gbx_info.h"
#ifndef GBX_INFO
#include <limits.h>
#include "gb_common.h"
#include "gb_error.h"
#include "gb_array.h"
#include "gb_limit.h"
#include "gbx_class.h"
#include "gbx_exec.h"
#include "gbx_date.h"
#include "gbx_variant.h"
#include "gbx_compare.h"
#include "gbx_class.h"
#include "gbx_object.h"
#include "gbx_api.h"
#include "gbx_print.h"
#include "gbx_c_file.h"
#include "gbx_c_array.h"
static bool check_not_multi(CARRAY *_object)
{
if (THIS->dim)
{
GB_Error("Array is multi-dimensional");
return TRUE;
}
else
return FALSE;
}
static int get_dim(CARRAY *_object)
{
int d;
if (!THIS->dim)
return 1;
else
{
for(d = 0;; d++)
{
if (THIS->dim[d] < 0)
return (d + 1);
}
}
}
static int get_bound(CARRAY *_object, int d)
{
if (!THIS->dim)
return ARRAY_count(THIS);
else
{
d = THIS->dim[d];
if (d < 0)
d = (-d);
return d;
}
}
void *CARRAY_out_of_bound()
{
GB_Error((char *)E_BOUND);
return NULL;
}
// static void *get_data(CARRAY *_object, int index)
// {
// if ((index < 0) || (index >= ARRAY_count(THIS->data)))
// {
// return NULL;
// }
//
// return (void *)((char *)(THIS->data) + index * TYPE_sizeof_memory(THIS->type));
// }
#define get_data_multi CARRAY_get_data_multi
#define get_data CARRAY_get_data
void *CARRAY_get_data_multi(CARRAY *_object, GB_INTEGER *arg, int nparam)
{
int index;
//fprintf(stderr, "get_data_multi: nparam = %d\n", nparam);
if (THIS->dim)
{
int max;
int i;
int d;
bool stop = FALSE;
index = 0;
nparam--;
for (i = 0;; i++)
{
if (i > nparam)
break;
max = THIS->dim[i];
if (max < 0)
{
max = (-max);
stop = TRUE;
}
VALUE_conv((VALUE *)&arg[i], GB_T_INTEGER);
d = arg[i].value;
if (d < 0 || d >= max)
{
GB_Error((char *)E_BOUND);
return NULL;
}
index *= max;
index += d;
if (stop)
break;
}
if (i != nparam)
{
GB_Error((char *)E_NDIM);
return NULL;
}
}
else
{
if (nparam != 1)
{
GB_Error((char *)E_NDIM);
return NULL;
}
index = arg->value;
if ((index < 0) || (index >= ARRAY_count(THIS->data)))
{
GB_Error((char *)E_BOUND);
return NULL;
}
}
return (void *)((char *)(THIS->data) + index * TYPE_sizeof_memory(THIS->type));
}
static void release_one(CARRAY *_object, int i)
{
if (THIS->type == T_STRING)
STRING_unref(&(((char **)(THIS->data))[i]));
else if (THIS->type == T_VARIANT)
VARIANT_free(&(((VARIANT *)(THIS->data))[i]));
else if (TYPE_is_object(THIS->type))
OBJECT_UNREF(((void **)(THIS->data))[i], "release_one");
}
static void release(CARRAY *_object, int start, int end)
{
int i;
if (end < 0)
end = ARRAY_count(THIS->data);
if (THIS->type == T_STRING)
{
for (i = start; i < end; i++)
STRING_unref(&((char **)(THIS->data))[i]);
}
else if (THIS->type == T_VARIANT)
{
for (i = start; i < end; i++)
VARIANT_free(&((VARIANT *)(THIS->data))[i]);
}
else if (TYPE_is_object(THIS->type))
{
for (i = start; i < end; i++)
OBJECT_UNREF(((void **)(THIS->data))[i], "release");
}
}
static void borrow(CARRAY *_object, int start, int end)
{
int i;
if (end < 0)
end = ARRAY_count(THIS->data);
if (THIS->type == T_STRING)
{
for (i = start; i < end; i++)
STRING_ref(((char **)(THIS->data))[i]);
}
else if (THIS->type == T_VARIANT)
{
for (i = start; i < end; i++)
VARIANT_keep(&((VARIANT *)(THIS->data))[i]);
}
else if (TYPE_is_object(THIS->type))
{
for (i = start; i < end; i++)
OBJECT_ref(((void **)(THIS->data))[i]);
}
}
static void clear(CARRAY *_object)
{
release(THIS, 0, -1);
if (THIS->dim)
{
memset(THIS->data, 0, TYPE_sizeof_memory(THIS->type) * ARRAY_count(THIS->data));
}
else
{
ARRAY_delete(&THIS->data);
ARRAY_create_with_size(&THIS->data, TYPE_sizeof_memory(THIS->type), 8);
}
}
static void *insert(CARRAY *_object, int index)
{
return ARRAY_insert(&THIS->data, index);
}
void CARRAY_get_value(CARRAY *_object, int index, VALUE *value)
{
VALUE_read(value, get_data(THIS, index), THIS->type);
}
BEGIN_METHOD(CARRAY_new, GB_INTEGER size)
TYPE type;
CLASS *klass;
uint64_t size;
int max_size;
int inc;
GB_INTEGER *sizes = ARG(size);
int nsize = GB_NParam() + 1;
int i;
klass = OBJECT_class(THIS);
if (klass == CLASS_IntegerArray)
type = T_INTEGER;
else if (klass == CLASS_ShortArray)
type = T_SHORT;
else if (klass == CLASS_BooleanArray)
type = T_BOOLEAN;
else if (klass == CLASS_ByteArray)
type = T_BYTE;
else if (klass == CLASS_LongArray)
type = T_LONG;
else if (klass == CLASS_SingleArray)
type = T_SINGLE;
else if (klass == CLASS_FloatArray)
type = T_FLOAT;
else if (klass == CLASS_DateArray)
type = T_DATE;
else if (klass == CLASS_StringArray)
type = T_STRING;
else if (klass == CLASS_VariantArray)
type = T_VARIANT;
else if (klass == CLASS_PointerArray)
type = T_POINTER;
else if (klass == CLASS_ObjectArray)
type = T_OBJECT;
else
{
type = (TYPE)klass->array_type;
if (!type)
{
GB_Error("Bad array type");
return;
}
}
//printf("CARRAY_new: type = %d nsize = %d\n", type, nsize);
THIS->type = type;
max_size = INT_MAX / TYPE_sizeof_memory(type);
if (nsize <= 1)
{
size = VARGOPT(size, 0);
if (size > max_size)
THROW(E_MEMORY);
if (size < 0)
size = 0;
inc = (size / 8) & ~7;
if (inc < 8)
inc = 8;
ARRAY_create_with_size(&THIS->data, TYPE_sizeof_memory(type), inc);
if (size > 0)
ARRAY_add_many_void(&THIS->data, size);
}
else
{
if (nsize > MAX_ARRAY_DIM)
{
GB_Error("Too many dimensions");
return;
}
size = 1;
for (i = 0; i < nsize; i++)
{
VALUE_conv((VALUE *)&sizes[i], T_INTEGER);
if (sizes[i].value < 1)
{
GB_Error("Bad dimension");
return;
}
size *= sizes[i].value;
if (size > max_size)
THROW(E_MEMORY);
}
ALLOC_ZERO(&THIS->dim, nsize * sizeof(int), "CARRAY_new");
for (i = 0; i < nsize; i++)
THIS->dim[i] = sizes[i].value;
THIS->dim[nsize - 1] = (-THIS->dim[nsize - 1]);
ARRAY_create_with_size(&THIS->data, TYPE_sizeof_memory(type), 8);
ARRAY_add_many_void(&THIS->data, (int)size);
}
END_METHOD
BEGIN_PROPERTY(CARRAY_type)
GB_ReturnInteger(THIS->type);
END_PROPERTY
BEGIN_METHOD_VOID(CARRAY_free)
release(THIS, 0, -1);
ARRAY_delete(&THIS->data);
if (THIS->dim)
FREE(&THIS->dim, "CARRAY_free");
END_METHOD
BEGIN_METHOD_VOID(CARRAY_clear)
clear(THIS);
END_METHOD
BEGIN_PROPERTY(CARRAY_data)
GB_ReturnPointer(THIS->data);
END_PROPERTY
BEGIN_PROPERTY(CARRAY_count)
GB_ReturnInt(ARRAY_count(THIS->data));
END_PROPERTY
BEGIN_PROPERTY(CARRAY_max)
GB_ReturnInt(ARRAY_count(THIS->data) - 1);
END_PROPERTY
static bool copy_remove(CARRAY *_object, int start, int length, bool copy, bool remove)
{
CARRAY *array;
int count = ARRAY_count(THIS->data);
void *data;
int i, nsize;
if (check_not_multi(THIS) && (start != 0 || length != -1))
return TRUE;
if (start < 0)
{
GB_Error((char *)E_BOUND);
return TRUE;
}
if (start >= count)
length = 0;
if (length == -1)
length = count - start;
if (length < 0 || (start + length) > count)
{
GB_Error((char *)E_BOUND);
return TRUE;
}
if (copy)
{
GB_ArrayNew((GB_ARRAY *)POINTER(&array), THIS->type, 0);
if (length > 0)
{
data = ARRAY_insert_many(&array->data, 0, length);
memmove(data, get_data(THIS, start), length * TYPE_sizeof_memory(THIS->type));
borrow(array, 0, -1);
}
if (THIS->dim)
{
nsize = get_dim(THIS);
ALLOC_ZERO(&array->dim, nsize * sizeof(int), "copy_remove");
for (i = 0; i < nsize; i++)
array->dim[i] = THIS->dim[i];
}
}
if (remove)
{
release(THIS, start, start + length);
ARRAY_remove_many(&THIS->data, start, length);
}
if (copy)
GB_ReturnObject(array);
return FALSE;
}
BEGIN_METHOD(CARRAY_remove, GB_INTEGER index; GB_INTEGER length)
copy_remove(THIS, VARG(index), VARGOPT(length, 1), FALSE, TRUE);
END_METHOD
BEGIN_METHOD(CARRAY_copy, GB_INTEGER start; GB_INTEGER length)
int start, length;
if (MISSING(start) && MISSING(length))
{
start = 0;
length = -1;
}
else
{
start = VARGOPT(start, 0);
length = VARGOPT(length, 1);
}
copy_remove(THIS, start, length, TRUE, FALSE);
END_METHOD
BEGIN_METHOD(CARRAY_extract, GB_INTEGER start; GB_INTEGER length)
copy_remove(THIS, VARG(start), VARGOPT(length, 1), TRUE, TRUE);
END_METHOD
BEGIN_METHOD(CARRAY_resize, GB_INTEGER size)
int size = VARG(size);
int count = ARRAY_count(THIS->data);
if (check_not_multi(THIS))
return;
if (size > count)
{
ARRAY_add_many_void(&THIS->data, size - count);
}
else if ((size < count) && (size >= 0))
{
release(THIS, size, -1);
ARRAY_remove_many(&THIS->data, size, count - size);
}
END_METHOD
static void add(CARRAY *_object, GB_VALUE *value, int index)
{
void *data;
if (check_not_multi(THIS))
return;
data = insert(THIS, index);
/*GB_Conv(value, THIS->type);*/
GB_Store(THIS->type, value, data);
}
#define IMPLEMENT_add(_type, _gtype) \
BEGIN_METHOD(CARRAY_##_type##_add, GB_##_gtype value; GB_INTEGER index) \
\
add(THIS, (GB_VALUE *)(void *)ARG(value), VARGOPT(index, -1)); \
\
END_METHOD \
\
BEGIN_METHOD(CARRAY_##_type##_push, GB_##_gtype value) \
\
add(THIS, (GB_VALUE *)(void *)ARG(value), -1); \
\
END_METHOD
IMPLEMENT_add(integer, INTEGER)
IMPLEMENT_add(long, LONG)
IMPLEMENT_add(float, FLOAT)
IMPLEMENT_add(date, DATE)
IMPLEMENT_add(string, STRING)
IMPLEMENT_add(object, OBJECT)
IMPLEMENT_add(variant, VARIANT)
BEGIN_METHOD(CARRAY_add, GB_VARIANT value; GB_INTEGER index)
GB_VALUE *value = (GB_VALUE *)(void *)ARG(value);
GB_Conv(value, THIS->type);
add(THIS, value, VARGOPT(index, -1));
END_METHOD
BEGIN_METHOD(CARRAY_push, GB_VARIANT value)
GB_VALUE *value = (GB_VALUE *)(void *)ARG(value);
GB_Conv(value, THIS->type);
add(THIS, value, -1);
END_METHOD
#define IMPLEMENT_put(_type, _gtype) \
BEGIN_METHOD(CARRAY_##_type##_put, GB_##_gtype value; GB_INTEGER index) \
\
void *data = get_data_multi(THIS, ARG(index), GB_NParam() + 1); \
if (!data) return; \
GB_Store(GB_T_##_gtype, (GB_VALUE *)(void *)ARG(value), data); \
\
END_METHOD
#define IMPLEMENT_put2(_type, _gtype, _gstore) \
BEGIN_METHOD(CARRAY_##_type##_put, GB_##_gtype value; GB_INTEGER index) \
\
void *data = get_data_multi(THIS, ARG(index), GB_NParam() + 1); \
if (!data) return; \
GB_Store(GB_T_##_gstore, (GB_VALUE *)(void *)ARG(value), data); \
\
END_METHOD
BEGIN_METHOD(CARRAY_put, GB_VARIANT value; GB_INTEGER index)
GB_VALUE *value;
void *data;
value = (GB_VALUE *)(void *)ARG(value);
GB_Conv(value, THIS->type);
data = get_data_multi(THIS, ARG(index), GB_NParam() + 1);
if (!data) return;
GB_Store(THIS->type, value, data);
END_METHOD
IMPLEMENT_put(integer, INTEGER)
IMPLEMENT_put2(short, INTEGER, SHORT)
IMPLEMENT_put2(byte, INTEGER, BYTE)
IMPLEMENT_put2(boolean, INTEGER, BOOLEAN)
IMPLEMENT_put(long, LONG)
IMPLEMENT_put(float, FLOAT)
IMPLEMENT_put2(single, FLOAT, SINGLE)
IMPLEMENT_put(date, DATE)
IMPLEMENT_put(string, STRING)
IMPLEMENT_put(object, OBJECT)
IMPLEMENT_put(variant, VARIANT)
BEGIN_METHOD(CARRAY_fill, GB_VALUE value; GB_INTEGER start; GB_INTEGER length)
int count = ARRAY_count(THIS->data);
int start = VARGOPT(start, 0);
int length = VARGOPT(length, count);
int i;
void *data;
int size;
if ((start + length) > count)
length = count - start;
VALUE_conv((VALUE *)ARG(value), THIS->type);
data = get_data(THIS, start);
size = TYPE_sizeof_memory(THIS->type);
for (i = 0; i < length; i++)
{
GB_Store(THIS->type, (GB_VALUE *)ARG(value), data);
data += size;
}
END_METHOD
BEGIN_METHOD(CARRAY_insert, GB_OBJECT array; GB_INTEGER pos)
int pos = VARGOPT(pos, -1);
CARRAY *array = (CARRAY *)VARG(array);
void *data;
int count;
if (GB_CheckObject(array))
return;
if (check_not_multi(THIS))
{
GB_ReturnNull();
return;
}
count = ARRAY_count(array->data);
if (count > 0)
{
if (pos < 0)
pos = ARRAY_count(THIS->data);
data = ARRAY_insert_many(&THIS->data, pos, count);
borrow(array, 0, -1);
memmove(data, array->data, count * TYPE_sizeof_memory(THIS->type));
}
GB_ReturnObject(THIS);
END_METHOD
BEGIN_METHOD_VOID(CARRAY_pop)
int index = ARRAY_count(THIS->data) - 1;
if (check_not_multi(THIS))
return;
if (index < 0)
{
GB_Error((char *)E_ARG);
return;
}
GB_ReturnPtr(THIS->type, get_data(THIS, index));
BORROW(&TEMP);
release_one(THIS, index);
ARRAY_remove(&THIS->data, index);
UNBORROW(&TEMP);
END_METHOD
BEGIN_METHOD(CARRAY_get, GB_INTEGER index)
void *data = get_data_multi(THIS, ARG(index), GB_NParam() + 1);
if (data)
GB_ReturnPtr(THIS->type, data);
END_METHOD
BEGIN_METHOD_VOID(CARRAY_next)
int *index = (int *)GB_GetEnum();
if (*index >= ARRAY_count(THIS->data))
GB_StopEnum();
else
{
GB_ReturnPtr(THIS->type, get_data(THIS, *index));
(*index)++;
}
END_METHOD
BEGIN_METHOD(CARRAY_sort, GB_INTEGER mode)
COMPARE_FUNC compare;
int mode = VARGOPT(mode, 0);
void *data = THIS->data;
if (ARRAY_count(data) > 1)
{
compare = COMPARE_get(THIS->type, mode);
qsort(data, ARRAY_count(data), TYPE_sizeof_memory(THIS->type), compare);
}
GB_ReturnObject(THIS);
END_METHOD
static int find(CARRAY *_object, int mode, void *value)
{
COMPARE_FUNC compare = COMPARE_get(THIS->type, mode);
int i;
for (i = 0; i < ARRAY_count(THIS->data); i++)
{
if ((*compare)(value, get_data(THIS, i)) == 0)
return i;
}
return (-1);
}
#define IMPLEMENT_find(_type, _gtype) \
BEGIN_METHOD(CARRAY_##_type##_find, _gtype value) \
\
GB_ReturnInt(find(THIS, 0, &VARG(value))); \
\
END_METHOD \
BEGIN_METHOD(CARRAY_##_type##_exist, _gtype value) \
\
GB_ReturnBoolean(find(THIS, 0, &VARG(value)) >= 0); \
\
END_METHOD
IMPLEMENT_find(integer, GB_INTEGER)
/*IMPLEMENT_find(short, GB_INTEGER)
IMPLEMENT_find(byte, GB_INTEGER)*/
IMPLEMENT_find(long, GB_LONG)
IMPLEMENT_find(float, GB_FLOAT)
IMPLEMENT_find(date, GB_DATE)
static int find_object(CARRAY *_object, void *value)
{
int i;
for (i = 0; i < ARRAY_count(THIS->data); i++)
{
if (*((void **)get_data(THIS, i)) == value)
return i;
}
return (-1);
}
BEGIN_METHOD(CARRAY_object_find, GB_OBJECT value)
GB_ReturnInt(find_object(THIS, VARG(value)));
END_METHOD
BEGIN_METHOD(CARRAY_object_exist, GB_OBJECT value)
GB_ReturnBoolean(find_object(THIS, VARG(value)) >= 0);
END_METHOD
BEGIN_METHOD(CARRAY_string_find, GB_STRING value; GB_INTEGER mode)
char *str = GB_ToZeroString(ARG(value));
GB_ReturnInteger(find(THIS, VARGOPT(mode, 0), &str));
END_METHOD
BEGIN_METHOD(CARRAY_string_exist, GB_STRING value; GB_INTEGER mode)
char *str = GB_ToZeroString(ARG(value));
GB_ReturnInteger(find(THIS, VARGOPT(mode, 0), &str) >= 0);
END_METHOD
BEGIN_METHOD(CARRAY_string_join, GB_STRING sep; GB_STRING esc)
char *sep = ",";
int lsep = 1;
char *esc = "";
int lesc = 0;
char escl, NO_WARNING(escr);
int i;
char **data = (char **)THIS->data;
char *p, *p2;
int l, max;
if (!MISSING(sep))
{
sep = STRING(sep);
lsep = LENGTH(sep);
}
if (!MISSING(esc))
{
esc = STRING(esc);
lesc = LENGTH(esc);
if (lesc == 1)
escl = escr = esc[0];
else if (lesc >= 2)
{
escl = esc[0];
escr = esc[1];
}
}
if (!lesc)
{
max = 0;
for (i = 0; i < ARRAY_count(data); i++)
max += STRING_length(data[i]) + lsep;
if (ARRAY_count(data))
max -= lsep;
STRING_start_len(max);
}
else
STRING_start();
for (i = 0; i < ARRAY_count(data); i++)
{
p = data[i];
l = STRING_length(data[i]);
if (i)
STRING_make(sep, lsep);
if (lesc)
{
STRING_make(&escl, 1);
if (l)
{
for(;;)
{
p2 = index(p, escr);
if (p2)
{
STRING_make(p, p2 - p + 1);
STRING_make_char(escr);
p = p2 + 1;
}
else
{
STRING_make(p, l + data[i] - p);
break;
}
}
}
STRING_make_char(escr);
}
else if (l)
STRING_make(p, l);
}
GB_ReturnString(STRING_end_temp());
END_METHOD
BEGIN_METHOD_VOID(CARRAY_reverse)
size_t size;
int count;
char *buffer[16];
char *pi, *pj;
count = ARRAY_count(THIS->data);
if (count <= 1)
return;
size = TYPE_sizeof_memory(THIS->type);
pi = get_data(THIS, 0);
pj = get_data(THIS, count - 1);
do
{
memcpy(buffer, pi, size);
memcpy(pi, pj, size);
memcpy(pj, buffer, size);
pi += size;
pj -= size;
}
while (pi < pj);
END_METHOD
BEGIN_METHOD(CARRAY_read, GB_OBJECT file; GB_INTEGER start; GB_INTEGER length)
int count = ARRAY_count(THIS->data);
int start = VARGOPT(start, 0);
int length = VARGOPT(length, count);
if ((start + length) > count)
length = count - start;
STREAM_read(CSTREAM_stream(VARG(file)), get_data(THIS, start), length * TYPE_sizeof_memory(THIS->type));
END_METHOD
BEGIN_METHOD(CARRAY_write, GB_OBJECT file; GB_INTEGER start; GB_INTEGER length)
int count = ARRAY_count(THIS->data);
int start = VARGOPT(start, 0);
int length = VARGOPT(length, count);
if ((start + length) > count)
length = count - start;
STREAM_write(CSTREAM_stream(VARG(file)), get_data(THIS, start), length * TYPE_sizeof_memory(THIS->type));
END_METHOD
BEGIN_PROPERTY(CARRAY_dim)
GB_ReturnInteger(get_dim(THIS));
END_PROPERTY
BEGIN_METHOD(CARRAY_bounds_get, GB_INTEGER index)
int dim = get_dim(THIS);
int index = VARG(index);
if (index < 0 || index >= dim)
{
GB_Error((char *)E_BOUND);
return;
}
GB_ReturnInteger(get_bound(THIS, index));
END_PROPERTY
/*BEGIN_METHOD_VOID(CARRAY_print)
int dim[MAX_ARRAY_DIM] = { 0 };
char *data = THIS->data;
int ndim = get_dim(THIS);
int i, j;
if (ARRAY_count(THIS) == 0)
{
GB_PrintString("[]", 2);
return;
}
for (i = 0; i < ndim; i++)
GB_PrintString("[", 1);
for(;;)
{
GB_PrintData(THIS->type, data);
for (i = 0; i < ndim; i++)
{
dim[i]++;
if (dim[i] < get_bound(THIS, i))
break;
dim[i] = 0;
}
for (j = 0; j < i; j++)
GB_PrintString("]", 1);
if (i == ndim)
break;
for (j = 0; j < i; j++)
GB_PrintString("[", 1);
if (i == 0)
GB_PrintString(",", 1);
data += TYPE_sizeof_memory(THIS->type);
}
END_METHOD*/
#else
#include "gbx_c_array.h"
#endif /* #ifndef GBX_INFO */
GB_DESC NATIVE_ArrayBounds[] =
{
GB_DECLARE(".Array.Bounds", sizeof(CARRAY)), GB_NOT_CREATABLE(),
GB_METHOD("_get", "i", CARRAY_bounds_get, "(Dimension)i"),
GB_END_DECLARE
};
GB_DESC NATIVE_Array[] =
{
GB_DECLARE("Array", sizeof(CARRAY)), GB_NOT_CREATABLE(),
GB_METHOD("_free", NULL, CARRAY_free, NULL),
GB_PROPERTY_READ("Type", "i", CARRAY_type),
GB_PROPERTY_READ("Count", "i", CARRAY_count),
GB_PROPERTY_READ("Max", "i", CARRAY_max),
GB_PROPERTY_READ("Length", "i", CARRAY_count),
GB_PROPERTY_READ("Dim", "i", CARRAY_dim),
GB_PROPERTY_READ("Data", "p", CARRAY_data),
GB_PROPERTY_SELF("Bounds", ".Array.Bounds"),
GB_METHOD("Remove", NULL, CARRAY_remove, "(Index)i[(Length)i]"),
GB_METHOD("Clear", NULL, CARRAY_clear, NULL),
GB_METHOD("Resize", NULL, CARRAY_resize, "(Size)i"),
GB_METHOD("Reverse", NULL, CARRAY_reverse, NULL),
GB_METHOD("Add", NULL, CARRAY_add, "(Value)v[(Index)i]"),
GB_METHOD("Push", NULL, CARRAY_push, "(Value)v"),
GB_METHOD("_put", NULL, CARRAY_put, "(Value)v(Index)i."),
GB_METHOD("Pop", "v", CARRAY_pop, NULL),
GB_METHOD("_get", "v", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "v", CARRAY_next, NULL),
GB_METHOD("Copy", "Array", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "Array", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "Array", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)v[(Start)i(Length)i]"),
GB_END_DECLARE
};
GB_DESC NATIVE_BooleanArray[] =
{
GB_DECLARE("Boolean[]", sizeof(CARRAY)), GB_INHERITS("Array"),
GB_METHOD("_new", NULL, CARRAY_new, "[(Size)i.]"),
GB_METHOD("Add", NULL, CARRAY_integer_add, "(Value)b[(Index)i]"),
GB_METHOD("Push", NULL, CARRAY_integer_push, "(Value)b"),
GB_METHOD("_put", NULL, CARRAY_boolean_put, "(Value)b(Index)i."),
GB_METHOD("Find", "i", CARRAY_integer_find, "(Value)b"),
GB_METHOD("Exist", "b", CARRAY_integer_exist, "(Value)b"),
GB_METHOD("Pop", "b", CARRAY_pop, NULL),
GB_METHOD("_get", "b", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "b", CARRAY_next, NULL),
GB_METHOD("Read", NULL, CARRAY_read, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Write", NULL, CARRAY_write, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Insert", "Boolean[]", CARRAY_insert, "(Array)Boolean[];[(Pos)i]"),
GB_METHOD("Copy", "Boolean[]", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "Boolean[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "Boolean[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Sort", "Boolean[]", CARRAY_sort, "[(Mode)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)b[(Start)i(Length)i]"),
GB_END_DECLARE
};
GB_DESC NATIVE_ByteArray[] =
{
GB_DECLARE("Byte[]", sizeof(CARRAY)), GB_INHERITS("Array"),
GB_METHOD("_new", NULL, CARRAY_new, "[(Size)i.]"),
GB_METHOD("Add", NULL, CARRAY_integer_add, "(Value)c[(Index)i]"),
GB_METHOD("Push", NULL, CARRAY_integer_push, "(Value)c"),
GB_METHOD("_put", NULL, CARRAY_byte_put, "(Value)c(Index)i."),
GB_METHOD("Find", "i", CARRAY_integer_find, "(Value)c"),
GB_METHOD("Exist", "b", CARRAY_integer_exist, "(Value)c"),
GB_METHOD("Pop", "c", CARRAY_pop, NULL),
GB_METHOD("_get", "c", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "c", CARRAY_next, NULL),
GB_METHOD("Read", NULL, CARRAY_read, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Write", NULL, CARRAY_write, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Insert", "Byte[]", CARRAY_insert, "(Array)Byte[];[(Pos)i]"),
GB_METHOD("Copy", "Byte[]", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "Byte[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "Byte[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Sort", "Byte[]", CARRAY_sort, "[(Mode)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)c[(Start)i(Length)i]"),
GB_END_DECLARE
};
GB_DESC NATIVE_ShortArray[] =
{
GB_DECLARE("Short[]", sizeof(CARRAY)), GB_INHERITS("Array"),
GB_METHOD("_new", NULL, CARRAY_new, "[(Size)i.]"),
GB_METHOD("Add", NULL, CARRAY_integer_add, "(Value)h[(Index)i]"),
GB_METHOD("Push", NULL, CARRAY_integer_push, "(Value)h"),
GB_METHOD("_put", NULL, CARRAY_short_put, "(Value)h(Index)i."),
GB_METHOD("Find", "i", CARRAY_integer_find, "(Value)h"),
GB_METHOD("Exist", "b", CARRAY_integer_exist, "(Value)h"),
GB_METHOD("Pop", "h", CARRAY_pop, NULL),
GB_METHOD("_get", "h", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "h", CARRAY_next, NULL),
GB_METHOD("Read", NULL, CARRAY_read, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Write", NULL, CARRAY_write, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Insert", "Short[]", CARRAY_insert, "(Array)Short[];[(Pos)i]"),
GB_METHOD("Copy", "Short[]", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "Short[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "Short[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Sort", "Short[]", CARRAY_sort, "[(Mode)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)h[(Start)i(Length)i]"),
GB_END_DECLARE
};
GB_DESC NATIVE_IntegerArray[] =
{
GB_DECLARE("Integer[]", sizeof(CARRAY)), GB_INHERITS("Array"),
GB_METHOD("_new", NULL, CARRAY_new, "[(Size)i.]"),
GB_METHOD("Add", NULL, CARRAY_integer_add, "(Value)i[(Index)i]"),
GB_METHOD("Push", NULL, CARRAY_integer_push, "(Value)i"),
GB_METHOD("_put", NULL, CARRAY_integer_put, "(Value)i(Index)i."),
GB_METHOD("Find", "i", CARRAY_integer_find, "(Value)i"),
GB_METHOD("Exist", "b", CARRAY_integer_exist, "(Value)i"),
GB_METHOD("Pop", "i", CARRAY_pop, NULL),
GB_METHOD("_get", "i", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "i", CARRAY_next, NULL),
GB_METHOD("Read", NULL, CARRAY_read, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Write", NULL, CARRAY_write, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Insert", "Integer[]", CARRAY_insert, "(Array)Integer[];[(Pos)i]"),
GB_METHOD("Copy", "Integer[]", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "Integer[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "Integer[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Sort", "Integer[]", CARRAY_sort, "[(Mode)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)i[(Start)i(Length)i]"),
GB_END_DECLARE
};
GB_DESC NATIVE_LongArray[] =
{
GB_DECLARE("Long[]", sizeof(CARRAY)), GB_INHERITS("Array"),
GB_METHOD("_new", NULL, CARRAY_new, "[(Size)i.]"),
GB_METHOD("Add", NULL, CARRAY_long_add, "(Value)l[(Index)i]"),
GB_METHOD("Push", NULL, CARRAY_long_push, "(Value)l"),
GB_METHOD("_put", NULL, CARRAY_long_put, "(Value)l(Index)i."),
GB_METHOD("Find", "i", CARRAY_long_find, "(Value)l"),
GB_METHOD("Exist", "b", CARRAY_long_exist, "(Value)l"),
GB_METHOD("Pop", "l", CARRAY_pop, NULL),
GB_METHOD("_get", "l", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "l", CARRAY_next, NULL),
GB_METHOD("Read", NULL, CARRAY_read, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Write", NULL, CARRAY_write, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Insert", "Long[]", CARRAY_insert, "(Array)Long[];[(Pos)i]"),
GB_METHOD("Copy", "Long[]", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "Long[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "Long[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Sort", "Long[]", CARRAY_sort, "[(Mode)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)l[(Start)i(Length)i]"),
GB_END_DECLARE
};
#ifdef OS_64BITS
#define CARRAY_pointer_add CARRAY_long_add
#define CARRAY_pointer_push CARRAY_long_push
#define CARRAY_pointer_put CARRAY_long_put
#define CARRAY_pointer_find CARRAY_long_find
#define CARRAY_pointer_exist CARRAY_long_exist
#else
#define CARRAY_pointer_add CARRAY_integer_add
#define CARRAY_pointer_push CARRAY_integer_push
#define CARRAY_pointer_put CARRAY_integer_put
#define CARRAY_pointer_find CARRAY_integer_find
#define CARRAY_pointer_exist CARRAY_integer_exist
#endif
GB_DESC NATIVE_PointerArray[] =
{
GB_DECLARE("Pointer[]", sizeof(CARRAY)), GB_INHERITS("Array"),
GB_METHOD("_new", NULL, CARRAY_new, "[(Size)i.]"),
GB_METHOD("Add", NULL, CARRAY_long_add, "(Value)p[(Index)i]"),
GB_METHOD("Push", NULL, CARRAY_long_push, "(Value)p"),
GB_METHOD("_put", NULL, CARRAY_long_put, "(Value)p(Index)i."),
GB_METHOD("Find", "i", CARRAY_long_find, "(Value)p"),
GB_METHOD("Exist", "b", CARRAY_long_exist, "(Value)p"),
GB_METHOD("Pop", "p", CARRAY_pop, NULL),
GB_METHOD("_get", "p", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "p", CARRAY_next, NULL),
GB_METHOD("Read", NULL, CARRAY_read, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Write", NULL, CARRAY_write, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Insert", "Pointer[]", CARRAY_insert, "(Array)Pointer[];[(Pos)i]"),
GB_METHOD("Copy", "Pointer[]", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "Pointer[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "Pointer[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Sort", "Pointer[]", CARRAY_sort, "[(Mode)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)p[(Start)i(Length)i]"),
GB_END_DECLARE
};
GB_DESC NATIVE_StringArray[] =
{
GB_DECLARE("String[]", sizeof(CARRAY)), GB_INHERITS("Array"),
GB_METHOD("_new", NULL, CARRAY_new, "[(Size)i.]"),
GB_METHOD("Add", NULL, CARRAY_string_add, "(Value)s[(Index)i]"),
GB_METHOD("Push", NULL, CARRAY_string_push, "(Value)s"),
GB_METHOD("_put", NULL, CARRAY_string_put, "(Value)s(Index)i."),
GB_METHOD("Find", "i", CARRAY_string_find, "(Value)s[(Mode)i]"),
GB_METHOD("Exist", "b", CARRAY_string_exist, "(Value)s[(Mode)i]"),
GB_METHOD("Pop", "s", CARRAY_pop, NULL),
GB_METHOD("_get", "s", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "s", CARRAY_next, NULL),
GB_METHOD("Insert", "String[]", CARRAY_insert, "(Array)String[];[(Pos)i]"),
GB_METHOD("Join", "s", CARRAY_string_join, "[(Separator)s(Escape)s]"),
GB_METHOD("Copy", "String[]", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "String[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "String[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Sort", "String[]", CARRAY_sort, "[(Mode)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)s[(Start)i(Length)i]"),
GB_END_DECLARE
};
GB_DESC NATIVE_FloatArray[] =
{
GB_DECLARE("Float[]", sizeof(CARRAY)), GB_INHERITS("Array"),
GB_METHOD("_new", NULL, CARRAY_new, "[(Size)i.]"),
GB_METHOD("Add", NULL, CARRAY_float_add, "(Value)f[(Index)i]"),
GB_METHOD("Push", NULL, CARRAY_float_push, "(Value)f"),
GB_METHOD("_put", NULL, CARRAY_float_put, "(Value)f(Index)i."),
GB_METHOD("Find", "i", CARRAY_float_find, "(Value)f"),
GB_METHOD("Exist", "b", CARRAY_float_exist, "(Value)f"),
GB_METHOD("Pop", "f", CARRAY_pop, NULL),
GB_METHOD("_get", "f", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "f", CARRAY_next, NULL),
GB_METHOD("Read", NULL, CARRAY_read, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Write", NULL, CARRAY_write, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Insert", "Float[]", CARRAY_insert, "(Array)Float[];[(Pos)i]"),
GB_METHOD("Copy", "Float[]", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "Float[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "Float[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Sort", "Float[]", CARRAY_sort, "[(Mode)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)f[(Start)i(Length)i]"),
GB_END_DECLARE
};
GB_DESC NATIVE_SingleArray[] =
{
GB_DECLARE("Single[]", sizeof(CARRAY)), GB_INHERITS("Array"),
GB_METHOD("_new", NULL, CARRAY_new, "[(Size)i.]"),
GB_METHOD("Add", NULL, CARRAY_float_add, "(Value)g[(Index)i]"),
GB_METHOD("Push", NULL, CARRAY_float_push, "(Value)g"),
GB_METHOD("_put", NULL, CARRAY_single_put, "(Value)g(Index)i."),
GB_METHOD("Find", "i", CARRAY_float_find, "(Value)g"),
GB_METHOD("Exist", "b", CARRAY_float_exist, "(Value)g"),
GB_METHOD("Pop", "g", CARRAY_pop, NULL),
GB_METHOD("_get", "g", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "g", CARRAY_next, NULL),
GB_METHOD("Read", NULL, CARRAY_read, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Write", NULL, CARRAY_write, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Insert", "Single[]", CARRAY_insert, "(Array)Single[];[(Pos)i]"),
GB_METHOD("Copy", "Single[]", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "Single[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "Single[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Sort", "Single[]", CARRAY_sort, "[(Mode)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)g[(Start)i(Length)i]"),
GB_END_DECLARE
};
GB_DESC NATIVE_DateArray[] =
{
GB_DECLARE("Date[]", sizeof(CARRAY)), GB_INHERITS("Array"),
GB_METHOD("_new", NULL, CARRAY_new, "[(Size)i.]"),
GB_METHOD("Add", NULL, CARRAY_date_add, "(Value)d[(Index)i]"),
GB_METHOD("Push", NULL, CARRAY_date_push, "(Value)d"),
GB_METHOD("_put", NULL, CARRAY_date_put, "(Value)d(Index)i."),
GB_METHOD("Find", "i", CARRAY_date_find, "(Value)d"),
GB_METHOD("Exist", "b", CARRAY_date_exist, "(Value)d"),
GB_METHOD("Pop", "d", CARRAY_pop, NULL),
GB_METHOD("_get", "d", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "d", CARRAY_next, NULL),
GB_METHOD("Read", NULL, CARRAY_read, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Write", NULL, CARRAY_write, "(Stream)Stream;[(Start)i(Length)i]"),
GB_METHOD("Insert", "Date[]", CARRAY_insert, "(Array)Date[];[(Pos)i]"),
GB_METHOD("Copy", "Date[]", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "Date[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "Date[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Sort", "Date[]", CARRAY_sort, "[(Mode)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)d[(Start)i(Length)i]"),
GB_END_DECLARE
};
GB_DESC NATIVE_ObjectArray[] =
{
GB_DECLARE("Object[]", sizeof(CARRAY)), GB_INHERITS("Array"),
GB_METHOD("_new", NULL, CARRAY_new, "[(Size)i.]"),
GB_METHOD("Add", NULL, CARRAY_object_add, "(Value)o[(Index)i.]"),
GB_METHOD("Push", NULL, CARRAY_object_push, "(Value)o"),
GB_METHOD("_put", NULL, CARRAY_object_put, "(Value)o(Index)i."),
GB_METHOD("Find", "i", CARRAY_object_find, "(Value)o"),
GB_METHOD("Exist", "b", CARRAY_object_exist, "(Value)o"),
GB_METHOD("Pop", "o", CARRAY_pop, NULL),
GB_METHOD("_get", "o", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "o", CARRAY_next, NULL),
GB_METHOD("Insert", "Object[]", CARRAY_insert, "(Array)Object[];[(Pos)i]"),
GB_METHOD("Copy", "Object[]", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "Object[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "Object[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)o[(Start)i(Length)i]"),
GB_METHOD("Sort", "Object[]", CARRAY_sort, "[(Mode)i]"),
GB_END_DECLARE
};
// Beware: if this declaration is modified, the ARRAY_TEMPLATE_NDESC constant must be modified accordingly.
GB_DESC NATIVE_TemplateArray[ARRAY_TEMPLATE_NDESC] =
{
GB_DECLARE("*[]", sizeof(CARRAY)), GB_INHERITS("Array"),
GB_METHOD("_new", NULL, CARRAY_new, "[(Size)i.]"),
GB_METHOD("Add", NULL, CARRAY_object_add, "(Value)*;[(Index)i.]"),
GB_METHOD("Push", NULL, CARRAY_object_push, "(Value)*;"),
GB_METHOD("_put", NULL, CARRAY_object_put, "(Value)*;(Index)i."),
GB_METHOD("Find", "i", CARRAY_object_find, "(Value)*;"),
GB_METHOD("Exist", "b", CARRAY_object_exist, "(Value)*;"),
GB_METHOD("Pop", "*", CARRAY_pop, NULL),
GB_METHOD("_get", "*", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "*", CARRAY_next, NULL),
GB_METHOD("Insert", "*", CARRAY_insert, "(Array)*[];[(Pos)i]"),
GB_METHOD("Copy", "*[]", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "*[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "*[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)*;[(Start)i(Length)i]"),
GB_METHOD("Sort", "*[]", CARRAY_sort, "[(Mode)i]"),
GB_END_DECLARE
};
GB_DESC NATIVE_VariantArray[] =
{
GB_DECLARE("Variant[]", sizeof(CARRAY)), GB_INHERITS("Array"),
GB_METHOD("_new", NULL, CARRAY_new, "[(Size)i.]"),
GB_METHOD("Add", NULL, CARRAY_variant_add, "(Value)v[(Index)i]"),
GB_METHOD("Push", NULL, CARRAY_variant_push, "(Value)v"),
GB_METHOD("_put", NULL, CARRAY_variant_put, "(Value)v(Index)i."),
GB_METHOD("Pop", "v", CARRAY_pop, NULL),
GB_METHOD("_get", "v", CARRAY_get, "(Index)i."),
GB_METHOD("_next", "v", CARRAY_next, NULL),
GB_METHOD("Insert", "Variant[]", CARRAY_insert, "(Array)Variant[];[(Pos)i]"),
GB_METHOD("Copy", "Variant[]", CARRAY_copy, "[(Start)i(Length)i]"),
GB_METHOD("Extract", "Variant[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Delete", "Variant[]", CARRAY_extract, "(Start)i[(Length)i]"),
GB_METHOD("Fill", NULL, CARRAY_fill, "(Value)v[(Start)i(Length)i]"),
GB_END_DECLARE
};
#ifndef GBX_INFO
static CARRAY *_array;
static bool _novoid;
static char *_entry;
static const char *_ptr;
static int _lptr;
static void add_char(const char *p)
{
//fprintf(stderr, "add_char: %p %c\n", p, p ? *p : 0);
if (p && p == (_ptr + _lptr))
{
_lptr++;
return;
}
if (_lptr)
{
//fprintf(stderr, "STRING_add: '%.*s'\n", _lptr, _ptr);
STRING_add(&_entry, _ptr, _lptr);
}
_ptr = p;
_lptr = p ? 1 : 0;
}
static void add_entry()
{
add_char(NULL);
if (!_entry)
{
if (!_novoid)
ARRAY_add_void(&_array->data);
}
else
{
*((char **)ARRAY_add(&_array->data)) = _entry;
_entry = NULL;
}
//fprintf(stderr, "** add_entry\n");
}
void CARRAY_split(CARRAY *_object, const char *str, int lstr, const char *sep, const char *esc, bool no_void)
{
int i;
char c;
bool escape;
char escl, escr;
bool lsep;
if (sep == NULL || *sep == 0)
sep = ",";
lsep = sep[1];
if (esc == NULL || *esc == 0)
escl = escr = 0;
else
{
escl = *esc++;
if (*esc)
escr = *esc;
else
escr = escl;
}
clear(THIS);
_array = _object;
_entry = NULL;
_novoid = no_void;
_ptr = NULL;
_lptr = 0;
escape = FALSE;
for (i = 0; i < lstr; i++)
{
c = *str;
if (escape)
{
if (c != escr)
add_char(str);
else if ((i < (lstr - 1)) && str[1] == escr)
{
add_char(str);
str++;
i++;
}
else
escape = FALSE;
}
else if (c == escl)
{
escape = TRUE;
}
else if (c == *sep || (lsep && index(&sep[1], c)))
{
add_entry();
}
else
add_char(str);
str++;
}
add_entry();
_array = NULL;
}
/* Gambas API */
void GB_ArrayNew(GB_ARRAY *array, intptr_t type, int size)
{
CLASS *class;
int np;
if (size > 0)
{
GB_Push(1, GB_T_INTEGER, size);
np = 1;
}
else
{
np = 0;
}
if (TYPE_is_pure_object(type))
class = CLASS_get_array_class((CLASS *)type);
else
{
switch(type)
{
case GB_T_BOOLEAN: class = CLASS_BooleanArray; break;
case GB_T_BYTE: class = CLASS_ByteArray; break;
case GB_T_SHORT: class = CLASS_ShortArray; break;
case GB_T_INTEGER: class = CLASS_IntegerArray; break;
case GB_T_LONG: class = CLASS_LongArray; break;
case GB_T_SINGLE: class = CLASS_SingleArray; break;
case GB_T_FLOAT: class = CLASS_FloatArray; break;
case GB_T_STRING: class = CLASS_StringArray; break;
case GB_T_DATE: class = CLASS_DateArray; break;
case GB_T_OBJECT: class = CLASS_ObjectArray; break;
case GB_T_POINTER: class = CLASS_PointerArray; break;
default: class = CLASS_VariantArray; break;
}
}
OBJECT_create((void **)array, class, NULL, NULL, np);
}
int GB_ArrayCount(GB_ARRAY array)
{
return ARRAY_count(((CARRAY *)array)->data);
}
void *GB_ArrayAdd(GB_ARRAY array)
{
return insert((CARRAY *)array, -1);
}
void *GB_ArrayGet(GB_ARRAY array, int index)
{
return get_data((CARRAY *)array, index);
}
TYPE GB_ArrayType(GB_ARRAY array)
{
return ((CARRAY *)array)->type;
}
#endif