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gambas-source-code/main/gbx/gbx_subr_extern.c
gambas 706a605cc3 Correctly restore the stack after calling a method through the interpreter, and handle null values as object values having a null address automatically. 
[INTERPRETER]
* NEW: Creating a NULL value now clears the object address field so that it can be freely interpreted as a Object value with a null address by the JIT compiled code.

[GB.JIT]
* BUG: Correctly restore stack after calling a method through the interpreter.
2018-08-22 09:30:27 +02:00

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/***************************************************************************
gbx_subr_extern.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.
***************************************************************************/
#include <sys/wait.h>
#include "gb_common.h"
#include "gb_alloc.h"
#include "gb_common_check.h"
#include "gb_pcode.h"
#include "gbx_subr.h"
void SUBR_alloc(ushort code)
{
int size;
int count;
void *ptr;
char *copy;
SUBR_ENTER();
if (NPARAM == 2)
count = SUBR_get_integer(&PARAM[1]);
else
count = 1;
if (TYPE_is_null(PARAM->type))
{
size = 1;
copy = NULL;
}
if (TYPE_is_string(PARAM->type))
{
size = PARAM->_string.len + 1;
copy = PARAM->_string.addr + PARAM->_string.start;
}
else
{
size = SUBR_get_integer(PARAM);
copy = NULL;
}
if (count <= 0 || size <= 0)
THROW(E_ARG);
ALLOC(&ptr, size * count);
if (copy)
{
size--;
memcpy(ptr, copy, size);
((char *)ptr)[size] = 0;
}
RETURN->type = T_POINTER;
RETURN->_pointer.value = ptr;
SUBR_LEAVE();
}
void SUBR_free(void)
{
void *ptr;
SUBR_ENTER_PARAM(1);
ptr = SUBR_get_pointer(PARAM);
IFREE(ptr);
SUBR_LEAVE_VOID();
}
void SUBR_realloc(ushort code)
{
int size;
int count;
void *ptr;
SUBR_ENTER();
if (NPARAM == 3)
size = SUBR_get_integer(&PARAM[2]);
else
size = 1;
count = SUBR_get_integer(&PARAM[1]);
if (size <= 0 || count <= 0)
THROW(E_ARG);
ptr = SUBR_get_pointer(&PARAM[0]);
REALLOC(&ptr, size * count);
RETURN->type = T_POINTER;
RETURN->_pointer.value = ptr;
SUBR_LEAVE();
}
void SUBR_strptr(ushort code)
{
char *ptr;
ssize_t len = 0;
bool err;
SUBR_ENTER();
ptr = (char *)SUBR_get_pointer(PARAM);
if (NPARAM == 1)
{
err = CHECK_strlen(ptr, &len);
}
else
{
len = SUBR_get_integer(&PARAM[1]);
err = CHECK_address(ptr, len);
}
if (err)
{
VALUE_null(RETURN);
}
else
{
RETURN->type = T_CSTRING;
RETURN->_string.addr = ptr;
RETURN->_string.start = 0;
RETURN->_string.len = (int)len;
}
SUBR_LEAVE();
}
void SUBR_varptr(ushort code)
{
ushort op;
void *ptr;
VALUE *val;
CLASS_VAR *var;
SUBR_ENTER_PARAM(1);
op = (ushort)SUBR_get_integer(PARAM);
if ((code & 0xFF) == 1)
{
uint64_t optargs = BP[FP->n_local + FP->n_ctrl - 1]._long.value;
RETURN->type = T_BOOLEAN;
RETURN->_boolean.value = (optargs & (1 << (FP->n_param + (op & 0xFF) - 256))) ? -1 : 0;
}
else
{
if ((op & 0xFF00) == C_PUSH_LOCAL || (op & 0xFF00) == C_PUSH_PARAM)
{
if ((op & 0xFF00) == C_PUSH_PARAM)
val = &PP[(signed char)(op & 0xFF)];
else
val = &BP[op & 0xFF];
switch(val->type)
{
case T_BOOLEAN:
case T_BYTE:
case T_SHORT:
case T_INTEGER:
ptr = &val->_integer.value;
break;
case T_LONG:
ptr = &val->_long.value;
break;
case T_SINGLE:
ptr = &val->_single.value;
break;
case T_FLOAT:
ptr = &val->_float.value;
break;
case T_DATE:
ptr = &val->_date.date;
break;
case T_STRING:
case T_CSTRING:
ptr = val->_string.addr + val->_string.start;
break;
case T_POINTER:
ptr = &val->_pointer.value;
break;
default:
THROW(E_TYPE, "Number", TYPE_get_name(val->type));
}
}
else if ((op & 0xF800) == C_PUSH_DYNAMIC)
{
var = &CP->load->dyn[op & 0x7FF];
if (OP == NULL)
THROW_ILLEGAL();
ptr = &OP[var->pos];
}
else if ((op & 0xF800) == C_PUSH_STATIC)
{
var = &CP->load->stat[op & 0x7FF];
ptr = (char *)CP->stat + var->pos;
}
else
THROW_ILLEGAL();
RETURN->type = T_POINTER;
RETURN->_pointer.value = ptr;
}
SUBR_LEAVE();
}
void SUBR_ptr(ushort code)
{
void *ptr;
SUBR_ENTER_PARAM(1);
ptr = SUBR_get_pointer_or_string(PARAM);
CHECK_enter();
if (sigsetjmp(CHECK_jump, TRUE) == 0)
VALUE_read(RETURN, ptr, code & 0xF);
CHECK_leave();
if (CHECK_got_error())
THROW(E_ARG);
SUBR_LEAVE();
}
void SUBR_make(ushort code)
{
static void *jump[] = {
&&__ERROR, &&__BOOLEAN, &&__BYTE, &&__SHORT, &&__INTEGER, &&__LONG, &&__SINGLE, &&__FLOAT,
&&__DATE, &&__ERROR, &&__ERROR, &&__POINTER, &&__ERROR, &&__ERROR, &&__ERROR, &&__ERROR
};
TYPE type;
SUBR_ENTER_PARAM(1);
type = code & 0x3F;
VALUE_conv(PARAM, type);
STRING_new_temp_value(RETURN, NULL, TYPE_sizeof_memory(type));
goto *jump[type];
__BOOLEAN:
*(RETURN->_string.addr) = PARAM->_boolean.value != 0;
goto __END;
__BYTE:
*(RETURN->_string.addr) = PARAM->_byte.value;
goto __END;
__SHORT:
memcpy(RETURN->_string.addr, &PARAM->_short.value, sizeof(short));
goto __END;
__INTEGER:
memcpy(RETURN->_string.addr, &PARAM->_integer.value, sizeof(int));
goto __END;
__LONG:
memcpy(RETURN->_string.addr, &PARAM->_long.value, sizeof(int64_t));
goto __END;
__SINGLE:
memcpy(RETURN->_string.addr, &PARAM->_single.value, sizeof(float));
goto __END;
__FLOAT:
memcpy(RETURN->_string.addr, &PARAM->_float.value, sizeof(double));
goto __END;
__DATE:
memcpy(RETURN->_string.addr, &PARAM->_date.date, sizeof(int) * 2);
goto __END;
__POINTER:
memcpy(RETURN->_string.addr, &PARAM->_pointer.value, sizeof(void *));
goto __END;
__ERROR:
THROW_ILLEGAL();
__END:
SUBR_LEAVE();
}
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