/*************************************************************************** exec_pop.c (c) 2000-2007 Benoit Minisini 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. ***************************************************************************/ #include "gb_common.h" #include "gb_limit.h" #include "gbx_exec.h" #include "gbx_string.h" #include "gbx_object.h" #include "gbx_array.h" #include "gbx_c_collection.h" void EXEC_pop_unknown(void) { static void *jump[6] = { /* 0 */ &&_POP_GENERIC, /* 1 */ &&_POP_VARIABLE, /* 2 */ &&_POP_STATIC_VARIABLE, /* 3 */ &&_POP_PROPERTY, /* 4 */ &&_POP_VARIABLE_AUTO, /* 5 */ &&_POP_PROPERTY_AUTO }; const char *name; int index; CLASS_DESC *desc; CLASS *class; OBJECT *object; char *addr; boolean defined; VALUE *val; EXEC_object(&SP[-1], &class, &object, &defined); /*printf("> exec_pop_unknown: SP = %p -> %p\n", SP, SP->_string.addr);*/ goto *jump[*PC & 0xF]; _POP_GENERIC: name = CP->load->unknown[PC[1]]; // The first time we access a symbol, we must not be virtual to find it val = &SP[-1]; if (defined && object && !VALUE_is_super(val)) index = CLASS_find_symbol(val->_object.class, name); else index = CLASS_find_symbol(class, name); if (index == NO_SYMBOL) { if (defined && object && !VALUE_is_super(val)) class = val->_object.class; THROW(E_NSYMBOL, name, class->name); } desc = class->table[index].desc; switch (CLASS_DESC_get_type(desc)) { case CD_CONSTANT: THROW(E_NPROPERTY, class->name, name); case CD_VARIABLE: if (object == NULL) { if (!class->auto_create) THROW(E_DYNAMIC, class->name, name); object = EXEC_auto_create(class, TRUE); *PC |= 4; } else { if (defined) *PC |= 1; } if (defined) PC[1] = index; goto _POP_VARIABLE_2; case CD_STATIC_VARIABLE: if (object != NULL) THROW(E_STATIC, class->name, name); if (defined) *PC |= 2; if (defined) PC[1] = index; goto _POP_STATIC_VARIABLE_2; case CD_PROPERTY: if (object == NULL) { if (!class->auto_create) THROW(E_DYNAMIC, class->name, name); object = EXEC_auto_create(class, TRUE); *PC |= 5; } else { if (defined) *PC |= 3; } if (defined) PC[1] = index; goto _POP_PROPERTY_2; case CD_STATIC_PROPERTY: if (object != NULL) THROW(E_STATIC, class->name, name); if (defined) *PC |= 3; if (defined) PC[1] = index; goto _POP_PROPERTY_2; case CD_PROPERTY_READ: case CD_STATIC_PROPERTY_READ: THROW(E_NWRITE, class->name, name); case CD_METHOD: case CD_STATIC_METHOD: THROW(E_NPROPERTY, class->name, name); default: THROW(E_NSYMBOL, name, class->name); } _POP_VARIABLE_AUTO: object = EXEC_auto_create(class, TRUE); _POP_VARIABLE: desc = class->table[PC[1]].desc; _POP_VARIABLE_2: addr = (char *)object + desc->variable.offset; VALUE_write(&SP[-2], (void *)addr, desc->variable.type); goto _FIN; _POP_STATIC_VARIABLE: desc = class->table[PC[1]].desc; _POP_STATIC_VARIABLE_2: addr = (char *)class->stat + desc->variable.offset; VALUE_write(&SP[-2], (void *)addr, desc->variable.type); goto _FIN; _POP_PROPERTY_AUTO: object = EXEC_auto_create(class, TRUE); _POP_PROPERTY: desc = class->table[PC[1]].desc; _POP_PROPERTY_2: VALUE_conv(&SP[-2], desc->property.type); if (desc->property.native) { if (EXEC_call_native(desc->property.write, object, 0, &SP[-2])) PROPAGATE(); } else { *SP = SP[-2]; BORROW(SP); SP++; EXEC.class = desc->property.class; EXEC.object = object; EXEC.drop = FALSE; EXEC.nparam = 1; EXEC.native = FALSE; EXEC.index = (int)(intptr_t)desc->property.write; EXEC_function(); } _FIN: RELEASE(&SP[-2]); OBJECT_UNREF(&object, "EXEC_pop_unknown"); SP -= 2; PC++; } void EXEC_pop_array(void) { CLASS *class; OBJECT *object; GET_NPARAM(np); int dim[MAX_ARRAY_DIM]; int i; void *data; boolean defined; VALUE *val; VALUE swap; ARRAY_DESC *desc; val = &SP[-np]; if (val->type == T_ARRAY) { np--; for (i = 1; i <= np; i++) { VALUE_conv(&val[i], T_INTEGER); dim[i - 1] = val[i]._integer.value; } SP -= np + 1; desc = (ARRAY_DESC *)SP->_array.class->load->array[SP->_array.index]; data = ARRAY_get_address(desc, SP->_array.addr, np, dim); VALUE_write(SP - 1, data, CLASS_ctype_to_type(SP->_array.class, desc->type)); POP(); } else { EXEC_object(val, &class, &object, &defined); /* remplace l'objet par la valeur �ins�er */ swap = val[0]; val[0] = val[-1]; val[-1] = swap; /*printf("<< EXEC_pop_array: np = %d SP = %d\n", np, SP - (VALUE *)STACK_base); save_SP = SP - np;*/ if (EXEC_special(SPEC_PUT, class, object, np, TRUE)) THROW(E_NARRAY, class->name); /*printf(">> EXEC_pop_array: SP = %d\n", SP - (VALUE *)STACK_base); if (SP != save_SP) printf("**** SP should be %d\n", save_SP - (VALUE *)STACK_base);*/ POP(); /* on lib�e l'objet */ } }