mirror of
https://github.com/libretro/scummvm.git
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365 lines
7.9 KiB
C++
365 lines
7.9 KiB
C++
/* ScummVM - Graphic Adventure Engine
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*
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* ScummVM is the legal property of its developers, whose names
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* are too numerous to list here. Please refer to the COPYRIGHT
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* file distributed with this source distribution.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*
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*/
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#include "common/endian.h"
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#include "common/str.h"
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#include "gob/gob.h"
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#include "gob/variables.h"
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namespace Gob {
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Variables::Variables(uint32 size) {
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_size = size;
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_vars = new byte[_size];
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clear();
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}
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Variables::~Variables() {
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delete[] _vars;
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}
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uint32 Variables::getSize() const {
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return _size;
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}
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void Variables::clear() {
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memset(_vars, 0, _size);
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}
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void Variables::writeVar8(uint32 var, uint8 value) {
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writeOff8(var * 4, value);
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}
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void Variables::writeVar16(uint32 var, uint16 value) {
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writeOff16(var * 4, value);
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}
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void Variables::writeVar32(uint32 var, uint32 value) {
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writeOff32(var * 4, value);
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}
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void Variables::writeVarString(uint32 var, const char *value) {
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writeOffString(var * 4, value);
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}
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void Variables::writeOff8(uint32 offset, uint8 value) {
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assert(offset < _size);
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write8(_vars + offset, value);
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}
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void Variables::writeOff16(uint32 offset, uint16 value) {
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assert((offset + 1) < _size);
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write16(_vars + offset, value);
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}
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void Variables::writeOff32(uint32 offset, uint32 value) {
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assert((offset + 3) < _size);
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write32(_vars + offset, value);
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}
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void Variables::writeOffString(uint32 offset, const char *value) {
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uint32 length = strlen(value);
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assert((offset + length + 1) < _size);
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strcpy((char *)(_vars + offset), value);
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}
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uint8 Variables::readVar8(uint32 var) const {
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return readOff8(var * 4);
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}
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uint16 Variables::readVar16(uint32 var) const {
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return readOff16(var * 4);
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}
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uint32 Variables::readVar32(uint32 var) const {
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return readOff32(var * 4);
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}
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void Variables::readVarString(uint32 var, char *value, uint32 length) {
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readOffString(var * 4, value, length);
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}
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uint8 Variables::readOff8(uint32 offset) const {
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assert(offset < _size);
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return read8(_vars + offset);
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}
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uint16 Variables::readOff16(uint32 offset) const {
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assert((offset + 1) < _size);
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return read16(_vars + offset);
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}
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uint32 Variables::readOff32(uint32 offset) const {
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assert((offset + 3) < _size);
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return read32(_vars + offset);
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}
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void Variables::readOffString(uint32 offset, char *value, uint32 length) {
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assert(offset < _size);
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Common::strlcpy(value, (const char *)(_vars + offset), MIN<int>(length, _size - offset));
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}
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const uint8 *Variables::getAddressVar8(uint32 var) const {
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return getAddressOff8(var * 4);
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}
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uint8 *Variables::getAddressVar8(uint32 var) {
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return getAddressOff8(var * 4);
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}
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const char *Variables::getAddressVarString(uint32 var) const {
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return getAddressOffString(var * 4);
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}
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char *Variables::getAddressVarString(uint32 var) {
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return getAddressOffString(var * 4);
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}
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const uint8 *Variables::getAddressOff8(uint32 offset) const {
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return ((const uint8 *)(_vars + offset));
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}
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uint8 *Variables::getAddressOff8(uint32 offset) {
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return ((uint8 *)(_vars + offset));
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}
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const char *Variables::getAddressOffString(uint32 offset) const {
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return ((const char *)(_vars + offset));
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}
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char *Variables::getAddressOffString(uint32 offset) {
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return ((char *)(_vars + offset));
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}
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bool Variables::copyTo(uint32 offset, byte *variables, uint32 n) const {
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if ((offset + n) > _size)
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return false;
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if (variables)
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memcpy(variables, _vars + offset, n);
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return true;
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}
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bool Variables::copyFrom(uint32 offset, const byte *variables, uint32 n) {
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if (((offset + n) > _size) || !variables)
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return false;
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memcpy(_vars + offset, variables, n);
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return true;
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}
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VariablesLE::VariablesLE(uint32 size) : Variables(size) {
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}
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VariablesLE::~VariablesLE() {
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}
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void VariablesLE::write8(byte *buf, uint8 data) const {
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*buf = (byte) data;
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}
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void VariablesLE::write16(byte *buf, uint16 data) const {
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WRITE_LE_UINT16(buf, data);
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}
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void VariablesLE::write32(byte *buf, uint32 data) const {
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WRITE_LE_UINT32(buf, data);
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}
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uint8 VariablesLE::read8(const byte *buf) const {
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return (uint8) *buf;
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}
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uint16 VariablesLE::read16(const byte *buf) const {
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return READ_LE_UINT16(buf);
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}
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uint32 VariablesLE::read32(const byte *buf) const {
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return READ_LE_UINT32(buf);
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}
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VariablesBE::VariablesBE(uint32 size) : Variables(size) {
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}
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VariablesBE::~VariablesBE() {
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}
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void VariablesBE::write8(byte *buf, uint8 data) const {
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*buf = (byte) data;
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}
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void VariablesBE::write16(byte *buf, uint16 data) const {
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WRITE_BE_UINT16(buf, data);
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}
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void VariablesBE::write32(byte *buf, uint32 data) const {
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WRITE_BE_UINT32(buf, data);
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}
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uint8 VariablesBE::read8(const byte *buf) const {
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return (uint8) *buf;
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}
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uint16 VariablesBE::read16(const byte *buf) const {
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return READ_BE_UINT16(buf);
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}
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uint32 VariablesBE::read32(const byte *buf) const {
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return READ_BE_UINT32(buf);
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}
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VariableReference::VariableReference() {
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_vars = 0;
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_offset = 0;
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}
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VariableReference::VariableReference(Variables &vars, uint32 offset, Variables::Type type) {
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set(vars, offset, type);
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}
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VariableReference::~VariableReference() {
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}
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void VariableReference::set(Variables &vars, uint32 offset, Variables::Type type) {
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_vars = &vars;
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_offset = offset;
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_type = type;
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}
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VariableReference &VariableReference::operator=(uint32 value) {
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if (_vars) {
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switch (_type) {
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case Variables::kVariableType8:
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_vars->writeOff8(_offset, (uint8) value);
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break;
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case Variables::kVariableType16:
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_vars->writeOff16(_offset, (uint16) value);
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break;
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case Variables::kVariableType32:
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_vars->writeOff32(_offset, value);
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break;
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}
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}
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return *this;
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}
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VariableReference::operator uint32() {
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if (_vars) {
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switch (_type) {
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case Variables::kVariableType8:
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return (uint32) _vars->readOff8(_offset);
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case Variables::kVariableType16:
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return (uint32) _vars->readOff16(_offset);
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case Variables::kVariableType32:
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return _vars->readOff32(_offset);
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}
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}
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return 0;
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}
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VariableReference &VariableReference::operator+=(uint32 value) {
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return (*this = (*this + value));
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}
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VariableReference &VariableReference::operator*=(uint32 value) {
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return (*this = (*this * value));
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}
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VariableStack::VariableStack(uint32 size) : _size(size), _position(0) {
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_stack = new byte[_size];
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memset(_stack, 0, _size);
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}
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VariableStack::~VariableStack() {
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delete[] _stack;
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}
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void VariableStack::pushData(const Variables &vars, uint32 offset, uint32 size) {
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// Sanity checks
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assert(size < 256);
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assert((_position + size) < _size);
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vars.copyTo(offset, _stack + _position, size);
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_position += size;
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_stack[_position++] = size;
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_stack[_position++] = 0;
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}
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void VariableStack::pushInt(uint32 value) {
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// Sanity check
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assert((_position + 4) < _size);
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memcpy(_stack + _position, &value, 4);
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_position += 4;
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_stack[_position++] = 4;
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_stack[_position++] = 1;
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}
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void VariableStack::pop(Variables &vars, uint32 offset) {
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// Sanity check
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assert(_position >= 2);
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bool isInt = _stack[--_position] == 1;
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uint32 size = _stack[--_position];
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// Sanity check
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assert(_position >= size);
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_position -= size;
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if (isInt) {
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// If it's an int, explicitely call the int variable writing method,
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// to make sure the variable space endianness is preserved.
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assert(size == 4);
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uint32 value;
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memcpy(&value, _stack + _position, 4);
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vars.writeOff32(offset, value);
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} else
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// Otherwise, use do a raw copy
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vars.copyFrom(offset, _stack + _position, size);
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}
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} // End of namespace Gob
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