/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * 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 * of the License, 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 "common/scummsys.h" #include "common/textconsole.h" #include "zvision/object.h" namespace ZVision { SingleValueContainer::SingleValueContainer(ValueType type) : _objectType(type) { } SingleValueContainer::SingleValueContainer(bool value) : _objectType(BOOL) { _value.boolVal = value; } SingleValueContainer::SingleValueContainer(byte value) : _objectType(BYTE) { _value.byteVal = value; } SingleValueContainer::SingleValueContainer(int16 value) : _objectType(INT16) { _value.int16Val = value; } SingleValueContainer::SingleValueContainer(uint16 value) : _objectType(UINT16) { _value.uint16Val = value; } SingleValueContainer::SingleValueContainer(int32 value) : _objectType(INT32) { _value.int32Val = value; } SingleValueContainer::SingleValueContainer(uint32 value) : _objectType(UINT32) { _value.uint32Val = value; } SingleValueContainer::SingleValueContainer(float value) : _objectType(FLOAT) { _value.floatVal = value; } SingleValueContainer::SingleValueContainer(double value) : _objectType(DOUBLE) { _value.doubleVal = value; } SingleValueContainer::SingleValueContainer(Common::String value) : _objectType(BYTE) { _value.stringVal = new char[value.size() + 1]; memcpy(_value.stringVal, value.c_str(), value.size() + 1); } SingleValueContainer::SingleValueContainer(const SingleValueContainer &other) { _objectType = other._objectType; switch (_objectType) { case BOOL: _value.boolVal = other._value.boolVal; break; case BYTE: _value.byteVal = other._value.byteVal; break; case INT16: _value.int16Val = other._value.int16Val; break; case UINT16: _value.uint16Val = other._value.uint16Val; break; case INT32: _value.int32Val = other._value.int32Val; break; case UINT32: _value.uint32Val = other._value.uint32Val; break; case FLOAT: _value.floatVal = other._value.floatVal; break; case DOUBLE: _value.doubleVal = other._value.doubleVal; break; case STRING: uint32 length = strlen(other._value.stringVal); _value.stringVal = new char[length + 1]; memcpy(_value.stringVal, other._value.stringVal, length + 1); break; } } SingleValueContainer::~SingleValueContainer() { deleteCharPointer(); } void SingleValueContainer::deleteCharPointer() { if (_objectType == STRING) delete[] _value.stringVal; } SingleValueContainer &SingleValueContainer::operator=(const bool &rhs) { if (_objectType == BOOL) { _value.boolVal = rhs; return *this; } deleteCharPointer(); _objectType = BOOL; _value.boolVal = rhs; return *this; } SingleValueContainer &SingleValueContainer::operator=(const byte &rhs) { if (_objectType == BYTE) { _value.byteVal = rhs; return *this; } deleteCharPointer(); _objectType = BYTE; _value.byteVal = rhs; return *this; } SingleValueContainer &SingleValueContainer::operator=(const int16 &rhs) { if (_objectType == INT16) { _value.int16Val = rhs; return *this; } deleteCharPointer(); _objectType = INT16; _value.int16Val = rhs; return *this; } SingleValueContainer &SingleValueContainer::operator=(const uint16 &rhs) { if (_objectType == UINT16) { _value.uint16Val = rhs; return *this; } deleteCharPointer(); _objectType = UINT16; _value.uint16Val = rhs; return *this; } SingleValueContainer &SingleValueContainer::operator=(const int32 &rhs) { if (_objectType == INT32) { _value.int32Val = rhs; return *this; } deleteCharPointer(); _objectType = INT32; _value.int32Val = rhs; return *this; } SingleValueContainer &SingleValueContainer::operator=(const uint32 &rhs) { if (_objectType == UINT32) { _value.uint32Val = rhs; return *this; } deleteCharPointer(); _objectType = UINT32; _value.uint32Val = rhs; return *this; } SingleValueContainer &SingleValueContainer::operator=(const float &rhs) { if (_objectType == FLOAT) { _value.floatVal = rhs; return *this; } deleteCharPointer(); _objectType = FLOAT; _value.floatVal = rhs; return *this; } SingleValueContainer &SingleValueContainer::operator=(const double &rhs) { if (_objectType == DOUBLE) { _value.doubleVal = rhs; return *this; } deleteCharPointer(); _objectType = DOUBLE; _value.doubleVal = rhs; return *this; } SingleValueContainer &SingleValueContainer::operator=(const Common::String &rhs) { if (_objectType != STRING) { _objectType = STRING; _value.stringVal = new char[rhs.size() + 1]; memcpy(_value.stringVal, rhs.c_str(), rhs.size() + 1); return *this; } uint32 length = strlen(_value.stringVal); if (length <= rhs.size() + 1) { memcpy(_value.stringVal, rhs.c_str(), rhs.size() + 1); } else { delete[] _value.stringVal; _value.stringVal = new char[rhs.size() + 1]; memcpy(_value.stringVal, rhs.c_str(), rhs.size() + 1); } return *this; } SingleValueContainer &SingleValueContainer::operator=(const SingleValueContainer &rhs) { switch (_objectType) { case BOOL: return operator=(rhs._value.boolVal); case BYTE: return operator=(rhs._value.byteVal); case INT16: return operator=(rhs._value.int16Val); case UINT16: return operator=(rhs._value.uint16Val); case INT32: return operator=(rhs._value.int32Val); case UINT32: return operator=(rhs._value.uint32Val); case FLOAT: return operator=(rhs._value.floatVal); case DOUBLE: return operator=(rhs._value.doubleVal); case STRING: uint32 length = strlen(rhs._value.stringVal); _value.stringVal = new char[length + 1]; memcpy(_value.stringVal, rhs._value.stringVal, length + 1); return *this; } return *this; } bool SingleValueContainer::getBoolValue(bool *returnValue) const { if (_objectType != BOOL) { warning("'Object' is not storing a bool."); return false; } *returnValue = _value.boolVal; return true; } bool SingleValueContainer::getByteValue(byte *returnValue) const { if (_objectType != BYTE) warning("'Object' is not storing a byte."); *returnValue = _value.byteVal; return true; } bool SingleValueContainer::getInt16Value(int16 *returnValue) const { if (_objectType != INT16) warning("'Object' is not storing an int16."); *returnValue = _value.int16Val; return true; } bool SingleValueContainer::getUInt16Value(uint16 *returnValue) const { if (_objectType != UINT16) warning("'Object' is not storing a uint16."); *returnValue = _value.uint16Val; return true; } bool SingleValueContainer::getInt32Value(int32 *returnValue) const { if (_objectType != INT32) warning("'Object' is not storing an int32."); *returnValue = _value.int32Val; return true; } bool SingleValueContainer::getUInt32Value(uint32 *returnValue) const { if (_objectType != UINT32) warning("'Object' is not storing a uint32."); *returnValue = _value.uint32Val; return true; } bool SingleValueContainer::getFloatValue(float *returnValue) const { if (_objectType != FLOAT) warning("'Object' is not storing a float."); *returnValue = _value.floatVal; return true; } bool SingleValueContainer::getDoubleValue(double *returnValue) const { if (_objectType != DOUBLE) warning("'Object' is not storing a double."); *returnValue = _value.doubleVal; return true; } bool SingleValueContainer::getStringValue(Common::String *returnValue) const { if (_objectType != STRING) warning("'Object' is not storing a Common::String."); *returnValue = _value.stringVal; return true; } } // End of namespace ZVision