/* * (c) Copyright Ascensio System SIA 2010-2017 * * This program is a free software product. You can redistribute it and/or * modify it under the terms of the GNU Affero General Public License (AGPL) * version 3 as published by the Free Software Foundation. In accordance with * Section 7(a) of the GNU AGPL its Section 15 shall be amended to the effect * that Ascensio System SIA expressly excludes the warranty of non-infringement * of any third-party rights. * * This program is distributed WITHOUT ANY WARRANTY; without even the implied * warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. For * details, see the GNU AGPL at: http://www.gnu.org/licenses/agpl-3.0.html * * You can contact Ascensio System SIA at Lubanas st. 125a-25, Riga, Latvia, * EU, LV-1021. * * The interactive user interfaces in modified source and object code versions * of the Program must display Appropriate Legal Notices, as required under * Section 5 of the GNU AGPL version 3. * * Pursuant to Section 7(b) of the License you must retain the original Product * logo when distributing the program. Pursuant to Section 7(e) we decline to * grant you any rights under trademark law for use of our trademarks. * * All the Product's GUI elements, including illustrations and icon sets, as * well as technical writing content are licensed under the terms of the * Creative Commons Attribution-ShareAlike 4.0 International. See the License * terms at http://creativecommons.org/licenses/by-sa/4.0/legalcode * */ #pragma once #include "Stdf.h" #include "Xstz.h" #include "GrLPUpxSw.h" namespace ASCDocFileFormat { class STD: public IOperand { friend class LPStd; public: STD(): bytes(NULL), sizeInBytes(0), sizeInBytesWithoutPadding(0) { } explicit STD( const Stdf& _stdf, const Xstz& _xstzName, const GrLPUpxSw& _grLPUpxSw ): bytes(NULL), sizeInBytes(0), sizeInBytesWithoutPadding(0) { this->sizeInBytes = ( _stdf.Size() + _xstzName.Size() + _grLPUpxSw.Size() ); this->sizeInBytesWithoutPadding = ( _stdf.Size() + _xstzName.Size() + _grLPUpxSw.SizeWithoutPadding() ); this->properties = _grLPUpxSw.GetProperties(); this->bytes = new unsigned char[this->sizeInBytes]; if (bytes) { memset( this->bytes, 0, this->sizeInBytes ); memcpy( this->bytes, (unsigned char*)_stdf, _stdf.Size() ); memcpy( ( this->bytes + _stdf.Size() ), (unsigned char*)_xstzName, _xstzName.Size() ); memcpy( ( this->bytes + _stdf.Size() + _xstzName.Size() ), (unsigned char*)_grLPUpxSw, _grLPUpxSw.Size() ); } } STD( const STD& _sTD ) : properties(_sTD.properties), bytes(NULL), sizeInBytes(_sTD.sizeInBytes), sizeInBytesWithoutPadding(_sTD.sizeInBytesWithoutPadding) { this->bytes = new unsigned char[this->sizeInBytes]; if ( this->bytes != NULL ) { memset( this->bytes, 0, this->sizeInBytes ); memcpy( this->bytes, _sTD.bytes, this->sizeInBytes ); } } virtual ~STD() { RELEASEARRAYOBJECTS(bytes); } const vector GetProperties() const { return this->properties; } virtual operator unsigned char*() const { return this->bytes; } virtual operator const unsigned char*() const { return (const unsigned char*)this->bytes; } virtual unsigned int Size() const { return this->sizeInBytes; } unsigned int SizeWithoutPadding() const { return this->sizeInBytesWithoutPadding; } private: vector properties; unsigned char* bytes; unsigned int sizeInBytes; unsigned int sizeInBytesWithoutPadding; }; class LPStd: public IOperand { private: vector properties; unsigned char* bytes; unsigned int sizeInBytes; unsigned int sizeInBytesWithoutPadding; public: LPStd() : bytes(NULL), sizeInBytes(sizeof(short)), sizeInBytesWithoutPadding(sizeof(short)) { this->bytes = new unsigned char[this->sizeInBytes]; if ( this->bytes != NULL ) { memset( this->bytes, 0, this->sizeInBytes ); } } explicit LPStd( const STD& _std ) : bytes(NULL), sizeInBytes(0), sizeInBytesWithoutPadding(0) { STD std(_std); FormatUtils::SetBytes( ( std.bytes + 6 ), (unsigned short)std.Size()/*SizeWithoutPadding()*/ ); this->sizeInBytes = ( sizeof(short) + std.Size() ); this->sizeInBytesWithoutPadding = ( sizeof(short) + std.SizeWithoutPadding() ); this->properties = _std.GetProperties(); this->bytes = new unsigned char[this->sizeInBytes]; if ( this->bytes != NULL ) { memset( this->bytes, 0, this->sizeInBytes ); FormatUtils::SetBytes( this->bytes, (short)std.Size()/*SizeWithoutPadding()*/ ); memcpy( ( this->bytes + sizeof(short) ), (unsigned char*)std, std.Size() ); // заполняем поле bchUpe StdfBase FormatUtils::SetBytes( this->bytes + sizeof(short) + 6, (short)std.Size() ); } } LPStd( const LPStd& _lPStd ) : properties(_lPStd.properties), bytes(NULL), sizeInBytes(_lPStd.sizeInBytes), sizeInBytesWithoutPadding(_lPStd.sizeInBytesWithoutPadding) { this->bytes = new unsigned char[this->sizeInBytes]; if ( this->bytes != NULL ) { memset( this->bytes, 0, this->sizeInBytes ); memcpy( this->bytes, _lPStd.bytes, this->sizeInBytes ); } } bool operator == ( const LPStd& _lPStd ) { return ( ( this->sizeInBytes == _lPStd.sizeInBytes ) && ( this->sizeInBytesWithoutPadding == _lPStd.sizeInBytesWithoutPadding ) && ( memcmp( this->bytes, _lPStd.bytes, this->sizeInBytes ) == 0 ) ); } bool operator != ( const LPStd& _lPStd ) { return !( this->operator == ( _lPStd ) ); } LPStd& operator = ( const LPStd& _lPStd ) { if ( *this != _lPStd ) { RELEASEARRAYOBJECTS(bytes); this->sizeInBytes = _lPStd.sizeInBytes; this->sizeInBytesWithoutPadding = _lPStd.sizeInBytesWithoutPadding; this->properties = _lPStd.properties; this->bytes = new unsigned char[this->sizeInBytes]; if ( this->bytes != NULL ) { memcpy( this->bytes, _lPStd.bytes, this->sizeInBytes ); } } return *this; } virtual ~LPStd() { RELEASEARRAYOBJECTS(bytes); } const vector GetProperties() const { return this->properties; } virtual operator unsigned char*() const { return this->bytes; } virtual operator const unsigned char*() const { return (const unsigned char*)this->bytes; } virtual unsigned int Size() const { return this->sizeInBytes; } unsigned int SizeWithoutPadding() const { return this->sizeInBytesWithoutPadding; } }; }