/* * (c) Copyright Ascensio System SIA 2010-2023 * * 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 20A-6 Ernesta Birznieka-Upish * street, Riga, Latvia, EU, LV-1050. * * 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 * */ #include "Reflection.h" namespace PPTX { namespace Logic { Reflection& Reflection::operator=(const Reflection& oSrc) { parentFile = oSrc.parentFile; parentElement = oSrc.parentElement; algn = oSrc.algn; blurRad = oSrc.blurRad; stA = oSrc.stA; endA = oSrc.endA; stPos = oSrc.stPos; endPos = oSrc.endPos; dir = oSrc.dir; fadeDir = oSrc.fadeDir; dist = oSrc.dist; kx = oSrc.kx; ky = oSrc.ky; rotWithShape = oSrc.rotWithShape; sx = oSrc.sx; sy = oSrc.sy; return *this; } OOX::EElementType Reflection::getType() const { return OOX::et_a_reflection; } void Reflection::fromXML(XmlUtils::CXmlLiteReader& oReader) { ReadAttributes( oReader ); } void Reflection::ReadAttributes(XmlUtils::CXmlLiteReader& oReader) { WritingElement_ReadAttributes_Start_No_NS( oReader ) WritingElement_ReadAttributes_Read_if ( oReader, _T("blurRad"), blurRad) WritingElement_ReadAttributes_Read_else_if( oReader, _T("dir"), dir) WritingElement_ReadAttributes_Read_else_if( oReader, _T("fadeDir"), fadeDir) WritingElement_ReadAttributes_Read_else_if( oReader, _T("dist"), dist) WritingElement_ReadAttributes_Read_else_if( oReader, _T("algn"), algn) WritingElement_ReadAttributes_Read_else_if( oReader, _T("kx"), kx) WritingElement_ReadAttributes_Read_else_if( oReader, _T("ky"), ky) WritingElement_ReadAttributes_Read_else_if( oReader, _T("rotWithShape"), rotWithShape) WritingElement_ReadAttributes_Read_else_if( oReader, _T("sx"), sx) WritingElement_ReadAttributes_Read_else_if( oReader, _T("sy"), sy) WritingElement_ReadAttributes_Read_else_if( oReader, _T("stA"), stA) WritingElement_ReadAttributes_Read_else_if( oReader, _T("endA"), endA) WritingElement_ReadAttributes_Read_else_if( oReader, _T("stPos"), stPos) WritingElement_ReadAttributes_Read_else_if( oReader, _T("endPos"), endPos) WritingElement_ReadAttributes_End_No_NS( oReader ) Normalize(); } void Reflection::fromXML(XmlUtils::CXmlNode& node) { XmlMacroReadAttributeBase(node, L"algn", algn); XmlMacroReadAttributeBase(node, L"blurRad", blurRad); XmlMacroReadAttributeBase(node, L"dir", dir); XmlMacroReadAttributeBase(node, L"dist", dist); XmlMacroReadAttributeBase(node, L"kx", kx); XmlMacroReadAttributeBase(node, L"ky", ky); XmlMacroReadAttributeBase(node, L"rotWithShape", rotWithShape); XmlMacroReadAttributeBase(node, L"sx", sx); XmlMacroReadAttributeBase(node, L"sy", sy); XmlMacroReadAttributeBase(node, L"stA", stA); XmlMacroReadAttributeBase(node, L"endA", endA); XmlMacroReadAttributeBase(node, L"stPos", stPos); XmlMacroReadAttributeBase(node, L"endPos", endPos); XmlMacroReadAttributeBase(node, L"fadeDir", fadeDir); Normalize(); } std::wstring Reflection::toXML() const { XmlUtils::CAttribute oAttr; oAttr.Write(_T("blurRad"), blurRad); oAttr.Write(_T("stA"), stA); oAttr.Write(_T("stPos"), stPos); oAttr.Write(_T("endA"), endA); oAttr.Write(_T("endPos"), endPos); oAttr.Write(_T("dist"), dist); oAttr.Write(_T("dir"), dir); oAttr.Write(_T("fadeDir"), fadeDir); oAttr.Write(_T("sx"), sx); oAttr.Write(_T("sy"), sy); oAttr.Write(_T("kx"), kx); oAttr.Write(_T("ky"), ky); oAttr.WriteLimitNullable(_T("algn"), algn); oAttr.Write(_T("rotWithShape"), rotWithShape); return XmlUtils::CreateNode(_T("a:reflection"), oAttr); } void Reflection::toXmlWriter(NSBinPptxRW::CXmlWriter* pWriter) const { std::wstring sNodeNamespace; std::wstring sAttrNamespace; if (XMLWRITER_DOC_TYPE_WORDART == pWriter->m_lDocType) { sNodeNamespace = L"w14:"; sAttrNamespace = sNodeNamespace; } else sNodeNamespace = L"a:"; pWriter->StartNode(sNodeNamespace + L"reflection"); pWriter->StartAttributes(); pWriter->WriteAttribute(sAttrNamespace + L"blurRad", blurRad); pWriter->WriteAttribute(sAttrNamespace + L"stA", stA); pWriter->WriteAttribute(sAttrNamespace + L"stPos", stPos); pWriter->WriteAttribute(sAttrNamespace + L"endA", endA); pWriter->WriteAttribute(sAttrNamespace + L"endPos", endPos); pWriter->WriteAttribute(sAttrNamespace + L"dist", dist); pWriter->WriteAttribute(sAttrNamespace + L"dir", dir); pWriter->WriteAttribute(sAttrNamespace + L"fadeDir", fadeDir); pWriter->WriteAttribute(sAttrNamespace + L"sx", sx); pWriter->WriteAttribute(sAttrNamespace + L"sy", sy); pWriter->WriteAttribute(sAttrNamespace + L"kx", kx); pWriter->WriteAttribute(sAttrNamespace + L"ky", ky); pWriter->WriteAttribute(sAttrNamespace + L"algn", algn); pWriter->WriteAttribute(sAttrNamespace + L"rotWithShape", rotWithShape); pWriter->EndAttributes(); pWriter->EndNode(sNodeNamespace + L"reflection"); } void Reflection::toPPTY(NSBinPptxRW::CBinaryFileWriter* pWriter) const { pWriter->StartRecord(EFFECT_TYPE_REFLECTION); pWriter->WriteBYTE(NSBinPptxRW::g_nodeAttributeStart); pWriter->WriteLimit2(0, algn); pWriter->WriteInt2(1, blurRad); pWriter->WriteInt2(2, stA); pWriter->WriteInt2(3, endA); pWriter->WriteInt2(4, stPos); pWriter->WriteInt2(5, endPos); pWriter->WriteInt2(6, dir); pWriter->WriteInt2(7, fadeDir); pWriter->WriteInt2(8, dist); pWriter->WriteInt2(9, kx); pWriter->WriteInt2(10, ky); pWriter->WriteInt2(11, sx); pWriter->WriteInt2(12, sy); pWriter->WriteBool2(13, rotWithShape); pWriter->WriteBYTE(NSBinPptxRW::g_nodeAttributeEnd); pWriter->EndRecord(); } void Reflection::fromPPTY(NSBinPptxRW::CBinaryFileReader* pReader) { pReader->Skip(4); // len BYTE _type = pReader->GetUChar(); LONG _end_rec = pReader->GetPos() + pReader->GetRecordSize() + 4; pReader->Skip(1); while (true) { BYTE _at = pReader->GetUChar_TypeNode(); if (_at == NSBinPptxRW::g_nodeAttributeEnd) break; switch (_at) { case 0: algn = pReader->GetUChar(); break; case 1: blurRad = pReader->GetLong(); break; case 2: stA = pReader->GetLong(); break; case 3: endA = pReader->GetLong(); break; case 4: stPos = pReader->GetLong(); break; case 5: endPos = pReader->GetLong(); break; case 6: dir = pReader->GetLong(); break; case 7: fadeDir = pReader->GetLong(); break; case 8: dist = pReader->GetLong(); break; case 9: kx = pReader->GetLong(); break; case 10:ky = pReader->GetLong(); break; case 11:sx = pReader->GetLong(); break; case 12:sy = pReader->GetLong(); break; case 13:rotWithShape = pReader->GetBool(); break; } } pReader->Seek(_end_rec); } void Reflection::FillParentPointersForChilds(){} void Reflection::Normalize() { blurRad.normalize_positive(); stA.normalize_positive(); endA.normalize_positive(); stPos.normalize_positive(); endPos.normalize_positive(); dist.normalize_positive(); dir.normalize(0, 21600000); //fadeDir.normalize(0, 27273042316900); kx.normalize(-5400000, 5400000); ky.normalize(-5400000, 5400000); } } // namespace Logic } // namespace PPTX