/* * Copyright (C) Ascensio System SIA, 2009-2026 * * 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, together with the * additional terms provided in the LICENSE file. * * 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: https://www.gnu.org/licenses/agpl-3.0.html * * You can contact Ascensio System SIA by email at info@onlyoffice.com * or by postal mail at 20A-6 Ernesta Birznieka-Upisha Street, Riga, * LV-1050, Latvia, European Union. * * The interactive user interfaces in modified versions of the Program * are required to display Appropriate Legal Notices in accordance with * Section 5 of the GNU AGPL version 3. * * No trademark rights are granted under this License. * * All non-code elements of the Product, including illustrations, * icon sets, and technical writing content, are licensed under the * Creative Commons Attribution-ShareAlike 4.0 International License: * https://creativecommons.org/licenses/by-sa/4.0/legalcode * * This license applies only to such non-code elements and does not * modify or replace the licensing terms applicable to the Program's * source code, which remains licensed under the GNU Affero General * Public License v3. * * SPDX-License-Identifier: AGPL-3.0-only */ #ifndef SHAPE_ASPECTS_H #define SHAPE_ASPECTS_H #include #include class CShapeAspects { public: CShapeAspects() { m_aspects[L"can"] = 3616635.0 / 4810125.0; m_aspects[L"moon"] = 457200.0 / 914400.0; m_aspects[L"leftBracket"] = 73152.0 / 914400.0; m_aspects[L"rightBracket"] = 73152.0 / 914400.0; m_aspects[L"leftBrace"] = 155448.0 / 914400.0; m_aspects[L"rightBrace"] = 155448.0 / 914400.0; m_aspects[L"triangle"] = 1060704.0 / 914400.0; m_aspects[L"parallelogram"] = 1216152.0 / 914400.0; m_aspects[L"trapezoid"] = 914400.0 / 1216152.0; m_aspects[L"pentagon"] = 960120.0 / 914400.0; m_aspects[L"hexagon"] = 1060704.0 / 914400.0; m_aspects[L"bracePair"] = 1069848.0 / 914400.0; m_aspects[L"rightArrow"] = 978408.0 / 484632.0; m_aspects[L"leftArrow"] = 978408.0 / 484632.0; m_aspects[L"upArrow"] = 484632.0 / 978408.0; m_aspects[L"downArrow"] = 484632.0 / 978408.0; m_aspects[L"leftRightArrow"] = 1216152.0 / 484632.0; m_aspects[L"upDownArrow"] = 484632.0 / 1216152.0; m_aspects[L"bentArrow"] = 813816.0 / 868680.0; m_aspects[L"uturnArrow"] = 886968.0 / 877824.0; m_aspects[L"bentUpArrow"] = 850392.0 / 731520.0; m_aspects[L"curvedRightArrow"] = 731520.0 / 1216152.0; m_aspects[L"curvedLeftArrow"] = 731520.0 / 1216152.0; m_aspects[L"curvedUpArrow"] = 1216152.0 / 731520.0; m_aspects[L"curvedDownArrow"] = 1216152.0 / 731520.0; m_aspects[L"stripedRightArrow"] = 978408.0 / 484632.0; m_aspects[L"notchedRightArrow"] = 978408.0 / 484632.0; m_aspects[L"homePlate"] = 978408.0 / 484632.0; m_aspects[L"leftRightArrowCallout"] = 1216152.0 / 576072.0; m_aspects[L"flowChartProcess"] = 914400.0 / 612648.0; m_aspects[L"flowChartAlternateProcess"] = 914400.0 / 612648.0; m_aspects[L"flowChartDecision"] = 914400.0 / 612648.0; m_aspects[L"flowChartInputOutput"] = 914400.0 / 612648.0; m_aspects[L"flowChartPredefinedProcess"] = 914400.0 / 612648.0; m_aspects[L"flowChartDocument"] = 914400.0 / 612648.0; m_aspects[L"flowChartMultidocument"] = 1060704.0 / 758952.0; m_aspects[L"flowChartTerminator"] = 914400.0 / 301752.0; m_aspects[L"flowChartPreparation"] = 1060704.0 / 612648.0; m_aspects[L"flowChartManualInput"] = 914400.0 / 457200.0; m_aspects[L"flowChartManualOperation"] = 914400.0 / 612648.0; m_aspects[L"flowChartPunchedCard"] = 914400.0 / 804672.0; m_aspects[L"flowChartPunchedTape"] = 914400.0 / 804672.0; m_aspects[L"flowChartPunchedTape"] = 457200.0 / 914400.0; m_aspects[L"flowChartSort"] = 457200.0 / 914400.0; m_aspects[L"flowChartOnlineStorage"] = 914400.0 / 612648.0; m_aspects[L"flowChartMagneticDisk"] = 914400.0 / 612648.0; m_aspects[L"flowChartMagneticDrum"] = 914400.0 / 685800.0; m_aspects[L"flowChartDisplay"] = 914400.0 / 612648.0; m_aspects[L"ribbon2"] = 1216152.0 / 612648.0; m_aspects[L"ribbon"] = 1216152.0 / 612648.0; m_aspects[L"ellipseRibbon2"] = 1216152.0 / 758952.0; m_aspects[L"ellipseRibbon"] = 1216152.0 / 758952.0; m_aspects[L"verticalScroll"] = 1033272.0 / 1143000.0; m_aspects[L"horizontalScroll"] = 1143000.0 / 1033272.0; m_aspects[L"wedgeRectCallout"] = 914400.0 / 612648.0; m_aspects[L"wedgeRoundRectCallout"] = 914400.0 / 612648.0; m_aspects[L"wedgeEllipseCallout"] = 914400.0 / 612648.0; m_aspects[L"cloudCallout"] = 914400.0 / 612648.0; m_aspects[L"borderCallout1"] = 914400.0 / 612648.0; m_aspects[L"borderCallout2"] = 914400.0 / 612648.0; m_aspects[L"borderCallout3"] = 914400.0 / 612648.0; m_aspects[L"accentCallout1"] = 914400.0 / 612648.0; m_aspects[L"accentCallout2"] = 914400.0 / 612648.0; m_aspects[L"accentCallout3"] = 914400.0 / 612648.0; m_aspects[L"callout1"] = 914400.0 / 612648.0; m_aspects[L"callout2"] = 914400.0 / 612648.0; m_aspects[L"callout3"] = 914400.0 / 612648.0; m_aspects[L"accentBorderCallout1"] = 914400.0 / 612648.0; m_aspects[L"accentBorderCallout2"] = 914400.0 / 612648.0; m_aspects[L"accentBorderCallout3"] = 914400.0 / 612648.0; } inline double GetAspect(std::wstring sName) { std::map::iterator oIter = m_aspects.find(sName); if (oIter != m_aspects.end()) return oIter->second; return 1.0; } private: std::map m_aspects; }; #endif