/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace ::com::sun::star; using std::make_unique; // parsing help functions for simple chars static void Imp_SkipSpaces(std::u16string_view rStr, sal_Int32& rPos, const sal_Int32 nLen) { while(rPos < nLen && ' ' == rStr[rPos]) rPos++; } static void Imp_SkipSpacesAndOpeningBraces(std::u16string_view rStr, sal_Int32& rPos, const sal_Int32 nLen) { while(rPos < nLen && (' ' == rStr[rPos] || '(' == rStr[rPos])) rPos++; } static void Imp_SkipSpacesAndCommas(std::u16string_view rStr, sal_Int32& rPos, const sal_Int32 nLen) { while(rPos < nLen && (' ' == rStr[rPos] || ',' == rStr[rPos])) rPos++; } static void Imp_SkipSpacesAndClosingBraces(std::u16string_view rStr, sal_Int32& rPos, const sal_Int32 nLen) { while(rPos < nLen && (' ' == rStr[rPos] || ')' == rStr[rPos])) rPos++; } // parsing help functions for integer numbers static bool Imp_IsOnUnitChar(std::u16string_view rStr, const sal_Int32 nPos) { sal_Unicode aChar(rStr[nPos]); return ('a' <= aChar && 'z' >= aChar) || ('A' <= aChar && 'Z' >= aChar) || '%' == aChar; } static double Imp_GetDoubleChar(std::u16string_view rStr, sal_Int32& rPos, const sal_Int32 nLen, const SvXMLUnitConverter& rConv, double fRetval, bool bLookForUnits = false) { sal_Unicode aChar(rStr[rPos]); OUStringBuffer sNumberString(32); if('+' == aChar || '-' == aChar) { sNumberString.append(rStr[rPos]); ++rPos; aChar = rPos >= nLen ? 0 : rStr[rPos]; } while(('0' <= aChar && '9' >= aChar) || '.' == aChar) { sNumberString.append(rStr[rPos]); ++rPos; aChar = rPos >= nLen ? 0 : rStr[rPos]; } if('e' == aChar || 'E' == aChar) { sNumberString.append(rStr[rPos]); ++rPos; aChar = rPos >= nLen ? 0 : rStr[rPos]; if('+' == aChar || '-' == aChar) { sNumberString.append(rStr[rPos]); ++rPos; aChar = rPos >= nLen ? 0 : rStr[rPos]; } while('0' <= aChar && '9' >= aChar) { sNumberString.append(rStr[rPos]); ++rPos; aChar = rPos >= nLen ? 0 : rStr[rPos]; } } if(bLookForUnits) { Imp_SkipSpaces(rStr, rPos, nLen); while(rPos < nLen && Imp_IsOnUnitChar(rStr, rPos)) sNumberString.append(rStr[rPos++]); } if(!sNumberString.isEmpty()) { if(bLookForUnits) rConv.convertDouble(fRetval, sNumberString); else { ::sax::Converter::convertDouble(fRetval, sNumberString); } } return fRetval; } static void Imp_PutDoubleChar(OUString& rStr, double fValue) { OUStringBuffer sStringBuffer; ::sax::Converter::convertDouble(sStringBuffer, fValue); rStr += sStringBuffer; } static void Imp_PutDoubleChar(OUStringBuffer& rStr, const SvXMLUnitConverter& rConv, double fValue, bool bConvertUnits = false) { OUStringBuffer sStringBuffer; if(bConvertUnits) rConv.convertDouble(sStringBuffer, fValue); else { ::sax::Converter::convertDouble(sStringBuffer, fValue); } rStr.append(sStringBuffer); } // base class of all 2D transform objects struct ImpSdXMLExpTransObj2DBase { sal_uInt16 mnType; explicit ImpSdXMLExpTransObj2DBase(sal_uInt16 nType) : mnType(nType) {} }; // possible object types for 2D #define IMP_SDXMLEXP_TRANSOBJ2D_ROTATE 0x0000 #define IMP_SDXMLEXP_TRANSOBJ2D_SCALE 0x0001 #define IMP_SDXMLEXP_TRANSOBJ2D_TRANSLATE 0x0002 #define IMP_SDXMLEXP_TRANSOBJ2D_SKEWX 0x0003 #define IMP_SDXMLEXP_TRANSOBJ2D_SKEWY 0x0004 #define IMP_SDXMLEXP_TRANSOBJ2D_MATRIX 0x0005 // classes of objects, different sizes namespace { struct ImpSdXMLExpTransObj2DRotate : public ImpSdXMLExpTransObj2DBase { double mfRotate; explicit ImpSdXMLExpTransObj2DRotate(double fVal) : ImpSdXMLExpTransObj2DBase(IMP_SDXMLEXP_TRANSOBJ2D_ROTATE), mfRotate(fVal) {} }; struct ImpSdXMLExpTransObj2DScale : public ImpSdXMLExpTransObj2DBase { ::basegfx::B2DTuple maScale; explicit ImpSdXMLExpTransObj2DScale(const ::basegfx::B2DTuple& rNew) : ImpSdXMLExpTransObj2DBase(IMP_SDXMLEXP_TRANSOBJ2D_SCALE), maScale(rNew) {} }; struct ImpSdXMLExpTransObj2DTranslate : public ImpSdXMLExpTransObj2DBase { ::basegfx::B2DTuple maTranslate; explicit ImpSdXMLExpTransObj2DTranslate(const ::basegfx::B2DTuple& rNew) : ImpSdXMLExpTransObj2DBase(IMP_SDXMLEXP_TRANSOBJ2D_TRANSLATE), maTranslate(rNew) {} }; struct ImpSdXMLExpTransObj2DSkewX : public ImpSdXMLExpTransObj2DBase { double mfSkewX; explicit ImpSdXMLExpTransObj2DSkewX(double fVal) : ImpSdXMLExpTransObj2DBase(IMP_SDXMLEXP_TRANSOBJ2D_SKEWX), mfSkewX(fVal) {} }; struct ImpSdXMLExpTransObj2DSkewY : public ImpSdXMLExpTransObj2DBase { double mfSkewY; explicit ImpSdXMLExpTransObj2DSkewY(double fVal) : ImpSdXMLExpTransObj2DBase(IMP_SDXMLEXP_TRANSOBJ2D_SKEWY), mfSkewY(fVal) {} }; struct ImpSdXMLExpTransObj2DMatrix : public ImpSdXMLExpTransObj2DBase { ::basegfx::B2DHomMatrix maMatrix; explicit ImpSdXMLExpTransObj2DMatrix(const ::basegfx::B2DHomMatrix& rNew) : ImpSdXMLExpTransObj2DBase(IMP_SDXMLEXP_TRANSOBJ2D_MATRIX), maMatrix(rNew) {} }; } // add members void SdXMLImExTransform2D::AddRotate(double fNew) { if(fNew != 0.0) maList.push_back(std::make_shared(fNew)); } void SdXMLImExTransform2D::AddTranslate(const ::basegfx::B2DTuple& rNew) { if(!rNew.equalZero()) maList.push_back(std::make_shared(rNew)); } void SdXMLImExTransform2D::AddSkewX(double fNew) { if(fNew != 0.0) maList.push_back(std::make_shared(fNew)); } // gen string for export const OUString& SdXMLImExTransform2D::GetExportString(const SvXMLUnitConverter& rConv) { OUStringBuffer aNewString; OUString aClosingBrace(")"); OUString aEmptySpace(" "); const sal_uInt32 nCount = maList.size(); for(sal_uInt32 a(0); a < nCount; a++) { ImpSdXMLExpTransObj2DBase* pObj = maList[a].get(); switch(pObj->mnType) { case IMP_SDXMLEXP_TRANSOBJ2D_ROTATE : { aNewString.append("rotate ("); Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->mfRotate); aNewString.append(aClosingBrace); break; } case IMP_SDXMLEXP_TRANSOBJ2D_SCALE : { aNewString.append("scale ("); Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maScale.getX()); aNewString.append(aEmptySpace); Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maScale.getY()); aNewString.append(aClosingBrace); break; } case IMP_SDXMLEXP_TRANSOBJ2D_TRANSLATE : { aNewString.append("translate ("); Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maTranslate.getX(), true); aNewString.append(aEmptySpace); Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maTranslate.getY(), true); aNewString.append(aClosingBrace); break; } case IMP_SDXMLEXP_TRANSOBJ2D_SKEWX : { aNewString.append("skewX ("); Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->mfSkewX); aNewString.append(aClosingBrace); break; } case IMP_SDXMLEXP_TRANSOBJ2D_SKEWY : { aNewString.append("skewY ("); Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->mfSkewY); aNewString.append(aClosingBrace); break; } case IMP_SDXMLEXP_TRANSOBJ2D_MATRIX : { aNewString.append("matrix ("); // a Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(0, 0)); aNewString.append(aEmptySpace); // b Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(1, 0)); aNewString.append(aEmptySpace); // c Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(0, 1)); aNewString.append(aEmptySpace); // d Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(1, 1)); aNewString.append(aEmptySpace); // e Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(0, 2), true); aNewString.append(aEmptySpace); // f Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(1, 2), true); aNewString.append(aClosingBrace); break; } default : { OSL_FAIL("SdXMLImExTransform2D: impossible entry!"); break; } } // if not the last entry, add one space to next tag if(a + 1 != maList.size()) { aNewString.append(aEmptySpace); } } // fill string form OUString msString = aNewString.makeStringAndClear(); return msString; } // sets new string, parses it and generates entries void SdXMLImExTransform2D::SetString(const OUString& rNew, const SvXMLUnitConverter& rConv) { msString = rNew; maList.clear(); if(msString.isEmpty()) return; const OUString aStr = msString; const sal_Int32 nLen(aStr.getLength()); static const OUStringLiteral aString_rotate( u"rotate" ); static const OUStringLiteral aString_scale( u"scale" ); static const OUStringLiteral aString_translate( u"translate" ); static const OUStringLiteral aString_skewX( u"skewX" ); static const OUStringLiteral aString_skewY( u"skewY" ); static const OUStringLiteral aString_matrix( u"matrix" ); sal_Int32 nPos(0); while(nPos < nLen) { // skip spaces Imp_SkipSpaces(aStr, nPos, nLen); // look for tag if(nPos < nLen) { if(nPos == aStr.indexOf(aString_rotate, nPos)) { double fValue(0.0); nPos += 6; Imp_SkipSpacesAndOpeningBraces(aStr, nPos, nLen); fValue = Imp_GetDoubleChar(aStr, nPos, nLen, rConv, fValue); if(fValue != 0.0) maList.push_back(std::make_shared(fValue)); Imp_SkipSpacesAndClosingBraces(aStr, nPos, nLen); } else if(nPos == aStr.indexOf(aString_scale, nPos)) { ::basegfx::B2DTuple aValue(1.0, 1.0); nPos += 5; Imp_SkipSpacesAndOpeningBraces(aStr, nPos, nLen); aValue.setX(Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.getX())); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); aValue.setY(Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.getY())); if(aValue.getX() != 1.0 || aValue.getY() != 1.0) maList.push_back(std::make_shared(aValue)); Imp_SkipSpacesAndClosingBraces(aStr, nPos, nLen); } else if(nPos == aStr.indexOf(aString_translate, nPos)) { ::basegfx::B2DTuple aValue; nPos += 9; Imp_SkipSpacesAndOpeningBraces(aStr, nPos, nLen); aValue.setX(Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.getX(), true)); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); aValue.setY(Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.getY(), true)); if(!aValue.equalZero()) maList.push_back(std::make_shared(aValue)); Imp_SkipSpacesAndClosingBraces(aStr, nPos, nLen); } else if(nPos == aStr.indexOf(aString_skewX, nPos)) { double fValue(0.0); nPos += 5; Imp_SkipSpacesAndOpeningBraces(aStr, nPos, nLen); fValue = Imp_GetDoubleChar(aStr, nPos, nLen, rConv, fValue); if(fValue != 0.0) maList.push_back(std::make_shared(fValue)); Imp_SkipSpacesAndClosingBraces(aStr, nPos, nLen); } else if(nPos == aStr.indexOf(aString_skewY, nPos)) { double fValue(0.0); nPos += 5; Imp_SkipSpacesAndOpeningBraces(aStr, nPos, nLen); fValue = Imp_GetDoubleChar(aStr, nPos, nLen, rConv, fValue); if(fValue != 0.0) maList.push_back(std::make_shared(fValue)); Imp_SkipSpacesAndClosingBraces(aStr, nPos, nLen); } else if(nPos == aStr.indexOf(aString_matrix, nPos)) { ::basegfx::B2DHomMatrix aValue; nPos += 6; Imp_SkipSpacesAndOpeningBraces(aStr, nPos, nLen); // a aValue.set(0, 0, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(0, 0))); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // b aValue.set(1, 0, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(1, 0))); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // c aValue.set(0, 1, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(0, 1))); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // d aValue.set(1, 1, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(1, 1))); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // e aValue.set(0, 2, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(0, 2), true)); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // f aValue.set(1, 2, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(1, 2), true)); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); if(!aValue.isIdentity()) maList.push_back(std::make_shared(aValue)); Imp_SkipSpacesAndClosingBraces(aStr, nPos, nLen); } else { nPos++; } } } } void SdXMLImExTransform2D::GetFullTransform(::basegfx::B2DHomMatrix& rFullTrans) { rFullTrans.identity(); const sal_uInt32 nCount = maList.size(); for(sal_uInt32 a(0); a < nCount; a++) { ImpSdXMLExpTransObj2DBase* pObj = maList[a].get(); switch(pObj->mnType) { case IMP_SDXMLEXP_TRANSOBJ2D_ROTATE : { // #i78696# // mfRotate is mathematically wrong oriented since we export/import the angle // values mirrored. This error is fixed in the API, but not yet in the FileFormat. // For the FileFormat there is a follow-up task (#i78698#) to fix this in the next // ODF FileFormat version. For now - to emulate the old behaviour - it is necessary // to mirror the value here rFullTrans.rotate(static_cast(pObj)->mfRotate * -1.0); break; } case IMP_SDXMLEXP_TRANSOBJ2D_SCALE : { const ::basegfx::B2DTuple& rScale = static_cast(pObj)->maScale; rFullTrans.scale(rScale.getX(), rScale.getY()); break; } case IMP_SDXMLEXP_TRANSOBJ2D_TRANSLATE : { const ::basegfx::B2DTuple& rTranslate = static_cast(pObj)->maTranslate; rFullTrans.translate(rTranslate.getX(), rTranslate.getY()); break; } case IMP_SDXMLEXP_TRANSOBJ2D_SKEWX : { // For to get a mathematical correct matrix from already existing documents, // mirror the value here. ODF spec is unclear about direction. rFullTrans.shearX(-tan(static_cast(pObj)->mfSkewX)); break; } case IMP_SDXMLEXP_TRANSOBJ2D_SKEWY : { // LibreOffice does not write skewY, OOo neither. Such files are foreign documents // or manually set transformations. OOo had used the value as -tan(value) before // errors were introduced, Scribus 1.5.4 uses it as -tan(value) too, MS Office does // not shear at all. ODF spec is unclear about direction. rFullTrans.shearY(-tan(static_cast(pObj)->mfSkewY)); break; } case IMP_SDXMLEXP_TRANSOBJ2D_MATRIX : { rFullTrans *= static_cast(pObj)->maMatrix; break; } default : { OSL_FAIL("SdXMLImExTransform2D: impossible entry!"); break; } } } } // base class of all 3D transform objects struct ImpSdXMLExpTransObj3DBase { sal_uInt16 mnType; explicit ImpSdXMLExpTransObj3DBase(sal_uInt16 nType) : mnType(nType) {} }; // possible object types for 3D #define IMP_SDXMLEXP_TRANSOBJ3D_ROTATE_X 0x0000 #define IMP_SDXMLEXP_TRANSOBJ3D_ROTATE_Y 0x0001 #define IMP_SDXMLEXP_TRANSOBJ3D_ROTATE_Z 0x0002 #define IMP_SDXMLEXP_TRANSOBJ3D_SCALE 0x0003 #define IMP_SDXMLEXP_TRANSOBJ3D_TRANSLATE 0x0004 #define IMP_SDXMLEXP_TRANSOBJ3D_MATRIX 0x0005 // classes of objects, different sizes namespace { struct ImpSdXMLExpTransObj3DRotateX : public ImpSdXMLExpTransObj3DBase { double mfRotateX; explicit ImpSdXMLExpTransObj3DRotateX(double fVal) : ImpSdXMLExpTransObj3DBase(IMP_SDXMLEXP_TRANSOBJ3D_ROTATE_X), mfRotateX(fVal) {} }; struct ImpSdXMLExpTransObj3DRotateY : public ImpSdXMLExpTransObj3DBase { double mfRotateY; explicit ImpSdXMLExpTransObj3DRotateY(double fVal) : ImpSdXMLExpTransObj3DBase(IMP_SDXMLEXP_TRANSOBJ3D_ROTATE_Y), mfRotateY(fVal) {} }; struct ImpSdXMLExpTransObj3DRotateZ : public ImpSdXMLExpTransObj3DBase { double mfRotateZ; explicit ImpSdXMLExpTransObj3DRotateZ(double fVal) : ImpSdXMLExpTransObj3DBase(IMP_SDXMLEXP_TRANSOBJ3D_ROTATE_Z), mfRotateZ(fVal) {} }; struct ImpSdXMLExpTransObj3DScale : public ImpSdXMLExpTransObj3DBase { ::basegfx::B3DTuple maScale; explicit ImpSdXMLExpTransObj3DScale(const ::basegfx::B3DTuple& rNew) : ImpSdXMLExpTransObj3DBase(IMP_SDXMLEXP_TRANSOBJ3D_SCALE), maScale(rNew) {} }; struct ImpSdXMLExpTransObj3DTranslate : public ImpSdXMLExpTransObj3DBase { ::basegfx::B3DTuple maTranslate; explicit ImpSdXMLExpTransObj3DTranslate(const ::basegfx::B3DTuple& rNew) : ImpSdXMLExpTransObj3DBase(IMP_SDXMLEXP_TRANSOBJ3D_TRANSLATE), maTranslate(rNew) {} }; struct ImpSdXMLExpTransObj3DMatrix : public ImpSdXMLExpTransObj3DBase { ::basegfx::B3DHomMatrix maMatrix; explicit ImpSdXMLExpTransObj3DMatrix(const ::basegfx::B3DHomMatrix& rNew) : ImpSdXMLExpTransObj3DBase(IMP_SDXMLEXP_TRANSOBJ3D_MATRIX), maMatrix(rNew) {} }; } // add members void SdXMLImExTransform3D::AddMatrix(const ::basegfx::B3DHomMatrix& rNew) { if(!rNew.isIdentity()) maList.push_back(std::make_shared(rNew)); } void SdXMLImExTransform3D::AddHomogenMatrix(const drawing::HomogenMatrix& xHomMat) { AddMatrix(basegfx::utils::UnoHomogenMatrixToB3DHomMatrix(xHomMat)); } // gen string for export const OUString& SdXMLImExTransform3D::GetExportString(const SvXMLUnitConverter& rConv) { OUStringBuffer aNewString; OUString aClosingBrace(")"); OUString aEmptySpace(" "); const sal_uInt32 nCount = maList.size(); for(sal_uInt32 a(0); a < nCount; a++) { ImpSdXMLExpTransObj3DBase* pObj = maList[a].get(); switch(pObj->mnType) { case IMP_SDXMLEXP_TRANSOBJ3D_ROTATE_X : { aNewString.append("rotatex ("); Imp_PutDoubleChar(aNewString, rConv, basegfx::rad2deg( static_cast(pObj)->mfRotateX) ); aNewString.append(aClosingBrace); break; } case IMP_SDXMLEXP_TRANSOBJ3D_ROTATE_Y : { aNewString.append("rotatey ("); Imp_PutDoubleChar(aNewString, rConv, basegfx::rad2deg( static_cast(pObj)->mfRotateY) ); aNewString.append(aClosingBrace); break; } case IMP_SDXMLEXP_TRANSOBJ3D_ROTATE_Z : { aNewString.append("rotatez ("); Imp_PutDoubleChar(aNewString, rConv, basegfx::rad2deg( static_cast(pObj)->mfRotateZ) ); aNewString.append(aClosingBrace); break; } case IMP_SDXMLEXP_TRANSOBJ3D_SCALE : { aNewString.append("scale ("); Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maScale.getX()); aNewString.append(aEmptySpace); Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maScale.getY()); aNewString.append(aEmptySpace); Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maScale.getZ()); aNewString.append(aClosingBrace); break; } case IMP_SDXMLEXP_TRANSOBJ3D_TRANSLATE : { aNewString.append("translate ("); Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maTranslate.getX(), true); aNewString.append(aEmptySpace); Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maTranslate.getY(), true); aNewString.append(aEmptySpace); Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maTranslate.getZ(), true); aNewString.append(aClosingBrace); break; } case IMP_SDXMLEXP_TRANSOBJ3D_MATRIX : { aNewString.append("matrix ("); // a Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(0, 0)); aNewString.append(aEmptySpace); // b Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(1, 0)); aNewString.append(aEmptySpace); // c Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(2, 0)); aNewString.append(aEmptySpace); // d Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(0, 1)); aNewString.append(aEmptySpace); // e Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(1, 1)); aNewString.append(aEmptySpace); // f Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(2, 1)); aNewString.append(aEmptySpace); // g Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(0, 2)); aNewString.append(aEmptySpace); // h Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(1, 2)); aNewString.append(aEmptySpace); // i Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(2, 2)); aNewString.append(aEmptySpace); // j Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(0, 3), true); aNewString.append(aEmptySpace); // k Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(1, 3), true); aNewString.append(aEmptySpace); // l Imp_PutDoubleChar(aNewString, rConv, static_cast(pObj)->maMatrix.get(2, 3), true); aNewString.append(aClosingBrace); break; } default : { OSL_FAIL("SdXMLImExTransform3D: impossible entry!"); break; } } // if not the last entry, add one space to next tag if(a + 1 != maList.size()) { aNewString.append(aEmptySpace); } } // fill string form OUString msString = aNewString.makeStringAndClear(); return msString; } // for Import: constructor with string, parses it and generates entries SdXMLImExTransform3D::SdXMLImExTransform3D(const OUString& rNew, const SvXMLUnitConverter& rConv) { SetString(rNew, rConv); } // sets new string, parses it and generates entries void SdXMLImExTransform3D::SetString(const OUString& rNew, const SvXMLUnitConverter& rConv) { msString = rNew; maList.clear(); if(msString.isEmpty()) return; const OUString aStr = msString; const sal_Int32 nLen(aStr.getLength()); static const OUStringLiteral aString_rotatex( u"rotatex" ); static const OUStringLiteral aString_rotatey( u"rotatey" ); static const OUStringLiteral aString_rotatez( u"rotatez" ); static const OUStringLiteral aString_scale( u"scale" ); static const OUStringLiteral aString_translate( u"translate" ); static const OUStringLiteral aString_matrix( u"matrix" ); sal_Int32 nPos(0); while(nPos < nLen) { // skip spaces Imp_SkipSpaces(aStr, nPos, nLen); // look for tag if(nPos < nLen) { if(nPos == aStr.indexOf(aString_rotatex, nPos)) { double fValue(0.0); nPos += 7; Imp_SkipSpacesAndOpeningBraces(aStr, nPos, nLen); fValue = Imp_GetDoubleChar(aStr, nPos, nLen, rConv, fValue); if(fValue != 0.0) maList.push_back(std::make_shared(basegfx::deg2rad(fValue))); Imp_SkipSpacesAndClosingBraces(aStr, nPos, nLen); } else if(nPos == aStr.indexOf(aString_rotatey, nPos)) { double fValue(0.0); nPos += 7; Imp_SkipSpacesAndOpeningBraces(aStr, nPos, nLen); fValue = Imp_GetDoubleChar(aStr, nPos, nLen, rConv, fValue); if(fValue != 0.0) maList.push_back(std::make_shared(basegfx::deg2rad(fValue))); Imp_SkipSpacesAndClosingBraces(aStr, nPos, nLen); } else if(nPos == aStr.indexOf(aString_rotatez, nPos)) { double fValue(0.0); nPos += 7; Imp_SkipSpacesAndOpeningBraces(aStr, nPos, nLen); fValue = Imp_GetDoubleChar(aStr, nPos, nLen, rConv, fValue); if(fValue != 0.0) maList.push_back(std::make_shared(basegfx::deg2rad(fValue))); Imp_SkipSpacesAndClosingBraces(aStr, nPos, nLen); } else if(nPos == aStr.indexOf(aString_scale, nPos)) { ::basegfx::B3DTuple aValue(1.0, 1.0, 1.0); nPos += 5; Imp_SkipSpacesAndOpeningBraces(aStr, nPos, nLen); aValue.setX(Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.getX())); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); aValue.setY(Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.getY())); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); aValue.setZ(Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.getZ())); if(1.0 != aValue.getX() || 1.0 != aValue.getY() || 1.0 != aValue.getZ()) maList.push_back(std::make_shared(aValue)); Imp_SkipSpacesAndClosingBraces(aStr, nPos, nLen); } else if(nPos == aStr.indexOf(aString_translate, nPos)) { ::basegfx::B3DTuple aValue; nPos += 9; Imp_SkipSpacesAndOpeningBraces(aStr, nPos, nLen); aValue.setX(Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.getX(), true)); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); aValue.setY(Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.getY(), true)); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); aValue.setZ(Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.getZ(), true)); if(!aValue.equalZero()) maList.push_back(std::make_shared(aValue)); Imp_SkipSpacesAndClosingBraces(aStr, nPos, nLen); } else if(nPos == aStr.indexOf(aString_matrix, nPos)) { ::basegfx::B3DHomMatrix aValue; nPos += 6; Imp_SkipSpacesAndOpeningBraces(aStr, nPos, nLen); // a aValue.set(0, 0, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(0, 0))); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // b aValue.set(1, 0, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(1, 0))); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // c aValue.set(2, 0, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(2, 0))); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // d aValue.set(0, 1, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(0, 1))); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // e aValue.set(1, 1, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(1, 1))); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // f aValue.set(2, 1, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(2, 1))); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // g aValue.set(0, 2, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(0, 2))); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // h aValue.set(1, 2, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(1, 2))); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // i aValue.set(2, 2, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(2, 2))); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // j aValue.set(0, 3, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(0, 3), true)); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // k aValue.set(1, 3, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(1, 3), true)); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // l aValue.set(2, 3, Imp_GetDoubleChar(aStr, nPos, nLen, rConv, aValue.get(2, 3), true)); Imp_SkipSpacesAndCommas(aStr, nPos, nLen); if(!aValue.isIdentity()) maList.push_back(std::make_shared(aValue)); Imp_SkipSpacesAndClosingBraces(aStr, nPos, nLen); } else { nPos++; } } } } bool SdXMLImExTransform3D::GetFullHomogenTransform(css::drawing::HomogenMatrix& xHomMat) { ::basegfx::B3DHomMatrix aFullTransform; GetFullTransform(aFullTransform); if(!aFullTransform.isIdentity()) { basegfx::utils::B3DHomMatrixToUnoHomogenMatrix(aFullTransform, xHomMat); return true; } return false; } void SdXMLImExTransform3D::GetFullTransform(::basegfx::B3DHomMatrix& rFullTrans) { rFullTrans.identity(); const sal_uInt32 nCount = maList.size(); for(sal_uInt32 a(0); a < nCount; a++) { ImpSdXMLExpTransObj3DBase* pObj = maList[a].get(); switch(pObj->mnType) { case IMP_SDXMLEXP_TRANSOBJ3D_ROTATE_X : { rFullTrans.rotate(static_cast(pObj)->mfRotateX, 0.0, 0.0); break; } case IMP_SDXMLEXP_TRANSOBJ3D_ROTATE_Y : { rFullTrans.rotate(0.0, static_cast(pObj)->mfRotateY, 0.0); break; } case IMP_SDXMLEXP_TRANSOBJ3D_ROTATE_Z : { rFullTrans.rotate(0.0, 0.0, static_cast(pObj)->mfRotateZ); break; } case IMP_SDXMLEXP_TRANSOBJ3D_SCALE : { const ::basegfx::B3DTuple& rScale = static_cast(pObj)->maScale; rFullTrans.scale(rScale.getX(), rScale.getY(), rScale.getZ()); break; } case IMP_SDXMLEXP_TRANSOBJ3D_TRANSLATE : { const ::basegfx::B3DTuple& rTranslate = static_cast(pObj)->maTranslate; rFullTrans.translate(rTranslate.getX(), rTranslate.getY(), rTranslate.getZ()); break; } case IMP_SDXMLEXP_TRANSOBJ3D_MATRIX : { rFullTrans *= static_cast(pObj)->maMatrix; break; } default : { OSL_FAIL("SdXMLImExTransform3D: impossible entry!"); break; } } } } SdXMLImExViewBox::SdXMLImExViewBox(double fX, double fY, double fW, double fH) : mfX( fX ), mfY( fY ), mfW( fW ), mfH( fH ) { } // #100617# Asked vincent hardy: svg:viewBox values may be double precision. SdXMLImExViewBox::SdXMLImExViewBox(const OUString& rNew, const SvXMLUnitConverter& rConv) : msString(rNew), mfX( 0.0 ), mfY( 0.0 ), mfW( 1000.0 ), mfH( 1000.0 ) { if(msString.isEmpty()) return; const OUString aStr = msString; const sal_Int32 nLen(aStr.getLength()); sal_Int32 nPos(0); // skip starting spaces Imp_SkipSpaces(aStr, nPos, nLen); // get mX, #100617# be prepared for doubles mfX = Imp_GetDoubleChar(aStr, nPos, nLen, rConv, mfX); // skip spaces and commas Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // get mY, #100617# be prepared for doubles mfY = Imp_GetDoubleChar(aStr, nPos, nLen, rConv, mfY); // skip spaces and commas Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // get mW, #100617# be prepared for doubles mfW = Imp_GetDoubleChar(aStr, nPos, nLen, rConv, mfW); // skip spaces and commas Imp_SkipSpacesAndCommas(aStr, nPos, nLen); // get mH, #100617# be prepared for doubles mfH = Imp_GetDoubleChar(aStr, nPos, nLen, rConv, mfH); } const OUString& SdXMLImExViewBox::GetExportString() { OUString aNewString; OUString aEmptySpace(" "); Imp_PutDoubleChar(aNewString, mfX); aNewString += aEmptySpace; Imp_PutDoubleChar(aNewString, mfY); aNewString += aEmptySpace; Imp_PutDoubleChar(aNewString, mfW); aNewString += aEmptySpace; Imp_PutDoubleChar(aNewString, mfH); // set new string msString = aNewString; return msString; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */