/* -*- 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 class ImplB2DPolyPolygon { basegfx::B2DPolygonVector maPolygons; std::unique_ptr< basegfx::SystemDependentDataHolder > mpSystemDependentDataHolder; public: ImplB2DPolyPolygon() : maPolygons(), mpSystemDependentDataHolder() { } explicit ImplB2DPolyPolygon(const ImplB2DPolyPolygon& rSource) : maPolygons(rSource.maPolygons), mpSystemDependentDataHolder() { } explicit ImplB2DPolyPolygon(const basegfx::B2DPolygon& rToBeCopied) : maPolygons(1,rToBeCopied), mpSystemDependentDataHolder() { } ImplB2DPolyPolygon& operator=(const ImplB2DPolyPolygon& rSource) { if (this != &rSource) { maPolygons = rSource.maPolygons; mpSystemDependentDataHolder.reset(); } return *this; } void addOrReplaceSystemDependentData(basegfx::SystemDependentData_SharedPtr& rData) { if(!mpSystemDependentDataHolder) { mpSystemDependentDataHolder.reset(new basegfx::SystemDependentDataHolder()); } mpSystemDependentDataHolder->addOrReplaceSystemDependentData(rData); } basegfx::SystemDependentData_SharedPtr getSystemDependentData(size_t hash_code) const { if(!mpSystemDependentDataHolder) { return basegfx::SystemDependentData_SharedPtr(); } return mpSystemDependentDataHolder->getSystemDependentData(hash_code); } bool operator==(const ImplB2DPolyPolygon& rPolygonList) const { return maPolygons == rPolygonList.maPolygons; } const basegfx::B2DPolygon& getB2DPolygon(sal_uInt32 nIndex) const { return maPolygons[nIndex]; } void setB2DPolygon(sal_uInt32 nIndex, const basegfx::B2DPolygon& rPolygon) { maPolygons[nIndex] = rPolygon; } void insert(sal_uInt32 nIndex, const basegfx::B2DPolygon& rPolygon, sal_uInt32 nCount) { if(nCount) { // add nCount copies of rPolygon basegfx::B2DPolygonVector::iterator aIndex(maPolygons.begin()); if( nIndex ) aIndex += nIndex; maPolygons.insert(aIndex, nCount, rPolygon); } } void insert(sal_uInt32 nIndex, const basegfx::B2DPolyPolygon& rPolyPolygon) { // add nCount polygons from rPolyPolygon basegfx::B2DPolygonVector::iterator aIndex(maPolygons.begin()); if( nIndex ) aIndex += nIndex; maPolygons.insert(aIndex, rPolyPolygon.begin(), rPolyPolygon.end()); } void remove(sal_uInt32 nIndex, sal_uInt32 nCount) { if(nCount) { // remove polygon data basegfx::B2DPolygonVector::iterator aStart(maPolygons.begin()); aStart += nIndex; const basegfx::B2DPolygonVector::iterator aEnd(aStart + nCount); maPolygons.erase(aStart, aEnd); } } sal_uInt32 count() const { return maPolygons.size(); } void setClosed(bool bNew) { for(basegfx::B2DPolygon & rPolygon : maPolygons) { rPolygon.setClosed(bNew); } } void flip() { for (auto& aPolygon : maPolygons) aPolygon.flip(); } void removeDoublePoints() { for (auto& aPolygon : maPolygons) aPolygon.removeDoublePoints(); } void transform(const basegfx::B2DHomMatrix& rMatrix) { for (auto& aPolygon : maPolygons) aPolygon.transform(rMatrix); } void makeUnique() { for (auto& aPolygon : maPolygons) aPolygon.makeUnique(); } const basegfx::B2DPolygon* begin() const { if (maPolygons.empty()) return nullptr; else return maPolygons.data(); } const basegfx::B2DPolygon* end() const { if (maPolygons.empty()) return nullptr; else return maPolygons.data() + maPolygons.size(); } basegfx::B2DPolygon* begin() { if (maPolygons.empty()) return nullptr; else return maPolygons.data(); } basegfx::B2DPolygon* end() { if (maPolygons.empty()) return nullptr; else return maPolygons.data() + maPolygons.size(); } }; namespace basegfx { B2DPolyPolygon::B2DPolyPolygon() = default; B2DPolyPolygon::B2DPolyPolygon(const B2DPolyPolygon&) = default; B2DPolyPolygon::B2DPolyPolygon(B2DPolyPolygon&&) = default; B2DPolyPolygon::B2DPolyPolygon(const B2DPolygon& rPolygon) : mpPolyPolygon( ImplB2DPolyPolygon(rPolygon) ) { } B2DPolyPolygon::~B2DPolyPolygon() = default; B2DPolyPolygon& B2DPolyPolygon::operator=(const B2DPolyPolygon&) = default; B2DPolyPolygon& B2DPolyPolygon::operator=(B2DPolyPolygon&&) = default; void B2DPolyPolygon::makeUnique() { mpPolyPolygon.make_unique(); mpPolyPolygon->makeUnique(); } bool B2DPolyPolygon::operator==(const B2DPolyPolygon& rPolyPolygon) const { if(mpPolyPolygon.same_object(rPolyPolygon.mpPolyPolygon)) return true; return ((*mpPolyPolygon) == (*rPolyPolygon.mpPolyPolygon)); } bool B2DPolyPolygon::operator!=(const B2DPolyPolygon& rPolyPolygon) const { return !((*this) == rPolyPolygon); } sal_uInt32 B2DPolyPolygon::count() const { return mpPolyPolygon->count(); } B2DPolygon const & B2DPolyPolygon::getB2DPolygon(sal_uInt32 nIndex) const { OSL_ENSURE(nIndex < mpPolyPolygon->count(), "B2DPolyPolygon access outside range (!)"); return mpPolyPolygon->getB2DPolygon(nIndex); } void B2DPolyPolygon::setB2DPolygon(sal_uInt32 nIndex, const B2DPolygon& rPolygon) { OSL_ENSURE(nIndex < mpPolyPolygon->count(), "B2DPolyPolygon access outside range (!)"); if(getB2DPolygon(nIndex) != rPolygon) mpPolyPolygon->setB2DPolygon(nIndex, rPolygon); } bool B2DPolyPolygon::areControlPointsUsed() const { for(sal_uInt32 a(0); a < mpPolyPolygon->count(); a++) { const B2DPolygon& rPolygon = mpPolyPolygon->getB2DPolygon(a); if(rPolygon.areControlPointsUsed()) { return true; } } return false; } void B2DPolyPolygon::insert(sal_uInt32 nIndex, const B2DPolygon& rPolygon, sal_uInt32 nCount) { OSL_ENSURE(nIndex <= mpPolyPolygon->count(), "B2DPolyPolygon Insert outside range (!)"); if(nCount) mpPolyPolygon->insert(nIndex, rPolygon, nCount); } void B2DPolyPolygon::append(const B2DPolygon& rPolygon, sal_uInt32 nCount) { if(nCount) mpPolyPolygon->insert(mpPolyPolygon->count(), rPolygon, nCount); } B2DPolyPolygon B2DPolyPolygon::getDefaultAdaptiveSubdivision() const { B2DPolyPolygon aRetval; for(sal_uInt32 a(0); a < mpPolyPolygon->count(); a++) { aRetval.append(mpPolyPolygon->getB2DPolygon(a).getDefaultAdaptiveSubdivision()); } return aRetval; } B2DRange B2DPolyPolygon::getB2DRange() const { B2DRange aRetval; for(sal_uInt32 a(0); a < mpPolyPolygon->count(); a++) { aRetval.expand(mpPolyPolygon->getB2DPolygon(a).getB2DRange()); } return aRetval; } void B2DPolyPolygon::insert(sal_uInt32 nIndex, const B2DPolyPolygon& rPolyPolygon) { OSL_ENSURE(nIndex <= mpPolyPolygon->count(), "B2DPolyPolygon Insert outside range (!)"); if(rPolyPolygon.count()) mpPolyPolygon->insert(nIndex, rPolyPolygon); } void B2DPolyPolygon::append(const B2DPolyPolygon& rPolyPolygon) { if(rPolyPolygon.count()) mpPolyPolygon->insert(mpPolyPolygon->count(), rPolyPolygon); } void B2DPolyPolygon::remove(sal_uInt32 nIndex, sal_uInt32 nCount) { OSL_ENSURE(nIndex + nCount <= mpPolyPolygon->count(), "B2DPolyPolygon Remove outside range (!)"); if(nCount) mpPolyPolygon->remove(nIndex, nCount); } void B2DPolyPolygon::clear() { *mpPolyPolygon = ImplB2DPolyPolygon(); } bool B2DPolyPolygon::isClosed() const { bool bRetval(true); // PolyPOlygon is closed when all contained Polygons are closed or // no Polygon exists. for(sal_uInt32 a(0); bRetval && a < mpPolyPolygon->count(); a++) { if(!mpPolyPolygon->getB2DPolygon(a).isClosed()) { bRetval = false; } } return bRetval; } void B2DPolyPolygon::setClosed(bool bNew) { if(bNew != isClosed()) mpPolyPolygon->setClosed(bNew); } void B2DPolyPolygon::flip() { if(mpPolyPolygon->count()) { mpPolyPolygon->flip(); } } bool B2DPolyPolygon::hasDoublePoints() const { bool bRetval(false); for(sal_uInt32 a(0); !bRetval && a < mpPolyPolygon->count(); a++) { if(mpPolyPolygon->getB2DPolygon(a).hasDoublePoints()) { bRetval = true; } } return bRetval; } void B2DPolyPolygon::removeDoublePoints() { if(hasDoublePoints()) mpPolyPolygon->removeDoublePoints(); } void B2DPolyPolygon::transform(const B2DHomMatrix& rMatrix) { if(mpPolyPolygon->count() && !rMatrix.isIdentity()) { mpPolyPolygon->transform(rMatrix); } } const B2DPolygon* B2DPolyPolygon::begin() const { return mpPolyPolygon->begin(); } const B2DPolygon* B2DPolyPolygon::end() const { return mpPolyPolygon->end(); } B2DPolygon* B2DPolyPolygon::begin() { return mpPolyPolygon->begin(); } B2DPolygon* B2DPolyPolygon::end() { return mpPolyPolygon->end(); } void B2DPolyPolygon::addOrReplaceSystemDependentDataInternal(SystemDependentData_SharedPtr& rData) const { // Need to get ImplB2DPolyPolygon* from cow_wrapper *without* // calling make_unique() here - we do not want to // 'modify' the ImplB2DPolyPolygon, but add buffered data that // is valid for all referencing instances const B2DPolyPolygon* pMe(this); const ImplB2DPolyPolygon* pMyImpl(pMe->mpPolyPolygon.get()); const_cast(pMyImpl)->addOrReplaceSystemDependentData(rData); } SystemDependentData_SharedPtr B2DPolyPolygon::getSystemDependantDataInternal(size_t hash_code) const { return mpPolyPolygon->getSystemDependentData(hash_code); } } // end of namespace basegfx /* vim:set shiftwidth=4 softtabstop=4 expandtab: */