/************************************************************** * * 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 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_basegfx.hxx" #include #include #include namespace basegfx { bool B2DHomPoint::implIsHomogenized() const { const double fOne(1.0); return ::basegfx::fTools::equal(fOne, mfW); } void B2DHomPoint::implHomogenize() { const double fFactor(1.0 / mfW); maTuple.setX(maTuple.getX() * fFactor); maTuple.setY(maTuple.getY() * fFactor); mfW = 1.0; } void B2DHomPoint::implTestAndHomogenize() const { if(!implIsHomogenized()) ((B2DHomPoint*)this)->implHomogenize(); } B2DPoint B2DHomPoint::getB2DPoint() const { implTestAndHomogenize(); return B2DPoint(maTuple.getX(), maTuple.getY()); } double B2DHomPoint::getX() const { implTestAndHomogenize(); return maTuple.getX(); } double B2DHomPoint::getY() const { implTestAndHomogenize(); return maTuple.getY(); } void B2DHomPoint::setX(double fX) { maTuple.setX(implIsHomogenized() ? fX : fX * mfW ); } void B2DHomPoint::setY(double fY) { maTuple.setY(implIsHomogenized() ? fY : fY * mfW ); } B2DHomPoint& B2DHomPoint::operator+=( const B2DHomPoint& rPnt ) { maTuple.setX(getX() * rPnt.mfW + rPnt.getX() * mfW); maTuple.setY(getY() * rPnt.mfW + rPnt.getY() * mfW); mfW = mfW * rPnt.mfW; return *this; } B2DHomPoint& B2DHomPoint::operator-=( const B2DHomPoint& rPnt ) { maTuple.setX(getX() * rPnt.mfW - rPnt.getX() * mfW); maTuple.setY(getY() * rPnt.mfW - rPnt.getY() * mfW); mfW = mfW * rPnt.mfW; return *this; } B2DHomPoint& B2DHomPoint::operator*=(double t) { if(!::basegfx::fTools::equalZero(t)) { mfW /= t; } return *this; } B2DHomPoint& B2DHomPoint::operator*=( const B2DHomMatrix& rMat ) { const double fTempX( rMat.get(0,0)*maTuple.getX() + rMat.get(0,1)*maTuple.getY() + rMat.get(0,2)*mfW ); const double fTempY( rMat.get(1,0)*maTuple.getX() + rMat.get(1,1)*maTuple.getY() + rMat.get(1,2)*mfW ); const double fTempZ( rMat.get(2,0)*maTuple.getX() + rMat.get(2,1)*maTuple.getY() + rMat.get(2,2)*mfW ); maTuple.setX( fTempX ); maTuple.setY( fTempY ); mfW = fTempZ; return *this; } B2DHomPoint& B2DHomPoint::operator/=(double t) { mfW *= t; return *this; } B2DHomPoint& B2DHomPoint::operator-(void) { mfW = -mfW; return *this; } bool B2DHomPoint::operator==( const B2DHomPoint& rPnt ) const { implTestAndHomogenize(); return (maTuple == rPnt.maTuple); } bool B2DHomPoint::operator!=( const B2DHomPoint& rPnt ) const { implTestAndHomogenize(); return (maTuple != rPnt.maTuple); } B2DHomPoint& B2DHomPoint::operator=( const B2DHomPoint& rPnt ) { maTuple = rPnt.maTuple; mfW = rPnt.mfW; return *this; } B2DHomPoint minimum(const B2DHomPoint& rVecA, const B2DHomPoint& rVecB) { B2DHomPoint aMin( (rVecB.getX() < rVecA.getX()) ? rVecB.getX() : rVecA.getX(), (rVecB.getY() < rVecA.getY()) ? rVecB.getY() : rVecA.getY()); return aMin; } B2DHomPoint maximum(const B2DHomPoint& rVecA, const B2DHomPoint& rVecB) { B2DHomPoint aMax( (rVecB.getX() > rVecA.getX()) ? rVecB.getX() : rVecA.getX(), (rVecB.getY() > rVecA.getY()) ? rVecB.getY() : rVecA.getY()); return aMax; } B2DHomPoint absolute(const B2DHomPoint& rVec) { B2DHomPoint aAbs( (0.0 > rVec.getX()) ? -rVec.getX() : rVec.getX(), (0.0 > rVec.getY()) ? -rVec.getY() : rVec.getY()); return aAbs; } B2DHomPoint interpolate(B2DHomPoint& rOld1, B2DHomPoint& rOld2, double t) { B2DHomPoint aInt( ((rOld2.getX() - rOld1.getX()) * t) + rOld1.getX(), ((rOld2.getY() - rOld1.getY()) * t) + rOld1.getY()); return aInt; } B2DHomPoint average(B2DHomPoint& rOld1, B2DHomPoint& rOld2) { B2DHomPoint aAvg( (rOld1.getX() + rOld2.getX()) * 0.5, (rOld1.getY() + rOld2.getY()) * 0.5); return aAvg; } B2DHomPoint average(B2DHomPoint& rOld1, B2DHomPoint& rOld2, B2DHomPoint& rOld3) { B2DHomPoint aAvg( (rOld1.getX() + rOld2.getX() + rOld3.getX()) * (1.0 / 3.0), (rOld1.getY() + rOld2.getY() + rOld3.getY()) * (1.0 / 3.0)); return aAvg; } B2DHomPoint operator+(const B2DHomPoint& rVecA, const B2DHomPoint& rVecB) { B2DHomPoint aSum(rVecA); aSum += rVecB; return aSum; } B2DHomPoint operator-(const B2DHomPoint& rVecA, const B2DHomPoint& rVecB) { B2DHomPoint aSub(rVecA); aSub -= rVecB; return aSub; } B2DHomPoint operator*(const B2DHomPoint& rVec, double t) { B2DHomPoint aNew(rVec); aNew *= t; return aNew; } B2DHomPoint operator*(double t, const B2DHomPoint& rVec) { B2DHomPoint aNew(rVec); aNew *= t; return aNew; } B2DHomPoint operator*( const B2DHomMatrix& rMat, const B2DHomPoint& rPoint ) { B2DHomPoint aNew(rPoint); return aNew*=rMat; } B2DHomPoint operator/(const B2DHomPoint& rVec, double t) { B2DHomPoint aNew(rVec); aNew /= t; return aNew; } B2DHomPoint operator/(double t, const B2DHomPoint& rVec) { B2DHomPoint aNew(rVec); aNew /= t; return aNew; } } // end of namespace basegfx // eof