1*464702f4SAndrew Rist /************************************************************** 2cdf0e10cSrcweir * 3*464702f4SAndrew Rist * Licensed to the Apache Software Foundation (ASF) under one 4*464702f4SAndrew Rist * or more contributor license agreements. See the NOTICE file 5*464702f4SAndrew Rist * distributed with this work for additional information 6*464702f4SAndrew Rist * regarding copyright ownership. The ASF licenses this file 7*464702f4SAndrew Rist * to you under the Apache License, Version 2.0 (the 8*464702f4SAndrew Rist * "License"); you may not use this file except in compliance 9*464702f4SAndrew Rist * with the License. You may obtain a copy of the License at 10cdf0e10cSrcweir * 11*464702f4SAndrew Rist * http://www.apache.org/licenses/LICENSE-2.0 12cdf0e10cSrcweir * 13*464702f4SAndrew Rist * Unless required by applicable law or agreed to in writing, 14*464702f4SAndrew Rist * software distributed under the License is distributed on an 15*464702f4SAndrew Rist * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY 16*464702f4SAndrew Rist * KIND, either express or implied. See the License for the 17*464702f4SAndrew Rist * specific language governing permissions and limitations 18*464702f4SAndrew Rist * under the License. 19cdf0e10cSrcweir * 20*464702f4SAndrew Rist *************************************************************/ 21*464702f4SAndrew Rist 22*464702f4SAndrew Rist 23cdf0e10cSrcweir 24cdf0e10cSrcweir // MARKER(update_precomp.py): autogen include statement, do not remove 25cdf0e10cSrcweir #include "precompiled_drawinglayer.hxx" 26cdf0e10cSrcweir 27cdf0e10cSrcweir #include <drawinglayer/primitive2d/fillgradientprimitive2d.hxx> 28cdf0e10cSrcweir #include <basegfx/polygon/b2dpolygon.hxx> 29cdf0e10cSrcweir #include <basegfx/polygon/b2dpolygontools.hxx> 30cdf0e10cSrcweir #include <drawinglayer/texture/texture.hxx> 31cdf0e10cSrcweir #include <drawinglayer/primitive2d/polypolygonprimitive2d.hxx> 32cdf0e10cSrcweir #include <basegfx/tools/canvastools.hxx> 33cdf0e10cSrcweir #include <drawinglayer/primitive2d/drawinglayer_primitivetypes2d.hxx> 34cdf0e10cSrcweir 35cdf0e10cSrcweir ////////////////////////////////////////////////////////////////////////////// 36cdf0e10cSrcweir 37cdf0e10cSrcweir using namespace com::sun::star; 38cdf0e10cSrcweir 39cdf0e10cSrcweir ////////////////////////////////////////////////////////////////////////////// 40cdf0e10cSrcweir 41cdf0e10cSrcweir namespace drawinglayer 42cdf0e10cSrcweir { 43cdf0e10cSrcweir namespace primitive2d 44cdf0e10cSrcweir { 45cdf0e10cSrcweir void FillGradientPrimitive2D::generateMatricesAndColors( 46cdf0e10cSrcweir std::vector< basegfx::B2DHomMatrix >& rMatrices, 47cdf0e10cSrcweir std::vector< basegfx::BColor >& rColors) const 48cdf0e10cSrcweir { 49cdf0e10cSrcweir rMatrices.clear(); 50cdf0e10cSrcweir rColors.clear(); 51cdf0e10cSrcweir 52cdf0e10cSrcweir // make sure steps is not too high/low 53cdf0e10cSrcweir const basegfx::BColor aStart(getFillGradient().getStartColor()); 54cdf0e10cSrcweir const basegfx::BColor aEnd(getFillGradient().getEndColor()); 55cdf0e10cSrcweir const sal_uInt32 nMaxSteps(sal_uInt32((aStart.getMaximumDistance(aEnd) * 127.5) + 0.5)); 56cdf0e10cSrcweir sal_uInt32 nSteps(getFillGradient().getSteps()); 57cdf0e10cSrcweir 58cdf0e10cSrcweir if(nSteps == 0) 59cdf0e10cSrcweir { 60cdf0e10cSrcweir nSteps = nMaxSteps; 61cdf0e10cSrcweir } 62cdf0e10cSrcweir 63cdf0e10cSrcweir if(nSteps < 2) 64cdf0e10cSrcweir { 65cdf0e10cSrcweir nSteps = 2; 66cdf0e10cSrcweir } 67cdf0e10cSrcweir 68cdf0e10cSrcweir if(nSteps > nMaxSteps) 69cdf0e10cSrcweir { 70cdf0e10cSrcweir nSteps = nMaxSteps; 71cdf0e10cSrcweir } 72cdf0e10cSrcweir 73cdf0e10cSrcweir switch(getFillGradient().getStyle()) 74cdf0e10cSrcweir { 75cdf0e10cSrcweir case attribute::GRADIENTSTYLE_LINEAR: 76cdf0e10cSrcweir { 77cdf0e10cSrcweir texture::GeoTexSvxGradientLinear aGradient(getObjectRange(), aStart, aEnd, nSteps, getFillGradient().getBorder(), getFillGradient().getAngle()); 78cdf0e10cSrcweir aGradient.appendTransformations(rMatrices); 79cdf0e10cSrcweir aGradient.appendColors(rColors); 80cdf0e10cSrcweir break; 81cdf0e10cSrcweir } 82cdf0e10cSrcweir case attribute::GRADIENTSTYLE_AXIAL: 83cdf0e10cSrcweir { 84cdf0e10cSrcweir texture::GeoTexSvxGradientAxial aGradient(getObjectRange(), aStart, aEnd, nSteps, getFillGradient().getBorder(), getFillGradient().getAngle()); 85cdf0e10cSrcweir aGradient.appendTransformations(rMatrices); 86cdf0e10cSrcweir aGradient.appendColors(rColors); 87cdf0e10cSrcweir break; 88cdf0e10cSrcweir } 89cdf0e10cSrcweir case attribute::GRADIENTSTYLE_RADIAL: 90cdf0e10cSrcweir { 91cdf0e10cSrcweir texture::GeoTexSvxGradientRadial aGradient(getObjectRange(), aStart, aEnd, nSteps, getFillGradient().getBorder(), getFillGradient().getOffsetX(), getFillGradient().getOffsetY()); 92cdf0e10cSrcweir aGradient.appendTransformations(rMatrices); 93cdf0e10cSrcweir aGradient.appendColors(rColors); 94cdf0e10cSrcweir break; 95cdf0e10cSrcweir } 96cdf0e10cSrcweir case attribute::GRADIENTSTYLE_ELLIPTICAL: 97cdf0e10cSrcweir { 98cdf0e10cSrcweir texture::GeoTexSvxGradientElliptical aGradient(getObjectRange(), aStart, aEnd, nSteps, getFillGradient().getBorder(), getFillGradient().getOffsetX(), getFillGradient().getOffsetY(), getFillGradient().getAngle()); 99cdf0e10cSrcweir aGradient.appendTransformations(rMatrices); 100cdf0e10cSrcweir aGradient.appendColors(rColors); 101cdf0e10cSrcweir break; 102cdf0e10cSrcweir } 103cdf0e10cSrcweir case attribute::GRADIENTSTYLE_SQUARE: 104cdf0e10cSrcweir { 105cdf0e10cSrcweir texture::GeoTexSvxGradientSquare aGradient(getObjectRange(), aStart, aEnd, nSteps, getFillGradient().getBorder(), getFillGradient().getOffsetX(), getFillGradient().getOffsetY(), getFillGradient().getAngle()); 106cdf0e10cSrcweir aGradient.appendTransformations(rMatrices); 107cdf0e10cSrcweir aGradient.appendColors(rColors); 108cdf0e10cSrcweir break; 109cdf0e10cSrcweir } 110cdf0e10cSrcweir case attribute::GRADIENTSTYLE_RECT: 111cdf0e10cSrcweir { 112cdf0e10cSrcweir texture::GeoTexSvxGradientRect aGradient(getObjectRange(), aStart, aEnd, nSteps, getFillGradient().getBorder(), getFillGradient().getOffsetX(), getFillGradient().getOffsetY(), getFillGradient().getAngle()); 113cdf0e10cSrcweir aGradient.appendTransformations(rMatrices); 114cdf0e10cSrcweir aGradient.appendColors(rColors); 115cdf0e10cSrcweir break; 116cdf0e10cSrcweir } 117cdf0e10cSrcweir } 118cdf0e10cSrcweir } 119cdf0e10cSrcweir 120cdf0e10cSrcweir Primitive2DSequence FillGradientPrimitive2D::createOverlappingFill( 121cdf0e10cSrcweir const std::vector< basegfx::B2DHomMatrix >& rMatrices, 122cdf0e10cSrcweir const std::vector< basegfx::BColor >& rColors, 123cdf0e10cSrcweir const basegfx::B2DPolygon& rUnitPolygon) const 124cdf0e10cSrcweir { 125cdf0e10cSrcweir // prepare return value 126cdf0e10cSrcweir Primitive2DSequence aRetval(rColors.size() ? rMatrices.size() + 1 : rMatrices.size()); 127cdf0e10cSrcweir 128cdf0e10cSrcweir // create solid fill with start color 129cdf0e10cSrcweir if(rColors.size()) 130cdf0e10cSrcweir { 131cdf0e10cSrcweir // create primitive 132cdf0e10cSrcweir const Primitive2DReference xRef( 133cdf0e10cSrcweir new PolyPolygonColorPrimitive2D( 134cdf0e10cSrcweir basegfx::B2DPolyPolygon(basegfx::tools::createPolygonFromRect(getObjectRange())), 135cdf0e10cSrcweir rColors[0])); 136cdf0e10cSrcweir aRetval[0] = xRef; 137cdf0e10cSrcweir } 138cdf0e10cSrcweir 139cdf0e10cSrcweir // create solid fill steps 140cdf0e10cSrcweir for(sal_uInt32 a(0); a < rMatrices.size(); a++) 141cdf0e10cSrcweir { 142cdf0e10cSrcweir // create part polygon 143cdf0e10cSrcweir basegfx::B2DPolygon aNewPoly(rUnitPolygon); 144cdf0e10cSrcweir aNewPoly.transform(rMatrices[a]); 145cdf0e10cSrcweir 146cdf0e10cSrcweir // create solid fill 147cdf0e10cSrcweir const Primitive2DReference xRef( 148cdf0e10cSrcweir new PolyPolygonColorPrimitive2D( 149cdf0e10cSrcweir basegfx::B2DPolyPolygon(aNewPoly), 150cdf0e10cSrcweir rColors[a + 1])); 151cdf0e10cSrcweir aRetval[a + 1] = xRef; 152cdf0e10cSrcweir } 153cdf0e10cSrcweir 154cdf0e10cSrcweir return aRetval; 155cdf0e10cSrcweir } 156cdf0e10cSrcweir 157cdf0e10cSrcweir Primitive2DSequence FillGradientPrimitive2D::createNonOverlappingFill( 158cdf0e10cSrcweir const std::vector< basegfx::B2DHomMatrix >& rMatrices, 159cdf0e10cSrcweir const std::vector< basegfx::BColor >& rColors, 160cdf0e10cSrcweir const basegfx::B2DPolygon& rUnitPolygon) const 161cdf0e10cSrcweir { 162cdf0e10cSrcweir // prepare return value 163cdf0e10cSrcweir Primitive2DSequence aRetval; 164cdf0e10cSrcweir const sal_uInt32 nMatricesSize(rMatrices.size()); 165cdf0e10cSrcweir 166cdf0e10cSrcweir if(nMatricesSize) 167cdf0e10cSrcweir { 168cdf0e10cSrcweir basegfx::B2DPolygon aOuterPoly(rUnitPolygon); 169cdf0e10cSrcweir aOuterPoly.transform(rMatrices[0]); 170cdf0e10cSrcweir basegfx::B2DPolyPolygon aCombinedPolyPoly(aOuterPoly); 171cdf0e10cSrcweir const sal_uInt32 nEntryCount(rColors.size() ? rMatrices.size() + 1 : rMatrices.size()); 172cdf0e10cSrcweir sal_uInt32 nIndex(0); 173cdf0e10cSrcweir 174cdf0e10cSrcweir aRetval.realloc(nEntryCount); 175cdf0e10cSrcweir 176cdf0e10cSrcweir if(rColors.size()) 177cdf0e10cSrcweir { 178cdf0e10cSrcweir basegfx::B2DRange aOuterPolyRange(aOuterPoly.getB2DRange()); 179cdf0e10cSrcweir aOuterPolyRange.expand(getObjectRange()); 180cdf0e10cSrcweir aCombinedPolyPoly.append(basegfx::tools::createPolygonFromRect(aOuterPolyRange)); 181cdf0e10cSrcweir aRetval[nIndex++] = Primitive2DReference(new PolyPolygonColorPrimitive2D(aCombinedPolyPoly, rColors[0])); 182cdf0e10cSrcweir aCombinedPolyPoly = basegfx::B2DPolyPolygon(aOuterPoly); 183cdf0e10cSrcweir } 184cdf0e10cSrcweir 185cdf0e10cSrcweir for(sal_uInt32 a(1); a < nMatricesSize - 1; a++) 186cdf0e10cSrcweir { 187cdf0e10cSrcweir basegfx::B2DPolygon aInnerPoly(rUnitPolygon); 188cdf0e10cSrcweir aInnerPoly.transform(rMatrices[a]); 189cdf0e10cSrcweir aCombinedPolyPoly.append(aInnerPoly); 190cdf0e10cSrcweir aRetval[nIndex++] = Primitive2DReference(new PolyPolygonColorPrimitive2D(aCombinedPolyPoly, rColors[a])); 191cdf0e10cSrcweir aCombinedPolyPoly = basegfx::B2DPolyPolygon(aInnerPoly); 192cdf0e10cSrcweir } 193cdf0e10cSrcweir 194cdf0e10cSrcweir if(rColors.size()) 195cdf0e10cSrcweir { 196cdf0e10cSrcweir aRetval[nIndex] = Primitive2DReference(new PolyPolygonColorPrimitive2D( 197cdf0e10cSrcweir aCombinedPolyPoly, rColors[rColors.size() - 1])); 198cdf0e10cSrcweir } 199cdf0e10cSrcweir } 200cdf0e10cSrcweir 201cdf0e10cSrcweir return aRetval; 202cdf0e10cSrcweir } 203cdf0e10cSrcweir 204cdf0e10cSrcweir Primitive2DSequence FillGradientPrimitive2D::createFill(bool bOverlapping) const 205cdf0e10cSrcweir { 206cdf0e10cSrcweir // prepare shape of the Unit Polygon 207cdf0e10cSrcweir basegfx::B2DPolygon aUnitPolygon; 208cdf0e10cSrcweir 209cdf0e10cSrcweir if(attribute::GRADIENTSTYLE_RADIAL == getFillGradient().getStyle() 210cdf0e10cSrcweir || attribute::GRADIENTSTYLE_ELLIPTICAL == getFillGradient().getStyle()) 211cdf0e10cSrcweir { 212cdf0e10cSrcweir aUnitPolygon = basegfx::tools::createPolygonFromCircle( 213cdf0e10cSrcweir basegfx::B2DPoint(0,0), 1); 214cdf0e10cSrcweir } 215cdf0e10cSrcweir else if(attribute::GRADIENTSTYLE_LINEAR == maFillGradient.getStyle()) 216cdf0e10cSrcweir { 217cdf0e10cSrcweir aUnitPolygon = basegfx::tools::createPolygonFromRect(basegfx::B2DRange(0, 0, 1, 1)); 218cdf0e10cSrcweir } 219cdf0e10cSrcweir else 220cdf0e10cSrcweir { 221cdf0e10cSrcweir aUnitPolygon = basegfx::tools::createPolygonFromRect(basegfx::B2DRange(-1, -1, 1, 1)); 222cdf0e10cSrcweir } 223cdf0e10cSrcweir 224cdf0e10cSrcweir // get the transform matrices and colors (where colors 225cdf0e10cSrcweir // will have one more entry that matrices) 226cdf0e10cSrcweir std::vector< basegfx::B2DHomMatrix > aMatrices; 227cdf0e10cSrcweir std::vector< basegfx::BColor > aColors; 228cdf0e10cSrcweir generateMatricesAndColors(aMatrices, aColors); 229cdf0e10cSrcweir 230cdf0e10cSrcweir if(bOverlapping) 231cdf0e10cSrcweir { 232cdf0e10cSrcweir return createOverlappingFill(aMatrices, aColors, aUnitPolygon); 233cdf0e10cSrcweir } 234cdf0e10cSrcweir else 235cdf0e10cSrcweir { 236cdf0e10cSrcweir return createNonOverlappingFill(aMatrices, aColors, aUnitPolygon); 237cdf0e10cSrcweir } 238cdf0e10cSrcweir } 239cdf0e10cSrcweir 240cdf0e10cSrcweir Primitive2DSequence FillGradientPrimitive2D::create2DDecomposition(const geometry::ViewInformation2D& /*rViewInformation*/) const 241cdf0e10cSrcweir { 242cdf0e10cSrcweir // default creates overlapping fill which works with AntiAliasing and without. 243cdf0e10cSrcweir // The non-overlapping version does not create single filled polygons, but 244cdf0e10cSrcweir // PolyPolygons where each one describes a 'ring' for the gradient such 245cdf0e10cSrcweir // that the rings will not overlap. This is useful fir the old XOR-paint 246cdf0e10cSrcweir // 'trick' of VCL which is recorded in Metafiles; so this version may be 247cdf0e10cSrcweir // used from the MetafilePrimitive2D in it's decomposition. 248cdf0e10cSrcweir 249cdf0e10cSrcweir if(!getFillGradient().isDefault()) 250cdf0e10cSrcweir { 251cdf0e10cSrcweir return createFill(true); 252cdf0e10cSrcweir } 253cdf0e10cSrcweir else 254cdf0e10cSrcweir { 255cdf0e10cSrcweir return Primitive2DSequence(); 256cdf0e10cSrcweir } 257cdf0e10cSrcweir } 258cdf0e10cSrcweir 259cdf0e10cSrcweir FillGradientPrimitive2D::FillGradientPrimitive2D( 260cdf0e10cSrcweir const basegfx::B2DRange& rObjectRange, 261cdf0e10cSrcweir const attribute::FillGradientAttribute& rFillGradient) 262cdf0e10cSrcweir : BufferedDecompositionPrimitive2D(), 263cdf0e10cSrcweir maObjectRange(rObjectRange), 264cdf0e10cSrcweir maFillGradient(rFillGradient) 265cdf0e10cSrcweir { 266cdf0e10cSrcweir } 267cdf0e10cSrcweir 268cdf0e10cSrcweir bool FillGradientPrimitive2D::operator==(const BasePrimitive2D& rPrimitive) const 269cdf0e10cSrcweir { 270cdf0e10cSrcweir if(BufferedDecompositionPrimitive2D::operator==(rPrimitive)) 271cdf0e10cSrcweir { 272cdf0e10cSrcweir const FillGradientPrimitive2D& rCompare = (FillGradientPrimitive2D&)rPrimitive; 273cdf0e10cSrcweir 274cdf0e10cSrcweir return (getObjectRange() == rCompare.getObjectRange() 275cdf0e10cSrcweir && getFillGradient() == rCompare.getFillGradient()); 276cdf0e10cSrcweir } 277cdf0e10cSrcweir 278cdf0e10cSrcweir return false; 279cdf0e10cSrcweir } 280cdf0e10cSrcweir 281cdf0e10cSrcweir basegfx::B2DRange FillGradientPrimitive2D::getB2DRange(const geometry::ViewInformation2D& /*rViewInformation*/) const 282cdf0e10cSrcweir { 283cdf0e10cSrcweir // return ObjectRange 284cdf0e10cSrcweir return getObjectRange(); 285cdf0e10cSrcweir } 286cdf0e10cSrcweir 287cdf0e10cSrcweir // provide unique ID 288cdf0e10cSrcweir ImplPrimitrive2DIDBlock(FillGradientPrimitive2D, PRIMITIVE2D_ID_FILLGRADIENTPRIMITIVE2D) 289cdf0e10cSrcweir 290cdf0e10cSrcweir } // end of namespace primitive2d 291cdf0e10cSrcweir } // end of namespace drawinglayer 292cdf0e10cSrcweir 293cdf0e10cSrcweir ////////////////////////////////////////////////////////////////////////////// 294cdf0e10cSrcweir // eof 295