/************************************************************** * * 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. * *************************************************************/ // autogenerated file with codegen.pl #include "preextstl.h" #include "gtest/gtest.h" #include "postextstl.h" #include #include #include #include #include #include #include "tools.hxx" #include #include using namespace ::basebmp; namespace { /* std::ofstream output("32bpp_test.dump"); debugDump( mpDevice32bpp, output ); */ class BasicTest : public ::testing::Test { public: }; TEST_F(BasicTest, colorTest) { Color aTestColor; aTestColor = Color(0xDEADBEEF); ASSERT_TRUE( aTestColor.toInt32() == 0xDEADBEEF ) << "unary constructor"; aTestColor = Color( 0x10, 0x20, 0xFF ); ASSERT_TRUE( aTestColor.toInt32() == 0x001020FF ) << "ternary constructor"; aTestColor.setRed( 0x0F ); ASSERT_TRUE( aTestColor.toInt32() == 0x00F20FF ) << "setRed()"; aTestColor.setGreen( 0x0F ); ASSERT_TRUE( aTestColor.toInt32() == 0x00F0FFF ) << "setGreen()"; aTestColor.setBlue( 0x10 ); ASSERT_TRUE( aTestColor.toInt32() == 0x00F0F10 ) << "setBlue()"; aTestColor.setGrey( 0x13 ); ASSERT_TRUE( aTestColor.toInt32() == 0x00131313 ) << "setGrey()"; aTestColor = Color( 0x10, 0x20, 0xFF ); ASSERT_TRUE( aTestColor.getRed() == 0x10 ) << "getRed()"; ASSERT_TRUE( aTestColor.getGreen() == 0x20 ) << "getGreen()"; ASSERT_TRUE( aTestColor.getBlue() == 0xFF ) << "getBlue()"; } TEST_F(BasicTest, testConstruction) { const basegfx::B2ISize aSize(101,101); basegfx::B2ISize aSize2(aSize); BitmapDeviceSharedPtr pDevice( createBitmapDevice( aSize, true, Format::ONE_BIT_MSB_PAL )); ASSERT_TRUE( pDevice->getSize() == aSize2 ) << "right size"; ASSERT_TRUE( pDevice->isTopDown() == true ) << "Top down format"; ASSERT_TRUE( pDevice->getScanlineFormat() == Format::ONE_BIT_MSB_PAL ) << "Scanline format"; ASSERT_TRUE( pDevice->getScanlineStride() == (aSize2.getY() + 7)/8 ) << "Scanline len"; ASSERT_TRUE( pDevice->getPalette() != NULL ) << "Palette existence"; ASSERT_TRUE( (*pDevice->getPalette())[0] == Color(0) ) << "Palette entry 0 is black"; ASSERT_TRUE( (*pDevice->getPalette())[1] == Color(0xFFFFFFFF) ) << "Palette entry 1 is white"; } TEST_F(BasicTest, testPixelFuncs) { // 1bpp const basegfx::B2ISize aSize(64,64); BitmapDeviceSharedPtr pDevice( createBitmapDevice( aSize, true, Format::ONE_BIT_MSB_PAL )); const basegfx::B2IPoint aPt(3,3); const Color aCol(0xFFFFFFFF); pDevice->setPixel( aPt, aCol, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt) == aCol) << "get/setPixel roundtrip #1"; const basegfx::B2IPoint aPt2(0,0); const Color aCol2(0xFFFFFFFF); pDevice->setPixel( aPt2, aCol2, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt2) == aCol2) << "get/setPixel roundtrip #2"; const basegfx::B2IPoint aPt3(aSize.getX()-1,aSize.getY()-1); const Color aCol3(0x00000000); pDevice->setPixel( aPt3, aCol3, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt3) == aCol3) << "get/setPixel roundtrip #3"; pDevice->setPixel( aPt3, aCol2, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt3) == aCol2) << "get/setPixel roundtrip #3.5"; const basegfx::B2IPoint aPt4(-100000,-100000); pDevice->setPixel( aPt4, aCol3, DrawMode_PAINT ); const basegfx::B2IPoint aPt5(100000,100000); pDevice->setPixel( aPt5, aCol3, DrawMode_PAINT ); sal_Int32 nPixel(countPixel(pDevice, aCol2)); const basegfx::B2IPoint aPt6(aSize.getX(),aSize.getY()); pDevice->setPixel( aPt6, aCol2, DrawMode_PAINT ); ASSERT_TRUE(countPixel(pDevice, aCol2) == nPixel) << "setPixel clipping"; ASSERT_TRUE(pDevice->getBuffer()[0] == 0x80) << "raw pixel value #1"; // 1bit LSB { pDevice = createBitmapDevice( aSize, true, Format::ONE_BIT_LSB_PAL ); pDevice->setPixel( aPt2, aCol, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt2) == aCol) << "get/setPixel roundtrip #4"; const basegfx::B2IPoint aPt222(1,1); pDevice->setPixel( aPt222, aCol, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt222) == aCol) << "get/setPixel roundtrip #5"; pDevice->setPixel( aPt3, aCol, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt3) == aCol) << "get/setPixel roundtrip #6"; ASSERT_TRUE(pDevice->getBuffer()[0] == 0x01) << "raw pixel value #2"; ASSERT_TRUE(pDevice->getBuffer()[8] == 0x02) << "raw pixel value #3"; } // 8bit alpha { pDevice = createBitmapDevice( aSize, true, Format::EIGHT_BIT_GREY ); const Color aCol4(0x010101); pDevice->setPixel( aPt, aCol4, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt) == aCol4) << "get/setPixel roundtrip #4"; const Color aCol5(0x0F0F0F); pDevice->setPixel( aPt2, aCol5, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt2) == aCol5) << "get/setPixel roundtrip #5"; const Color aCol6(0xFFFFFF); pDevice->setPixel( aPt3, aCol6, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt3) == aCol6) << "get/setPixel roundtrip #6"; } // 16bpp { pDevice = createBitmapDevice( aSize, true, Format::SIXTEEN_BIT_LSB_TC_MASK ); const Color aCol7(0); pDevice->clear( aCol7 ); const Color aCol4(0x00101010); pDevice->setPixel( aPt, aCol4, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt) == aCol4) << "get/setPixel roundtrip #7"; const Color aCol5(0x00F0F0F0); pDevice->setPixel( aPt2, aCol5, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt2) != aCol7) << "get/setPixel roundtrip #8"; const Color aCol6(0x00FFFFFF); pDevice->setPixel( aPt3, aCol6, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt3) == aCol6) << "get/setPixel roundtrip #9"; } // 24bpp { pDevice = createBitmapDevice( aSize, true, Format::TWENTYFOUR_BIT_TC_MASK ); const Color aCol4(0x01010101); pDevice->setPixel( aPt, aCol4, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt) == aCol4) << "get/setPixel roundtrip #10"; const Color aCol5(0x0F3F2F1F); pDevice->setPixel( aPt2, aCol5, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt2) == aCol5) << "get/setPixel roundtrip #11"; const Color aCol6(0xFFFFFFFF); pDevice->setPixel( aPt3, aCol6, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt3) == aCol6) << "get/setPixel roundtrip #12"; ASSERT_TRUE(pDevice->getBuffer()[2] == 0x3F && pDevice->getBuffer()[1] == 0x2F && pDevice->getBuffer()[0] == 0x1F) << "raw pixel value #4"; } // 32bpp { pDevice = createBitmapDevice( aSize, true, Format::THIRTYTWO_BIT_TC_MASK ); const Color aCol4(0x01010101); pDevice->setPixel( aPt, aCol4, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt) == aCol4) << "get/setPixel roundtrip #13"; const Color aCol5(0x0F0F0F0F); pDevice->setPixel( aPt2, aCol5, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt2) == aCol5) << "get/setPixel roundtrip #14"; const Color aCol6(0xFFFFFFFF); pDevice->setPixel( aPt3, aCol6, DrawMode_PAINT ); ASSERT_TRUE(pDevice->getPixel(aPt3) == aCol6) << "get/setPixel roundtrip #15"; } } }