/* * Copyright (c) 2021 - 2024 the ThorVG project. All rights reserved. * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include #include #include "config.h" #include "catch.hpp" using namespace tvg; using namespace std; #ifdef THORVG_SW_RASTER_SUPPORT TEST_CASE("Basic draw", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100] = {0, }; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888S) == Result::Success); //Arc Line auto shape1 = tvg::Shape::gen(); REQUIRE(shape1); REQUIRE(shape1->stroke(255, 255, 255, 255) == Result::Success); REQUIRE(shape1->stroke(2) == Result::Success); REQUIRE(canvas->push(std::move(shape1)) == Result::Success); //Cubic auto shape2 = tvg::Shape::gen(); REQUIRE(shape2); REQUIRE(shape2->moveTo(50, 25) == Result::Success); REQUIRE(shape2->cubicTo(62, 25, 75, 38, 75, 50) == Result::Success); REQUIRE(shape2->close() == Result::Success); REQUIRE(shape2->stroke(1) == Result::Success); REQUIRE(canvas->push(std::move(shape2)) == Result::Success); //Line auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); REQUIRE(shape3->moveTo(0, 0) == Result::Success); REQUIRE(shape3->lineTo(20, 0) == Result::Success); REQUIRE(shape3->lineTo(20, 20) == Result::Success); REQUIRE(shape3->lineTo(0, 20) == Result::Success); REQUIRE(shape3->close() == Result::Success); REQUIRE(shape3->fill(255, 255, 255, 255) == Result::Success); REQUIRE(canvas->push(std::move(shape3)) == Result::Success); //Dashed shape auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); float dashPattern[2] = {2.5f, 5.0f}; REQUIRE(shape4->moveTo(0, 0) == Result::Success); REQUIRE(shape4->lineTo(25, 25) == Result::Success); REQUIRE(shape4->cubicTo(50, 50, 75, -75, 50, 100) == Result::Success); REQUIRE(shape4->close() == Result::Success); REQUIRE(shape4->stroke(255, 0, 0, 255) == Result::Success); REQUIRE(shape4->stroke(2) == Result::Success); REQUIRE(shape4->stroke(dashPattern, 2) == Result::Success); REQUIRE(shape4->stroke(StrokeCap::Round) == Result::Success); REQUIRE(canvas->push(std::move(shape4)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("Image Draw", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //raw image ifstream file(TEST_DIR"/rawimage_200x300.raw"); if (!file.is_open()) return; auto data = (uint32_t*)malloc(sizeof(uint32_t) * (200*300)); file.read(reinterpret_cast(data), sizeof (uint32_t) * 200 * 300); file.close(); //Not transformed images auto basicPicture = Picture::gen(); REQUIRE(basicPicture); REQUIRE(basicPicture->load(data, 200, 300, false) == Result::Success); auto rectMask = tvg::Shape::gen(); REQUIRE(rectMask); REQUIRE(rectMask->appendRect(10, 10, 30, 30) == Result::Success); REQUIRE(rectMask->fill(100, 100, 100, 255) == Result::Success); auto rleMask = tvg::Shape::gen(); REQUIRE(rleMask); REQUIRE(rleMask->appendRect(0, 10, 20, 30, 5, 5) == Result::Success); REQUIRE(rleMask->fill(100, 100, 100, 255) == Result::Success); // Rect images auto basicPicture2 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture2); auto rectMask2 = tvg::cast(rectMask->duplicate()); REQUIRE(rectMask2); auto basicPicture3 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture3); auto rectMask3 = tvg::cast(rectMask->duplicate()); REQUIRE(rectMask3); auto basicPicture4 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture4); auto rectMask4 = tvg::cast(rectMask->duplicate()); REQUIRE(rectMask4); auto basicPicture5 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture5); // Rle images auto basicPicture6 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture6); auto basicPicture7 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture7); auto rleMask7 = tvg::cast(rleMask->duplicate()); REQUIRE(rleMask7); // Rect REQUIRE(basicPicture->composite(std::move(rectMask), tvg::CompositeMethod::AlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture)) == Result::Success); REQUIRE(basicPicture2->composite(std::move(rectMask2), tvg::CompositeMethod::InvAlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture2)) == Result::Success); REQUIRE(basicPicture3->clip(std::move(rectMask3)) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture3)) == Result::Success); REQUIRE(basicPicture4->composite(std::move(rectMask4), tvg::CompositeMethod::LumaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture4)) == Result::Success); REQUIRE(basicPicture5->opacity(100) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture5)) == Result::Success); // Rle REQUIRE(basicPicture6->clip(std::move(rleMask)) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture6)) == Result::Success); REQUIRE(basicPicture7->clip(std::move(rleMask7)) == Result::Success); REQUIRE(basicPicture7->opacity(100) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture7)) == Result::Success); // Transformed images basicPicture = Picture::gen(); REQUIRE(basicPicture); REQUIRE(basicPicture->load(data, 200, 300, false) == Result::Success); REQUIRE(basicPicture->rotate(45) == Result::Success); rectMask = tvg::Shape::gen(); REQUIRE(rectMask); REQUIRE(rectMask->appendRect(10, 10, 30, 30) == Result::Success); rleMask = tvg::Shape::gen(); REQUIRE(rleMask); REQUIRE(rleMask->appendRect(0, 10, 20, 30, 5, 5) == Result::Success); // Rect images basicPicture2 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture2); rectMask2 = tvg::cast(rectMask->duplicate()); REQUIRE(rectMask2); basicPicture3 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture3); rectMask3 = tvg::cast(rectMask->duplicate()); REQUIRE(rectMask3); basicPicture4 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture4); rectMask4 = tvg::cast(rectMask->duplicate()); REQUIRE(rectMask4); basicPicture5 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture5); // Rle images basicPicture6 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture6); basicPicture7 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture7); rleMask7 = tvg::cast(rleMask->duplicate()); REQUIRE(rleMask7); // Rect REQUIRE(basicPicture->composite(std::move(rectMask), tvg::CompositeMethod::AlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture)) == Result::Success); REQUIRE(basicPicture2->composite(std::move(rectMask2), tvg::CompositeMethod::InvAlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture2)) == Result::Success); REQUIRE(basicPicture3->clip(std::move(rectMask3)) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture3)) == Result::Success); REQUIRE(basicPicture4->composite(std::move(rectMask4), tvg::CompositeMethod::LumaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture4)) == Result::Success); REQUIRE(basicPicture5->opacity(100) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture5)) == Result::Success); // Rle REQUIRE(basicPicture6->clip(std::move(rleMask)) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture6)) == Result::Success); REQUIRE(basicPicture7->clip(std::move(rleMask7)) == Result::Success); REQUIRE(basicPicture7->opacity(100) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture7)) == Result::Success); // Upscaled images basicPicture = Picture::gen(); REQUIRE(basicPicture); REQUIRE(basicPicture->load(data, 200, 300, false) == Result::Success); REQUIRE(basicPicture->scale(2) == Result::Success); rectMask = tvg::Shape::gen(); REQUIRE(rectMask); REQUIRE(rectMask->appendRect(10, 10, 30, 30) == Result::Success); rleMask = tvg::Shape::gen(); REQUIRE(rleMask); REQUIRE(rleMask->appendRect(0, 10, 20, 30, 5, 5) == Result::Success); // Rect images basicPicture2 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture2); rectMask2 = tvg::cast(rectMask->duplicate()); REQUIRE(rectMask2); basicPicture3 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture3); rectMask3 = tvg::cast(rectMask->duplicate()); REQUIRE(rectMask3); basicPicture4 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture4); rectMask4 = tvg::cast(rectMask->duplicate()); REQUIRE(rectMask4); basicPicture5 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture5); // Rle images basicPicture6 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture6); basicPicture7 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture7); rleMask7 = tvg::cast(rleMask->duplicate()); REQUIRE(rleMask7); // Rect REQUIRE(basicPicture->composite(std::move(rectMask), tvg::CompositeMethod::AlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture)) == Result::Success); REQUIRE(basicPicture2->composite(std::move(rectMask2), tvg::CompositeMethod::InvAlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture2)) == Result::Success); REQUIRE(basicPicture3->clip(std::move(rectMask3)) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture3)) == Result::Success); REQUIRE(basicPicture4->composite(std::move(rectMask4), tvg::CompositeMethod::LumaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture4)) == Result::Success); REQUIRE(basicPicture5->opacity(100) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture5)) == Result::Success); // Rle REQUIRE(basicPicture6->clip(std::move(rleMask)) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture6)) == Result::Success); REQUIRE(basicPicture7->clip(std::move(rleMask7)) == Result::Success); REQUIRE(basicPicture7->opacity(100) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture7)) == Result::Success); // Downscaled images basicPicture = Picture::gen(); REQUIRE(basicPicture); REQUIRE(basicPicture->load(data, 200, 300, false) == Result::Success); REQUIRE(basicPicture->scale(0.2f) == Result::Success); rectMask = tvg::Shape::gen(); REQUIRE(rectMask); REQUIRE(rectMask->appendRect(10, 10, 30, 30) == Result::Success); rleMask = tvg::Shape::gen(); REQUIRE(rleMask); REQUIRE(rleMask->appendRect(0, 10, 20, 30, 5, 5) == Result::Success); // Rect images basicPicture2 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture2); rectMask2 = tvg::cast(rectMask->duplicate()); REQUIRE(rectMask2); basicPicture3 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture3); rectMask3 = tvg::cast(rectMask->duplicate()); REQUIRE(rectMask3); basicPicture4 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture4); rectMask4 = tvg::cast(rectMask->duplicate()); REQUIRE(rectMask4); basicPicture5 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture5); // Rle images basicPicture6 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture6); basicPicture7 = tvg::cast(basicPicture->duplicate()); REQUIRE(basicPicture7); rleMask7 = tvg::cast(rleMask->duplicate()); REQUIRE(rleMask7); // Rect REQUIRE(basicPicture->composite(std::move(rectMask), tvg::CompositeMethod::AlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture)) == Result::Success); REQUIRE(basicPicture2->composite(std::move(rectMask2), tvg::CompositeMethod::InvAlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture2)) == Result::Success); REQUIRE(basicPicture3->clip(std::move(rectMask3)) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture3)) == Result::Success); REQUIRE(basicPicture4->composite(std::move(rectMask4), tvg::CompositeMethod::LumaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture4)) == Result::Success); REQUIRE(basicPicture5->opacity(100) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture5)) == Result::Success); // Rle REQUIRE(basicPicture6->clip(std::move(rleMask)) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture6)) == Result::Success); REQUIRE(basicPicture7->clip(std::move(rleMask7)) == Result::Success); REQUIRE(basicPicture7->opacity(100) == Result::Success); REQUIRE(canvas->push(std::move(basicPicture7)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); free(data); } TEST_CASE("Rect Draw", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //Basic shapes and masking auto basicShape = tvg::Shape::gen(); REQUIRE(basicShape); auto basicMask = tvg::Shape::gen(); REQUIRE(basicMask); REQUIRE(basicShape->appendRect(0, 0, 50, 50) == Result::Success); REQUIRE(basicMask->appendRect(10, 10, 30, 30) == Result::Success); REQUIRE(basicShape->fill(255, 255, 255, 155) == Result::Success); auto basicShape2 = tvg::cast(basicShape->duplicate()); REQUIRE(basicShape2); auto basicMask2 = tvg::cast(basicMask->duplicate()); REQUIRE(basicMask2); auto basicShape3 = tvg::cast(basicShape->duplicate()); REQUIRE(basicShape3); auto basicMask3 = tvg::cast(basicMask->duplicate()); REQUIRE(basicMask3); auto basicShape4 = tvg::cast(basicShape->duplicate()); REQUIRE(basicShape4); auto basicMask4 = tvg::cast(basicMask->duplicate()); REQUIRE(basicMask4); auto basicShape5 = tvg::cast(basicShape->duplicate()); REQUIRE(basicShape5); REQUIRE(basicShape->composite(std::move(basicMask), tvg::CompositeMethod::AlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicShape)) == Result::Success); REQUIRE(basicShape2->composite(std::move(basicMask2), tvg::CompositeMethod::InvAlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicShape2)) == Result::Success); REQUIRE(basicShape3->clip(std::move(basicMask3)) == Result::Success); REQUIRE(canvas->push(std::move(basicShape3)) == Result::Success); REQUIRE(basicShape4->composite(std::move(basicMask4), tvg::CompositeMethod::LumaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicShape4)) == Result::Success); REQUIRE(canvas->push(std::move(basicShape5)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("RLE Draw", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //Basic shapes and masking auto basicShape = tvg::Shape::gen(); REQUIRE(basicShape); auto basicMask = tvg::Shape::gen(); REQUIRE(basicMask); REQUIRE(basicShape->appendRect(0, 0, 50, 50, 50, 50) == Result::Success); REQUIRE(basicMask->appendRect(10, 10, 30, 30) == Result::Success); REQUIRE(basicShape->fill(255, 255, 255, 100) == Result::Success); auto basicShape2 = tvg::cast(basicShape->duplicate()); REQUIRE(basicShape2); auto basicMask2 = tvg::cast(basicMask->duplicate()); REQUIRE(basicMask2); auto basicShape3 = tvg::cast(basicShape->duplicate()); REQUIRE(basicShape3); auto basicMask3 = tvg::cast(basicMask->duplicate()); REQUIRE(basicMask3); auto basicShape4 = tvg::cast(basicShape->duplicate()); REQUIRE(basicShape4); auto basicMask4 = tvg::cast(basicMask->duplicate()); REQUIRE(basicMask4); auto basicShape5 = tvg::cast(basicShape->duplicate()); REQUIRE(basicShape5); REQUIRE(basicShape->composite(std::move(basicMask), tvg::CompositeMethod::AlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicShape)) == Result::Success); REQUIRE(basicShape2->composite(std::move(basicMask2), tvg::CompositeMethod::InvAlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicShape2)) == Result::Success); REQUIRE(basicShape3->clip(std::move(basicMask3)) == Result::Success); REQUIRE(canvas->push(std::move(basicShape3)) == Result::Success); REQUIRE(basicShape4->composite(std::move(basicMask4), tvg::CompositeMethod::LumaMask) == Result::Success); REQUIRE(canvas->push(std::move(basicShape4)) == Result::Success); REQUIRE(canvas->push(std::move(basicShape5)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("Filling Draw", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //Fill auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); Fill::ColorStop cs[4] = { {0.1f, 0, 0, 0, 0}, {0.2f, 50, 25, 50, 25}, {0.5f, 100, 100, 100, 125}, {0.9f, 255, 255, 255, 255} }; REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->spread(FillSpread::Repeat) == Result::Success); REQUIRE(radialFill->spread(FillSpread::Pad) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); //Filled Shapes auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape3->appendRect(0, 0, 50, 50) == Result::Success); REQUIRE(shape4->appendRect(50, 0, 50, 50) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill)) == Result::Success); REQUIRE(canvas->push(std::move(shape3)) == Result::Success); REQUIRE(canvas->push(std::move(shape4)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("Filling Opaque Draw", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //Fill auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); Fill::ColorStop cs[4] = { {0.0f, 0, 0, 0, 255}, {0.2f, 50, 25, 50, 255}, {0.5f, 100, 100, 100, 255}, {1.0f, 255, 255, 255, 255} }; REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); //Filled Shapes auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape3->appendRect(0, 0, 50, 50) == Result::Success); REQUIRE(shape4->appendRect(50, 0, 50, 50) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill)) == Result::Success); REQUIRE(canvas->push(std::move(shape3)) == Result::Success); REQUIRE(canvas->push(std::move(shape4)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("Filling AlphaMask", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //Fill auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); Fill::ColorStop cs[4] = { {0.0f, 0, 0, 0, 0}, {0.2f, 50, 25, 50, 25}, {0.5f, 100, 100, 100, 125}, {1.0f, 255, 255, 255, 255} }; REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); //Mask auto mask = tvg::Shape::gen(); REQUIRE(mask); REQUIRE(mask->appendCircle(50, 50, 50, 50) == Result::Success); //Filled Shapes auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape3->appendRect(0, 0, 50, 50) == Result::Success); REQUIRE(shape4->appendRect(50, 0, 50, 50) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill)) == Result::Success); //Scene auto scene = tvg::Scene::gen(); REQUIRE(scene); REQUIRE(scene->push(std::move(shape3)) == Result::Success); REQUIRE(scene->push(std::move(shape4)) == Result::Success); REQUIRE(scene->composite(std::move(mask), tvg::CompositeMethod::AlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(scene)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("Filling InvAlphaMask", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //Fill auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); Fill::ColorStop cs[4] = { {0.0f, 0, 0, 0, 0}, {0.2f, 50, 25, 50, 25}, {0.5f, 100, 100, 100, 125}, {1.0f, 255, 255, 255, 255} }; REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); //Mask auto mask = tvg::Shape::gen(); REQUIRE(mask); REQUIRE(mask->appendCircle(50, 50, 50, 50) == Result::Success); //Filled Shapes auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape3->appendRect(0, 0, 50, 50) == Result::Success); REQUIRE(shape4->appendRect(50, 0, 50, 50) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill)) == Result::Success); //Scene auto scene = tvg::Scene::gen(); REQUIRE(scene); REQUIRE(scene->push(std::move(shape3)) == Result::Success); REQUIRE(scene->push(std::move(shape4)) == Result::Success); REQUIRE(scene->composite(std::move(mask), tvg::CompositeMethod::InvAlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(scene)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("Filling LumaMask", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //Fill auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); Fill::ColorStop cs[4] = { {0.0f, 0, 0, 0, 0}, {0.2f, 50, 25, 50, 25}, {0.5f, 100, 100, 100, 125}, {1.0f, 255, 255, 255, 255} }; REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); //Mask auto mask = tvg::Shape::gen(); REQUIRE(mask); REQUIRE(mask->appendCircle(50, 50, 50, 50) == Result::Success); //Filled Shapes auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape3->appendRect(0, 0, 50, 50) == Result::Success); REQUIRE(shape4->appendRect(50, 0, 50, 50) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill)) == Result::Success); //Scene auto scene = tvg::Scene::gen(); REQUIRE(scene); REQUIRE(scene->push(std::move(shape3)) == Result::Success); REQUIRE(scene->push(std::move(shape4)) == Result::Success); REQUIRE(scene->composite(std::move(mask), tvg::CompositeMethod::LumaMask) == Result::Success); REQUIRE(canvas->push(std::move(scene)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("Filling Clipping", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //Fill auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); Fill::ColorStop cs[4] = { {0.0f, 0, 0, 0, 0}, {0.2f, 50, 25, 50, 25}, {0.5f, 100, 100, 100, 125}, {1.0f, 255, 255, 255, 255} }; REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); //Clipper auto clipper = tvg::Shape::gen(); REQUIRE(clipper); REQUIRE(clipper->appendCircle(50, 50, 50, 50) == Result::Success); //Filled Shapes auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape3->appendRect(0, 0, 50, 50) == Result::Success); REQUIRE(shape4->appendRect(50, 0, 50, 50) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill)) == Result::Success); //Scene auto scene = tvg::Scene::gen(); REQUIRE(scene); REQUIRE(scene->push(std::move(shape3)) == Result::Success); REQUIRE(scene->push(std::move(shape4)) == Result::Success); REQUIRE(scene->clip(std::move(clipper)) == Result::Success); REQUIRE(canvas->push(std::move(scene)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("RLE Filling Draw", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //Fill auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); Fill::ColorStop cs[4] = { {0.0f, 0, 0, 0, 0}, {0.2f, 50, 25, 50, 25}, {0.5f, 100, 100, 100, 125}, {1.0f, 255, 255, 255, 255} }; REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); //Filled Shapes auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape3->appendRect(0, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape4->appendRect(50, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill)) == Result::Success); REQUIRE(canvas->push(std::move(shape3)) == Result::Success); REQUIRE(canvas->push(std::move(shape4)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("RLE Filling Opaque Draw", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //Fill auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); Fill::ColorStop cs[4] = { {0.0f, 0, 0, 0, 255}, {0.2f, 50, 25, 50, 255}, {0.5f, 100, 100, 100, 255}, {1.0f, 255, 255, 255, 255} }; REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); //Filled Shapes auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape3->appendRect(0, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape4->appendRect(50, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill)) == Result::Success); REQUIRE(canvas->push(std::move(shape3)) == Result::Success); REQUIRE(canvas->push(std::move(shape4)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("RLE Filling AlphaMask", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //Fill auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); Fill::ColorStop cs[4] = { {0.0f, 0, 0, 0, 0}, {0.2f, 50, 25, 50, 25}, {0.5f, 100, 100, 100, 125}, {1.0f, 255, 255, 255, 255} }; REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); //Mask auto mask = tvg::Shape::gen(); REQUIRE(mask); REQUIRE(mask->appendCircle(50, 50, 50, 50) == Result::Success); //Filled Shapes auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape3->appendRect(0, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape4->appendRect(50, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill)) == Result::Success); //Scene auto scene = tvg::Scene::gen(); REQUIRE(scene); REQUIRE(scene->push(std::move(shape3)) == Result::Success); REQUIRE(scene->push(std::move(shape4)) == Result::Success); REQUIRE(scene->composite(std::move(mask), tvg::CompositeMethod::AlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(scene)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("RLE Filling InvAlphaMask", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //Fill auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); Fill::ColorStop cs[4] = { {0.0f, 0, 0, 0, 0}, {0.2f, 50, 25, 50, 25}, {0.5f, 100, 100, 100, 125}, {1.0f, 255, 255, 255, 255} }; REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); //Mask auto mask = tvg::Shape::gen(); REQUIRE(mask); REQUIRE(mask->appendCircle(50, 50, 50, 50) == Result::Success); //Filled Shapes auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape3->appendRect(0, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape4->appendRect(50, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill)) == Result::Success); //Scene auto scene = tvg::Scene::gen(); REQUIRE(scene); REQUIRE(scene->push(std::move(shape3)) == Result::Success); REQUIRE(scene->push(std::move(shape4)) == Result::Success); REQUIRE(scene->composite(std::move(mask), tvg::CompositeMethod::InvAlphaMask) == Result::Success); REQUIRE(canvas->push(std::move(scene)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("RLE Filling LumaMask", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ARGB8888) == Result::Success); //Fill auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); Fill::ColorStop cs[4] = { {0.0f, 0, 0, 0, 0}, {0.2f, 50, 25, 50, 25}, {0.5f, 100, 100, 100, 125}, {1.0f, 255, 255, 255, 255} }; REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); //Mask auto mask = tvg::Shape::gen(); REQUIRE(mask); REQUIRE(mask->appendCircle(50, 50, 50, 50) == Result::Success); //Filled Shapes auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape3->appendRect(0, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape4->appendRect(50, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill)) == Result::Success); //Scene auto scene = tvg::Scene::gen(); REQUIRE(scene); REQUIRE(scene->push(std::move(shape3)) == Result::Success); REQUIRE(scene->push(std::move(shape4)) == Result::Success); REQUIRE(scene->composite(std::move(mask), tvg::CompositeMethod::LumaMask) == Result::Success); REQUIRE(canvas->push(std::move(scene)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("RLE Filling InvLumaMask", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ARGB8888) == Result::Success); //Fill auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); Fill::ColorStop cs[4] = { {0.0f, 0, 0, 0, 0}, {0.2f, 50, 25, 50, 25}, {0.5f, 100, 100, 100, 125}, {1.0f, 255, 255, 255, 255} }; REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); //Mask auto mask = tvg::Shape::gen(); REQUIRE(mask); REQUIRE(mask->appendCircle(50, 50, 50, 50) == Result::Success); //Filled Shapes auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape3->appendRect(0, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape4->appendRect(50, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill)) == Result::Success); //Scene auto scene = tvg::Scene::gen(); REQUIRE(scene); REQUIRE(scene->push(std::move(shape3)) == Result::Success); REQUIRE(scene->push(std::move(shape4)) == Result::Success); REQUIRE(scene->composite(std::move(mask), tvg::CompositeMethod::InvLumaMask) == Result::Success); REQUIRE(canvas->push(std::move(scene)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("RLE Filling Clipping", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //Fill auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); Fill::ColorStop cs[4] = { {0.0f, 0, 0, 0, 0}, {0.2f, 50, 25, 50, 25}, {0.5f, 100, 100, 100, 125}, {1.0f, 255, 255, 255, 255} }; REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); //Mask auto clipper = tvg::Shape::gen(); REQUIRE(clipper); REQUIRE(clipper->appendCircle(50, 50, 50, 50) == Result::Success); //Filled Shapes auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape3->appendRect(0, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape4->appendRect(50, 0, 50, 50, 10, 10) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill)) == Result::Success); //Scene auto scene = tvg::Scene::gen(); REQUIRE(scene); REQUIRE(scene->push(std::move(shape3)) == Result::Success); REQUIRE(scene->push(std::move(shape4)) == Result::Success); REQUIRE(scene->clip(std::move(clipper)) == Result::Success); REQUIRE(canvas->push(std::move(scene)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("Blending Shapes", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); BlendMethod methods[14] = { BlendMethod::Normal, BlendMethod::Add, BlendMethod::Screen, BlendMethod::Multiply, BlendMethod::Overlay, BlendMethod::Difference, BlendMethod::Exclusion, BlendMethod::Darken, BlendMethod::Lighten, BlendMethod::ColorDodge, BlendMethod::ColorBurn, BlendMethod::HardLight, BlendMethod::SoftLight }; int i = 0; for (; i < 7; ++i) { auto shape = tvg::Shape::gen(); REQUIRE(shape); REQUIRE(shape->appendRect(0, 0, 100, 100) == Result::Success); REQUIRE(shape->fill(255, 255, 255) == Result::Success); shape->blend(methods[i]); REQUIRE(canvas->push(std::move(shape)) == Result::Success); } for (; i < 14; ++i) { auto shape = tvg::Shape::gen(); REQUIRE(shape); REQUIRE(shape->appendCircle(50, 50, 50, 50) == Result::Success); REQUIRE(shape->fill(255, 255, 255) == Result::Success); shape->blend(methods[i]); REQUIRE(canvas->push(std::move(shape)) == Result::Success); } //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } TEST_CASE("Blending Images", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); //raw image ifstream file(TEST_DIR"/rawimage_200x300.raw"); if (!file.is_open()) return; auto data = (uint32_t*)malloc(sizeof(uint32_t) * (200*300)); file.read(reinterpret_cast(data), sizeof (uint32_t) * 200 * 300); file.close(); //direct clipped image auto clipper = Shape::gen(); REQUIRE(clipper); REQUIRE(clipper->appendCircle(100, 100, 100, 100) == Result::Success); auto picture = Picture::gen(); REQUIRE(picture); REQUIRE(picture->load(data, 200, 300, false) == Result::Success); REQUIRE(picture->blend(BlendMethod::Lighten) == Result::Success); REQUIRE(picture->clip(std::move(clipper)) == Result::Success); REQUIRE(canvas->push(std::move(picture)) == Result::Success); //scaled images auto picture2 = Picture::gen(); REQUIRE(picture2); REQUIRE(picture2->load(data, 200, 300, false) == Result::Success); REQUIRE(picture2->scale(2) == Result::Success); REQUIRE(picture2->blend(BlendMethod::Lighten) == Result::Success); REQUIRE(canvas->push(std::move(picture2)) == Result::Success); //scaled clipped images auto clipper2 = Shape::gen(); REQUIRE(clipper2); REQUIRE(clipper2->appendCircle(100, 100, 100, 100) == Result::Success); auto picture3 = Picture::gen(); REQUIRE(picture3); REQUIRE(picture3->load(data, 200, 300, false) == Result::Success); REQUIRE(picture3->scale(2) == Result::Success); REQUIRE(picture3->blend(BlendMethod::Lighten) == Result::Success); REQUIRE(picture3->clip(std::move(clipper2)) == Result::Success); REQUIRE(canvas->push(std::move(picture3)) == Result::Success); //normal image auto picture4 = Picture::gen(); REQUIRE(picture4); REQUIRE(picture4->load(data, 200, 300, false) == Result::Success); REQUIRE(picture4->blend(BlendMethod::Lighten) == Result::Success); REQUIRE(canvas->push(std::move(picture4)) == Result::Success); //texmap image auto picture5 = Picture::gen(); REQUIRE(picture5); REQUIRE(picture5->load(data, 200, 300, false) == Result::Success); REQUIRE(picture5->blend(BlendMethod::Lighten) == Result::Success); REQUIRE(picture5->rotate(45.0f) == Result::Success); REQUIRE(canvas->push(std::move(picture5)) == Result::Success); //texmap image with half-translucent auto picture6 = Picture::gen(); REQUIRE(picture6); REQUIRE(picture6->load(data, 200, 300, false) == Result::Success); REQUIRE(picture6->blend(BlendMethod::Lighten) == Result::Success); REQUIRE(picture6->rotate(45.0f) == Result::Success); REQUIRE(picture6->opacity(127) == Result::Success); REQUIRE(canvas->push(std::move(picture6)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); free(data); } TEST_CASE("Blending with Gradient Filling", "[tvgSwEngine]") { REQUIRE(Initializer::init(CanvasEngine::Sw, 0) == Result::Success); auto canvas = SwCanvas::gen(); REQUIRE(canvas); uint32_t buffer[100*100]; REQUIRE(canvas->target(buffer, 100, 100, 100, SwCanvas::Colorspace::ABGR8888) == Result::Success); Fill::ColorStop cs[4] = { {0.0f, 0, 0, 0, 0}, {0.2f, 50, 25, 50, 25}, {0.5f, 100, 100, 100, 125}, {1.0f, 255, 255, 255, 255} }; //Linear fill Shape auto linearFill = LinearGradient::gen(); REQUIRE(linearFill); REQUIRE(linearFill->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); auto shape1 = tvg::Shape::gen(); REQUIRE(shape1); REQUIRE(shape1->appendRect(0, 0, 100, 100) == Result::Success); REQUIRE(shape1->fill(std::move(linearFill)) == Result::Success); REQUIRE(shape1->blend(BlendMethod::Difference) == Result::Success); REQUIRE(canvas->push(std::move(shape1)) == Result::Success); //Radial fill shape auto radialFill = RadialGradient::gen(); REQUIRE(radialFill); REQUIRE(radialFill->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill->radial(50.0f, 50.0f, 50.0f) == Result::Success); auto shape2 = tvg::Shape::gen(); REQUIRE(shape2); REQUIRE(shape2->appendRect(0, 0, 100, 100) == Result::Success); REQUIRE(shape2->fill(std::move(radialFill)) == Result::Success); REQUIRE(shape2->blend(BlendMethod::Difference) == Result::Success); REQUIRE(canvas->push(std::move(shape2)) == Result::Success); //Linear fill alpha mask shape auto linearFill2 = LinearGradient::gen(); REQUIRE(linearFill2); REQUIRE(linearFill2->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill2->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); auto mask = tvg::Shape::gen(); REQUIRE(mask); mask->appendCircle(50, 50, 50, 50); auto shape3 = tvg::Shape::gen(); REQUIRE(shape3); REQUIRE(shape3->appendRect(0, 0, 100, 100) == Result::Success); REQUIRE(shape3->fill(std::move(linearFill2)) == Result::Success); REQUIRE(shape3->composite(std::move(mask), tvg::CompositeMethod::AlphaMask) == Result::Success); REQUIRE(shape3->blend(BlendMethod::Difference) == Result::Success); REQUIRE(canvas->push(std::move(shape3)) == Result::Success); //Radial fill alpha mask shape auto radialFill2 = RadialGradient::gen(); REQUIRE(radialFill2); REQUIRE(radialFill2->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill2->radial(50.0f, 50.0f, 50.0f) == Result::Success); auto mask2 = tvg::Shape::gen(); REQUIRE(mask2); mask2->appendCircle(50, 50, 50, 50); auto shape4 = tvg::Shape::gen(); REQUIRE(shape4); REQUIRE(shape4->appendRect(0, 0, 100, 100) == Result::Success); REQUIRE(shape4->fill(std::move(radialFill2)) == Result::Success); REQUIRE(shape4->composite(std::move(mask2), tvg::CompositeMethod::AlphaMask) == Result::Success); REQUIRE(shape4->blend(BlendMethod::Difference) == Result::Success); REQUIRE(canvas->push(std::move(shape4)) == Result::Success); //Linear fill add mask shape auto linearFill3 = LinearGradient::gen(); REQUIRE(linearFill3); REQUIRE(linearFill3->colorStops(cs, 4) == Result::Success); REQUIRE(linearFill3->linear(0.0f, 0.0f, 100.0f, 120.0f) == Result::Success); auto mask3 = tvg::Shape::gen(); REQUIRE(mask3); mask3->appendCircle(50, 50, 50, 50); auto shape5 = tvg::Shape::gen(); REQUIRE(shape5); REQUIRE(shape5->appendRect(0, 0, 100, 100) == Result::Success); REQUIRE(shape5->fill(std::move(linearFill3)) == Result::Success); REQUIRE(shape5->composite(std::move(mask3), tvg::CompositeMethod::AddMask) == Result::Success); REQUIRE(shape5->blend(BlendMethod::Difference) == Result::Success); REQUIRE(canvas->push(std::move(shape5)) == Result::Success); //Radial fill add mask shape auto radialFill3 = RadialGradient::gen(); REQUIRE(radialFill3); REQUIRE(radialFill3->colorStops(cs, 4) == Result::Success); REQUIRE(radialFill3->radial(50.0f, 50.0f, 50.0f) == Result::Success); auto mask4 = tvg::Shape::gen(); REQUIRE(mask4); mask4->appendCircle(50, 50, 50, 50); auto shape6 = tvg::Shape::gen(); REQUIRE(shape6); REQUIRE(shape6->appendRect(0, 0, 100, 100) == Result::Success); REQUIRE(shape6->fill(std::move(radialFill3)) == Result::Success); REQUIRE(shape6->composite(std::move(mask4), tvg::CompositeMethod::SubtractMask) == Result::Success); REQUIRE(shape6->blend(BlendMethod::Difference) == Result::Success); REQUIRE(canvas->push(std::move(shape6)) == Result::Success); //Draw REQUIRE(canvas->draw() == Result::Success); REQUIRE(canvas->sync() == Result::Success); REQUIRE(Initializer::term(CanvasEngine::Sw) == Result::Success); } #endif