/* * Copyright 2018 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "gm.h" #include "sk_tool_utils.h" #include "SkPaint.h" #include "SkPath.h" #include "SkPoint.h" #include #include namespace skiagm { static constexpr int kPadSize = 20; static constexpr int kBoxSize = 100; static constexpr SkPoint kJitters[] = {{0, 0}, {.5f, .5f}, {2/3.f, 1/3.f}}; // Tests various corners of different angles falling on the same pixel, particularly to ensure // analytic AA is working properly. class SharedCornersGM : public GM { public: SharedCornersGM() { this->setBGColor(sk_tool_utils::color_to_565(0xFF1A65D7)); } protected: SkString onShortName() override { return SkString("sharedcorners"); } SkISize onISize() override { constexpr int numRows = 3 * 2; constexpr int numCols = (1 + SK_ARRAY_COUNT(kJitters)) * 2; return SkISize::Make(numCols * (kBoxSize + kPadSize) + kPadSize, numRows * (kBoxSize + kPadSize) + kPadSize); } void onOnceBeforeDraw() override { fFillPaint.setColor(SK_ColorWHITE); fFillPaint.setAntiAlias(true); fWireFramePaint = fFillPaint; fWireFramePaint.setStyle(SkPaint::kStroke_Style); } void onDraw(SkCanvas* canvas) override { canvas->translate(kPadSize, kPadSize); canvas->save(); // Adjacent rects. this->drawTriangleBoxes(canvas, {{0, 0}, {40, 0}, {80, 0}, {120, 0}, {0, 20}, {40, 20}, {80, 20}, {120, 20}, {40, 40}, {80, 40}, {40, 60}, {80, 60}}, {{{0, 1, 4}}, {{1, 5, 4}}, {{5, 1, 6}}, {{1, 2, 6}}, {{2, 3, 6}}, {{3, 7, 6}}, {{8, 5, 9}}, {{5, 6, 9}}, {{10, 8, 11}}, {{8, 9, 11}}}); // Obtuse angles. this->drawTriangleBoxes(canvas, {{ 0, 0}, {10, 0}, {20, 0}, { 0, 2}, {20, 2}, {10, 4}, { 0, 6}, {20, 6}, { 0, 8}, {10, 8}, {20, 8}}, {{{3, 1, 4}}, {{4, 5, 3}}, {{6, 5, 7}}, {{7, 9, 6}}, {{0, 1, 3}}, {{1, 2, 4}}, {{3, 5, 6}}, {{5, 4, 7}}, {{6, 9, 8}}, {{9, 7, 10}}}); canvas->restore(); canvas->translate((kBoxSize + kPadSize) * 4, 0); // Right angles. this->drawTriangleBoxes(canvas, {{0, 0}, {-1, 0}, {0, -1}, {1, 0}, {0, 1}}, {{{0, 1, 2}}, {{0, 2, 3}}, {{0, 3, 4}}, {{0, 4, 1}}}); // Acute angles. SkRandom rand; std::vector pts; std::vector> indices; SkScalar theta = 0; pts.push_back({0, 0}); while (theta < 2*SK_ScalarPI) { pts.push_back({SkScalarCos(theta), SkScalarSin(theta)}); if (pts.size() > 2) { indices.push_back({{0, (int)pts.size() - 2, (int)pts.size() - 1}}); } theta += rand.nextRangeF(0, SK_ScalarPI/3); } indices.push_back({{0, (int)pts.size() - 1, 1}}); this->drawTriangleBoxes(canvas, pts, indices); } void drawTriangleBoxes(SkCanvas* canvas, const std::vector& points, const std::vector>& triangles) { SkPath path; path.setFillType(SkPath::kEvenOdd_FillType); path.setIsVolatile(true); for (const std::array& triangle : triangles) { path.moveTo(points[triangle[0]]); path.lineTo(points[triangle[1]]); path.lineTo(points[triangle[2]]); path.close(); } SkScalar scale = kBoxSize / SkTMax(path.getBounds().height(), path.getBounds().width()); path.transform(SkMatrix::MakeScale(scale, scale)); this->drawRow(canvas, path); canvas->translate(0, kBoxSize + kPadSize); SkMatrix rot; rot.setRotate(45, path.getBounds().centerX(), path.getBounds().centerY()); path.transform(rot); this->drawRow(canvas, path); canvas->translate(0, kBoxSize + kPadSize); rot.setRotate(-45 - 69.38111f, path.getBounds().centerX(), path.getBounds().centerY()); path.transform(rot); this->drawRow(canvas, path); canvas->translate(0, kBoxSize + kPadSize); } void drawRow(SkCanvas* canvas, const SkPath& path) { SkAutoCanvasRestore acr(canvas, true); const SkRect& bounds = path.getBounds(); canvas->translate((kBoxSize - bounds.width()) / 2 - bounds.left(), (kBoxSize - bounds.height()) / 2 - bounds.top()); canvas->drawPath(path, fWireFramePaint); canvas->translate(kBoxSize + kPadSize, 0); for (SkPoint jitter : kJitters) { { SkAutoCanvasRestore acr(canvas, true); canvas->translate(jitter.x(), jitter.y()); canvas->drawPath(path, fFillPaint); } canvas->translate(kBoxSize + kPadSize, 0); } } SkPaint fWireFramePaint; SkPaint fFillPaint; }; DEF_GM(return new SharedCornersGM;) }