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323 lines
9.5 KiB
323 lines
9.5 KiB
/*
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* Copyright 2020 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#include "include/core/SkPathBuilder.h"
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#include "include/core/SkPathTypes.h"
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#include "src/core/SkPathPriv.h"
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#include "tests/Test.h"
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static void is_empty(skiatest::Reporter* reporter, const SkPath& p) {
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REPORTER_ASSERT(reporter, p.getBounds().isEmpty());
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REPORTER_ASSERT(reporter, p.countPoints() == 0);
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}
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DEF_TEST(pathbuilder, reporter) {
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SkPathBuilder b;
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is_empty(reporter, b.snapshot());
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is_empty(reporter, b.detach());
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b.moveTo(10, 10).lineTo(20, 20).quadTo(30, 10, 10, 20);
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SkPath p0 = b.snapshot();
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SkPath p1 = b.snapshot();
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SkPath p2 = b.detach();
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// Builders should always precompute the path's bounds, so there is no race condition later
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REPORTER_ASSERT(reporter, SkPathPriv::HasComputedBounds(p0));
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REPORTER_ASSERT(reporter, SkPathPriv::HasComputedBounds(p1));
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REPORTER_ASSERT(reporter, SkPathPriv::HasComputedBounds(p2));
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REPORTER_ASSERT(reporter, p0.getBounds() == SkRect::MakeLTRB(10, 10, 30, 20));
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REPORTER_ASSERT(reporter, p0.countPoints() == 4);
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REPORTER_ASSERT(reporter, p0 == p1);
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REPORTER_ASSERT(reporter, p0 == p2);
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is_empty(reporter, b.snapshot());
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is_empty(reporter, b.detach());
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}
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DEF_TEST(pathbuilder_filltype, reporter) {
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for (auto fillType : { SkPathFillType::kWinding,
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SkPathFillType::kEvenOdd,
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SkPathFillType::kInverseWinding,
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SkPathFillType::kInverseEvenOdd }) {
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SkPathBuilder b(fillType);
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REPORTER_ASSERT(reporter, b.fillType() == fillType);
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for (const SkPath& path : { b.snapshot(), b.detach() }) {
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REPORTER_ASSERT(reporter, path.getFillType() == fillType);
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is_empty(reporter, path);
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}
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}
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}
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static bool check_points(const SkPath& path, const SkPoint expected[], size_t count) {
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std::vector<SkPoint> iter_pts;
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for (auto [v, p, w] : SkPathPriv::Iterate(path)) {
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switch (v) {
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case SkPathVerb::kMove:
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iter_pts.push_back(p[0]);
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break;
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case SkPathVerb::kLine:
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iter_pts.push_back(p[1]);
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break;
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case SkPathVerb::kQuad:
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case SkPathVerb::kConic:
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iter_pts.push_back(p[1]);
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iter_pts.push_back(p[2]);
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break;
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case SkPathVerb::kCubic:
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iter_pts.push_back(p[1]);
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iter_pts.push_back(p[2]);
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iter_pts.push_back(p[3]);
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break;
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case SkPathVerb::kClose:
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break;
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}
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}
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if (iter_pts.size() != count) {
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return false;
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}
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for (size_t i = 0; i < count; ++i) {
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if (iter_pts[i] != expected[i]) {
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return false;
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}
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}
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return true;
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}
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DEF_TEST(pathbuilder_missing_move, reporter) {
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SkPathBuilder b;
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b.lineTo(10, 10).lineTo(20, 30);
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const SkPoint pts0[] = {
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{0, 0}, {10, 10}, {20, 30},
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};
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REPORTER_ASSERT(reporter, check_points(b.snapshot(), pts0, SK_ARRAY_COUNT(pts0)));
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b.reset().moveTo(20, 20).lineTo(10, 10).lineTo(20, 30).close().lineTo(60, 60);
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const SkPoint pts1[] = {
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{20, 20}, {10, 10}, {20, 30},
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{20, 20}, {60, 60},
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};
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REPORTER_ASSERT(reporter, check_points(b.snapshot(), pts1, SK_ARRAY_COUNT(pts1)));
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}
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DEF_TEST(pathbuilder_addRect, reporter) {
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const SkRect r = { 10, 20, 30, 40 };
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for (int i = 0; i < 4; ++i) {
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for (auto dir : {SkPathDirection::kCW, SkPathDirection::kCCW}) {
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SkPathBuilder b;
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b.addRect(r, dir, i);
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auto bp = b.detach();
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SkRect r2;
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bool closed = false;
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SkPathDirection dir2;
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REPORTER_ASSERT(reporter, bp.isRect(&r2, &closed, &dir2));
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REPORTER_ASSERT(reporter, r2 == r);
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REPORTER_ASSERT(reporter, closed);
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REPORTER_ASSERT(reporter, dir == dir2);
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SkPath p;
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p.addRect(r, dir, i);
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REPORTER_ASSERT(reporter, p == bp);
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}
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}
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}
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static bool is_eq(const SkPath& a, const SkPath& b) {
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if (a != b) {
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return false;
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}
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{
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SkRect ra, rb;
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bool is_a = a.isOval(&ra);
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bool is_b = b.isOval(&rb);
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if (is_a != is_b) {
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return false;
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}
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if (is_a && (ra != rb)) {
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return false;
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}
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}
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{
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SkRRect rra, rrb;
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bool is_a = a.isRRect(&rra);
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bool is_b = b.isRRect(&rrb);
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if (is_a != is_b) {
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return false;
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}
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if (is_a && (rra != rrb)) {
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return false;
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}
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}
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// getConvextity() should be sufficient to test, but internally we sometimes don't want
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// to trigger computing it, so this is the stronger test for equality.
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{
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SkPathConvexity ca = SkPathPriv::GetConvexityOrUnknown(a),
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cb = SkPathPriv::GetConvexityOrUnknown(b);
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if (ca != cb) {
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return false;
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}
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}
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return true;
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}
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DEF_TEST(pathbuilder_addOval, reporter) {
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const SkRect r = { 10, 20, 30, 40 };
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SkRect tmp;
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for (auto dir : {SkPathDirection::kCW, SkPathDirection::kCCW}) {
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for (int i = 0; i < 4; ++i) {
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auto bp = SkPathBuilder().addOval(r, dir, i).detach();
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SkPath p;
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p.addOval(r, dir, i);
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REPORTER_ASSERT(reporter, is_eq(p, bp));
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}
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auto bp = SkPathBuilder().addOval(r, dir).detach();
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SkPath p;
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p.addOval(r, dir);
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REPORTER_ASSERT(reporter, is_eq(p, bp));
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// test negative case -- can't have any other segments
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bp = SkPathBuilder().addOval(r, dir).lineTo(10, 10).detach();
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REPORTER_ASSERT(reporter, !bp.isOval(&tmp));
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bp = SkPathBuilder().lineTo(10, 10).addOval(r, dir).detach();
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REPORTER_ASSERT(reporter, !bp.isOval(&tmp));
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}
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}
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DEF_TEST(pathbuilder_addRRect, reporter) {
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const SkRRect rr = SkRRect::MakeRectXY({ 10, 20, 30, 40 }, 5, 6);
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for (auto dir : {SkPathDirection::kCW, SkPathDirection::kCCW}) {
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for (int i = 0; i < 4; ++i) {
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SkPathBuilder b;
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b.addRRect(rr, dir, i);
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auto bp = b.detach();
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SkPath p;
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p.addRRect(rr, dir, i);
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REPORTER_ASSERT(reporter, is_eq(p, bp));
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}
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auto bp = SkPathBuilder().addRRect(rr, dir).detach();
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SkPath p;
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p.addRRect(rr, dir);
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REPORTER_ASSERT(reporter, is_eq(p, bp));
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// test negative case -- can't have any other segments
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SkRRect tmp;
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bp = SkPathBuilder().addRRect(rr, dir).lineTo(10, 10).detach();
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REPORTER_ASSERT(reporter, !bp.isRRect(&tmp));
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bp = SkPathBuilder().lineTo(10, 10).addRRect(rr, dir).detach();
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REPORTER_ASSERT(reporter, !bp.isRRect(&tmp));
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}
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}
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#include "include/utils/SkRandom.h"
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DEF_TEST(pathbuilder_make, reporter) {
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constexpr int N = 100;
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uint8_t vbs[N];
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SkPoint pts[N];
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SkRandom rand;
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SkPathBuilder b;
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b.moveTo(0, 0);
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pts[0] = {0, 0}; vbs[0] = (uint8_t)SkPathVerb::kMove;
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for (int i = 1; i < N; ++i) {
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float x = rand.nextF();
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float y = rand.nextF();
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b.lineTo(x, y);
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pts[i] = {x, y}; vbs[i] = (uint8_t)SkPathVerb::kLine;
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}
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auto p0 = b.detach();
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auto p1 = SkPath::Make(pts, N, vbs, N, nullptr, 0, p0.getFillType());
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REPORTER_ASSERT(reporter, p0 == p1);
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}
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DEF_TEST(pathbuilder_genid, r) {
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SkPathBuilder builder;
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builder.lineTo(10, 10);
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auto p1 = builder.snapshot();
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builder.lineTo(10, 20);
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auto p2 = builder.snapshot();
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REPORTER_ASSERT(r, p1.getGenerationID() != p2.getGenerationID());
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}
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DEF_TEST(pathbuilder_addPolygon, reporter) {
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SkPoint pts[] = {{1, 2}, {3, 4}, {5, 6}, {7, 8}};
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auto addpoly = [](const SkPoint pts[], int count, bool isClosed) {
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SkPathBuilder builder;
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if (count > 0) {
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builder.moveTo(pts[0]);
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for (int i = 1; i < count; ++i) {
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builder.lineTo(pts[i]);
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}
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if (isClosed) {
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builder.close();
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}
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}
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return builder.detach();
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};
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for (bool isClosed : {false, true}) {
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for (size_t i = 0; i <= SK_ARRAY_COUNT(pts); ++i) {
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auto path0 = SkPathBuilder().addPolygon(pts, i, isClosed).detach();
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auto path1 = addpoly(pts, i, isClosed);
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REPORTER_ASSERT(reporter, path0 == path1);
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}
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}
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}
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DEF_TEST(pathbuilder_shrinkToFit, reporter) {
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// SkPathBuilder::snapshot() creates copies of its arrays for perfectly sized paths,
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// where SkPathBuilder::detach() moves its larger scratch arrays for speed.
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bool any_smaller = false;
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for (int pts = 0; pts < 10; pts++) {
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SkPathBuilder b;
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for (int i = 0; i < pts; i++) {
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b.lineTo(i,i);
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}
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b.close();
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SkPath s = b.snapshot(),
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d = b.detach();
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REPORTER_ASSERT(reporter, s.approximateBytesUsed() <= d.approximateBytesUsed());
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any_smaller |= s.approximateBytesUsed() < d.approximateBytesUsed();
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}
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REPORTER_ASSERT(reporter, any_smaller);
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}
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DEF_TEST(pathbuilder_addPath, reporter) {
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const auto p = SkPath()
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.moveTo(10, 10)
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.lineTo(100, 10)
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.quadTo(200, 100, 100, 200)
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.close()
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.moveTo(200, 200)
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.cubicTo(210, 200, 210, 300, 200, 300)
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.conicTo(150, 250, 100, 200, 1.4f);
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REPORTER_ASSERT(reporter, p == SkPathBuilder().addPath(p).detach());
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}
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