982fff264d
See https://source.android.com/setup/contribute/respectful-code for reference Bug: 162536543 Change-Id: Ia9c81c2251ac7bf4eef6d37799741612989fc9c0 Reviewed-on: https://skia-review.googlesource.com/c/skia/+/307228 Reviewed-by: Mike Klein <mtklein@google.com> Commit-Queue: Leon Scroggins <scroggo@google.com>
238 lines
8.9 KiB
C++
238 lines
8.9 KiB
C++
/*
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* Copyright 2019 Google LLC
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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 "tests/Test.h"
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#include "src/gpu/geometry/GrQuadBuffer.h"
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#include <vector>
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#define ASSERT(cond) REPORTER_ASSERT(r, cond)
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#define ASSERTF(cond, ...) REPORTER_ASSERT(r, cond, __VA_ARGS__)
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#define TEST(name) DEF_TEST(GrQuadBuffer##name, r)
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struct TestData {
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int fItem1;
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float fItem2;
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};
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static void assert_quad_eq(skiatest::Reporter* r, const GrQuad& expected, const GrQuad& actual) {
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ASSERTF(expected.quadType() == actual.quadType(), "Expected type %d, got %d",
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(int) expected.quadType(), (int) actual.quadType());
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for (int i = 0; i < 4; ++i) {
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ASSERTF(expected.x(i) == actual.x(i), "Expected x(%d) = %f, got %f",
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i, expected.x(i), actual.x(i));
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ASSERTF(expected.y(i) == actual.y(i), "Expected y(%d) = %f, got %f",
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i, expected.y(i), actual.y(i));
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ASSERTF(expected.w(i) == actual.w(i), "Expected w(%d) = %f, got %f",
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i, expected.w(i), actual.w(i));
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}
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}
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static void assert_metadata_eq(skiatest::Reporter* r, const TestData& expected,
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const TestData& actual) {
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ASSERTF(expected.fItem1 == actual.fItem1 && expected.fItem2 == actual.fItem2,
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"Expected { %d, %f } for metadata, got: { %d %f }",
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expected.fItem1, expected.fItem2, actual.fItem1, actual.fItem2);
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}
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static std::vector<GrQuad> generate_quads(float seed, int cnt, const GrQuad::Type types[]) {
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// For convenience use matrix to derive each quad type, rely on different seed values to
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// differentiate between quads of the same type
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SkMatrix rotate;
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rotate.setRotate(45.f);
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SkMatrix skew;
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skew.setSkew(0.5f, 0.5f);
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SkMatrix perspective;
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perspective.setPerspX(0.01f);
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perspective.setPerspY(0.001f);
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std::vector<GrQuad> quads;
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SkRect rect = SkRect::MakeXYWH(seed, 2.f * seed, 2.f * seed, seed);
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for (int i = 0; i < cnt; ++i) {
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GrQuad quad;
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switch(types[i]) {
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case GrQuad::Type::kAxisAligned:
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quad = GrQuad(rect);
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break;
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case GrQuad::Type::kRectilinear:
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quad = GrQuad::MakeFromRect(rect, rotate);
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break;
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case GrQuad::Type::kGeneral:
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quad = GrQuad::MakeFromRect(rect, skew);
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break;
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default:
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SkASSERT(types[i] == GrQuad::Type::kPerspective);
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quad = GrQuad::MakeFromRect(rect, perspective);
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break;
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}
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SkASSERT(quad.quadType() == types[i]);
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quads.push_back(quad);
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}
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return quads;
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}
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TEST(Append) {
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// Generate test data, which includes all quad types out of enum-order and duplicates
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static const int kQuadCount = 6;
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static const GrQuad::Type kDeviceTypes[] = {
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GrQuad::Type::kAxisAligned, GrQuad::Type::kRectilinear, GrQuad::Type::kGeneral,
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GrQuad::Type::kPerspective, GrQuad::Type::kRectilinear, GrQuad::Type::kAxisAligned
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};
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// Odd indexed quads will be ignored and not stored in the buffer
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static const GrQuad::Type kLocalTypes[] = {
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GrQuad::Type::kGeneral, GrQuad::Type::kGeneral, GrQuad::Type::kRectilinear,
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GrQuad::Type::kRectilinear, GrQuad::Type::kAxisAligned, GrQuad::Type::kAxisAligned
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};
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static_assert(SK_ARRAY_COUNT(kDeviceTypes) == kQuadCount, "device quad count");
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static_assert(SK_ARRAY_COUNT(kLocalTypes) == kQuadCount, "local quad count");
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std::vector<GrQuad> expectedDeviceQuads = generate_quads(1.f, kQuadCount, kDeviceTypes);
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std::vector<GrQuad> expectedLocalQuads = generate_quads(2.f, kQuadCount, kLocalTypes);
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// Fill in the buffer with the device quads, and a local quad if the index is even
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GrQuadBuffer<TestData> buffer;
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for (int i = 0; i < kQuadCount; ++i) {
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buffer.append(expectedDeviceQuads[i], // device quad
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{ 2 * i, 3.f * i }, // metadata
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i % 2 == 0 ? &expectedLocalQuads[i] : nullptr); // optional local quad
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}
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// Confirm the state of the buffer
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ASSERT(kQuadCount == buffer.count());
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ASSERT(GrQuad::Type::kPerspective == buffer.deviceQuadType());
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ASSERT(GrQuad::Type::kGeneral == buffer.localQuadType());
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int i = 0;
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auto iter = buffer.iterator();
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while(iter.next()) {
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// Each entry always has the device quad
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assert_quad_eq(r, expectedDeviceQuads[i], *iter.deviceQuad());
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assert_metadata_eq(r, {2 * i, 3.f * i}, iter.metadata());
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if (i % 2 == 0) {
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// Confirm local quads included on even entries
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ASSERT(iter.isLocalValid());
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assert_quad_eq(r, expectedLocalQuads[i], *iter.localQuad());
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} else {
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// Should not have locals
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ASSERT(!iter.isLocalValid());
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ASSERT(!iter.localQuad());
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}
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i++;
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}
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ASSERTF(i == kQuadCount, "Expected %d iterations, got: %d", kQuadCount, i);
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}
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TEST(Concat) {
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static const int kQuadCount = 2;
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static const GrQuad::Type kTypesA[] = { GrQuad::Type::kAxisAligned, GrQuad::Type::kRectilinear };
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static const GrQuad::Type kTypesB[] = { GrQuad::Type::kGeneral, GrQuad::Type::kPerspective };
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static_assert(SK_ARRAY_COUNT(kTypesA) == kQuadCount, "quadsA count");
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static_assert(SK_ARRAY_COUNT(kTypesB) == kQuadCount, "quadsB count");
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std::vector<GrQuad> quadsA = generate_quads(1.f, kQuadCount, kTypesA);
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std::vector<GrQuad> quadsB = generate_quads(2.f, kQuadCount, kTypesB);
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// Make two buffers, the first uses 'quadsA' for device quads and 'quadsB' for local quads
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// on even indices. The second uses 'quadsB' for device quads and 'quadsA' for local quads
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// on odd indices.
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GrQuadBuffer<TestData> buffer1;
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GrQuadBuffer<TestData> buffer2;
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for (int i = 0; i < kQuadCount; ++i) {
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buffer1.append(quadsA[i], {i, 2.f * i}, i % 2 == 0 ? &quadsB[i] : nullptr);
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buffer2.append(quadsB[i], {2 * i, 0.5f * i}, i % 2 == 0 ? nullptr : &quadsA[i]);
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}
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ASSERT(kQuadCount == buffer1.count());
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ASSERT(kQuadCount == buffer2.count());
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// Perform the concatenation and then confirm the new state of buffer1
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buffer1.concat(buffer2);
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ASSERT(2 * kQuadCount == buffer1.count());
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int i = 0;
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auto iter = buffer1.iterator();
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while(iter.next()) {
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if (i < kQuadCount) {
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// First half should match original buffer1
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assert_quad_eq(r, quadsA[i], *iter.deviceQuad());
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assert_metadata_eq(r, {i, 2.f * i}, iter.metadata());
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if (i % 2 == 0) {
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ASSERT(iter.isLocalValid());
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assert_quad_eq(r, quadsB[i], *iter.localQuad());
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} else {
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ASSERT(!iter.isLocalValid());
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ASSERT(!iter.localQuad());
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}
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} else {
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// Second half should match buffer2
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int j = i - kQuadCount;
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assert_quad_eq(r, quadsB[j], *iter.deviceQuad());
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assert_metadata_eq(r, {2 * j, 0.5f * j}, iter.metadata());
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if (j % 2 == 0) {
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ASSERT(!iter.isLocalValid());
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ASSERT(!iter.localQuad());
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} else {
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ASSERT(iter.isLocalValid());
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assert_quad_eq(r, quadsA[j], *iter.localQuad());
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}
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}
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i++;
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}
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ASSERTF(i == 2 * kQuadCount, "Expected %d iterations, got: %d",2 * kQuadCount, i);
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}
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TEST(Metadata) {
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static const int kQuadCount = 3;
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// This test doesn't really care about the quad coordinates (except that they aren't modified
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// when mutating the metadata)
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GrQuad quad(SkRect::MakeLTRB(1.f, 2.f, 3.f, 4.f));
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GrQuadBuffer<TestData> buffer;
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for (int i = 0; i < kQuadCount; ++i) {
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buffer.append(quad, {i, 2.f * i}, i % 2 == 0 ? &quad : nullptr);
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}
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// Iterate once using the metadata iterator, confirm the test data and rewrite
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int i = 0;
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auto meta = buffer.metadata();
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while(meta.next()) {
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// Confirm initial state
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assert_metadata_eq(r, {i, 2.f * i}, *meta);
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// Rewrite
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*meta = {2 * i, 0.5f * i};
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i++;
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}
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ASSERTF(i == kQuadCount, "Expected %d iterations, got: %d", kQuadCount, i);
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// Now that all metadata has been touched, read with regular iterator and confirm updated state
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// and that no quad coordinates have been changed.
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i = 0;
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auto iter = buffer.iterator();
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while(iter.next()) {
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// New metadata
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assert_metadata_eq(r, {2 * i, 0.5f * i}, iter.metadata());
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// Quad coordinates are unchanged
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assert_quad_eq(r, quad, *iter.deviceQuad());
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if (i % 2 == 0) {
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ASSERT(iter.isLocalValid());
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assert_quad_eq(r, quad, *iter.localQuad());
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} else {
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ASSERT(!iter.isLocalValid());
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ASSERT(!iter.localQuad());
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}
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i++;
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}
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ASSERTF(i == kQuadCount, "Expected %d iterations, got: %d", kQuadCount, i);
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}
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