tests/SamplePatternDictionaryTest.cpp - skia - Git at Google

 /*
  * Copyright 2019 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "include/core/SkPoint.h"
 #include "include/core/SkTypes.h"
 #include "include/utils/SkRandom.h"
 #include "tests/Test.h"
 #include <vector>

 #if SK_SUPPORT_GPU

 #include "src/gpu/GrSamplePatternDictionary.h"

 static SkTArray<SkPoint> make_sample_pattern(const std::vector<SkPoint>& sampleLocations) {
     return SkTArray<SkPoint>(sampleLocations.data(), sampleLocations.size());
 }

 static SkTArray<SkPoint> make_random_sample_pattern(SkRandom* rand) {
     SkTArray<SkPoint> pattern;
     int count = rand->nextULessThan(20) + 1;
     pattern.reset(count);
     for (int i = 0; i < count; ++i) {
         pattern[i] = SkPoint::Make(rand->nextF(), rand->nextF());
     }
     return pattern;
 }

 // This test ensures that the sample pattern dictionary caches and retrieves patterns correctly.
 DEF_TEST(SamplePatternDictionary, reporter) {
     SkTArray<SkTArray<SkPoint>> testPatterns;
     testPatterns.push_back() = make_sample_pattern({ // Intel on mac, msaa8, offscreen.
         {0.562500, 0.312500},
         {0.437500, 0.687500},
         {0.812500, 0.562500},
         {0.312500, 0.187500},
         {0.187500, 0.812500},
         {0.062500, 0.437500},
         {0.687500, 0.937500},
         {0.937500, 0.062500}
     });

     testPatterns.push_back() = make_sample_pattern({ // Intel on mac, msaa8, on-screen.
         {0.562500, 0.687500},
         {0.437500, 0.312500},
         {0.812500, 0.437500},
         {0.312500, 0.812500},
         {0.187500, 0.187500},
         {0.062500, 0.562500},
         {0.687500, 0.062500},
         {0.937500, 0.937500}
     });

     testPatterns.push_back() = make_sample_pattern({ // NVIDIA, msaa16.
         {0.062500, 0.000000},
         {0.250000, 0.125000},
         {0.187500, 0.375000},
         {0.437500, 0.312500},
         {0.500000, 0.062500},
         {0.687500, 0.187500},
         {0.750000, 0.437500},
         {0.937500, 0.250000},
         {0.000000, 0.500000},
         {0.312500, 0.625000},
         {0.125000, 0.750000},
         {0.375000, 0.875000},
         {0.562500, 0.562500},
         {0.812500, 0.687500},
         {0.625000, 0.812500},
         {0.875000, 0.937500}
     });

     testPatterns.push_back() = make_sample_pattern({ // NVIDIA, mixed samples, 16:1.
         {0.250000, 0.125000},
         {0.625000, 0.812500},
         {0.500000, 0.062500},
         {0.812500, 0.687500},
         {0.187500, 0.375000},
         {0.875000, 0.937500},
         {0.125000, 0.750000},
         {0.750000, 0.437500},
         {0.937500, 0.250000},
         {0.312500, 0.625000},
         {0.437500, 0.312500},
         {0.000000, 0.500000},
         {0.375000, 0.875000},
         {0.687500, 0.187500},
         {0.062500, 0.000000},
         {0.562500, 0.562500}
     });

     SkRandom rand;
     for (int i = 0; i < 23; ++i) {
         testPatterns.push_back(make_random_sample_pattern(&rand));
     }

     // Duplicate the initial 4 patterns, with slight differences.
     testPatterns.push_back(testPatterns[0]);
     testPatterns.back().back().fX += 0.001f;

     testPatterns.push_back(testPatterns[1]);
     testPatterns.back().back().fY -= 0.002f;

     testPatterns.push_back(testPatterns[2]);
     testPatterns.back().push_back(SkPoint::Make(.5f, .5f));

     testPatterns.push_back(testPatterns[3]);
     testPatterns.back().pop_back();

     for (int i = 0; i < 13; ++i) {
         testPatterns.push_back(make_random_sample_pattern(&rand));
     }

     GrSamplePatternDictionary dict;
     for (int i = 0; i < 2; ++i) {
         for (int j = 0; j < testPatterns.count(); ++j) {
             for (int k = 0; k < 3; ++k) {
                 const SkTArray<SkPoint>& pattern = testPatterns[testPatterns.count() - j - 1];
                 REPORTER_ASSERT(reporter, j == dict.findOrAssignSamplePatternKey(pattern));
             }
         }
     }
     for (int j = 0; j < testPatterns.count(); ++j) {
         const SkTArray<SkPoint>& pattern = testPatterns[testPatterns.count() - j - 1];
         REPORTER_ASSERT(reporter, dict.retrieveSampleLocations(j) == pattern);
     }
 }

 #endif
	/*
	* Copyright 2019 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "include/core/SkPoint.h"
	#include "include/core/SkTypes.h"
	#include "include/utils/SkRandom.h"
	#include "tests/Test.h"
	#include <vector>

	#if SK_SUPPORT_GPU

	#include "src/gpu/GrSamplePatternDictionary.h"

	static SkTArray<SkPoint> make_sample_pattern(const std::vector<SkPoint>& sampleLocations) {
	return SkTArray<SkPoint>(sampleLocations.data(), sampleLocations.size());
	}

	static SkTArray<SkPoint> make_random_sample_pattern(SkRandom* rand) {
	SkTArray<SkPoint> pattern;
	int count = rand->nextULessThan(20) + 1;
	pattern.reset(count);
	for (int i = 0; i < count; ++i) {
	pattern[i] = SkPoint::Make(rand->nextF(), rand->nextF());
	}
	return pattern;
	}

	// This test ensures that the sample pattern dictionary caches and retrieves patterns correctly.
	DEF_TEST(SamplePatternDictionary, reporter) {
	SkTArray<SkTArray<SkPoint>> testPatterns;
	testPatterns.push_back() = make_sample_pattern({ // Intel on mac, msaa8, offscreen.
	{0.562500, 0.312500},
	{0.437500, 0.687500},
	{0.812500, 0.562500},
	{0.312500, 0.187500},
	{0.187500, 0.812500},
	{0.062500, 0.437500},
	{0.687500, 0.937500},
	{0.937500, 0.062500}
	});

	testPatterns.push_back() = make_sample_pattern({ // Intel on mac, msaa8, on-screen.
	{0.562500, 0.687500},
	{0.437500, 0.312500},
	{0.812500, 0.437500},
	{0.312500, 0.812500},
	{0.187500, 0.187500},
	{0.062500, 0.562500},
	{0.687500, 0.062500},
	{0.937500, 0.937500}
	});

	testPatterns.push_back() = make_sample_pattern({ // NVIDIA, msaa16.
	{0.062500, 0.000000},
	{0.250000, 0.125000},
	{0.187500, 0.375000},
	{0.437500, 0.312500},
	{0.500000, 0.062500},
	{0.687500, 0.187500},
	{0.750000, 0.437500},
	{0.937500, 0.250000},
	{0.000000, 0.500000},
	{0.312500, 0.625000},
	{0.125000, 0.750000},
	{0.375000, 0.875000},
	{0.562500, 0.562500},
	{0.812500, 0.687500},
	{0.625000, 0.812500},
	{0.875000, 0.937500}
	});

	testPatterns.push_back() = make_sample_pattern({ // NVIDIA, mixed samples, 16:1.
	{0.250000, 0.125000},
	{0.625000, 0.812500},
	{0.500000, 0.062500},
	{0.812500, 0.687500},
	{0.187500, 0.375000},
	{0.875000, 0.937500},
	{0.125000, 0.750000},
	{0.750000, 0.437500},
	{0.937500, 0.250000},
	{0.312500, 0.625000},
	{0.437500, 0.312500},
	{0.000000, 0.500000},
	{0.375000, 0.875000},
	{0.687500, 0.187500},
	{0.062500, 0.000000},
	{0.562500, 0.562500}
	});

	SkRandom rand;
	for (int i = 0; i < 23; ++i) {
	testPatterns.push_back(make_random_sample_pattern(&rand));
	}

	// Duplicate the initial 4 patterns, with slight differences.
	testPatterns.push_back(testPatterns[0]);
	testPatterns.back().back().fX += 0.001f;

	testPatterns.push_back(testPatterns[1]);
	testPatterns.back().back().fY -= 0.002f;

	testPatterns.push_back(testPatterns[2]);
	testPatterns.back().push_back(SkPoint::Make(.5f, .5f));

	testPatterns.push_back(testPatterns[3]);
	testPatterns.back().pop_back();

	for (int i = 0; i < 13; ++i) {
	testPatterns.push_back(make_random_sample_pattern(&rand));
	}

	GrSamplePatternDictionary dict;
	for (int i = 0; i < 2; ++i) {
	for (int j = 0; j < testPatterns.count(); ++j) {
	for (int k = 0; k < 3; ++k) {
	const SkTArray<SkPoint>& pattern = testPatterns[testPatterns.count() - j - 1];
	REPORTER_ASSERT(reporter, j == dict.findOrAssignSamplePatternKey(pattern));
	}
	}
	}
	for (int j = 0; j < testPatterns.count(); ++j) {
	const SkTArray<SkPoint>& pattern = testPatterns[testPatterns.count() - j - 1];
	REPORTER_ASSERT(reporter, dict.retrieveSampleLocations(j) == pattern);
	}
	}

	#endif