#include #include #include namespace ESMTerrain { namespace { using namespace testing; struct Sample { std::size_t mCellX = 0; std::size_t mCellY = 0; std::size_t mLocalX = 0; std::size_t mLocalY = 0; std::size_t mVertexX = 0; std::size_t mVertexY = 0; }; auto tie(const Sample& v) { return std::tie(v.mCellX, v.mCellY, v.mLocalX, v.mLocalY, v.mVertexX, v.mVertexY); } bool operator==(const Sample& l, const Sample& r) { return tie(l) == tie(r); } std::ostream& operator<<(std::ostream& stream, const Sample& v) { return stream << "Sample{.mCellX = " << v.mCellX << ", .mCellY = " << v.mCellY << ", .mLocalX = " << v.mLocalX << ", .mLocalY = " << v.mLocalY << ", .mVertexX = " << v.mVertexX << ", .mVertexY = " << v.mVertexY << "}"; } struct Collect { std::vector& mSamples; void operator()(std::size_t cellX, std::size_t cellY, std::size_t localX, std::size_t localY, std::size_t vertexX, std::size_t vertexY) { mSamples.push_back(Sample{ .mCellX = cellX, .mCellY = cellY, .mLocalX = localX, .mLocalY = localY, .mVertexX = vertexX, .mVertexY = vertexY, }); } }; TEST(ESMTerrainSampleCellGrid, doesNotSupportCellSizeLessThanTwo) { const std::size_t cellSize = 2; EXPECT_THROW(sampleCellGrid(cellSize, 0, 0, 0, 0, [](auto...) {}), std::invalid_argument); } TEST(ESMTerrainSampleCellGrid, doesNotSupportCellSizeMinusOneNotPowerOfTwo) { const std::size_t cellSize = 4; EXPECT_THROW(sampleCellGrid(cellSize, 0, 0, 0, 0, [](auto...) {}), std::invalid_argument); } TEST(ESMTerrainSampleCellGrid, doesNotSupportZeroSampleSize) { const std::size_t cellSize = 1; const std::size_t sampleSize = 0; EXPECT_THROW(sampleCellGrid(cellSize, sampleSize, 0, 0, 0, [](auto...) {}), std::invalid_argument); } TEST(ESMTerrainSampleCellGrid, doesNotSupportSampleSizeNotPowerOfTwo) { const std::size_t cellSize = 1; const std::size_t sampleSize = 3; EXPECT_THROW(sampleCellGrid(cellSize, sampleSize, 0, 0, 0, [](auto...) {}), std::invalid_argument); } TEST(ESMTerrainSampleCellGrid, doesNotSupportCountLessThanTwo) { const std::size_t cellSize = 1; const std::size_t sampleSize = 1; const std::size_t distance = 2; EXPECT_THROW(sampleCellGrid(cellSize, sampleSize, 0, 0, distance, [](auto...) {}), std::invalid_argument); } TEST(ESMTerrainSampleCellGrid, doesNotSupportCountMinusOneNotPowerOfTwo) { const std::size_t cellSize = 1; const std::size_t sampleSize = 1; const std::size_t distance = 4; EXPECT_THROW(sampleCellGrid(cellSize, sampleSize, 0, 0, distance, [](auto...) {}), std::invalid_argument); } TEST(ESMTerrainSampleCellGrid, sampleSizeOneShouldProduceNumberOfSamplesEqualToCellSize) { const std::size_t cellSize = 3; const std::size_t sampleSize = 1; const std::size_t beginX = 0; const std::size_t beginY = 0; const std::size_t distance = 3; std::vector samples; sampleCellGrid(cellSize, sampleSize, beginX, beginY, distance, Collect{ samples }); EXPECT_THAT(samples, ElementsAre( // Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 0, .mLocalY = 0, .mVertexX = 0, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 0, .mVertexX = 1, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 0, .mVertexX = 2, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 0, .mLocalY = 1, .mVertexX = 0, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 1, .mVertexX = 1, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 1, .mVertexX = 2, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 0, .mLocalY = 2, .mVertexX = 0, .mVertexY = 2 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 2, .mVertexX = 1, .mVertexY = 2 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 2, .mVertexX = 2, .mVertexY = 2 })); } TEST(ESMTerrainSampleCellGrid, countShouldLimitScope) { const std::size_t cellSize = 3; const std::size_t sampleSize = 1; const std::size_t beginX = 0; const std::size_t beginY = 0; const std::size_t distance = 2; std::vector samples; sampleCellGrid(cellSize, sampleSize, beginX, beginY, distance, Collect{ samples }); EXPECT_THAT(samples, ElementsAre( // Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 0, .mLocalY = 0, .mVertexX = 0, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 0, .mVertexX = 1, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 0, .mLocalY = 1, .mVertexX = 0, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 1, .mVertexX = 1, .mVertexY = 1 })); } TEST(ESMTerrainSampleCellGrid, beginXAndCountShouldLimitScope) { const std::size_t cellSize = 3; const std::size_t sampleSize = 1; const std::size_t beginX = 1; const std::size_t beginY = 0; const std::size_t distance = 2; std::vector samples; sampleCellGrid(cellSize, sampleSize, beginX, beginY, distance, Collect{ samples }); EXPECT_THAT(samples, ElementsAre( // Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 0, .mVertexX = 0, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 0, .mVertexX = 1, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 1, .mVertexX = 0, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 1, .mVertexX = 1, .mVertexY = 1 })); } TEST(ESMTerrainSampleCellGrid, beginYAndCountShouldLimitScope) { const std::size_t cellSize = 3; const std::size_t sampleSize = 1; const std::size_t beginX = 0; const std::size_t beginY = 1; const std::size_t distance = 2; std::vector samples; sampleCellGrid(cellSize, sampleSize, beginX, beginY, distance, Collect{ samples }); EXPECT_THAT(samples, ElementsAre( // Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 0, .mLocalY = 1, .mVertexX = 0, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 1, .mVertexX = 1, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 0, .mLocalY = 2, .mVertexX = 0, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 2, .mVertexX = 1, .mVertexY = 1 })); } TEST(ESMTerrainSampleCellGrid, beginAndCountShouldLimitScope) { const std::size_t cellSize = 3; const std::size_t sampleSize = 1; const std::size_t beginX = 1; const std::size_t beginY = 1; const std::size_t distance = 2; std::vector samples; sampleCellGrid(cellSize, sampleSize, beginX, beginY, distance, Collect{ samples }); EXPECT_THAT(samples, ElementsAre( // Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 1, .mVertexX = 0, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 1, .mVertexX = 1, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 2, .mVertexX = 0, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 2, .mVertexX = 1, .mVertexY = 1 })); } TEST(ESMTerrainSampleCellGrid, beginAndCountShouldLimitScopeInTheMiddleOfCell) { const std::size_t cellSize = 5; const std::size_t sampleSize = 1; const std::size_t beginX = 1; const std::size_t beginY = 1; const std::size_t distance = 2; std::vector samples; sampleCellGrid(cellSize, sampleSize, beginX, beginY, distance, Collect{ samples }); EXPECT_THAT(samples, ElementsAre( // Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 1, .mVertexX = 0, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 1, .mVertexX = 1, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 2, .mVertexX = 0, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 2, .mVertexX = 1, .mVertexY = 1 })); } TEST(ESMTerrainSampleCellGrid, beginXWithCountLessThanCellSizeShouldLimitScopeAcrossCellBorder) { const std::size_t cellSize = 5; const std::size_t sampleSize = 1; const std::size_t beginX = 3; const std::size_t beginY = 0; const std::size_t distance = 3; std::vector samples; sampleCellGrid(cellSize, sampleSize, beginX, beginY, distance, Collect{ samples }); EXPECT_THAT(samples, ElementsAre( // Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 3, .mLocalY = 0, .mVertexX = 0, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 4, .mLocalY = 0, .mVertexX = 1, .mVertexY = 0 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 1, .mLocalY = 0, .mVertexX = 2, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 3, .mLocalY = 1, .mVertexX = 0, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 4, .mLocalY = 1, .mVertexX = 1, .mVertexY = 1 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 1, .mLocalY = 1, .mVertexX = 2, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 3, .mLocalY = 2, .mVertexX = 0, .mVertexY = 2 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 4, .mLocalY = 2, .mVertexX = 1, .mVertexY = 2 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 1, .mLocalY = 2, .mVertexX = 2, .mVertexY = 2 })); } TEST(ESMTerrainSampleCellGrid, beginXWithCountEqualToCellSizeShouldLimitScopeAcrossCellBorder) { const std::size_t cellSize = 3; const std::size_t sampleSize = 1; const std::size_t beginX = 1; const std::size_t beginY = 0; const std::size_t distance = 3; std::vector samples; sampleCellGrid(cellSize, sampleSize, beginX, beginY, distance, Collect{ samples }); EXPECT_THAT(samples, ElementsAre( // Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 0, .mVertexX = 0, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 0, .mVertexX = 1, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 1, .mVertexX = 0, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 1, .mVertexX = 1, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 2, .mVertexX = 0, .mVertexY = 2 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 2, .mVertexX = 1, .mVertexY = 2 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 1, .mLocalY = 0, .mVertexX = 2, .mVertexY = 0 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 1, .mLocalY = 1, .mVertexX = 2, .mVertexY = 1 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 1, .mLocalY = 2, .mVertexX = 2, .mVertexY = 2 })); } TEST(ESMTerrainSampleCellGrid, beginXWithCountGreaterThanCellSizeShouldLimitScopeAcrossCellBorder) { const std::size_t cellSize = 3; const std::size_t sampleSize = 1; const std::size_t beginX = 1; const std::size_t beginY = 0; const std::size_t distance = 5; std::vector samples; sampleCellGrid(cellSize, sampleSize, beginX, beginY, distance, Collect{ samples }); EXPECT_THAT(samples, ElementsAre( // Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 0, .mVertexX = 0, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 0, .mVertexX = 1, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 1, .mVertexX = 0, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 1, .mVertexX = 1, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 1, .mLocalY = 2, .mVertexX = 0, .mVertexY = 2 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 2, .mVertexX = 1, .mVertexY = 2 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 1, .mLocalY = 0, .mVertexX = 2, .mVertexY = 0 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 2, .mLocalY = 0, .mVertexX = 3, .mVertexY = 0 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 1, .mLocalY = 1, .mVertexX = 2, .mVertexY = 1 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 2, .mLocalY = 1, .mVertexX = 3, .mVertexY = 1 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 1, .mLocalY = 2, .mVertexX = 2, .mVertexY = 2 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 2, .mLocalY = 2, .mVertexX = 3, .mVertexY = 2 }, Sample{ .mCellX = 2, .mCellY = 0, .mLocalX = 1, .mLocalY = 0, .mVertexX = 4, .mVertexY = 0 }, Sample{ .mCellX = 2, .mCellY = 0, .mLocalX = 1, .mLocalY = 1, .mVertexX = 4, .mVertexY = 1 }, Sample{ .mCellX = 2, .mCellY = 0, .mLocalX = 1, .mLocalY = 2, .mVertexX = 4, .mVertexY = 2 }, Sample{ .mCellX = 0, .mCellY = 1, .mLocalX = 1, .mLocalY = 1, .mVertexX = 0, .mVertexY = 3 }, Sample{ .mCellX = 0, .mCellY = 1, .mLocalX = 2, .mLocalY = 1, .mVertexX = 1, .mVertexY = 3 }, Sample{ .mCellX = 0, .mCellY = 1, .mLocalX = 1, .mLocalY = 2, .mVertexX = 0, .mVertexY = 4 }, Sample{ .mCellX = 0, .mCellY = 1, .mLocalX = 2, .mLocalY = 2, .mVertexX = 1, .mVertexY = 4 }, Sample{ .mCellX = 1, .mCellY = 1, .mLocalX = 1, .mLocalY = 1, .mVertexX = 2, .mVertexY = 3 }, Sample{ .mCellX = 1, .mCellY = 1, .mLocalX = 2, .mLocalY = 1, .mVertexX = 3, .mVertexY = 3 }, Sample{ .mCellX = 1, .mCellY = 1, .mLocalX = 1, .mLocalY = 2, .mVertexX = 2, .mVertexY = 4 }, Sample{ .mCellX = 1, .mCellY = 1, .mLocalX = 2, .mLocalY = 2, .mVertexX = 3, .mVertexY = 4 }, Sample{ .mCellX = 2, .mCellY = 1, .mLocalX = 1, .mLocalY = 1, .mVertexX = 4, .mVertexY = 3 }, Sample{ .mCellX = 2, .mCellY = 1, .mLocalX = 1, .mLocalY = 2, .mVertexX = 4, .mVertexY = 4 })); } TEST(ESMTerrainSampleCellGrid, sampleSizeGreaterThanOneShouldSkipPoints) { const std::size_t cellSize = 3; const std::size_t sampleSize = 2; const std::size_t beginX = 0; const std::size_t beginY = 0; const std::size_t distance = 3; std::vector samples; sampleCellGrid(cellSize, sampleSize, beginX, beginY, distance, Collect{ samples }); EXPECT_THAT(samples, ElementsAre( // Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 0, .mLocalY = 0, .mVertexX = 0, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 0, .mVertexX = 1, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 0, .mLocalY = 2, .mVertexX = 0, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 2, .mVertexX = 1, .mVertexY = 1 })); } TEST(ESMTerrainSampleCellGrid, shouldGroupByCell) { const std::size_t cellSize = 3; const std::size_t sampleSize = 2; const std::size_t beginX = 0; const std::size_t beginY = 0; const std::size_t distance = 5; std::vector samples; sampleCellGrid(cellSize, sampleSize, beginX, beginY, distance, Collect{ samples }); EXPECT_THAT(samples, ElementsAre( // Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 0, .mLocalY = 0, .mVertexX = 0, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 0, .mVertexX = 1, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 0, .mLocalY = 2, .mVertexX = 0, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 2, .mLocalY = 2, .mVertexX = 1, .mVertexY = 1 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 2, .mLocalY = 0, .mVertexX = 2, .mVertexY = 0 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 2, .mLocalY = 2, .mVertexX = 2, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 1, .mLocalX = 0, .mLocalY = 2, .mVertexX = 0, .mVertexY = 2 }, Sample{ .mCellX = 0, .mCellY = 1, .mLocalX = 2, .mLocalY = 2, .mVertexX = 1, .mVertexY = 2 }, Sample{ .mCellX = 1, .mCellY = 1, .mLocalX = 2, .mLocalY = 2, .mVertexX = 2, .mVertexY = 2 })); } TEST(ESMTerrainSampleCellGrid, sampleSizeGreaterThanCellSizeShouldPickSinglePointPerCell) { const std::size_t cellSize = 3; const std::size_t sampleSize = 4; const std::size_t beginX = 0; const std::size_t beginY = 0; const std::size_t distance = 9; std::vector samples; sampleCellGrid(cellSize, sampleSize, beginX, beginY, distance, Collect{ samples }); EXPECT_THAT(samples, ElementsAre( // Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 0, .mLocalY = 0, .mVertexX = 0, .mVertexY = 0 }, Sample{ .mCellX = 1, .mCellY = 0, .mLocalX = 2, .mLocalY = 0, .mVertexX = 1, .mVertexY = 0 }, Sample{ .mCellX = 3, .mCellY = 0, .mLocalX = 2, .mLocalY = 0, .mVertexX = 2, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 1, .mLocalX = 0, .mLocalY = 2, .mVertexX = 0, .mVertexY = 1 }, Sample{ .mCellX = 1, .mCellY = 1, .mLocalX = 2, .mLocalY = 2, .mVertexX = 1, .mVertexY = 1 }, Sample{ .mCellX = 3, .mCellY = 1, .mLocalX = 2, .mLocalY = 2, .mVertexX = 2, .mVertexY = 1 }, Sample{ .mCellX = 0, .mCellY = 3, .mLocalX = 0, .mLocalY = 2, .mVertexX = 0, .mVertexY = 2 }, Sample{ .mCellX = 1, .mCellY = 3, .mLocalX = 2, .mLocalY = 2, .mVertexX = 1, .mVertexY = 2 }, Sample{ .mCellX = 3, .mCellY = 3, .mLocalX = 2, .mLocalY = 2, .mVertexX = 2, .mVertexY = 2 })); } TEST(ESMTerrainSampleCellGrid, sampleSizeGreaterThan2CellSizeShouldSkipCells) { const std::size_t cellSize = 3; const std::size_t sampleSize = 8; const std::size_t beginX = 0; const std::size_t beginY = 0; const std::size_t distance = 9; std::vector samples; sampleCellGrid(cellSize, sampleSize, beginX, beginY, distance, Collect{ samples }); EXPECT_THAT(samples, ElementsAre( // Sample{ .mCellX = 0, .mCellY = 0, .mLocalX = 0, .mLocalY = 0, .mVertexX = 0, .mVertexY = 0 }, Sample{ .mCellX = 3, .mCellY = 0, .mLocalX = 2, .mLocalY = 0, .mVertexX = 1, .mVertexY = 0 }, Sample{ .mCellX = 0, .mCellY = 3, .mLocalX = 0, .mLocalY = 2, .mVertexX = 0, .mVertexY = 1 }, Sample{ .mCellX = 3, .mCellY = 3, .mLocalX = 2, .mLocalY = 2, .mVertexX = 1, .mVertexY = 1 })); } } }