/* This file is part of Magnum. Copyright © 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019 Vladimír Vondruš Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include #include #include #include #include #include #include #include #include "Magnum/Math/Vector3.h" #include "Magnum/MeshTools/RemoveDuplicates.h" #include "Magnum/Trade/MeshData.h" namespace Magnum { namespace MeshTools { namespace Test { namespace { struct RemoveDuplicatesTest: TestSuite::Tester { explicit RemoveDuplicatesTest(); /* These test also the InPlace variant */ void removeDuplicates(); void removeDuplicatesNonContiguous(); void removeDuplicatesIntoWrongOutputSize(); template void removeDuplicatesIndexedInPlace(); void removeDuplicatesIndexedInPlaceSmallType(); void removeDuplicatesIndexedInPlaceEmptyIndices(); void removeDuplicatesIndexedInPlaceEmptyIndicesVertices(); template void removeDuplicatesIndexedInPlaceErased(); void removeDuplicatesIndexedInPlaceErasedNonContiguous(); void removeDuplicatesIndexedInPlaceErasedWrongIndexSize(); template void removeDuplicatesFuzzyInPlaceOneDimension(); template void removeDuplicatesFuzzyInPlaceMoreDimensions(); template void removeDuplicatesFuzzyInPlaceInto(); void removeDuplicatesFuzzyInPlaceIntoWrongOutputSize(); #ifdef MAGNUM_BUILD_DEPRECATED void removeDuplicatesFuzzyStl(); #endif template void removeDuplicatesFuzzyIndexedInPlace(); void removeDuplicatesFuzzyIndexedInPlaceSmallType(); void removeDuplicatesFuzzyIndexedInPlaceEmptyIndices(); void removeDuplicatesFuzzyIndexedInPlaceEmptyIndicesVertices(); template void removeDuplicatesFuzzyIndexedInPlaceErased(); void removeDuplicatesFuzzyIndexedInPlaceErasedNonContiguous(); void removeDuplicatesFuzzyIndexedInPlaceErasedWrongIndexSize(); /* this is additionally regression-tested in PrimitivesIcosphereTest */ void removeDuplicatesMeshData(); void removeDuplicatesMeshDataAttributeless(); void removeDuplicatesMeshDataFuzzy(); void removeDuplicatesMeshDataFuzzyDouble(); void removeDuplicatesMeshDataFuzzyAttributeless(); void removeDuplicatesMeshDataFuzzyImplementationSpecific(); void soakTest(); void soakTestFuzzy(); void benchmark(); void benchmarkFuzzy(); }; const struct { const char* name; bool indexed; } RemoveDuplicatesMeshDataData[] { {"", false}, {"indexed", true} }; const struct { const char* name; Containers::Array attributes; Float offset, scale, epsilon; UnsignedInt vertexCount; bool indexed; } RemoveDuplicatesMeshDataFuzzyData[] { {"position, normal", Containers::array({ Trade::MeshAttributeData{Trade::MeshAttribute::Position, VertexFormat::Vector3, 0, 10, 6*sizeof(Float)}, Trade::MeshAttributeData{Trade::MeshAttribute::Normal, VertexFormat::Vector3, 3*sizeof(Float), 10, 6*sizeof(Float)} }), 0.0f, 1.0f, Math::TypeTraits::epsilon(), 7, false}, {"position, normal, epsilon 0", Containers::array({ Trade::MeshAttributeData{Trade::MeshAttribute::Position, VertexFormat::Vector3, 0, 10, 6*sizeof(Float)}, Trade::MeshAttributeData{Trade::MeshAttribute::Normal, VertexFormat::Vector3, 3*sizeof(Float), 10, 6*sizeof(Float)} /* Only the bit-exact value gets removed */ }), 0.0f, 1.0f, 0.0f, 9, false}, {"position, normal, indexed", Containers::array({ Trade::MeshAttributeData{Trade::MeshAttribute::Position, VertexFormat::Vector3, 0, 10, 6*sizeof(Float)}, Trade::MeshAttributeData{Trade::MeshAttribute::Normal, VertexFormat::Vector3, 3*sizeof(Float), 10, 6*sizeof(Float)} }), 0.0f, 1.0f, Math::TypeTraits::epsilon(), 7, true}, {"custom mat3x2, offset 100",Containers::array({ Trade::MeshAttributeData{Trade::meshAttributeCustom(42), VertexFormat::Matrix3x2, 0, 10, 6*sizeof(Float)} }), 100.0f, 1.0f, Math::TypeTraits::epsilon(), 7, false}, {"position + custom float[3], offset 100, scale 10, indexed",Containers::array({ Trade::MeshAttributeData{Trade::meshAttributeCustom(42), VertexFormat::Float, 0, 10, 6*sizeof(Float), 3}, Trade::MeshAttributeData{Trade::MeshAttribute::Position, VertexFormat::Vector3, 3*sizeof(Float), 10, 6*sizeof(Float)} }), 100.0f, 10.0f, Math::TypeTraits::epsilon(), 7, true}, {"normal. bitangent, scale 2", Containers::array({ Trade::MeshAttributeData{Trade::MeshAttribute::Normal, VertexFormat::Vector3, 0, 10, 6*sizeof(Float)}, Trade::MeshAttributeData{Trade::MeshAttribute::Bitangent, VertexFormat::Vector3, 3*sizeof(Float), 10, 6*sizeof(Float)} /* Should still fit into the epsilon as the range is [-1, 1] */ }), 0.0f, 2.0f, Math::TypeTraits::epsilon(), 7, false}, {"color, texcoord, scale 10", Containers::array({ Trade::MeshAttributeData{Trade::MeshAttribute::Color, VertexFormat::Vector4, 0, 10, 6*sizeof(Float)}, Trade::MeshAttributeData{Trade::MeshAttribute::TextureCoordinates, VertexFormat::Vector2, 4*sizeof(Float), 10, 6*sizeof(Float)} /* Should not fit into the epsilon, only the bit-exact value gets removed */ }), 0.0f, 10.0f, Math::TypeTraits::epsilon(), 9, true}, {"color, texcoord, scale 10, epsilon *10",Containers::array({ Trade::MeshAttributeData{Trade::MeshAttribute::Color, VertexFormat::Vector4, 0, 10, 6*sizeof(Float)}, Trade::MeshAttributeData{Trade::MeshAttribute::TextureCoordinates, VertexFormat::Vector2, 4*sizeof(Float), 10, 6*sizeof(Float)} /* Fit into the epsilon again */ }), 0.0f, 10.0f, 10.0f*Math::TypeTraits::epsilon(), 7, false} }; RemoveDuplicatesTest::RemoveDuplicatesTest() { addTests({&RemoveDuplicatesTest::removeDuplicates, &RemoveDuplicatesTest::removeDuplicatesNonContiguous, &RemoveDuplicatesTest::removeDuplicatesIntoWrongOutputSize, &RemoveDuplicatesTest::removeDuplicatesIndexedInPlace, &RemoveDuplicatesTest::removeDuplicatesIndexedInPlace, &RemoveDuplicatesTest::removeDuplicatesIndexedInPlace, &RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceSmallType, &RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceEmptyIndices, &RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceEmptyIndicesVertices, &RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceErased, &RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceErased, &RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceErased, &RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceErasedNonContiguous, &RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceErasedWrongIndexSize, &RemoveDuplicatesTest::removeDuplicatesFuzzyInPlaceOneDimension, &RemoveDuplicatesTest::removeDuplicatesFuzzyInPlaceOneDimension, &RemoveDuplicatesTest::removeDuplicatesFuzzyInPlaceMoreDimensions, &RemoveDuplicatesTest::removeDuplicatesFuzzyInPlaceMoreDimensions, &RemoveDuplicatesTest::removeDuplicatesFuzzyInPlaceInto, &RemoveDuplicatesTest::removeDuplicatesFuzzyInPlaceInto, &RemoveDuplicatesTest::removeDuplicatesFuzzyInPlaceIntoWrongOutputSize, #ifdef MAGNUM_BUILD_DEPRECATED &RemoveDuplicatesTest::removeDuplicatesFuzzyStl, #endif &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlace, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlace, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlace, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlace, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlace, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlace, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceSmallType, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceEmptyIndices, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceEmptyIndicesVertices, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceErased, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceErased, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceErased, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceErased, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceErased, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceErased, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceErasedNonContiguous, &RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceErasedWrongIndexSize}); addInstancedTests({&RemoveDuplicatesTest::removeDuplicatesMeshData}, Containers::arraySize(RemoveDuplicatesMeshDataData)); addTests({&RemoveDuplicatesTest::removeDuplicatesMeshDataAttributeless}); addInstancedTests({&RemoveDuplicatesTest::removeDuplicatesMeshDataFuzzy}, Containers::arraySize(RemoveDuplicatesMeshDataFuzzyData)); addTests({&RemoveDuplicatesTest::removeDuplicatesMeshDataFuzzyDouble, &RemoveDuplicatesTest::removeDuplicatesMeshDataFuzzyAttributeless, &RemoveDuplicatesTest::removeDuplicatesMeshDataFuzzyImplementationSpecific}); addRepeatedTests({&RemoveDuplicatesTest::soakTest, &RemoveDuplicatesTest::soakTestFuzzy}, 10); addBenchmarks({&RemoveDuplicatesTest::benchmark, &RemoveDuplicatesTest::benchmarkFuzzy}, 10); } void RemoveDuplicatesTest::removeDuplicates() { Int data[]{-15, 32, 24, -15, 15, 7541, 24, 32}; std::pair, std::size_t> result = MeshTools::removeDuplicates(Containers::arrayCast<2, char>(Containers::arrayView(data))); CORRADE_COMPARE_AS(Containers::arrayView(result.first), Containers::arrayView({0, 1, 2, 0, 4, 5, 2, 1}), TestSuite::Compare::Container); std::pair, std::size_t> resultInPlace = MeshTools::removeDuplicatesInPlace(Containers::arrayCast<2, char>(Containers::arrayView(data))); CORRADE_COMPARE_AS(Containers::arrayView(resultInPlace.first), Containers::arrayView({0, 1, 2, 0, 3, 4, 2, 1}), TestSuite::Compare::Container); CORRADE_COMPARE_AS(Containers::arrayView(data).prefix(resultInPlace.second), Containers::arrayView({-15, 32, 24, 15, 7541}), TestSuite::Compare::Container); } void RemoveDuplicatesTest::removeDuplicatesNonContiguous() { #ifdef CORRADE_NO_ASSERT CORRADE_SKIP("CORRADE_NO_ASSERT defined, can't test assertions"); #endif Int data[8]{}; std::ostringstream out; Error redirectError{&out}; MeshTools::removeDuplicates(Containers::arrayCast<2, const char>(Containers::arrayView(data)).every({1, 2})); MeshTools::removeDuplicatesInPlace(Containers::arrayCast<2, char>(Containers::arrayView(data)).every({1, 2})); CORRADE_COMPARE(out.str(), "MeshTools::removeDuplicatesInto(): second data view dimension is not contiguous\n" "MeshTools::removeDuplicatesInPlaceInto(): second data view dimension is not contiguous\n"); } void RemoveDuplicatesTest::removeDuplicatesIntoWrongOutputSize() { #ifdef CORRADE_NO_ASSERT CORRADE_SKIP("CORRADE_NO_ASSERT defined, can't test assertions"); #endif Int data[8]{}; UnsignedInt output[7]; std::ostringstream out; Error redirectError{&out}; MeshTools::removeDuplicatesInto( Containers::arrayCast<2, const char>(Containers::arrayView(data)), output); MeshTools::removeDuplicatesInPlaceInto( Containers::arrayCast<2, char>(Containers::arrayView(data)), output); CORRADE_COMPARE(out.str(), "MeshTools::removeDuplicatesInto(): output index array has 7 elements but expected 8\n" "MeshTools::removeDuplicatesInPlaceInto(): output index array has 7 elements but expected 8\n"); } template void RemoveDuplicatesTest::removeDuplicatesIndexedInPlace() { setTestCaseTemplateName(Math::TypeTraits::name()); T indices[]{3, 2, 0, 1, 7, 6, 4, 2, 5, 0}; Int data[]{-15, 32, 24, -15, 15, 7541, 24, 32}; std::size_t count = MeshTools::removeDuplicatesIndexedInPlace(indices, Containers::arrayCast<2, char>(Containers::arrayView(data))); CORRADE_COMPARE_AS(Containers::arrayView(indices), Containers::arrayView({0, 2, 0, 1, 1, 2, 3, 2, 4, 0}), TestSuite::Compare::Container); CORRADE_COMPARE_AS(Containers::arrayView(data).prefix(count), Containers::arrayView({-15, 32, 24, 15, 7541}), TestSuite::Compare::Container); } void RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceSmallType() { #ifdef CORRADE_NO_ASSERT CORRADE_SKIP("CORRADE_NO_ASSERT defined, can't test assertions"); #endif std::stringstream out; Error redirectError{&out}; UnsignedByte indices[1]; Vector2i data[256]{}; MeshTools::removeDuplicatesIndexedInPlace( Containers::stridedArrayView(indices), Containers::arrayCast<2, char>(Containers::arrayView(data))); CORRADE_COMPARE(out.str(), "MeshTools::removeDuplicatesIndexedInPlace(): a 1-byte index type is too small for 256 vertices\n"); } void RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceEmptyIndices() { Int data[]{-15, 32, 24, -15, 15, 7541, 24, 32}; std::size_t count = MeshTools::removeDuplicatesIndexedInPlace( Containers::StridedArrayView1D{}, Containers::arrayCast<2, char>(Containers::arrayView(data))); CORRADE_COMPARE_AS(Containers::arrayView(data).prefix(count), Containers::arrayView({-15, 32, 24, 15, 7541}), TestSuite::Compare::Container); } void RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceEmptyIndicesVertices() { CORRADE_COMPARE(MeshTools::removeDuplicatesIndexedInPlace( Containers::StridedArrayView1D{}, {}), 0); } template void RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceErased() { setTestCaseTemplateName(Math::TypeTraits::name()); T indices[]{3, 2, 0, 1, 7, 6, 4, 2, 5, 0}; Int data[]{-15, 32, 24, -15, 15, 7541, 24, 32}; std::size_t count = MeshTools::removeDuplicatesIndexedInPlace( Containers::arrayCast<2, char>(Containers::arrayView(indices)), Containers::arrayCast<2, char>(Containers::arrayView(data))); CORRADE_COMPARE_AS(Containers::arrayView(indices), Containers::arrayView({0, 2, 0, 1, 1, 2, 3, 2, 4, 0}), TestSuite::Compare::Container); CORRADE_COMPARE_AS(Containers::arrayView(data).prefix(count), Containers::arrayView({-15, 32, 24, 15, 7541}), TestSuite::Compare::Container); } void RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceErasedNonContiguous() { #ifdef CORRADE_NO_ASSERT CORRADE_SKIP("CORRADE_NO_ASSERT defined, can't test assertions"); #endif char indices[6*4]{}; Int data[1]{}; std::stringstream out; Error redirectError{&out}; MeshTools::removeDuplicatesIndexedInPlace( Containers::StridedArrayView2D{indices, {6, 2}, {4, 2}}, Containers::arrayCast<2, char>(Containers::arrayView(data))); CORRADE_COMPARE(out.str(), "MeshTools::removeDuplicatesIndexedInPlace(): second index view dimension is not contiguous\n"); } void RemoveDuplicatesTest::removeDuplicatesIndexedInPlaceErasedWrongIndexSize() { #ifdef CORRADE_NO_ASSERT CORRADE_SKIP("CORRADE_NO_ASSERT defined, can't test assertions"); #endif char indices[6*3]{}; Int data[1]{}; std::stringstream out; Error redirectError{&out}; MeshTools::removeDuplicatesIndexedInPlace( Containers::StridedArrayView2D{indices, {6, 3}}, Containers::arrayCast<2, char>(Containers::arrayView(data))); CORRADE_COMPARE(out.str(), "MeshTools::removeDuplicatesIndexedInPlace(): expected index type size 1, 2 or 4 but got 3\n"); } template void RemoveDuplicatesTest::removeDuplicatesFuzzyInPlaceOneDimension() { setTestCaseTemplateName(Math::TypeTraits::name()); /* Numbers with distance <=1 should be merged. In the first iteration item 2 gets collapsed into item 1, in the second iteration item 3 gets collapsed into item 1, reducing to 2 items in total. */ T data[]{ T(1.0), /* bucket 0 in 1st iteration, bucket 1 in 2nd */ T(2.9), /* bucket 2 in 1st iteration, bucket 3 in 2nd */ T(0.0), /* bucket 0 in 1st iteration, bucket 0 in 2nd */ T(3.4) /* bucket 3 in 1st iteration, bucket 3 in 2nd */ }; std::pair, std::size_t> result = MeshTools::removeDuplicatesFuzzyInPlace( Containers::arrayCast<2, T>(Containers::stridedArrayView(data)), T(1.00001)); CORRADE_COMPARE_AS(Containers::arrayView(result.first), Containers::arrayView({0, 1, 0, 1}), TestSuite::Compare::Container); CORRADE_COMPARE_AS(Containers::arrayView(data).prefix(result.second), (Containers::arrayView({T(1.0), T(2.9)})), TestSuite::Compare::Container); } template void RemoveDuplicatesTest::removeDuplicatesFuzzyInPlaceMoreDimensions() { setTestCaseTemplateName(Math::TypeTraits::name()); /* Numbers with distance 1 should be merged, numbers with distance 2 should be kept. Testing both even-odd and odd-even sequence to verify that half-epsilon translations are applied properly. */ Math::Vector2 data[]{ {T(1.0), T(0.0)}, {T(2.0), T(1.0)}, {T(0.0), T(4.0)}, {T(1.0), T(5.0)} }; std::pair, std::size_t> result = MeshTools::removeDuplicatesFuzzyInPlace( Containers::arrayCast<2, T>(Containers::stridedArrayView(data)), T(2.0)); CORRADE_COMPARE_AS(Containers::arrayView(result.first), Containers::arrayView({0, 0, 1, 1}), TestSuite::Compare::Container); CORRADE_COMPARE_AS(Containers::arrayView(data).prefix(result.second), Containers::arrayView>({{T(1.0), T(0.0)}, {T(0.0), T(4.0)}}), TestSuite::Compare::Container); } template void RemoveDuplicatesTest::removeDuplicatesFuzzyInPlaceInto() { setTestCaseTemplateName(Math::TypeTraits::name()); /* Same as above, but using the Into variant */ Math::Vector2 data[]{ {T(1.0), T(0.0)}, {T(2.0), T(1.0)}, {T(0.0), T(4.0)}, {T(1.0), T(5.0)} }; Containers::Array indices{Containers::NoInit, Containers::arraySize(data)}; std::size_t result = MeshTools::removeDuplicatesFuzzyInPlaceInto( Containers::arrayCast<2, T>(Containers::stridedArrayView(data)), indices, T(2.0)); CORRADE_COMPARE_AS(indices, Containers::arrayView({0, 0, 1, 1}), TestSuite::Compare::Container); CORRADE_COMPARE_AS(Containers::arrayView(data).prefix(result), Containers::arrayView>({{T(1.0), T(0.0)}, {T(0.0), T(4.0)}}), TestSuite::Compare::Container); } void RemoveDuplicatesTest::removeDuplicatesFuzzyInPlaceIntoWrongOutputSize() { #ifdef CORRADE_NO_ASSERT CORRADE_SKIP("CORRADE_NO_ASSERT defined, can't test assertions"); #endif Vector2 data[8]{}; UnsignedInt output[7]; std::ostringstream out; Error redirectError{&out}; MeshTools::removeDuplicatesFuzzyInPlaceInto( Containers::arrayCast<2, Float>(Containers::stridedArrayView(data)), output); CORRADE_COMPARE(out.str(), "MeshTools::removeDuplicatesFuzzyInPlaceInto(): output index array has 7 elements but expected 8\n"); } #ifdef MAGNUM_BUILD_DEPRECATED void RemoveDuplicatesTest::removeDuplicatesFuzzyStl() { /* Same but with implicit bloat. HEH HEH */ std::vector data{ {1.0f, 0.0f}, {2.0f, 1.0f}, {0.0f, 4.0f}, {1.0f, 5.0f} }; CORRADE_IGNORE_DEPRECATED_PUSH const std::vector indices = MeshTools::removeDuplicates(data, 2.0f); CORRADE_IGNORE_DEPRECATED_POP CORRADE_COMPARE_AS(indices, (std::vector{0, 0, 1, 1}), TestSuite::Compare::Container); CORRADE_COMPARE_AS(data, (std::vector{{1.0f, 0.0f}, {0.0f, 4.0f}}), TestSuite::Compare::Container); } #endif template void RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlace() { setTestCaseTemplateName(Utility::formatString("{}, {}", Math::TypeTraits::name(), Math::TypeTraits::name())); /* Same as above, but with an explicit index buffer */ IndexType indices[]{3, 2, 0, 1, 2, 3}; Math::Vector2 data[]{ {T(1.0), T(0.0)}, {T(2.0), T(1.0)}, {T(0.0), T(4.0)}, {T(1.0), T(5.0)} }; std::size_t count = MeshTools::removeDuplicatesFuzzyIndexedInPlace( Containers::stridedArrayView(indices), Containers::arrayCast<2, T>(Containers::stridedArrayView(data)), 2); CORRADE_COMPARE_AS(Containers::arrayView(indices), Containers::arrayView({1, 1, 0, 0, 1, 1}), TestSuite::Compare::Container); CORRADE_COMPARE_AS(Containers::arrayView(data).prefix(count), Containers::arrayView>({{T(1.0), T(0.0)}, {T(0.0), T(4.0)}}), TestSuite::Compare::Container); } void RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceSmallType() { #ifdef CORRADE_NO_ASSERT CORRADE_SKIP("CORRADE_NO_ASSERT defined, can't test assertions"); #endif std::stringstream out; Error redirectError{&out}; UnsignedByte indices[1]; Vector2 data[256]{}; MeshTools::removeDuplicatesFuzzyIndexedInPlace( Containers::stridedArrayView(indices), Containers::arrayCast<2, Float>(Containers::stridedArrayView(data))); CORRADE_COMPARE(out.str(), "MeshTools::removeDuplicatesFuzzyIndexedInPlace(): a 1-byte index type is too small for 256 vertices\n"); } void RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceEmptyIndices() { Vector2 data[]{ {1.0f, 0.0f}, {2.0f, 1.0f}, {0.0f, 4.0f}, {1.0f, 5.0f} }; std::size_t count = MeshTools::removeDuplicatesFuzzyIndexedInPlace( Containers::StridedArrayView1D{}, Containers::arrayCast<2, Float>(Containers::stridedArrayView(data)), 2.0f); CORRADE_COMPARE_AS(Containers::arrayView(data).prefix(count), Containers::arrayView({{1.0f, 0.0f}, {0.0f, 4.0f}}), TestSuite::Compare::Container); } void RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceEmptyIndicesVertices() { CORRADE_COMPARE((MeshTools::removeDuplicatesFuzzyIndexedInPlace( Containers::StridedArrayView1D{}, Containers::StridedArrayView2D{})), 0); } template void RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceErased() { setTestCaseTemplateName(Utility::formatString("{}, {}", Math::TypeTraits::name(), Math::TypeTraits::name())); /* Same as above, but with an explicit index buffer */ IndexType indices[]{3, 2, 0, 1, 2, 3}; Math::Vector2 data[]{ {T(1.0), T(0.0)}, {T(2.0), T(1.0)}, {T(0.0), T(4.0)}, {T(1.0), T(5.0)} }; std::size_t count = MeshTools::removeDuplicatesFuzzyIndexedInPlace( Containers::arrayCast<2, char>(Containers::arrayView(indices)), Containers::arrayCast<2, T>(Containers::stridedArrayView(data)), 2); CORRADE_COMPARE_AS(Containers::arrayView(indices), Containers::arrayView({1, 1, 0, 0, 1, 1}), TestSuite::Compare::Container); CORRADE_COMPARE_AS(Containers::arrayView(data).prefix(count), Containers::arrayView>({{T(1.0), T(0.0)}, {T(0.0), T(4.0)}}), TestSuite::Compare::Container); } void RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceErasedNonContiguous() { #ifdef CORRADE_NO_ASSERT CORRADE_SKIP("CORRADE_NO_ASSERT defined, can't test assertions"); #endif char indices[6*4]{}; Vector2 data[1]; std::stringstream out; Error redirectError{&out}; MeshTools::removeDuplicatesFuzzyIndexedInPlace( Containers::StridedArrayView2D{indices, {6, 2}, {4, 2}}, Containers::arrayCast<2, Float>(Containers::stridedArrayView(data))); CORRADE_COMPARE(out.str(), "MeshTools::removeDuplicatesFuzzyIndexedInPlace(): second index view dimension is not contiguous\n"); } void RemoveDuplicatesTest::removeDuplicatesFuzzyIndexedInPlaceErasedWrongIndexSize() { #ifdef CORRADE_NO_ASSERT CORRADE_SKIP("CORRADE_NO_ASSERT defined, can't test assertions"); #endif char indices[6*3]{}; Vector2 data[1]; std::stringstream out; Error redirectError{&out}; MeshTools::removeDuplicatesFuzzyIndexedInPlace( Containers::StridedArrayView2D{indices, {6, 3}}, Containers::arrayCast<2, Float>(Containers::stridedArrayView(data))); CORRADE_COMPARE(out.str(), "MeshTools::removeDuplicatesFuzzyIndexedInPlace(): expected index type size 1, 2 or 4 but got 3\n"); } void RemoveDuplicatesTest::removeDuplicatesMeshData() { auto&& data = RemoveDuplicatesMeshDataData[testCaseInstanceId()]; setTestCaseDescription(data.name); /* Deliberately not owned and not interleaved to verify that the function will handle this */ struct Vertex { Vector2 positions[10]{ {1.0f, 2.0f}, {3.0f, 4.0f}, {5.0f, 6.0f}, {7.0f, 8.0f}, {7.0f, 8.0f}, {7.0f, 8.0f}, {9.0f, 10.0f}, {3.0f, 4.0f}, {5.0f, 6.0f}, {5.0f, 6.0f} }; Short data[10][2]{ {-15, 2}, {2, 32}, {24, 2}, {-15, 2}, {15, 2}, {2, 7541}, {24, 2}, {2, 32}, {24, 2}, {15, 2} }; } vertexData[1]; const UnsignedShort indexData[]{1, 2, 5, 9, 7, 6, 4, 7, 5, 0, 3, 8, 3}; Containers::ArrayView indexView; Trade::MeshIndexData indices; if(data.indexed) { indexView = indexData; indices = Trade::MeshIndexData{indexData}; } Trade::MeshData mesh{MeshPrimitive::Lines, {}, indexView, indices, {}, vertexData, { Trade::MeshAttributeData{Trade::MeshAttribute::Position, Containers::arrayView(vertexData->positions)}, Trade::MeshAttributeData{Trade::meshAttributeCustom(42), VertexFormat::ShortNormalized, 2, Containers::stridedArrayView(vertexData->data)}, }}; Trade::MeshData unique = MeshTools::removeDuplicates(mesh); CORRADE_COMPARE(unique.primitive(), MeshPrimitive::Lines); CORRADE_VERIFY(unique.isIndexed()); if(data.indexed) { CORRADE_COMPARE(unique.indexCount(), mesh.indexCount()); { CORRADE_EXPECT_FAIL("The function currently doesn't preserve the index type."); CORRADE_COMPARE(unique.indexType(), MeshIndexType::UnsignedShort); } CORRADE_COMPARE(unique.indexType(), MeshIndexType::UnsignedInt); CORRADE_COMPARE_AS(unique.indices(), Containers::arrayView({1, 2, 5, 7, 1, 6, 4, 1, 5, 0, 3, 2, 3}), TestSuite::Compare::Container); } else { CORRADE_COMPARE(unique.indexCount(), mesh.vertexCount()); CORRADE_COMPARE(unique.indexType(), MeshIndexType::UnsignedInt); CORRADE_COMPARE_AS(unique.indices(), Containers::arrayView({0, 1, 2, 3, 4, 5, 6, 1, 2, 7}), TestSuite::Compare::Container); } CORRADE_COMPARE(unique.vertexCount(), 8); CORRADE_COMPARE(unique.attributeCount(), 2); CORRADE_COMPARE(unique.attributeName(0), Trade::MeshAttribute::Position); CORRADE_COMPARE(unique.attributeFormat(0), VertexFormat::Vector2); CORRADE_COMPARE_AS(unique.attribute(0), Containers::arrayView({ {1.0f, 2.0f}, {3.0f, 4.0f}, {5.0f, 6.0f}, {7.0f, 8.0f}, {7.0f, 8.0f}, {7.0f, 8.0f}, {9.0f, 10.0f}, {5.0f, 6.0f} }), TestSuite::Compare::Container); CORRADE_COMPARE(unique.attributeName(1), Trade::meshAttributeCustom(42)); CORRADE_COMPARE(unique.attributeFormat(1), VertexFormat::ShortNormalized); CORRADE_COMPARE(unique.attributeArraySize(1), 2); CORRADE_COMPARE_AS((Containers::arrayCast<1, const Vector2s>(unique.attribute(1))), Containers::arrayView({ {-15, 2}, {2, 32}, {24, 2}, {-15, 2}, {15, 2}, {2, 7541}, {24, 2}, {15, 2} }), TestSuite::Compare::Container); } void RemoveDuplicatesTest::removeDuplicatesMeshDataAttributeless() { #ifdef CORRADE_NO_ASSERT CORRADE_SKIP("CORRADE_NO_ASSERT defined, can't test assertions"); #endif std::ostringstream out; Error redirectError{&out}; MeshTools::removeDuplicates(Trade::MeshData{MeshPrimitive::Points, 10}); CORRADE_COMPARE(out.str(), "MeshTools::removeDuplicates(): can't remove duplicates in an attributeless mesh\n"); } void RemoveDuplicatesTest::removeDuplicatesMeshDataFuzzy() { auto&& data = RemoveDuplicatesMeshDataFuzzyData[testCaseInstanceId()]; setTestCaseDescription(data.name); /* Deliberately not owned and not interleaved to verify that the function will handle this */ struct Vertex { Short ints[10][2]{ {15, 2}, {15, 2}, {15, 2}, {2365, -2}, {-2, 2365}, {-2, 2365}, {2365, -2}, {37, 0}, {37, 0}, {37, 0} }; Math::Vector<6, Float> floats[10]{ {0.0f, 1.0f, 0.0f, 1.0f, 0.0f, 0.0f}, /* This one gets collapsed to the above */ {0.0f, 1.0f, 0.0f, 1.0f - Math::TypeTraits::epsilon()/4, 0.0f, 0.0f}, /* This one not */ {0.0f, 1.0f, 0.0f, 1.0f - Math::TypeTraits::epsilon()*4, 0.0f, 0.0f}, /* These are bit-equivalent, but not all get collapsed because the ints are different */ {0.5f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f}, {0.5f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f}, {0.5f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f}, {0.5f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f}, /* Same as above, only at a smaller scale */ {0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, {0.0f, 0.0f, 0.0f + Math::TypeTraits::epsilon()/2, 0.0f, 0.0f, 0.0f}, {0.0f, 0.0f, 0.0f + Math::TypeTraits::epsilon()*2, 0.0f, 0.0f, 0.0f}, }; UnsignedByte intsAgain[10]{ 33, 33, 33, 15, 15, 15, 17, 223, 223, 223 }; UnsignedInt objectId[10]{ 15, 15, 15, 15, 15, 15, 15, 15, 15, 15 }; } vertexData[1]; const UnsignedShort indexData[]{1, 2, 5, 9, 7, 6, 4, 7, 5, 0, 3, 8, 3}; /* Scale and offset the floats */ for(Math::Vector<6, Float>& f: vertexData->floats) f = f*data.scale + Math::Vector<6, Float>{data.offset}; /* Create a combined attribute list */ Containers::Array attributes; arrayAppend(attributes, Trade::MeshAttributeData{ Trade::meshAttributeCustom(15), VertexFormat::Short, 0, 10, 4, 2}); for(const Trade::MeshAttributeData& a: data.attributes) arrayAppend(attributes, Trade::MeshAttributeData{ a.name(), a.format(), offsetof(Vertex, floats) + a.offset({}), 10, a.stride(), a.arraySize()}); arrayAppend(attributes, Trade::MeshAttributeData{ Trade::meshAttributeCustom(16), VertexFormat::UnsignedByte, offsetof(Vertex, intsAgain), 10, 1}); arrayAppend(attributes, Trade::MeshAttributeData{ Trade::MeshAttribute::ObjectId, VertexFormat::UnsignedInt, offsetof(Vertex, objectId), 10, 4}); Containers::ArrayView indexView; Trade::MeshIndexData indices; if(data.indexed) { indexView = indexData; indices = Trade::MeshIndexData{indexData}; } Trade::MeshData mesh{MeshPrimitive::Lines, {}, indexView, indices, {}, vertexData, std::move(attributes)}; Trade::MeshData unique = MeshTools::removeDuplicatesFuzzy(mesh, data.epsilon); CORRADE_COMPARE(unique.primitive(), MeshPrimitive::Lines); CORRADE_VERIFY(unique.isIndexed()); if(data.indexed) CORRADE_COMPARE(unique.indexCount(), mesh.indexCount()); else CORRADE_COMPARE(unique.indexCount(), mesh.vertexCount()); CORRADE_COMPARE(unique.indexType(), MeshIndexType::UnsignedInt); CORRADE_COMPARE(unique.attributeCount(), 3 + data.attributes.size()); /* Verify that all attributes have expected metadata and are interleaved */ for(UnsignedInt i = 0; i != unique.attributeCount(); ++i) { CORRADE_ITERATION(i); CORRADE_COMPARE(unique.attributeStride(i), 4 + 6*sizeof(float) + 5); } CORRADE_COMPARE(unique.attributeFormat(0), VertexFormat::Short); CORRADE_COMPARE(unique.attributeOffset(0), 0); CORRADE_COMPARE(unique.attributeName(0), Trade::meshAttributeCustom(15)); CORRADE_COMPARE(unique.attributeArraySize(0), 2); for(std::size_t i = 0; i != data.attributes.size(); ++i) { CORRADE_ITERATION(i); CORRADE_COMPARE(unique.attributeFormat(1 + i), data.attributes[i].format()); CORRADE_COMPARE(unique.attributeOffset(1 + i), 4 + data.attributes[i].offset({})); CORRADE_COMPARE(unique.attributeName(1 + i), data.attributes[i].name()); CORRADE_COMPARE(unique.attributeArraySize(1 + i), data.attributes[i].arraySize()); } CORRADE_COMPARE(unique.attributeFormat(1 + data.attributes.size()), VertexFormat::UnsignedByte); CORRADE_COMPARE(unique.attributeOffset(1 + data.attributes.size()), 4 + 6*sizeof(Float)); CORRADE_COMPARE(unique.attributeName(1 + data.attributes.size()), Trade::meshAttributeCustom(16)); CORRADE_COMPARE(unique.attributeFormat(2 + data.attributes.size()), VertexFormat::UnsignedInt); CORRADE_COMPARE(unique.attributeOffset(2 + data.attributes.size()), 5 + 6*sizeof(Float)); CORRADE_COMPARE(unique.attributeName(2 + data.attributes.size()), Trade::MeshAttribute::ObjectId); /* The data differ depending on how much is actually removed */ if(data.vertexCount == 7) { if(data.indexed) CORRADE_COMPARE_AS(unique.indices(), Containers::arrayView({0, 1, 3, 6, 5, 4, 3, 5, 3, 0, 2, 5, 2}), TestSuite::Compare::Container); else CORRADE_COMPARE_AS(unique.indices(), Containers::arrayView({0, 0, 1, 2, 3, 3, 4, 5, 5, 6}), TestSuite::Compare::Container); /* Compare the integer data through the attribute API */ CORRADE_COMPARE_AS((Containers::arrayCast<1, const Vector2s>(unique.attribute(Trade::meshAttributeCustom(15)))), Containers::arrayView({ {15, 2}, {15, 2}, {2365, -2}, {-2, 2365}, {2365, -2}, {37, 0}, {37, 0} }), TestSuite::Compare::Container); CORRADE_COMPARE_AS(unique.attribute(Trade::meshAttributeCustom(16)), Containers::arrayView({ 33, 33, 15, 15, 17, 223, 223 }), TestSuite::Compare::Container); CORRADE_COMPARE_AS(unique.attribute(Trade::MeshAttribute::ObjectId), Containers::arrayView({ 15, 15, 15, 15, 15, 15, 15 }), TestSuite::Compare::Container); /* Compare the float/double data as a single block independently of the attribute layout */ Math::Vector<6, Float> expectedFloats[]{ {0.0f, 1.0f, 0.0f, 1.0f, 0.0f, 0.0f}, {0.0f, 1.0f, 0.0f, 1.0f - Math::TypeTraits::epsilon()*4, 0.0f, 0.0f}, {0.5f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f}, {0.5f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f}, {0.5f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f}, {0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, {0.0f, 0.0f, 0.0f + Math::TypeTraits::epsilon()*2, 0.0f, 0.0f, 0.0f}, }; for(Math::Vector<6, Float>& f: expectedFloats) f = f*data.scale + Math::Vector<6, Float>{data.offset}; /** @todo i need some feature like "gimme just the top-level dimension" */ Containers::StridedArrayView1D floats{unique.vertexData(), unique.vertexData() + unique.attributeOffset(1), unique.vertexCount(), unique.attributeStride(1)}; CORRADE_COMPARE_AS((Containers::arrayCast>(floats)), Containers::arrayView(expectedFloats), TestSuite::Compare::Container); } else if(data.vertexCount == 9) { if(data.indexed) CORRADE_COMPARE_AS(unique.indices(), Containers::arrayView({1, 2, 4, 8, 6, 5, 4, 6, 4, 0, 3, 7, 3}), TestSuite::Compare::Container); else CORRADE_COMPARE_AS(unique.indices(), Containers::arrayView({0, 1, 2, 3, 4, 4, 5, 6, 7, 8}), TestSuite::Compare::Container); /* Not testing the rest, it's verified well enough in the other cases */ } } void RemoveDuplicatesTest::removeDuplicatesMeshDataFuzzyDouble() { /* Deliberately not owned and not interleaved to verify that the function will handle this */ const struct Vertex { /* Epsilon enlarged a lot to ensure the cell size isn't too small for the grid size to fit into 32 bit std::size_t */ Math::Vector<3, Double> doubles[10]{ {110.0, 100.0, 100.0}, /* This one gets collapsed to the above */ {110.0 - 250000*Math::TypeTraits::epsilon()/2, 100.0, 100.0}, /* This one not */ {110.0 - 250000*Math::TypeTraits::epsilon()*2, 100.0, 100.0}, /* These are bit-equivalent, but not all get collapsed because the ints are different */ {100.0, 100.0, 110.0}, {100.0, 100.0, 110.0}, {100.0, 100.0, 110.0}, {100.0, 100.0, 110.0}, /* Same as above, only at a smaller scale */ {100.0, 100.0, 100.0}, {100.0, 100.0, 100.0 + 250000*Math::TypeTraits::epsilon()/2}, {100.0, 100.0, 100.0 + 250000*Math::TypeTraits::epsilon()*2}, }; UnsignedByte objectId[10]{ 33, 33, 33, 15, 16, 15, 17, 223, 223, 223 }; } vertexData[1]; Trade::MeshData mesh{MeshPrimitive::Points, {}, vertexData, { Trade::MeshAttributeData{Trade::meshAttributeCustom(10), VertexFormat::Double, 0, 10, 3*sizeof(Double)}, Trade::MeshAttributeData{Trade::meshAttributeCustom(11), VertexFormat::Double, sizeof(Double), 10, 3*sizeof(Double), 2}, Trade::MeshAttributeData{ Trade::MeshAttribute::ObjectId, VertexFormat::UnsignedByte, offsetof(Vertex, objectId), 10, 1} }}; Trade::MeshData unique = MeshTools::removeDuplicatesFuzzy(mesh, Math::TypeTraits::epsilon(), /* Epsilon enlarged a lot to ensure the cell size isn't too small for the grid size to fit into 32 bit std::size_t */ 25000*Math::TypeTraits::epsilon()); CORRADE_COMPARE(unique.primitive(), MeshPrimitive::Points); CORRADE_VERIFY(unique.isIndexed()); CORRADE_COMPARE(unique.indexCount(), mesh.vertexCount()); CORRADE_COMPARE(unique.indexType(), MeshIndexType::UnsignedInt); CORRADE_COMPARE(unique.attributeCount(), 3); /* Verify that all attributes have expected metadata and are interleaved */ for(UnsignedInt i = 0; i != unique.attributeCount(); ++i) { CORRADE_ITERATION(i); CORRADE_COMPARE(unique.attributeStride(i), 3*sizeof(Double) + 1); } CORRADE_COMPARE(unique.attributeFormat(0), VertexFormat::Double); CORRADE_COMPARE(unique.attributeOffset(0), 0); CORRADE_COMPARE(unique.attributeName(0), Trade::meshAttributeCustom(10)); CORRADE_COMPARE(unique.attributeFormat(1), VertexFormat::Double); CORRADE_COMPARE(unique.attributeOffset(1), sizeof(Double)); CORRADE_COMPARE(unique.attributeName(1), Trade::meshAttributeCustom(11)); CORRADE_COMPARE(unique.attributeArraySize(1), 2); CORRADE_COMPARE(unique.attributeFormat(2), VertexFormat::UnsignedByte); CORRADE_COMPARE(unique.attributeOffset(2), 3*sizeof(Double)); CORRADE_COMPARE(unique.attributeName(2), Trade::MeshAttribute::ObjectId); CORRADE_COMPARE_AS(unique.indices(), Containers::arrayView({0, 0, 1, 2, 3, 2, 4, 5, 5, 6}), TestSuite::Compare::Container); CORRADE_COMPARE_AS(unique.attribute(Trade::MeshAttribute::ObjectId), Containers::arrayView({ 33, 33, 15, 16, 17, 223, 223 }), TestSuite::Compare::Container); /* Compare the float/double data as a single block independently of the attribute layout */ Math::Vector<3, Double> expectedFloats[]{ {110.0, 100.0, 100.0}, {110.0 - 250000*Math::TypeTraits::epsilon()*2, 100.0, 100.0}, {100.0, 100.0, 110.0}, {100.0, 100.0, 110.0}, {100.0, 100.0, 110.0}, {100.0, 100.0, 100.0}, {100.0, 100.0, 100.0 + 250000*Math::TypeTraits::epsilon()*2}, }; /** @todo i need some feature like "gimme just the top-level dimension" */ Containers::StridedArrayView1D floats{unique.vertexData(), unique.vertexData() + unique.attributeOffset(0), unique.vertexCount(), unique.attributeStride(0)}; CORRADE_COMPARE_AS((Containers::arrayCast>(floats)), Containers::arrayView(expectedFloats), TestSuite::Compare::Container); } void RemoveDuplicatesTest::removeDuplicatesMeshDataFuzzyAttributeless() { #ifdef CORRADE_NO_ASSERT CORRADE_SKIP("CORRADE_NO_ASSERT defined, can't test assertions"); #endif std::ostringstream out; Error redirectError{&out}; MeshTools::removeDuplicatesFuzzy(Trade::MeshData{MeshPrimitive::Points, 10}); CORRADE_COMPARE(out.str(), "MeshTools::removeDuplicatesFuzzy(): can't remove duplicates in an attributeless mesh\n"); } void RemoveDuplicatesTest::removeDuplicatesMeshDataFuzzyImplementationSpecific() { #ifdef CORRADE_NO_ASSERT CORRADE_SKIP("CORRADE_NO_ASSERT defined, can't test assertions"); #endif std::ostringstream out; Error redirectError{&out}; CORRADE_EXPECT_FAIL("The function currently uses concatenate() to make data owned, which fails earlier with a different (and confusing) assert message."); CORRADE_VERIFY(false); // MeshTools::removeDuplicatesFuzzy(Trade::MeshData{MeshPrimitive::Points, // nullptr, {Trade::MeshAttributeData{Trade::MeshAttribute::Position, // vertexFormatWrap(0x1234), nullptr}}}); // CORRADE_COMPARE(out.str(), // "MeshTools::removeDuplicatesFuzzy(): can't remove duplicates in an implementation-specific format 0x1234\n"); } void RemoveDuplicatesTest::soakTest() { /* Array of 100 unique items with 10 duplicates each, randomly shuffled */ UnsignedInt data[1000]; for(std::size_t i = 0; i != Containers::arraySize(data); ++i) data[i] = i / 10 + testCaseRepeatId()*909091; std::shuffle(std::begin(data), std::end(data), std::minstd_rand{std::random_device{}()}); CORRADE_COMPARE(MeshTools::removeDuplicatesInPlace( Containers::StridedArrayView2D{ Containers::arrayCast(Containers::arrayView(data)), {1000, 4}} ).second, 100); } void RemoveDuplicatesTest::soakTestFuzzy() { /* Array of 100 unique items with 10 duplicates each, randomly shuffled */ Float data[1000]; for(std::size_t i = 0; i != Containers::arraySize(data); ++i) data[i] = Float(Int(i/10) + testCaseRepeatId()*909091); std::shuffle(std::begin(data), std::end(data), std::minstd_rand{std::random_device{}()}); CORRADE_COMPARE(MeshTools::removeDuplicatesFuzzyInPlace( Containers::arrayCast<2, Float>(Containers::arrayView(data))).second, 100); } void RemoveDuplicatesTest::benchmark() { /* Array of 100 unique items with 100 duplicates each, shuffled */ Vector3i data[10000]; for(std::size_t i = 0; i != Containers::arraySize(data); ++i) data[i].x() = i/100; std::shuffle(std::begin(data), std::end(data), std::minstd_rand{std::random_device{}()}); std::size_t count; UnsignedInt indices[10000]; CORRADE_BENCHMARK(1) count = MeshTools::removeDuplicatesInPlaceInto( Containers::arrayCast<2, char>(Containers::arrayView(data)), indices); CORRADE_COMPARE(count, 100); } void RemoveDuplicatesTest::benchmarkFuzzy() { /* Array of 100 unique items with 100 duplicates each, shuffled */ Vector3 data[10000]; for(std::size_t i = 0; i != Containers::arraySize(data); ++i) data[i].x() = i/100; std::shuffle(std::begin(data), std::end(data), std::minstd_rand{std::random_device{}()}); std::size_t count; UnsignedInt indices[10000]; CORRADE_BENCHMARK(1) count = MeshTools::removeDuplicatesFuzzyInPlaceInto( Containers::arrayCast<2, Float>(Containers::arrayView(data)), indices); CORRADE_COMPARE(count, 100); } }}}} CORRADE_TEST_MAIN(Magnum::MeshTools::Test::RemoveDuplicatesTest)