/* * Copyright 2008-2013 NVIDIA Corporation * Modifications Copyright© 2019 Advanced Micro Devices, Inc. All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include "test_header.hpp" TESTS_DEFINE(SetSymmetricDifferenceTests, FullTestsParams); TESTS_DEFINE(SetSymmetricDifferencePrimitiveTests, NumericalTestsParams); TESTS_DEFINE(SetSymmetricDifferenceIntegerTests, IntegerTestsParams); template OutputIterator set_symmetric_difference(my_system& system, InputIterator1, InputIterator1, InputIterator2, InputIterator2, OutputIterator result) { system.validate_dispatch(); return result; } TEST(SetSymmetricDifferenceTests, TestSetSymmetricDifferenceDispatchExplicit) { SCOPED_TRACE(testing::Message() << "with device_id= " << test::set_device_from_ctest()); thrust::device_vector vec(1); my_system sys(0); thrust::set_symmetric_difference( sys, vec.begin(), vec.begin(), vec.begin(), vec.begin(), vec.begin()); ASSERT_EQ(true, sys.is_valid()); } template OutputIterator set_symmetric_difference( my_tag, InputIterator1, InputIterator1, InputIterator2, InputIterator2, OutputIterator result) { *result = 13; return result; } TEST(SetSymmetricDifferenceTests, TestSetSymmetricDifferenceDispatchImplicit) { SCOPED_TRACE(testing::Message() << "with device_id= " << test::set_device_from_ctest()); thrust::device_vector vec(1); thrust::set_symmetric_difference(thrust::retag(vec.begin()), thrust::retag(vec.begin()), thrust::retag(vec.begin()), thrust::retag(vec.begin()), thrust::retag(vec.begin())); ASSERT_EQ(13, vec.front()); } TYPED_TEST(SetSymmetricDifferenceTests, TestSetSymmetricDifferenceSimple) { using Vector = typename TestFixture::input_type; using Iterator = typename Vector::iterator; SCOPED_TRACE(testing::Message() << "with device_id= " << test::set_device_from_ctest()); Vector a(4), b(5); a[0] = 0; a[1] = 2; a[2] = 4; a[3] = 6; b[0] = 0; b[1] = 3; b[2] = 3; b[3] = 4; b[4] = 7; Vector ref(5); ref[0] = 2; ref[1] = 3; ref[2] = 3; ref[3] = 6; ref[4] = 7; Vector result(5); Iterator end = thrust::set_symmetric_difference(a.begin(), a.end(), b.begin(), b.end(), result.begin()); EXPECT_EQ(result.end(), end); ASSERT_EQ(ref, result); } TYPED_TEST(SetSymmetricDifferencePrimitiveTests, TestSetSymmetricDifference) { using T = typename TestFixture::input_type; SCOPED_TRACE(testing::Message() << "with device_id= " << test::set_device_from_ctest()); for(auto size : get_sizes()) { SCOPED_TRACE(testing::Message() << "with size= " << size); size_t expanded_sizes[] = {0, 1, size / 2, size, size + 1, 2 * size}; size_t num_expanded_sizes = sizeof(expanded_sizes) / sizeof(size_t); for(auto seed : get_seeds()) { SCOPED_TRACE(testing::Message() << "with seed= " << seed); thrust::host_vector random = get_random_data( size + *thrust::max_element(expanded_sizes, expanded_sizes + num_expanded_sizes), 0, 255, seed ); thrust::host_vector h_a(random.begin(), random.begin() + size); thrust::host_vector h_b(random.begin() + size, random.end()); thrust::stable_sort(h_a.begin(), h_a.end()); thrust::stable_sort(h_b.begin(), h_b.end()); thrust::device_vector d_a = h_a; thrust::device_vector d_b = h_b; for(size_t i = 0; i < num_expanded_sizes; i++) { size_t expanded_size = expanded_sizes[i]; thrust::host_vector h_result(size + expanded_size); thrust::device_vector d_result(size + expanded_size); typename thrust::host_vector::iterator h_end; typename thrust::device_vector::iterator d_end; h_end = thrust::set_symmetric_difference(h_a.begin(), h_a.end(), h_b.begin(), h_b.begin() + expanded_size, h_result.begin()); h_result.resize(h_end - h_result.begin()); d_end = thrust::set_symmetric_difference(d_a.begin(), d_a.end(), d_b.begin(), d_b.begin() + expanded_size, d_result.begin()); d_result.resize(d_end - d_result.begin()); ASSERT_EQ(h_result, d_result); } } } } TYPED_TEST(SetSymmetricDifferencePrimitiveTests, TestSetSymmetricDifferenceEquivalentRanges) { using T = typename TestFixture::input_type; SCOPED_TRACE(testing::Message() << "with device_id= " << test::set_device_from_ctest()); for(auto size : get_sizes()) { SCOPED_TRACE(testing::Message() << "with size= " << size); for(auto seed : get_seeds()) { SCOPED_TRACE(testing::Message() << "with seed= " << seed); thrust::host_vector temp = get_random_data( size, std::numeric_limits::min(), std::numeric_limits::max(), seed); thrust::host_vector h_a = temp; thrust::sort(h_a.begin(), h_a.end()); thrust::host_vector h_b = h_a; thrust::device_vector d_a = h_a; thrust::device_vector d_b = h_b; thrust::host_vector h_result(h_a.size() + h_b.size()); thrust::device_vector d_result(h_result.size()); typename thrust::host_vector::iterator h_end; typename thrust::device_vector::iterator d_end; h_end = thrust::set_symmetric_difference( h_a.begin(), h_a.end(), h_b.begin(), h_b.end(), h_result.begin()); h_result.erase(h_end, h_result.end()); d_end = thrust::set_symmetric_difference( d_a.begin(), d_a.end(), d_b.begin(), d_b.end(), d_result.begin()); d_result.erase(d_end, d_result.end()); ASSERT_EQ(h_result, d_result); } } } TYPED_TEST(SetSymmetricDifferencePrimitiveTests, TestSetSymmetricDifferenceMultiset) { using T = typename TestFixture::input_type; SCOPED_TRACE(testing::Message() << "with device_id= " << test::set_device_from_ctest()); for(auto size : get_sizes()) { SCOPED_TRACE(testing::Message() << "with size= " << size); for(auto seed : get_seeds()) { SCOPED_TRACE(testing::Message() << "with seed= " << seed); thrust::host_vector temp = get_random_data( 2 * size, std::numeric_limits::min(), std::numeric_limits::max(), seed); // restrict elements to [min,13) for(typename thrust::host_vector::iterator i = temp.begin(); i != temp.end(); ++i) { int temp = static_cast(*i); temp %= 13; *i = temp; } thrust::host_vector h_a(temp.begin(), temp.begin() + size); thrust::host_vector h_b(temp.begin() + size, temp.end()); thrust::sort(h_a.begin(), h_a.end()); thrust::sort(h_b.begin(), h_b.end()); thrust::device_vector d_a = h_a; thrust::device_vector d_b = h_b; thrust::host_vector h_result(h_a.size() + h_b.size()); thrust::device_vector d_result(h_result.size()); typename thrust::host_vector::iterator h_end; typename thrust::device_vector::iterator d_end; h_end = thrust::set_difference( h_a.begin(), h_a.end(), h_b.begin(), h_b.end(), h_result.begin()); h_result.erase(h_end, h_result.end()); d_end = thrust::set_difference( d_a.begin(), d_a.end(), d_b.begin(), d_b.end(), d_result.begin()); d_result.erase(d_end, d_result.end()); ASSERT_EQ_QUIET(h_result, d_result); } } } TYPED_TEST(SetSymmetricDifferenceIntegerTests, TestSetSymmetricDifferenceKeyValue) { using U = typename TestFixture::input_type; typedef key_value T; SCOPED_TRACE(testing::Message() << "with device_id= " << test::set_device_from_ctest()); for(auto size : get_sizes()) { SCOPED_TRACE(testing::Message() << "with size= " << size); for(auto seed : get_seeds()) { SCOPED_TRACE(testing::Message() << "with seed= " << seed); thrust::host_vector h_keys_a = get_random_data( size, std::numeric_limits::min(), std::numeric_limits::max(), seed); thrust::host_vector h_values_a = get_random_data( size, std::numeric_limits::min(), std::numeric_limits::max(), seed + seed_value_addition ); thrust::host_vector h_keys_b = get_random_data( size, std::numeric_limits::min(), std::numeric_limits::max(), seed + 2 * seed_value_addition ); thrust::host_vector h_values_b = get_random_data( size, std::numeric_limits::min(), std::numeric_limits::max(), seed + 3 * seed_value_addition ); thrust::host_vector h_a(size), h_b(size); for(size_t i = 0; i < size; ++i) { h_a[i] = T(h_keys_a[i], h_values_a[i]); if(i % 2 == 1) h_b[i] = T(h_keys_b[i], h_values_b[i]); else h_b[i] = T(h_keys_a[i], h_values_a[i]); } thrust::stable_sort(h_a.begin(), h_a.end()); thrust::stable_sort(h_b.begin(), h_b.end()); thrust::device_vector d_a = h_a; thrust::device_vector d_b = h_b; thrust::host_vector h_result(h_a.size() + h_b.size()); thrust::device_vector d_result(h_result.size()); typename thrust::host_vector::iterator h_end; typename thrust::device_vector::iterator d_end; h_end = thrust::set_symmetric_difference( h_a.begin(), h_a.end(), h_b.begin(), h_b.end(), h_result.begin()); h_result.erase(h_end, h_result.end()); d_end = thrust::set_symmetric_difference( d_a.begin(), d_a.end(), d_b.begin(), d_b.end(), d_result.begin()); d_result.erase(d_end, d_result.end()); ASSERT_EQ_QUIET(h_result, d_result); } } }