//---------------------------------------------------------------------------// // Copyright (c) 2013 Kyle Lutz // // Distributed under the Boost Software License, Version 1.0 // See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt // // See http://boostorg.github.com/compute for more information. //---------------------------------------------------------------------------// #define BOOST_TEST_MODULE TestRadixSort #include #include #include #include #include #include #include "quirks.hpp" #include "check_macros.hpp" #include "context_setup.hpp" namespace bc = boost::compute; const bool descending = false; BOOST_AUTO_TEST_CASE(sort_char_vector) { if(is_apple_cpu_device(device)) { std::cerr << "skipping all radix_sort tests due to Apple platform" << " behavior when local memory is used on a CPU device" << std::endl; return; } using boost::compute::char_; char_ data[] = { 'c', 'a', '0', '7', 'B', 'F', '\0', '$' }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == false); boost::compute::detail::radix_sort(vector.begin(), vector.end(), queue); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == true); CHECK_RANGE_EQUAL(char_, 8, vector, ('\0', '$', '0', '7', 'B', 'F', 'a', 'c')); } BOOST_AUTO_TEST_CASE(sort_uchar_vector) { if(is_apple_cpu_device(device)) { return; } using boost::compute::uchar_; uchar_ data[] = { 0x12, 0x00, 0xFF, 0xB4, 0x80, 0x32, 0x64, 0xA2 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == false); boost::compute::detail::radix_sort(vector.begin(), vector.end(), queue); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == true); CHECK_RANGE_EQUAL(uchar_, 8, vector, (0x00, 0x12, 0x32, 0x64, 0x80, 0xA2, 0xB4, 0xFF)); } BOOST_AUTO_TEST_CASE(sort_short_vector) { if(is_apple_cpu_device(device)) { return; } using boost::compute::short_; short_ data[] = { -4, 152, -94, 963, 31002, -456, 0, -2113 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == false); boost::compute::detail::radix_sort(vector.begin(), vector.end(), queue); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == true); CHECK_RANGE_EQUAL(short_, 8, vector, (-2113, -456, -94, -4, 0, 152, 963, 31002)); } BOOST_AUTO_TEST_CASE(sort_ushort_vector) { if(is_apple_cpu_device(device)) { return; } using boost::compute::ushort_; ushort_ data[] = { 4, 152, 94, 963, 63202, 34560, 0, 2113 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == false); boost::compute::detail::radix_sort(vector.begin(), vector.end(), queue); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == true); CHECK_RANGE_EQUAL(ushort_, 8, vector, (0, 4, 94, 152, 963, 2113, 34560, 63202)); } BOOST_AUTO_TEST_CASE(sort_int_vector) { if(is_apple_cpu_device(device)) { return; } int data[] = { -4, 152, -5000, 963, 75321, -456, 0, 1112 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == false); boost::compute::detail::radix_sort(vector.begin(), vector.end(), queue); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == true); CHECK_RANGE_EQUAL(int, 8, vector, (-5000, -456, -4, 0, 152, 963, 1112, 75321)); } BOOST_AUTO_TEST_CASE(sort_uint_vector) { if(is_apple_cpu_device(device)) { return; } using boost::compute::uint_; uint_ data[] = { 500, 1988, 123456, 562, 0, 4000000, 9852, 102030 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == false); boost::compute::detail::radix_sort(vector.begin(), vector.end(), queue); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == true); CHECK_RANGE_EQUAL(uint_, 8, vector, (0, 500, 562, 1988, 9852, 102030, 123456, 4000000)); } BOOST_AUTO_TEST_CASE(sort_long_vector) { if(is_apple_cpu_device(device)) { return; } using boost::compute::long_; long_ data[] = { 500, 1988, 123456, 562, 0, 4000000, 9852, 102030 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == false); boost::compute::detail::radix_sort(vector.begin(), vector.end(), queue); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == true); CHECK_RANGE_EQUAL(long_, 8, vector, (0, 500, 562, 1988, 9852, 102030, 123456, 4000000)); } BOOST_AUTO_TEST_CASE(sort_ulong_vector) { if(is_apple_cpu_device(device)) { return; } using boost::compute::ulong_; ulong_ data[] = { 500, 1988, 123456, 562, 0, 4000000, 9852, 102030 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == false); boost::compute::detail::radix_sort(vector.begin(), vector.end(), queue); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == true); CHECK_RANGE_EQUAL(ulong_, 8, vector, (0, 500, 562, 1988, 9852, 102030, 123456, 4000000)); } BOOST_AUTO_TEST_CASE(sort_float_vector) { if(is_apple_cpu_device(device)) { return; } float data[] = { -6023.0f, 152.5f, -63.0f, 1234567.0f, 11.2f, -5000.1f, 0.0f, 14.0f, -8.25f, -0.0f }; boost::compute::vector vector(data, data + 10, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(10)); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == false); boost::compute::detail::radix_sort(vector.begin(), vector.end(), queue); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == true); CHECK_RANGE_EQUAL( float, 10, vector, (-6023.0f, -5000.1f, -63.0f, -8.25f, -0.0f, 0.0f, 11.2f, 14.0f, 152.5f, 1234567.0f) ); // copy data, sort, and check again (to check program caching) boost::compute::copy(data, data + 10, vector.begin(), queue); boost::compute::detail::radix_sort(vector.begin(), vector.end(), queue); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == true); CHECK_RANGE_EQUAL( float, 10, vector, (-6023.0f, -5000.1f, -63.0f, -8.25f, -0.0f, 0.0f, 11.2f, 14.0f, 152.5f, 1234567.0f) ); } BOOST_AUTO_TEST_CASE(sort_double_vector) { if(is_apple_cpu_device(device)) { return; } if(!device.supports_extension("cl_khr_fp64")){ std::cout << "skipping test: device does not support double" << std::endl; return; } double data[] = { -6023.0, 152.5, -63.0, 1234567.0, 11.2, -5000.1, 0.0, 14.0, -8.25, -0.0 }; boost::compute::vector vector(data, data + 10, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(10)); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == false); boost::compute::detail::radix_sort(vector.begin(), vector.end(), queue); BOOST_CHECK(boost::compute::is_sorted(vector.begin(), vector.end(), queue) == true); CHECK_RANGE_EQUAL( double, 10, vector, (-6023.0, -5000.1, -63.0, -8.25, -0.0, 0.0, 11.2, 14.0, 152.5, 1234567.0) ); } BOOST_AUTO_TEST_CASE(sort_char_vector_desc) { if(is_apple_cpu_device(device)) { return; } using boost::compute::char_; char_ data[] = { 'c', 'a', '0', '7', 'B', 'F', '\0', '$' }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(!boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); boost::compute::detail::radix_sort( vector.begin(), vector.end(), descending, queue ); BOOST_CHECK(boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); CHECK_RANGE_EQUAL( char_, 8, vector, ('c', 'a', 'F', 'B', '7', '0', '$', '\0') ); } BOOST_AUTO_TEST_CASE(sort_uchar_vector_desc) { if(is_apple_cpu_device(device)) { return; } using boost::compute::uchar_; uchar_ data[] = { 0x12, 0x00, 0xFF, 0xB4, 0x80, 0x32, 0x64, 0xA2 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(!boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); boost::compute::detail::radix_sort( vector.begin(), vector.end(), descending, queue ); BOOST_CHECK(boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); CHECK_RANGE_EQUAL( uchar_, 8, vector, (0xFF, 0xB4, 0xA2, 0x80, 0x64, 0x32, 0x12, 0x00) ); } BOOST_AUTO_TEST_CASE(sort_short_vector_desc) { if(is_apple_cpu_device(device)) { return; } using boost::compute::short_; short_ data[] = { -4, 152, -94, 963, 31002, -456, 0, -2113 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(!boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); boost::compute::detail::radix_sort( vector.begin(), vector.end(), descending, queue ); BOOST_CHECK(boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); CHECK_RANGE_EQUAL( short_, 8, vector, (31002, 963, 152, 0, -4, -94, -456, -2113) ); } BOOST_AUTO_TEST_CASE(sort_ushort_vector_desc) { if(is_apple_cpu_device(device)) { return; } using boost::compute::ushort_; ushort_ data[] = { 4, 152, 94, 963, 63202, 34560, 0, 2113 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(!boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); boost::compute::detail::radix_sort( vector.begin(), vector.end(), descending, queue ); BOOST_CHECK(boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); CHECK_RANGE_EQUAL( ushort_, 8, vector, (63202, 34560, 2113, 963, 152, 94, 4, 0) ); } BOOST_AUTO_TEST_CASE(sort_int_vector_desc) { if(is_apple_cpu_device(device)) { return; } using boost::compute::int_; int_ data[] = { -4, 152, -5000, 963, 75321, -456, 0, 1112 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(!boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); boost::compute::detail::radix_sort( vector.begin(), vector.end(), descending, queue ); BOOST_CHECK(boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); CHECK_RANGE_EQUAL( int_, 8, vector, (75321, 1112, 963, 152, 0, -4, -456, -5000) ); } BOOST_AUTO_TEST_CASE(sort_uint_vector_desc) { if(is_apple_cpu_device(device)) { return; } using boost::compute::uint_; uint_ data[] = { 500, 1988, 123456, 562, 0, 4000000, 9852, 102030 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(!boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); boost::compute::detail::radix_sort( vector.begin(), vector.end(), descending, queue ); BOOST_CHECK(boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); CHECK_RANGE_EQUAL( uint_, 8, vector, (4000000, 123456, 102030, 9852, 1988, 562, 500, 0) ); } BOOST_AUTO_TEST_CASE(sort_long_vector_desc) { if(is_apple_cpu_device(device)) { return; } using boost::compute::long_; long_ data[] = { -500, 1988, 123456, 562, 0, 4000000, 9852, 102030 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(!boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); boost::compute::detail::radix_sort( vector.begin(), vector.end(), descending, queue ); BOOST_CHECK(boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); CHECK_RANGE_EQUAL( long_, 8, vector, (4000000, 123456, 102030, 9852, 1988, 562, 0, -500) ); } BOOST_AUTO_TEST_CASE(sort_ulong_vector_desc) { if(is_apple_cpu_device(device)) { return; } using boost::compute::ulong_; ulong_ data[] = { 500, 1988, 123456, 562, 0, 4000000, 9852, 102030 }; boost::compute::vector vector(data, data + 8, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(8)); BOOST_CHECK(!boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); boost::compute::detail::radix_sort( vector.begin(), vector.end(), descending, queue ); BOOST_CHECK(boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); CHECK_RANGE_EQUAL( ulong_, 8, vector, (4000000, 123456, 102030, 9852, 1988, 562, 500, 0) ); } BOOST_AUTO_TEST_CASE(sort_float_vector_desc) { if(is_apple_cpu_device(device)) { return; } float data[] = { -6023.0f, 152.5f, -63.0f, 1234567.0f, 11.2f, -5000.1f, 0.0f, 14.0f, -8.25f, -0.0f }; boost::compute::vector vector(data, data + 10, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(10)); BOOST_CHECK(!boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); boost::compute::detail::radix_sort( vector.begin(), vector.end(), descending, queue ); BOOST_CHECK(boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); CHECK_RANGE_EQUAL( float, 10, vector, (1234567.0f, 152.5f, 14.0f, 11.2f, 0.0f, -0.0f, -8.25f, -63.0f, -5000.1f, -6023.0f) ); // copy data, sort, and check again (to check program caching) boost::compute::copy(data, data + 10, vector.begin(), queue); boost::compute::detail::radix_sort( vector.begin(), vector.end(), descending, queue ); BOOST_CHECK(boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); CHECK_RANGE_EQUAL( float, 10, vector, (1234567.0f, 152.5f, 14.0f, 11.2f, 0.0f, -0.0f, -8.25f, -63.0f, -5000.1f, -6023.0f) ); } BOOST_AUTO_TEST_CASE(sort_double_vector_desc) { if(is_apple_cpu_device(device)) { return; } if(!device.supports_extension("cl_khr_fp64")){ std::cout << "skipping test: device does not support double" << std::endl; return; } double data[] = { -6023.0, 152.5, -63.0, 1234567.0, 11.2, -5000.1, 0.0, 14.0, -8.25, -0.0 }; boost::compute::vector vector(data, data + 10, queue); BOOST_CHECK_EQUAL(vector.size(), size_t(10)); BOOST_CHECK(!boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); boost::compute::detail::radix_sort( vector.begin(), vector.end(), descending, queue ); BOOST_CHECK(boost::compute::is_sorted( vector.begin(), vector.end(), boost::compute::greater(), queue )); CHECK_RANGE_EQUAL( double, 10, vector, (1234567.0, 152.5, 14.0, 11.2, 0.0, -0.0, -8.25, -63.0, -5000.1, -6023.0) ); } BOOST_AUTO_TEST_CASE(sort_partial_vector) { if(is_apple_cpu_device(device)) { return; } int data[] = { 9, 8, 7, 6, 5, 4, 3, 2, 1, 0 }; boost::compute::vector vec(data, data + 10, queue); boost::compute::detail::radix_sort(vec.begin() + 2, vec.end() - 2, queue); CHECK_RANGE_EQUAL(int, 10, vec, (9, 8, 2, 3, 4, 5, 6, 7, 1, 0)); } BOOST_AUTO_TEST_SUITE_END()