/* ************************************************************************ * Copyright 2013 Advanced Micro Devices, Inc. * * 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 "buffer.h" /*@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@*/ /*@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@*/ class test_harness_tests_buffer : public ::testing::Test { protected: test_harness_tests_buffer() {} virtual ~test_harness_tests_buffer(){ } virtual void SetUp() { suppress_output = true; } virtual void TearDown() { suppress_output = false; } }; /*****************************************************/ /*****************************************************/ TEST_F(test_harness_tests_buffer, even_length_hermitian_buffers_are_halfish_size) { size_t dimensions = 3; size_t lengths[3] = {8, 2, 4}; size_t* stride_null = NULL; size_t batch = 3; size_t distance = 0; buffer interleaved_buffer( dimensions, lengths, stride_null, batch, distance, layout::hermitian_interleaved, CLFFT_OUTOFPLACE ); EXPECT_EQ( 5, interleaved_buffer.length(dimx) ); EXPECT_EQ( 2, interleaved_buffer.length(dimy) ); EXPECT_EQ( 4, interleaved_buffer.length(dimz) ); buffer planar_buffer( dimensions, lengths, stride_null, batch, distance, layout::hermitian_planar, CLFFT_OUTOFPLACE ); EXPECT_EQ( 5, planar_buffer.length(dimx) ); EXPECT_EQ( 2, planar_buffer.length(dimy) ); EXPECT_EQ( 4, planar_buffer.length(dimz) ); } /*****************************************************/ /*****************************************************/ TEST_F(test_harness_tests_buffer, odd_length_hermitian_buffers_are_halfish_size) { size_t dimensions = 3; size_t lengths[3] = {9, 2, 4}; size_t* stride_null = NULL; size_t batch = 3; size_t distance = 0; buffer interleaved_buffer( dimensions, lengths, stride_null, batch, distance, layout::hermitian_interleaved, CLFFT_OUTOFPLACE ); EXPECT_EQ( 5, interleaved_buffer.length(dimx) ); EXPECT_EQ( 2, interleaved_buffer.length(dimy) ); EXPECT_EQ( 4, interleaved_buffer.length(dimz) ); buffer planar_buffer( dimensions, lengths, stride_null, batch, distance, layout::hermitian_planar, CLFFT_OUTOFPLACE ); EXPECT_EQ( 5, planar_buffer.length(dimx) ); EXPECT_EQ( 2, planar_buffer.length(dimy) ); EXPECT_EQ( 4, planar_buffer.length(dimz) ); } /*****************************************************/ /*****************************************************/ TEST_F(test_harness_tests_buffer, even_sized_in_place_real_buffers_should_have_padding) { // TODO for now, they should all have padding // eventually, this should be just in-place buffers size_t dimensions = 1; size_t lengths[1] = {8}; size_t* stride_null = NULL; size_t batch = 3; size_t distance = 0; buffer buffer_1d_float( dimensions, lengths, stride_null, batch, distance, layout::real, CLFFT_INPLACE ); // length of x should not change EXPECT_EQ( 8, buffer_1d_float.length(dimx) ); // just the memory size should change EXPECT_EQ( 10 * batch * sizeof(float), buffer_1d_float.size_in_bytes() ); buffer buffer_1d_double( dimensions, lengths, stride_null, batch, distance, layout::real, CLFFT_INPLACE ); EXPECT_EQ( 8, buffer_1d_double.length(dimx) ); EXPECT_EQ( 10 * batch * sizeof(double), buffer_1d_double.size_in_bytes() ); dimensions = 2; size_t lengths2d[2] = {4, 2}; buffer buffer_2d_float( dimensions, lengths2d, stride_null, batch, distance, layout::real, CLFFT_INPLACE ); EXPECT_EQ( 4, buffer_2d_float.length(dimx) ); EXPECT_EQ( 6 * lengths2d[dimy] * batch * sizeof(float), buffer_2d_float.size_in_bytes() ); buffer buffer_2d_double( dimensions, lengths2d, stride_null, batch, distance, layout::real, CLFFT_INPLACE ); EXPECT_EQ( 4, buffer_2d_double.length(dimx) ); EXPECT_EQ( 6 * lengths2d[dimy] * batch * sizeof(double), buffer_2d_double.size_in_bytes() ); dimensions = 3; size_t lengths3d[3] = {16, 8, 2}; buffer buffer_3d_float( dimensions, lengths3d, stride_null, batch, distance, layout::real, CLFFT_INPLACE ); EXPECT_EQ( 16, buffer_3d_float.length(dimx) ); EXPECT_EQ( 18 * lengths3d[dimy] * lengths3d[dimz] * batch * sizeof(float), buffer_3d_float.size_in_bytes() ); buffer buffer_3d_double( dimensions, lengths3d, stride_null, batch, distance, layout::real, CLFFT_INPLACE ); EXPECT_EQ( 16, buffer_3d_double.length(dimx) ); EXPECT_EQ( 18 * lengths3d[dimy] * lengths3d[dimz] * batch * sizeof(double), buffer_3d_double.size_in_bytes() ); } /*****************************************************/ /*****************************************************/ TEST_F(test_harness_tests_buffer, odd_sized_in_place_real_buffers_should_have_padding) { // TODO for now, they should all have padding // eventually, this should be just in-place buffers size_t dimensions = 1; size_t lengths[1] = {15}; size_t* stride_null = NULL; size_t batch = 3; size_t distance = 0; buffer buffer_1d_float( dimensions, lengths, stride_null, batch, distance, layout::real, CLFFT_INPLACE ); buffer_1d_float.set_all_to_linear_increase(); // length of x should not change EXPECT_EQ( 15, buffer_1d_float.length(dimx) ); // just the memory size should change EXPECT_EQ( 16 * batch * sizeof(float), buffer_1d_float.size_in_bytes() ); buffer buffer_1d_double( dimensions, lengths, stride_null, batch, distance, layout::real, CLFFT_INPLACE ); buffer_1d_double.set_all_to_linear_increase(); EXPECT_EQ( 15, buffer_1d_double.length(dimx) ); EXPECT_EQ( 16 * batch * sizeof(double), buffer_1d_double.size_in_bytes() ); dimensions = 2; size_t lengths2d[2] = {7, 2}; buffer buffer_2d_float( dimensions, lengths2d, stride_null, batch, distance, layout::real, CLFFT_INPLACE ); buffer_2d_float.set_all_to_linear_increase(); EXPECT_EQ( 7, buffer_2d_float.length(dimx) ); EXPECT_EQ( 8 * lengths2d[dimy] * batch * sizeof(float), buffer_2d_float.size_in_bytes() ); buffer buffer_2d_double( dimensions, lengths2d, stride_null, batch, distance, layout::real, CLFFT_INPLACE ); buffer_2d_double.set_all_to_linear_increase(); EXPECT_EQ( 7, buffer_2d_double.length(dimx) ); EXPECT_EQ( 8 * lengths2d[dimy] * batch * sizeof(double), buffer_2d_double.size_in_bytes() ); dimensions = 3; size_t lengths3d[3] = {7, 4, 2}; buffer buffer_3d_float( dimensions, lengths3d, stride_null, batch, distance, layout::real, CLFFT_INPLACE ); buffer_3d_float.set_all_to_linear_increase(); EXPECT_EQ( 7, buffer_3d_float.length(dimx) ); EXPECT_EQ( 8 * lengths3d[dimy] * lengths3d[dimz] * batch * sizeof(float), buffer_3d_float.size_in_bytes() ); buffer buffer_3d_double( dimensions, lengths3d, stride_null, batch, distance, layout::real, CLFFT_INPLACE ); buffer_3d_double.set_all_to_linear_increase(); EXPECT_EQ( 7, buffer_3d_double.length(dimx) ); EXPECT_EQ( 8 * lengths3d[dimy] * lengths3d[dimz] * batch * sizeof(double), buffer_3d_double.size_in_bytes() ); } /*****************************************************/ /*****************************************************/ TEST_F(test_harness_tests_buffer, real_imag_and_complex_functions_return_correct_values) { try { size_t dimensions = 1; size_t length = 8; size_t* stride_null = NULL; size_t batch = 1; size_t distance = 0; buffer interleaved_buffer( dimensions, &length, stride_null, batch, distance, layout::complex_interleaved, CLFFT_OUTOFPLACE ); interleaved_buffer.set_all_to_linear_increase(); EXPECT_FLOAT_EQ( 1.0f, interleaved_buffer.real( 0 ) ); EXPECT_FLOAT_EQ( 1.5f, interleaved_buffer.imag( 0 ) ); EXPECT_FLOAT_EQ( 1.0f, interleaved_buffer.complex( 0 ).real() ); EXPECT_FLOAT_EQ( 1.5f, interleaved_buffer.complex( 0 ).imag() ); EXPECT_FLOAT_EQ( 4.0f, interleaved_buffer.real( 3 ) ); EXPECT_FLOAT_EQ( 4.5f, interleaved_buffer.imag( 3 ) ); EXPECT_FLOAT_EQ( 4.0f, interleaved_buffer.complex( 3 ).real() ); EXPECT_FLOAT_EQ( 4.5f, interleaved_buffer.complex( 3 ).imag() ); EXPECT_FLOAT_EQ( 8.0f, interleaved_buffer.real( 7 ) ); EXPECT_FLOAT_EQ( 8.5f, interleaved_buffer.imag( 7 ) ); EXPECT_FLOAT_EQ( 8.0f, interleaved_buffer.complex( 7 ).real() ); EXPECT_FLOAT_EQ( 8.5f, interleaved_buffer.complex( 7 ).imag() ); dimensions = 3; size_t lengths[3] = { 2, 4, 8 }; batch = 2; buffer real_buffer( dimensions, lengths, stride_null, batch, distance, layout::real, CLFFT_OUTOFPLACE ); real_buffer.set_all_to_linear_increase(); EXPECT_FLOAT_EQ( 1.0f, real_buffer.real( 0, 0, 0, 0 ) ); EXPECT_FLOAT_EQ( 4.0f, real_buffer.real( 1, 1, 0, 0 ) ); EXPECT_FLOAT_EQ( 68.0f, real_buffer.real( 1, 1, 0, 1 ) ); EXPECT_FLOAT_EQ( 56.0f, real_buffer.real( 1, 3, 6, 0 ) ); EXPECT_FLOAT_EQ( 120.0f, real_buffer.real( 1, 3, 6, 1 ) ); dimensions = 2; lengths[0] = 4; lengths[1] = 2; size_t strides[2] = {2, 11}; distance = 30; buffer planar_buffer( dimensions, lengths, strides, batch, distance, layout::complex_planar, CLFFT_OUTOFPLACE ); planar_buffer.set_all_to_linear_increase(); EXPECT_DOUBLE_EQ( 1.0f, planar_buffer.real( 0, 0, 0, 0 ) ); EXPECT_DOUBLE_EQ( 1.5f, planar_buffer.imag( 0, 0, 0, 0 ) ); EXPECT_DOUBLE_EQ( 1.0f, planar_buffer.complex( 0, 0, 0, 0 ).real() ); EXPECT_DOUBLE_EQ( 1.5f, planar_buffer.complex( 0, 0, 0, 0 ).imag() ); EXPECT_DOUBLE_EQ( 4.0f, planar_buffer.real( 3, 0, 0, 0 ) ); EXPECT_DOUBLE_EQ( 4.5f, planar_buffer.imag( 3, 0, 0, 0 ) ); EXPECT_DOUBLE_EQ( 4.0f, planar_buffer.complex( 3, 0, 0, 0 ).real() ); EXPECT_DOUBLE_EQ( 4.5f, planar_buffer.complex( 3, 0, 0, 0 ).imag() ); EXPECT_DOUBLE_EQ( 15.0f, planar_buffer.real( 2, 1, 0, 1 ) ); EXPECT_DOUBLE_EQ( 15.5f, planar_buffer.imag( 2, 1, 0, 1 ) ); EXPECT_DOUBLE_EQ( 15.0f, planar_buffer.complex( 2, 1, 0, 1 ).real() ); EXPECT_DOUBLE_EQ( 15.5f, planar_buffer.complex( 2, 1, 0, 1 ).imag() ); } catch( const std::exception& err ) { handle_exception(err); } } /*****************************************************/ /*****************************************************/ TEST_F(test_harness_tests_buffer, equivalence_operator_returns_correct_result_with_pointwise_compare) { try { bool comparison_type_restore = comparison_type; comparison_type = pointwise_compare; size_t dimensions = 3; size_t lengths[3] = { 16, 32, 64 }; size_t* stride_null = NULL; size_t batch = 2; size_t distance = 0; // complex test buffer thing_1( dimensions, lengths, stride_null, batch, distance, layout::complex_interleaved, CLFFT_OUTOFPLACE ); buffer thing_2( dimensions, lengths, stride_null, batch, distance, layout::complex_planar, CLFFT_OUTOFPLACE ); thing_1.set_all_to_sawtooth(1.0f); thing_2.set_all_to_sawtooth(1.0f); EXPECT_EQ( true, thing_1 == thing_2 ); thing_2.set_one_data_point( 42.0f, 0.0f, 0, 0, 0, 0 ); EXPECT_EQ( false, thing_1 == thing_2 ); thing_1.set_all_to_sawtooth(1.0f); thing_2.set_all_to_sawtooth(1.0f); thing_2.set_one_data_point( 16.0f, 0.0f, 15, 31, 63, 1 ); EXPECT_EQ( false, thing_1 == thing_2 ); thing_1.set_all_to_sawtooth(1.0f); thing_2.set_all_to_sawtooth(1.0f); thing_2.set_one_data_point( 96.0f, 7.8f, 7, 16, 12, 1 ); EXPECT_EQ( false, thing_1 == thing_2 ); thing_1.set_all_to_sawtooth( 42.0f ); thing_2.set_all_to_sawtooth( 42.0f ); EXPECT_EQ( true, thing_1 == thing_2 ); //---------------------------------------------------// // real test buffer thing_3( dimensions, lengths, stride_null, batch, distance, layout::real, CLFFT_OUTOFPLACE ); buffer thing_4( dimensions, lengths, stride_null, batch, distance, layout::real, CLFFT_OUTOFPLACE ); thing_3.set_all_to_sawtooth(1.0f); thing_4.set_all_to_sawtooth(1.0f); EXPECT_EQ( true, thing_3 == thing_4 ); thing_4.set_one_data_point( 42.0f, 0, 0, 0, 0 ); EXPECT_EQ( false, thing_3 == thing_4 ); thing_3.set_all_to_sawtooth( 42.0f ); thing_4.set_all_to_sawtooth( 42.0f ); EXPECT_EQ( true, thing_3 == thing_4 ); comparison_type = comparison_type_restore; } catch( const std::exception& err ) { handle_exception(err); } } /*****************************************************/ /*****************************************************/ TEST_F(test_harness_tests_buffer, inequivalence_operator_returns_correct_result_with_pointwise_compare) { try { bool comparison_type_restore = comparison_type; comparison_type = pointwise_compare; size_t dimensions = 3; size_t lengths[3] = { 16, 32, 64 }; size_t* stride_null = NULL; size_t batch = 2; size_t distance = 0; buffer thing_1( dimensions, lengths, stride_null, batch, distance, layout::complex_interleaved, CLFFT_OUTOFPLACE ); buffer thing_2( dimensions, lengths, stride_null, batch, distance, layout::complex_planar, CLFFT_OUTOFPLACE ); thing_1.set_all_to_sawtooth(1.0f); thing_2.set_all_to_sawtooth(1.0f); EXPECT_EQ( false, thing_1 != thing_2 ); thing_2.set_one_data_point( 42.0f, 0, 0, 0, 0, 0 ); EXPECT_EQ( true, thing_1 != thing_2 ); thing_1.set_all_to_sawtooth( 42.0f ); thing_2.set_all_to_sawtooth( 42.0f ); EXPECT_EQ( false, thing_1 != thing_2 ); comparison_type = comparison_type_restore; } catch( const std::exception& err ) { handle_exception(err); } } /*****************************************************/ /*****************************************************/ TEST_F(test_harness_tests_buffer, equivalence_operator_returns_correct_result_with_rms) { try { bool comparison_type_restore = comparison_type; comparison_type = root_mean_square; size_t dimensions = 3; size_t lengths[3] = { 16, 32, 64 }; size_t* stride_null = NULL; size_t batch = 2; size_t distance = 0; // complex test buffer thing_1( dimensions, lengths, stride_null, batch, distance, layout::complex_interleaved, CLFFT_OUTOFPLACE ); buffer thing_2( dimensions, lengths, stride_null, batch, distance, layout::complex_planar, CLFFT_OUTOFPLACE ); thing_1.set_all_to_sawtooth(1.0f); thing_2.set_all_to_sawtooth(1.0f); EXPECT_EQ( true, thing_1 == thing_2 ); thing_2.set_one_data_point( 42.0f, 0.0f, 0, 0, 0, 0 ); EXPECT_EQ( false, thing_1 == thing_2 ); thing_1.set_all_to_sawtooth(1.0f); thing_2.set_all_to_sawtooth(1.0f); thing_2.set_one_data_point( 16.0f, 0.0f, 15, 31, 63, 1 ); EXPECT_EQ( false, thing_1 == thing_2 ); thing_1.set_all_to_sawtooth(1.0f); thing_2.set_all_to_sawtooth(1.0f); thing_2.set_one_data_point( 96.0f, 7.8f, 7, 16, 12, 1 ); EXPECT_EQ( false, thing_1 == thing_2 ); thing_1.set_all_to_sawtooth( 42.0f ); thing_2.set_all_to_sawtooth( 42.0f ); EXPECT_EQ( true, thing_1 == thing_2 ); //---------------------------------------------------// // real test buffer thing_3( dimensions, lengths, stride_null, batch, distance, layout::real, CLFFT_OUTOFPLACE ); buffer thing_4( dimensions, lengths, stride_null, batch, distance, layout::real, CLFFT_OUTOFPLACE ); thing_3.set_all_to_sawtooth(1.0f); thing_4.set_all_to_sawtooth(1.0f); EXPECT_EQ( true, thing_3 == thing_4 ); thing_4.set_one_data_point( 42.0f, 0, 0, 0, 0 ); EXPECT_EQ( false, thing_3 == thing_4 ); thing_3.set_all_to_sawtooth( 42.0f ); thing_4.set_all_to_sawtooth( 42.0f ); EXPECT_EQ( true, thing_3 == thing_4 ); comparison_type = comparison_type_restore; } catch( const std::exception& err ) { handle_exception(err); } } /*****************************************************/ /*****************************************************/ TEST_F(test_harness_tests_buffer, inequivalence_operator_returns_correct_result_with_rms) { try { bool comparison_type_restore = comparison_type; comparison_type = root_mean_square; size_t dimensions = 3; size_t lengths[3] = { 16, 32, 64 }; size_t* stride_null = NULL; size_t batch = 2; size_t distance = 0; buffer thing_1( dimensions, lengths, stride_null, batch, distance, layout::complex_interleaved, CLFFT_OUTOFPLACE ); buffer thing_2( dimensions, lengths, stride_null, batch, distance, layout::complex_planar, CLFFT_OUTOFPLACE ); thing_1.set_all_to_sawtooth(1.0f); thing_2.set_all_to_sawtooth(1.0f); EXPECT_EQ( false, thing_1 != thing_2 ); thing_2.set_one_data_point( 42.0f, 0, 0, 0, 0, 0 ); EXPECT_EQ( true, thing_1 != thing_2 ); thing_1.set_all_to_sawtooth( 42.0f ); thing_2.set_all_to_sawtooth( 42.0f ); EXPECT_EQ( false, thing_1 != thing_2 ); comparison_type = comparison_type_restore; } catch( const std::exception& err ) { handle_exception(err); } } /*****************************************************/ /*****************************************************/ TEST_F(test_harness_tests_buffer, equivalence_should_fail_given_non_matching_complexities) { try { size_t dimensions = 1; size_t lengths[3] = { 5, 1, 1 }; size_t* stride_null = NULL; size_t batch = 1; size_t distance = 0; buffer thing_1( dimensions, lengths, stride_null, batch, distance, layout::real, CLFFT_OUTOFPLACE ); buffer thing_2( dimensions, lengths, stride_null, batch, distance, layout::complex_planar, CLFFT_OUTOFPLACE ); EXPECT_EQ( false, thing_1 == thing_2 ); buffer thing_3( dimensions, lengths, stride_null, batch, distance, layout::complex_planar, CLFFT_OUTOFPLACE ); buffer thing_4( dimensions, lengths, stride_null, batch, distance, layout::real, CLFFT_OUTOFPLACE ); EXPECT_EQ( false, thing_3 == thing_4 ); buffer thing_5( dimensions, lengths, stride_null, batch, distance, layout::real, CLFFT_OUTOFPLACE ); buffer thing_6( dimensions, lengths, stride_null, batch, distance, layout::complex_interleaved, CLFFT_OUTOFPLACE ); EXPECT_EQ( false, thing_5 == thing_6 ); buffer thing_7( dimensions, lengths, stride_null, batch, distance, layout::complex_interleaved, CLFFT_OUTOFPLACE ); buffer thing_8( dimensions, lengths, stride_null, batch, distance, layout::real, CLFFT_OUTOFPLACE ); EXPECT_EQ( false, thing_7 == thing_8 ); } catch( const std::exception& err ) { handle_exception(err); } }