/* * Copyright (c) 2021 Stephanos Ioannidis * Copyright (C) 2010-2021 ARM Limited or its affiliates. All rights reserved. * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include "../../common/test_common.h" #include "f32.pat" #define SNR_ERROR_THRESH (120) #define REL_ERROR_THRESH (1.0e-5) #define ABS_ERROR_THRESH_Q7 ((q7_t)10) #define ABS_ERROR_THRESH_Q15 ((q15_t)10) #define ABS_ERROR_THRESH_Q31 ((q31_t)80) static void test_arm_copy_f32(const uint32_t *input1, size_t length) { float32_t *output; /* Allocate output buffer */ output = malloc(length * sizeof(float32_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Run test function */ arm_copy_f32((float32_t *)input1, output, length); /* Validate output */ zassert_true( test_equal_f32(length, (float32_t *)input1, output), ASSERT_MSG_INCORRECT_COMP_RESULT); /* Free output buffer */ free(output); } DEFINE_TEST_VARIANT2(arm_copy_f32, 3, in_f32, 3); DEFINE_TEST_VARIANT2(arm_copy_f32, 8, in_f32, 8); DEFINE_TEST_VARIANT2(arm_copy_f32, 11, in_f32, 11); static void test_arm_fill_f32(size_t length) { size_t index; float32_t *output; float32_t val = 1.1; /* Allocate output buffer */ output = malloc(length * sizeof(float32_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Run test function */ arm_fill_f32(val, output, length); /* Validate output */ for (index = 0; index < length; index++) { zassert_equal( output[index], val, ASSERT_MSG_INCORRECT_COMP_RESULT); } /* Free output buffer */ free(output); } DEFINE_TEST_VARIANT1(arm_fill_f32, 3, 3); DEFINE_TEST_VARIANT1(arm_fill_f32, 8, 8); DEFINE_TEST_VARIANT1(arm_fill_f32, 11, 11); static void test_arm_float_to_q31( const uint32_t *input1, const q31_t *ref, size_t length) { q31_t *output; /* Allocate output buffer */ output = malloc(length * sizeof(q31_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Run test function */ arm_float_to_q31((float32_t *)input1, output, length); /* Validate output */ zassert_true( test_near_equal_q31(length, ref, output, ABS_ERROR_THRESH_Q31), ASSERT_MSG_ABS_ERROR_LIMIT_EXCEED); /* Free output buffer */ free(output); } DEFINE_TEST_VARIANT3(arm_float_to_q31, 3, in_f32, ref_q31, 3); DEFINE_TEST_VARIANT3(arm_float_to_q31, 8, in_f32, ref_q31, 8); DEFINE_TEST_VARIANT3(arm_float_to_q31, 11, in_f32, ref_q31, 11); static void test_arm_float_to_q15( const uint32_t *input1, const q15_t *ref, size_t length) { q15_t *output; /* Allocate output buffer */ output = malloc(length * sizeof(q15_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Run test function */ arm_float_to_q15((float32_t *)input1, output, length); /* Validate output */ zassert_true( test_near_equal_q15(length, ref, output, ABS_ERROR_THRESH_Q15), ASSERT_MSG_ABS_ERROR_LIMIT_EXCEED); /* Free output buffer */ free(output); } DEFINE_TEST_VARIANT3(arm_float_to_q15, 7, in_f32, ref_q15, 7); DEFINE_TEST_VARIANT3(arm_float_to_q15, 16, in_f32, ref_q15, 16); DEFINE_TEST_VARIANT3(arm_float_to_q15, 17, in_f32, ref_q15, 17); static void test_arm_float_to_q7( const uint32_t *input1, const q7_t *ref, size_t length) { q7_t *output; /* Allocate output buffer */ output = malloc(length * sizeof(q7_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Run test function */ arm_float_to_q7((float32_t *)input1, output, length); /* Validate output */ zassert_true( test_near_equal_q7(length, ref, output, ABS_ERROR_THRESH_Q7), ASSERT_MSG_ABS_ERROR_LIMIT_EXCEED); /* Free output buffer */ free(output); } DEFINE_TEST_VARIANT3(arm_float_to_q7, 15, in_f32, ref_q7, 15); DEFINE_TEST_VARIANT3(arm_float_to_q7, 32, in_f32, ref_q7, 32); DEFINE_TEST_VARIANT3(arm_float_to_q7, 33, in_f32, ref_q7, 33); static void test_arm_weighted_sum_f32( int ref_offset, size_t length) { const float32_t *val = (const float32_t *)in_weighted_sum_val; const float32_t *coeff = (const float32_t *)in_weighted_sum_coeff; const float32_t *ref = (const float32_t *)ref_weighted_sum; float32_t *output; /* Allocate output buffer */ output = malloc(1 * sizeof(float32_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Run test function */ output[0] = arm_weighted_sum_f32(val, coeff, length); /* Validate output */ zassert_true( test_rel_error_f32(1, output, &ref[ref_offset], REL_ERROR_THRESH), ASSERT_MSG_REL_ERROR_LIMIT_EXCEED); /* Free output buffer */ free(output); } DEFINE_TEST_VARIANT2(arm_weighted_sum_f32, 3, 0, 3); DEFINE_TEST_VARIANT2(arm_weighted_sum_f32, 8, 1, 8); DEFINE_TEST_VARIANT2(arm_weighted_sum_f32, 11, 2, 11); static void test_arm_sort_out( const uint32_t *input1, const uint32_t *ref, size_t length, arm_sort_alg alg, arm_sort_dir dir) { float32_t *output; arm_sort_instance_f32 inst; /* Allocate output buffer */ output = malloc(length * sizeof(float32_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Initialise sorter */ arm_sort_init_f32(&inst, alg, dir); /* Run test function */ arm_sort_f32(&inst, (float32_t *)input1, output, length); /* Validate output */ zassert_true( test_equal_f32(length, output, (float32_t *)ref), ASSERT_MSG_INCORRECT_COMP_RESULT); /* Free output buffer */ free(output); } DEFINE_TEST_VARIANT5(arm_sort_out, bitonic_16, in_sort_bitonic_16, ref_sort_bitonic_16, 16, ARM_SORT_BITONIC, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_out, bitonic_32, in_sort_bitonic_32, ref_sort_bitonic_32, 32, ARM_SORT_BITONIC, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_out, bubble_11, in_sort, ref_sort, 11, ARM_SORT_BUBBLE, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_out, heap_11, in_sort, ref_sort, 11, ARM_SORT_HEAP, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_out, insertion_11, in_sort, ref_sort, 11, ARM_SORT_INSERTION, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_out, quick_11, in_sort, ref_sort, 11, ARM_SORT_QUICK, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_out, selection_11, in_sort, ref_sort, 11, ARM_SORT_SELECTION, ARM_SORT_ASCENDING); static void test_arm_merge_sort_out( const uint32_t *input1, const uint32_t *ref, size_t length, arm_sort_dir dir) { float32_t *output; float32_t *scratch; arm_merge_sort_instance_f32 inst; /* Allocate output buffer */ output = malloc(length * sizeof(float32_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Allocate scratch buffer */ scratch = malloc(length * sizeof(float32_t)); zassert_not_null(scratch, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Initialise sorter */ arm_merge_sort_init_f32(&inst, dir, scratch); /* Run test function */ arm_merge_sort_f32(&inst, (float32_t *)input1, output, length); /* Validate output */ zassert_true( test_equal_f32(length, output, (float32_t *)ref), ASSERT_MSG_INCORRECT_COMP_RESULT); /* Free output buffer */ free(output); free(scratch); } DEFINE_TEST_VARIANT4(arm_merge_sort_out, 11, in_sort, ref_sort, 11, ARM_SORT_ASCENDING); static void test_arm_sort_in( const uint32_t *input1, const uint32_t *ref, size_t length, arm_sort_alg alg, arm_sort_dir dir) { float32_t *output; arm_sort_instance_f32 inst; /* Allocate output buffer */ output = malloc(length * sizeof(float32_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Copy input to the output buffer */ memcpy(output, input1, length * sizeof(float32_t)); /* Initialise sorter */ arm_sort_init_f32(&inst, alg, dir); /* Run test function */ arm_sort_f32(&inst, output, output, length); /* Validate output */ zassert_true( test_equal_f32(length, output, (float32_t *)ref), ASSERT_MSG_INCORRECT_COMP_RESULT); /* Free output buffer */ free(output); } DEFINE_TEST_VARIANT5(arm_sort_in, bitonic_32, in_sort_bitonic_32, ref_sort_bitonic_32, 32, ARM_SORT_BITONIC, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_in, bubble_11, in_sort, ref_sort, 11, ARM_SORT_BUBBLE, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_in, heap_11, in_sort, ref_sort, 11, ARM_SORT_HEAP, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_in, insertion_11, in_sort, ref_sort, 11, ARM_SORT_INSERTION, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_in, quick_11, in_sort, ref_sort, 11, ARM_SORT_QUICK, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_in, selection_11, in_sort, ref_sort, 11, ARM_SORT_SELECTION, ARM_SORT_ASCENDING); static void test_arm_sort_const( const uint32_t *input1, const uint32_t *ref, size_t length, arm_sort_alg alg, arm_sort_dir dir) { float32_t *output; arm_sort_instance_f32 inst; /* Allocate output buffer */ output = malloc(length * sizeof(float32_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Initialise sorter */ arm_sort_init_f32(&inst, alg, dir); /* Run test function */ arm_sort_f32(&inst, (float32_t *)input1, output, length); /* Validate output */ zassert_true( test_equal_f32(length, output, (float32_t *)ref), ASSERT_MSG_INCORRECT_COMP_RESULT); /* Free output buffer */ free(output); } DEFINE_TEST_VARIANT5(arm_sort_const, bitonic_16, in_sort_const, ref_sort_const, 16, ARM_SORT_BITONIC, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_const, bubble_16, in_sort_const, ref_sort_const, 16, ARM_SORT_BUBBLE, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_const, heap_16, in_sort_const, ref_sort_const, 16, ARM_SORT_HEAP, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_const, insertion_16, in_sort_const, ref_sort_const, 16, ARM_SORT_INSERTION, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_const, quick_16, in_sort_const, ref_sort_const, 16, ARM_SORT_QUICK, ARM_SORT_ASCENDING); DEFINE_TEST_VARIANT5(arm_sort_const, selection_16, in_sort_const, ref_sort_const, 16, ARM_SORT_SELECTION, ARM_SORT_ASCENDING); static void test_arm_merge_sort_const( const uint32_t *input1, const uint32_t *ref, size_t length, arm_sort_dir dir) { float32_t *output; float32_t *scratch; arm_merge_sort_instance_f32 inst; /* Allocate output buffer */ output = malloc(length * sizeof(float32_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Allocate scratch buffer */ scratch = malloc(length * sizeof(float32_t)); zassert_not_null(scratch, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Initialise sorter */ arm_merge_sort_init_f32(&inst, dir, scratch); /* Run test function */ arm_merge_sort_f32(&inst, (float32_t *)input1, output, length); /* Validate output */ zassert_true( test_equal_f32(length, output, (float32_t *)ref), ASSERT_MSG_INCORRECT_COMP_RESULT); /* Free output buffer */ free(output); free(scratch); } DEFINE_TEST_VARIANT4(arm_merge_sort_const, 16, in_sort_const, ref_sort_const, 16, ARM_SORT_ASCENDING); void test_support_f32(void) { ztest_test_suite(support_f32, ztest_unit_test(test_arm_copy_f32_3), ztest_unit_test(test_arm_copy_f32_8), ztest_unit_test(test_arm_copy_f32_11), ztest_unit_test(test_arm_fill_f32_3), ztest_unit_test(test_arm_fill_f32_8), ztest_unit_test(test_arm_fill_f32_11), ztest_unit_test(test_arm_float_to_q31_3), ztest_unit_test(test_arm_float_to_q31_8), ztest_unit_test(test_arm_float_to_q31_11), ztest_unit_test(test_arm_float_to_q15_7), ztest_unit_test(test_arm_float_to_q15_16), ztest_unit_test(test_arm_float_to_q15_17), ztest_unit_test(test_arm_float_to_q7_15), ztest_unit_test(test_arm_float_to_q7_32), ztest_unit_test(test_arm_float_to_q7_33), ztest_unit_test(test_arm_weighted_sum_f32_3), ztest_unit_test(test_arm_weighted_sum_f32_8), ztest_unit_test(test_arm_weighted_sum_f32_11), ztest_unit_test(test_arm_sort_out_bitonic_16), ztest_unit_test(test_arm_sort_out_bitonic_32), ztest_unit_test(test_arm_sort_in_bitonic_32), ztest_unit_test(test_arm_sort_const_bitonic_16), ztest_unit_test(test_arm_sort_out_bubble_11), ztest_unit_test(test_arm_sort_in_bubble_11), ztest_unit_test(test_arm_sort_const_bubble_16), ztest_unit_test(test_arm_sort_out_heap_11), ztest_unit_test(test_arm_sort_in_heap_11), ztest_unit_test(test_arm_sort_const_heap_16), ztest_unit_test(test_arm_sort_out_insertion_11), ztest_unit_test(test_arm_sort_in_insertion_11), ztest_unit_test(test_arm_sort_const_insertion_16), ztest_unit_test(test_arm_sort_out_quick_11), ztest_unit_test(test_arm_sort_in_quick_11), ztest_unit_test(test_arm_sort_const_quick_16), ztest_unit_test(test_arm_sort_out_selection_11), ztest_unit_test(test_arm_sort_in_selection_11), ztest_unit_test(test_arm_sort_const_selection_16), ztest_unit_test(test_arm_merge_sort_out_11), ztest_unit_test(test_arm_merge_sort_const_16) ); ztest_run_test_suite(support_f32); }