/* * 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 "q15.pat" #define SNR_ERROR_THRESH ((float32_t)70) #define ABS_ERROR_THRESH ((q15_t)10) ZTEST_SUITE(fastmath_q15, NULL, NULL, NULL, NULL, NULL); ZTEST(fastmath_q15, test_arm_cos_q15) { size_t index; size_t length = ARRAY_SIZE(in_angles); q15_t *output; /* Allocate output buffer */ output = malloc(length * sizeof(q15_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Run test function */ for (index = 0; index < length; index++) { output[index] = arm_cos_q15(in_angles[index]); } /* Validate output */ zassert_true( test_snr_error_q15(length, output, ref_cos, SNR_ERROR_THRESH), ASSERT_MSG_SNR_LIMIT_EXCEED); zassert_true( test_near_equal_q15(length, output, ref_cos, ABS_ERROR_THRESH), ASSERT_MSG_ABS_ERROR_LIMIT_EXCEED); /* Free output buffer */ free(output); } ZTEST(fastmath_q15, test_arm_sin_q15) { size_t index; size_t length = ARRAY_SIZE(in_angles); q15_t *output; /* Allocate output buffer */ output = malloc(length * sizeof(q15_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Run test function */ for (index = 0; index < length; index++) { output[index] = arm_sin_q15(in_angles[index]); } /* Validate output */ zassert_true( test_snr_error_q15(length, output, ref_sin, SNR_ERROR_THRESH), ASSERT_MSG_SNR_LIMIT_EXCEED); zassert_true( test_near_equal_q15(length, output, ref_sin, ABS_ERROR_THRESH), ASSERT_MSG_ABS_ERROR_LIMIT_EXCEED); /* Free output buffer */ free(output); } ZTEST(fastmath_q15, test_arm_sqrt_q15) { size_t index; size_t length = ARRAY_SIZE(in_sqrt); arm_status status; q15_t *output; /* Allocate output buffer */ output = malloc(length * sizeof(q15_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Run test function */ for (index = 0; index < length; index++) { status = arm_sqrt_q15(in_sqrt[index], &output[index]); /* Validate operation status */ if (in_sqrt[index] < 0) { zassert_equal(status, ARM_MATH_ARGUMENT_ERROR, "square root did fail with an input value " "of less than '0'"); } else { zassert_equal(status, ARM_MATH_SUCCESS, "square root operation did not succeed"); } } /* Validate output */ zassert_true( test_snr_error_q15(length, output, ref_sqrt, SNR_ERROR_THRESH), ASSERT_MSG_SNR_LIMIT_EXCEED); zassert_true( test_near_equal_q15(length, output, ref_sqrt, ABS_ERROR_THRESH), ASSERT_MSG_ABS_ERROR_LIMIT_EXCEED); /* Free output buffer */ free(output); } ZTEST(fastmath_q15, test_arm_divide_q15) { size_t index; size_t length = ARRAY_SIZE(ref_divide); arm_status status; q15_t *output; uint16_t *shift; /* Allocate output buffer */ output = malloc(length * sizeof(q15_t)); zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED); shift = malloc(length * sizeof(uint16_t)); zassert_not_null(shift, ASSERT_MSG_BUFFER_ALLOC_FAILED); /* Run test function */ for (index = 0; index < length; index++) { status = arm_divide_q15( in_divide_num[index], in_divide_den[index], &output[index], &shift[index]); } /* Validate output */ zassert_true( test_snr_error_q15(length, output, ref_divide, SNR_ERROR_THRESH), ASSERT_MSG_SNR_LIMIT_EXCEED); zassert_true( test_near_equal_q15(length, output, ref_divide, ABS_ERROR_THRESH), ASSERT_MSG_ABS_ERROR_LIMIT_EXCEED); zassert_true( memcmp(shift, ref_divide_shift, length * sizeof(uint16_t)) == 0, ASSERT_MSG_INCORRECT_COMP_RESULT); /* Free output buffer */ free(output); free(shift); }