tests/lib/cmsis_dsp/complexmath/src/f16.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2021 Stephanos Ioannidis <root@stephanos.io>
  * Copyright (C) 2010-2021 ARM Limited or its affiliates. All rights reserved.
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #include <zephyr/ztest.h>
 #include <zephyr/kernel.h>
 #include <stdlib.h>
 #include <arm_math_f16.h>
 #include "../../common/test_common.h"

 #include "f16.pat"

 #define SNR_ERROR_THRESH	((float32_t)39)
 #define REL_ERROR_THRESH	(6.0e-2)

 ZTEST_SUITE(complexmath_f16, NULL, NULL, NULL, NULL, NULL);

 static void test_arm_cmplx_conj_f16(
 	const uint16_t *input1, const uint16_t *ref, size_t length)
 {
 	size_t buf_length;
 	float16_t *output;

 	/* Complex number buffer length is twice the data length */
 	buf_length = 2 * length;

 	/* Allocate output buffer */
 	output = malloc(buf_length * sizeof(float16_t));
 	zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED);

 	/* Run test function */
 	arm_cmplx_conj_f16((float16_t *)input1, output, length);

 	/* Validate output */
 	zassert_true(
 		test_snr_error_f16(buf_length, output, (float16_t *)ref,
 			SNR_ERROR_THRESH),
 		ASSERT_MSG_SNR_LIMIT_EXCEED);

 	zassert_true(
 		test_rel_error_f16(buf_length, output, (float16_t *)ref,
 			REL_ERROR_THRESH),
 		ASSERT_MSG_REL_ERROR_LIMIT_EXCEED);

 	/* Free output buffer */
 	free(output);
 }

 DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_conj_f16, 7, in_com1, ref_conj, 7);
 DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_conj_f16, 16, in_com1, ref_conj, 16);
 DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_conj_f16, 23, in_com1, ref_conj, 23);

 static void test_arm_cmplx_dot_prod_f16(
 	const uint16_t *input1, const uint16_t *input2, const uint16_t *ref,
 	size_t length)
 {
 	float16_t *output;

 	/* Allocate output buffer */
 	output = malloc(2 * sizeof(float16_t));
 	zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED);

 	/* Run test function */
 	arm_cmplx_dot_prod_f16(
 		(float16_t *)input1, (float16_t *)input2, length,
 		&output[0], &output[1]);

 	/* Validate output */
 	zassert_true(
 		test_snr_error_f16(2, output, (float16_t *)ref,
 			SNR_ERROR_THRESH),
 		ASSERT_MSG_SNR_LIMIT_EXCEED);

 	zassert_true(
 		test_rel_error_f16(2, output, (float16_t *)ref,
 			REL_ERROR_THRESH),
 		ASSERT_MSG_REL_ERROR_LIMIT_EXCEED);

 	/* Free output buffer */
 	free(output);
 }

 DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_dot_prod_f16, 7, in_com1, in_com2, ref_dot_prod_3,
 		     7);
 DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_dot_prod_f16, 16, in_com1, in_com2, ref_dot_prod_4n,
 		     16);
 DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_dot_prod_f16, 23, in_com1, in_com2,
 		     ref_dot_prod_4n1, 23);

 static void test_arm_cmplx_mag_f16(
 	const uint16_t *input1, const uint16_t *ref, size_t length)
 {
 	float16_t *output;

 	/* Allocate output buffer */
 	output = malloc(length * sizeof(float16_t));
 	zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED);

 	/* Run test function */
 	arm_cmplx_mag_f16((float16_t *)input1, output, length);

 	/* Validate output */
 	zassert_true(
 		test_snr_error_f16(length, output, (float16_t *)ref,
 			SNR_ERROR_THRESH),
 		ASSERT_MSG_SNR_LIMIT_EXCEED);

 	zassert_true(
 		test_rel_error_f16(length, output, (float16_t *)ref,
 			REL_ERROR_THRESH),
 		ASSERT_MSG_REL_ERROR_LIMIT_EXCEED);

 	/* Free output buffer */
 	free(output);
 }

 DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_mag_f16, 7, in_com1, ref_mag, 7);
 DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_mag_f16, 16, in_com1, ref_mag, 16);
 DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_mag_f16, 23, in_com1, ref_mag, 23);

 static void test_arm_cmplx_mag_squared_f16(
 	const uint16_t *input1, const uint16_t *ref, size_t length)
 {
 	float16_t *output;

 	/* Allocate output buffer */
 	output = malloc(length * sizeof(float16_t));
 	zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED);

 	/* Run test function */
 	arm_cmplx_mag_squared_f16((float16_t *)input1, output, length);

 	/* Validate output */
 	zassert_true(
 		test_snr_error_f16(length, output, (float16_t *)ref,
 			SNR_ERROR_THRESH),
 		ASSERT_MSG_SNR_LIMIT_EXCEED);

 	zassert_true(
 		test_rel_error_f16(length, output, (float16_t *)ref,
 			REL_ERROR_THRESH),
 		ASSERT_MSG_REL_ERROR_LIMIT_EXCEED);

 	/* Free output buffer */
 	free(output);
 }

 DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_mag_squared_f16, 7, in_com1, ref_mag_squared, 7);
 DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_mag_squared_f16, 16, in_com1, ref_mag_squared, 16);
 DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_mag_squared_f16, 23, in_com1, ref_mag_squared, 23);

 static void test_arm_cmplx_mult_cmplx_f16(
 	const uint16_t *input1, const uint16_t *input2, const uint16_t *ref,
 	size_t length)
 {
 	size_t buf_length;
 	float16_t *output;

 	/* Complex number buffer length is twice the data length */
 	buf_length = 2 * length;

 	/* Allocate output buffer */
 	output = malloc(buf_length * sizeof(float16_t));
 	zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED);

 	/* Run test function */
 	arm_cmplx_mult_cmplx_f16(
 		(float16_t *)input1, (float16_t *)input2, output, length);

 	/* Validate output */
 	zassert_true(
 		test_snr_error_f16(buf_length, output, (float16_t *)ref,
 			SNR_ERROR_THRESH),
 		ASSERT_MSG_SNR_LIMIT_EXCEED);

 	zassert_true(
 		test_rel_error_f16(buf_length, output, (float16_t *)ref,
 			REL_ERROR_THRESH),
 		ASSERT_MSG_REL_ERROR_LIMIT_EXCEED);

 	/* Free output buffer */
 	free(output);
 }

 DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_mult_cmplx_f16, 7, in_com1, in_com2, ref_mult_cmplx,
 		     7);
 DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_mult_cmplx_f16, 16, in_com1, in_com2,
 		     ref_mult_cmplx, 16);
 DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_mult_cmplx_f16, 23, in_com1, in_com2,
 		     ref_mult_cmplx, 23);

 static void test_arm_cmplx_mult_real_f16(
 	const uint16_t *input1, const uint16_t *input2, const uint16_t *ref,
 	size_t length)
 {
 	size_t buf_length;
 	float16_t *output;

 	/* Complex number buffer length is twice the data length */
 	buf_length = 2 * length;

 	/* Allocate output buffer */
 	output = malloc(buf_length * sizeof(float16_t));
 	zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED);

 	/* Run test function */
 	arm_cmplx_mult_real_f16(
 		(float16_t *)input1, (float16_t *)input2, output, length);

 	/* Validate output */
 	zassert_true(
 		test_snr_error_f16(
 			buf_length, output, (float16_t *)ref,
 			SNR_ERROR_THRESH),
 		ASSERT_MSG_SNR_LIMIT_EXCEED);

 	zassert_true(
 		test_rel_error_f16(
 			buf_length, output, (float16_t *)ref,
 			REL_ERROR_THRESH),
 		ASSERT_MSG_REL_ERROR_LIMIT_EXCEED);

 	/* Free output buffer */
 	free(output);
 }

 DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_mult_real_f16, 7, in_com1, in_com3, ref_mult_real,
 		     7);
 DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_mult_real_f16, 16, in_com1, in_com3, ref_mult_real,
 		     16);
 DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_mult_real_f16, 23, in_com1, in_com3, ref_mult_real,
 		     23);
	/*
	* Copyright (c) 2021 Stephanos Ioannidis <root@stephanos.io>
	* Copyright (C) 2010-2021 ARM Limited or its affiliates. All rights reserved.
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#include <zephyr/ztest.h>
	#include <zephyr/kernel.h>
	#include <stdlib.h>
	#include <arm_math_f16.h>
	#include "../../common/test_common.h"

	#include "f16.pat"

	#define SNR_ERROR_THRESH ((float32_t)39)
	#define REL_ERROR_THRESH (6.0e-2)

	ZTEST_SUITE(complexmath_f16, NULL, NULL, NULL, NULL, NULL);

	static void test_arm_cmplx_conj_f16(
	const uint16_t input1, const uint16_t ref, size_t length)
	{
	size_t buf_length;
	float16_t *output;

	/* Complex number buffer length is twice the data length */
	buf_length = 2 * length;

	/* Allocate output buffer */
	output = malloc(buf_length * sizeof(float16_t));
	zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED);

	/* Run test function */
	arm_cmplx_conj_f16((float16_t *)input1, output, length);

	/* Validate output */
	zassert_true(
	test_snr_error_f16(buf_length, output, (float16_t *)ref,
	SNR_ERROR_THRESH),
	ASSERT_MSG_SNR_LIMIT_EXCEED);

	zassert_true(
	test_rel_error_f16(buf_length, output, (float16_t *)ref,
	REL_ERROR_THRESH),
	ASSERT_MSG_REL_ERROR_LIMIT_EXCEED);

	/* Free output buffer */
	free(output);
	}

	DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_conj_f16, 7, in_com1, ref_conj, 7);
	DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_conj_f16, 16, in_com1, ref_conj, 16);
	DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_conj_f16, 23, in_com1, ref_conj, 23);

	static void test_arm_cmplx_dot_prod_f16(
	const uint16_t input1, const uint16_t input2, const uint16_t *ref,
	size_t length)
	{
	float16_t *output;

	/* Allocate output buffer */
	output = malloc(2 * sizeof(float16_t));
	zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED);

	/* Run test function */
	arm_cmplx_dot_prod_f16(
	(float16_t )input1, (float16_t )input2, length,
	&output[0], &output[1]);

	/* Validate output */
	zassert_true(
	test_snr_error_f16(2, output, (float16_t *)ref,
	SNR_ERROR_THRESH),
	ASSERT_MSG_SNR_LIMIT_EXCEED);

	zassert_true(
	test_rel_error_f16(2, output, (float16_t *)ref,
	REL_ERROR_THRESH),
	ASSERT_MSG_REL_ERROR_LIMIT_EXCEED);

	/* Free output buffer */
	free(output);
	}

	DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_dot_prod_f16, 7, in_com1, in_com2, ref_dot_prod_3,
	7);
	DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_dot_prod_f16, 16, in_com1, in_com2, ref_dot_prod_4n,
	16);
	DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_dot_prod_f16, 23, in_com1, in_com2,
	ref_dot_prod_4n1, 23);

	static void test_arm_cmplx_mag_f16(
	const uint16_t input1, const uint16_t ref, size_t length)
	{
	float16_t *output;

	/* Allocate output buffer */
	output = malloc(length * sizeof(float16_t));
	zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED);

	/* Run test function */
	arm_cmplx_mag_f16((float16_t *)input1, output, length);

	/* Validate output */
	zassert_true(
	test_snr_error_f16(length, output, (float16_t *)ref,
	SNR_ERROR_THRESH),
	ASSERT_MSG_SNR_LIMIT_EXCEED);

	zassert_true(
	test_rel_error_f16(length, output, (float16_t *)ref,
	REL_ERROR_THRESH),
	ASSERT_MSG_REL_ERROR_LIMIT_EXCEED);

	/* Free output buffer */
	free(output);
	}

	DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_mag_f16, 7, in_com1, ref_mag, 7);
	DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_mag_f16, 16, in_com1, ref_mag, 16);
	DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_mag_f16, 23, in_com1, ref_mag, 23);

	static void test_arm_cmplx_mag_squared_f16(
	const uint16_t input1, const uint16_t ref, size_t length)
	{
	float16_t *output;

	/* Allocate output buffer */
	output = malloc(length * sizeof(float16_t));
	zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED);

	/* Run test function */
	arm_cmplx_mag_squared_f16((float16_t *)input1, output, length);

	/* Validate output */
	zassert_true(
	test_snr_error_f16(length, output, (float16_t *)ref,
	SNR_ERROR_THRESH),
	ASSERT_MSG_SNR_LIMIT_EXCEED);

	zassert_true(
	test_rel_error_f16(length, output, (float16_t *)ref,
	REL_ERROR_THRESH),
	ASSERT_MSG_REL_ERROR_LIMIT_EXCEED);

	/* Free output buffer */
	free(output);
	}

	DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_mag_squared_f16, 7, in_com1, ref_mag_squared, 7);
	DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_mag_squared_f16, 16, in_com1, ref_mag_squared, 16);
	DEFINE_TEST_VARIANT3(complexmath_f16, arm_cmplx_mag_squared_f16, 23, in_com1, ref_mag_squared, 23);

	static void test_arm_cmplx_mult_cmplx_f16(
	const uint16_t input1, const uint16_t input2, const uint16_t *ref,
	size_t length)
	{
	size_t buf_length;
	float16_t *output;

	/* Complex number buffer length is twice the data length */
	buf_length = 2 * length;

	/* Allocate output buffer */
	output = malloc(buf_length * sizeof(float16_t));
	zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED);

	/* Run test function */
	arm_cmplx_mult_cmplx_f16(
	(float16_t )input1, (float16_t )input2, output, length);

	/* Validate output */
	zassert_true(
	test_snr_error_f16(buf_length, output, (float16_t *)ref,
	SNR_ERROR_THRESH),
	ASSERT_MSG_SNR_LIMIT_EXCEED);

	zassert_true(
	test_rel_error_f16(buf_length, output, (float16_t *)ref,
	REL_ERROR_THRESH),
	ASSERT_MSG_REL_ERROR_LIMIT_EXCEED);

	/* Free output buffer */
	free(output);
	}

	DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_mult_cmplx_f16, 7, in_com1, in_com2, ref_mult_cmplx,
	7);
	DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_mult_cmplx_f16, 16, in_com1, in_com2,
	ref_mult_cmplx, 16);
	DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_mult_cmplx_f16, 23, in_com1, in_com2,
	ref_mult_cmplx, 23);

	static void test_arm_cmplx_mult_real_f16(
	const uint16_t input1, const uint16_t input2, const uint16_t *ref,
	size_t length)
	{
	size_t buf_length;
	float16_t *output;

	/* Complex number buffer length is twice the data length */
	buf_length = 2 * length;

	/* Allocate output buffer */
	output = malloc(buf_length * sizeof(float16_t));
	zassert_not_null(output, ASSERT_MSG_BUFFER_ALLOC_FAILED);

	/* Run test function */
	arm_cmplx_mult_real_f16(
	(float16_t )input1, (float16_t )input2, output, length);

	/* Validate output */
	zassert_true(
	test_snr_error_f16(
	buf_length, output, (float16_t *)ref,
	SNR_ERROR_THRESH),
	ASSERT_MSG_SNR_LIMIT_EXCEED);

	zassert_true(
	test_rel_error_f16(
	buf_length, output, (float16_t *)ref,
	REL_ERROR_THRESH),
	ASSERT_MSG_REL_ERROR_LIMIT_EXCEED);

	/* Free output buffer */
	free(output);
	}

	DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_mult_real_f16, 7, in_com1, in_com3, ref_mult_real,
	7);
	DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_mult_real_f16, 16, in_com1, in_com3, ref_mult_real,
	16);
	DEFINE_TEST_VARIANT4(complexmath_f16, arm_cmplx_mult_real_f16, 23, in_com1, in_com3, ref_mult_real,
	23);