media/libheadtracking/TestUtil.h - LeafOS-Project/android_frameworks_av - Gitiles

 /*
  * Copyright (C) 2021 The Android Open Source Project
  *
  * 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.
  */
 #pragma once

 #include <gtest/gtest.h>

 #include "media/Pose.h"
 #include "media/Twist.h"

 namespace {

 constexpr float kPoseComparisonPrecision = 1e-5;

 }  // namespace

 // These specializations make {EXPECT,ASSERT}_{EQ,NE} work correctly for Pose3f, Twist3f, Vector3f
 // and Quaternionf.
 namespace testing {
 namespace internal {

 template <>
 inline AssertionResult CmpHelperEQ<android::media::Pose3f, android::media::Pose3f>(
         const char* lhs_expression, const char* rhs_expression, const android::media::Pose3f& lhs,
         const android::media::Pose3f& rhs) {
     if (lhs.isApprox(rhs, kPoseComparisonPrecision)) {
         return AssertionSuccess();
     }

     return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
 }

 template <>
 inline AssertionResult CmpHelperNE<android::media::Pose3f, android::media::Pose3f>(
         const char* lhs_expression, const char* rhs_expression, const android::media::Pose3f& lhs,
         const android::media::Pose3f& rhs) {
     if (!lhs.isApprox(rhs, kPoseComparisonPrecision)) {
         return AssertionSuccess();
     }

     return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
 }

 template <>
 inline AssertionResult CmpHelperEQ<android::media::Twist3f, android::media::Twist3f>(
         const char* lhs_expression, const char* rhs_expression, const android::media::Twist3f& lhs,
         const android::media::Twist3f& rhs) {
     if (lhs.isApprox(rhs, kPoseComparisonPrecision)) {
         return AssertionSuccess();
     }

     return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
 }

 template <>
 inline AssertionResult CmpHelperNE<android::media::Twist3f, android::media::Twist3f>(
         const char* lhs_expression, const char* rhs_expression, const android::media::Twist3f& lhs,
         const android::media::Twist3f& rhs) {
     if (!lhs.isApprox(rhs, kPoseComparisonPrecision)) {
         return AssertionSuccess();
     }

     return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
 }

 template <>
 inline AssertionResult CmpHelperEQ<Eigen::Vector3f, Eigen::Vector3f>(const char* lhs_expression,
                                                                      const char* rhs_expression,
                                                                      const Eigen::Vector3f& lhs,
                                                                      const Eigen::Vector3f& rhs) {
     if (lhs.isApprox(rhs)) {
         return AssertionSuccess();
     }

     return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
 }

 template <>
 inline AssertionResult CmpHelperNE<Eigen::Vector3f, Eigen::Vector3f>(const char* lhs_expression,
                                                                      const char* rhs_expression,
                                                                      const Eigen::Vector3f& lhs,
                                                                      const Eigen::Vector3f& rhs) {
     if (!lhs.isApprox(rhs)) {
         return AssertionSuccess();
     }

     return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
 }

 template <>
 inline AssertionResult CmpHelperEQ<Eigen::Quaternionf, Eigen::Quaternionf>(
         const char* lhs_expression, const char* rhs_expression, const Eigen::Quaternionf& lhs,
         const Eigen::Quaternionf& rhs) {
     // Negating the coefs results in an equivalent quaternion.
     if (lhs.isApprox(rhs) || lhs.isApprox(Eigen::Quaternionf(-rhs.coeffs()))) {
         return AssertionSuccess();
     }

     return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
 }

 template <>
 inline AssertionResult CmpHelperNE<Eigen::Quaternionf, Eigen::Quaternionf>(
         const char* lhs_expression, const char* rhs_expression, const Eigen::Quaternionf& lhs,
         const Eigen::Quaternionf& rhs) {
     // Negating the coefs results in an equivalent quaternion.
     if (!(lhs.isApprox(rhs) || lhs.isApprox(Eigen::Quaternionf(-rhs.coeffs())))) {
         return AssertionSuccess();
     }

     return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
 }

 }  // namespace internal
 }  // namespace testing
	/*
	* Copyright (C) 2021 The Android Open Source Project
	*
	* 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.
	*/
	#pragma once

	#include <gtest/gtest.h>

	#include "media/Pose.h"
	#include "media/Twist.h"

	namespace {

	constexpr float kPoseComparisonPrecision = 1e-5;

	} // namespace

	// These specializations make {EXPECT,ASSERT}_{EQ,NE} work correctly for Pose3f, Twist3f, Vector3f
	// and Quaternionf.
	namespace testing {
	namespace internal {

	template <>
	inline AssertionResult CmpHelperEQ<android::media::Pose3f, android::media::Pose3f>(
	const char* lhs_expression, const char* rhs_expression, const android::media::Pose3f& lhs,
	const android::media::Pose3f& rhs) {
	if (lhs.isApprox(rhs, kPoseComparisonPrecision)) {
	return AssertionSuccess();
	}

	return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
	}

	template <>
	inline AssertionResult CmpHelperNE<android::media::Pose3f, android::media::Pose3f>(
	const char* lhs_expression, const char* rhs_expression, const android::media::Pose3f& lhs,
	const android::media::Pose3f& rhs) {
	if (!lhs.isApprox(rhs, kPoseComparisonPrecision)) {
	return AssertionSuccess();
	}

	return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
	}

	template <>
	inline AssertionResult CmpHelperEQ<android::media::Twist3f, android::media::Twist3f>(
	const char* lhs_expression, const char* rhs_expression, const android::media::Twist3f& lhs,
	const android::media::Twist3f& rhs) {
	if (lhs.isApprox(rhs, kPoseComparisonPrecision)) {
	return AssertionSuccess();
	}

	return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
	}

	template <>
	inline AssertionResult CmpHelperNE<android::media::Twist3f, android::media::Twist3f>(
	const char* lhs_expression, const char* rhs_expression, const android::media::Twist3f& lhs,
	const android::media::Twist3f& rhs) {
	if (!lhs.isApprox(rhs, kPoseComparisonPrecision)) {
	return AssertionSuccess();
	}

	return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
	}

	template <>
	inline AssertionResult CmpHelperEQ<Eigen::Vector3f, Eigen::Vector3f>(const char* lhs_expression,
	const char* rhs_expression,
	const Eigen::Vector3f& lhs,
	const Eigen::Vector3f& rhs) {
	if (lhs.isApprox(rhs)) {
	return AssertionSuccess();
	}

	return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
	}

	template <>
	inline AssertionResult CmpHelperNE<Eigen::Vector3f, Eigen::Vector3f>(const char* lhs_expression,
	const char* rhs_expression,
	const Eigen::Vector3f& lhs,
	const Eigen::Vector3f& rhs) {
	if (!lhs.isApprox(rhs)) {
	return AssertionSuccess();
	}

	return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
	}

	template <>
	inline AssertionResult CmpHelperEQ<Eigen::Quaternionf, Eigen::Quaternionf>(
	const char* lhs_expression, const char* rhs_expression, const Eigen::Quaternionf& lhs,
	const Eigen::Quaternionf& rhs) {
	// Negating the coefs results in an equivalent quaternion.
	if (lhs.isApprox(rhs) \|\| lhs.isApprox(Eigen::Quaternionf(-rhs.coeffs()))) {
	return AssertionSuccess();
	}

	return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
	}

	template <>
	inline AssertionResult CmpHelperNE<Eigen::Quaternionf, Eigen::Quaternionf>(
	const char* lhs_expression, const char* rhs_expression, const Eigen::Quaternionf& lhs,
	const Eigen::Quaternionf& rhs) {
	// Negating the coefs results in an equivalent quaternion.
	if (!(lhs.isApprox(rhs) \|\| lhs.isApprox(Eigen::Quaternionf(-rhs.coeffs())))) {
	return AssertionSuccess();
	}

	return CmpHelperEQFailure(lhs_expression, rhs_expression, lhs, rhs);
	}

	} // namespace internal
	} // namespace testing