/* * 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. */ #include "media/Pose.h" #include #include "media/QuaternionUtil.h" #include "TestUtil.h" using android::media::Pose3f; using Eigen::Quaternionf; using Eigen::Vector3f; namespace android { namespace media { namespace { TEST(Pose, CtorDefault) { Pose3f pose; EXPECT_EQ(pose.translation(), Vector3f::Zero()); EXPECT_EQ(pose.rotation(), Quaternionf::Identity()); } TEST(Pose, CtorRotation) { Quaternionf rot = Quaternionf::UnitRandom(); Pose3f pose(rot); EXPECT_EQ(pose.translation(), Vector3f::Zero()); EXPECT_EQ(pose.rotation(), rot); } TEST(Pose, CtorTranslation) { Vector3f trans{1, 2, 3}; Pose3f pose(trans); EXPECT_EQ(pose.translation(), trans); EXPECT_EQ(pose.rotation(), Quaternionf::Identity()); } TEST(Pose, CtorTranslationRotation) { Quaternionf rot = Quaternionf::UnitRandom(); Vector3f trans{1, 2, 3}; Pose3f pose(trans, rot); EXPECT_EQ(pose.translation(), trans); EXPECT_EQ(pose.rotation(), rot); } TEST(Pose, Inverse) { Pose3f pose({1, 2, 3}, Quaternionf::UnitRandom()); EXPECT_EQ(pose.inverse() * pose, Pose3f()); EXPECT_EQ(pose * pose.inverse(), Pose3f()); } TEST(Pose, IsApprox) { constexpr float eps = std::numeric_limits::epsilon(); EXPECT_EQ(Pose3f({1, 2, 3}, rotationVectorToQuaternion({4, 5, 6})), Pose3f({1 + eps, 2 + eps, 3 + eps}, rotationVectorToQuaternion({4 + eps, 5 + eps, 6 + eps}))); EXPECT_NE(Pose3f({1, 2, 3}, rotationVectorToQuaternion({4, 5, 6})), Pose3f({1.01, 2, 3}, rotationVectorToQuaternion({4, 5, 6}))); EXPECT_NE(Pose3f({1, 2, 3}, rotationVectorToQuaternion({4, 5, 6})), Pose3f({1, 2, 3}, rotationVectorToQuaternion({4.01, 5, 6}))); } TEST(Pose, Compose) { Pose3f p1({1, 2, 3}, rotateZ(M_PI_2)); Pose3f p2({4, 5, 6}, rotateX(M_PI_2)); Pose3f p3({-4, 6, 9}, p1.rotation() * p2.rotation()); EXPECT_EQ(p1 * p2, p3); } TEST(Pose, MoveWithRateLimit_NoLimit) { Pose3f from({1, 1, 1}, Quaternionf::Identity()); Pose3f to({1, 1, 2}, rotateZ(M_PI_2)); auto result = moveWithRateLimit(from, to, 1, 10, 10); EXPECT_EQ(std::get<0>(result), to); EXPECT_FALSE(std::get<1>(result)); } TEST(Pose, MoveWithRateLimit_TranslationLimit) { Pose3f from({1, 1, 1}, Quaternionf::Identity()); Pose3f to({1, 1, 2}, rotateZ(M_PI_2)); auto result = moveWithRateLimit(from, to, 1, 0.5f, 10); Pose3f expected({1, 1, 1.5f}, rotateZ(M_PI_4)); EXPECT_EQ(std::get<0>(result), expected); EXPECT_TRUE(std::get<1>(result)); } TEST(Pose, MoveWithRateLimit_RotationLimit) { Pose3f from({1, 1, 1}, Quaternionf::Identity()); Pose3f to({1, 1, 2}, rotateZ(M_PI_2)); auto result = moveWithRateLimit(from, to, 1, 10, M_PI_4); Pose3f expected({1, 1, 1.5f}, rotateZ(M_PI_4)); EXPECT_EQ(std::get<0>(result), expected); EXPECT_TRUE(std::get<1>(result)); } TEST(Pose, FloatVectorRoundTrip1) { // Rotation vector magnitude must be less than Pi. std::vector vec = { 1, 2, 3, 0.4, 0.5, 0.6}; std::optional pose = Pose3f::fromVector(vec); ASSERT_TRUE(pose.has_value()); std::vector reconstructed = pose->toVector(); EXPECT_EQ(vec, reconstructed); } TEST(Pose, FloatVectorRoundTrip2) { Pose3f pose({1, 2, 3}, Quaternionf::UnitRandom()); std::vector vec = pose.toVector(); std::optional reconstructed = Pose3f::fromVector(vec); ASSERT_TRUE(reconstructed.has_value()); EXPECT_EQ(pose, reconstructed.value()); } TEST(Pose, FloatVectorInvalid) { EXPECT_FALSE(Pose3f::fromVector({}).has_value()); EXPECT_FALSE(Pose3f::fromVector({1, 2, 3, 4, 5}).has_value()); EXPECT_FALSE(Pose3f::fromVector({1, 2, 3, 4, 5, 6, 7}).has_value()); } } // namespace } // namespace media } // namespace android