/* * 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 #include "StillnessDetector.h" #include "media/QuaternionUtil.h" #include "TestUtil.h" namespace android { namespace media { namespace { using Eigen::Quaternionf; using Eigen::Vector3f; using Options = StillnessDetector::Options; class StillnessDetectorTest : public testing::TestWithParam { public: void SetUp() override { mDefaultValue = GetParam(); } protected: bool mDefaultValue; }; TEST_P(StillnessDetectorTest, Still) { StillnessDetector detector(Options{.defaultValue = mDefaultValue, .windowDuration = 1000, .translationalThreshold = 1, .rotationalThreshold = 0.05}); const Pose3f baseline(Vector3f{1, 2, 3}, Quaternionf::UnitRandom()); const Pose3f withinThreshold = baseline * Pose3f(Vector3f(0.3, -0.3, 0), rotateX(0.01) * rotateY(-0.01)); EXPECT_EQ(mDefaultValue, detector.calculate(0)); detector.setInput(0, baseline); EXPECT_EQ(mDefaultValue, detector.calculate(0)); detector.setInput(300, withinThreshold); EXPECT_EQ(mDefaultValue, detector.calculate(300)); detector.setInput(600, baseline); EXPECT_EQ(mDefaultValue, detector.calculate(600)); detector.setInput(999, withinThreshold); EXPECT_EQ(mDefaultValue, detector.calculate(999)); detector.setInput(1000, baseline); EXPECT_TRUE(detector.calculate(1000)); } TEST_P(StillnessDetectorTest, ZeroDuration) { StillnessDetector detector(Options{.defaultValue = mDefaultValue, .windowDuration = 0}); EXPECT_TRUE(detector.calculate(0)); EXPECT_TRUE(detector.calculate(1000)); } TEST_P(StillnessDetectorTest, NotStillTranslation) { StillnessDetector detector(Options{.defaultValue = mDefaultValue, .windowDuration = 1000, .translationalThreshold = 1, .rotationalThreshold = 0.05}); const Pose3f baseline(Vector3f{1, 2, 3}, Quaternionf::UnitRandom()); const Pose3f withinThreshold = baseline * Pose3f(Vector3f(0.3, -0.3, 0), rotateX(0.01) * rotateY(-0.01)); const Pose3f outsideThreshold = baseline * Pose3f(Vector3f(1, 1, 0)); EXPECT_EQ(mDefaultValue, detector.calculate(0)); detector.setInput(0, baseline); EXPECT_EQ(mDefaultValue, detector.calculate(0)); detector.setInput(300, outsideThreshold); EXPECT_EQ(mDefaultValue, detector.calculate(300)); detector.setInput(600, baseline); EXPECT_EQ(mDefaultValue, detector.calculate(600)); detector.setInput(1299, withinThreshold); EXPECT_FALSE(detector.calculate(1299)); detector.setInput(1300, baseline); EXPECT_TRUE(detector.calculate(1300)); } TEST_P(StillnessDetectorTest, NotStillRotation) { StillnessDetector detector(Options{.defaultValue = mDefaultValue, .windowDuration = 1000, .translationalThreshold = 1, .rotationalThreshold = 0.05}); const Pose3f baseline(Vector3f{1, 2, 3}, Quaternionf::UnitRandom()); const Pose3f withinThreshold = baseline * Pose3f(Vector3f(0.3, -0.3, 0), rotateX(0.03) * rotateY(-0.03)); const Pose3f outsideThreshold = baseline * Pose3f(rotateZ(0.06)); EXPECT_EQ(mDefaultValue, detector.calculate(0)); detector.setInput(0, baseline); EXPECT_EQ(mDefaultValue, detector.calculate(0)); detector.setInput(300, outsideThreshold); EXPECT_EQ(mDefaultValue, detector.calculate(300)); detector.setInput(600, baseline); EXPECT_EQ(mDefaultValue, detector.calculate(600)); detector.setInput(1299, withinThreshold); EXPECT_FALSE(detector.calculate(1299)); detector.setInput(1300, baseline); EXPECT_TRUE(detector.calculate(1300)); } TEST_P(StillnessDetectorTest, Suppression) { StillnessDetector detector(Options{.defaultValue = mDefaultValue, .windowDuration = 1000, .translationalThreshold = 1, .rotationalThreshold = 0.05}); const Pose3f baseline(Vector3f{1, 2, 3}, Quaternionf::UnitRandom()); const Pose3f outsideThreshold = baseline * Pose3f(Vector3f(1.1, 0, 0)); const Pose3f middlePoint = baseline * Pose3f(Vector3f(0.55, 0, 0)); detector.setInput(0, baseline); detector.setInput(1000, baseline); EXPECT_TRUE(detector.calculate(1000)); detector.setInput(1100, outsideThreshold); EXPECT_FALSE(detector.calculate(1100)); detector.setInput(1500, middlePoint); EXPECT_FALSE(detector.calculate(1500)); EXPECT_FALSE(detector.calculate(1999)); EXPECT_TRUE(detector.calculate(2000)); } TEST_P(StillnessDetectorTest, Reset) { StillnessDetector detector(Options{.defaultValue = mDefaultValue, .windowDuration = 1000, .translationalThreshold = 1, .rotationalThreshold = 0.05}); const Pose3f baseline(Vector3f{1, 2, 3}, Quaternionf::UnitRandom()); const Pose3f withinThreshold = baseline * Pose3f(Vector3f(0.3, -0.3, 0), rotateX(0.01) * rotateY(-0.01)); EXPECT_EQ(mDefaultValue, detector.calculate(0)); detector.setInput(300, baseline); EXPECT_EQ(mDefaultValue, detector.calculate(300)); detector.reset(); detector.setInput(600, baseline); EXPECT_EQ(mDefaultValue, detector.calculate(600)); detector.setInput(900, withinThreshold); EXPECT_EQ(mDefaultValue, detector.calculate(900)); detector.setInput(1200, baseline); EXPECT_EQ(mDefaultValue, detector.calculate(1200)); detector.setInput(1599, withinThreshold); EXPECT_EQ(mDefaultValue, detector.calculate(1599)); detector.setInput(1600, baseline); EXPECT_TRUE(detector.calculate(1600)); } INSTANTIATE_TEST_SUITE_P(StillnessDetectorTestParametrized, StillnessDetectorTest, testing::Values(false, true)); } // namespace } // namespace media } // namespace android