Blame - services/surfaceflinger/tests/unittests/LayerInfoTest.cpp - android_frameworks_native

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Marin Shalamanov	2045d5b	2020-12-28 18:11:41 +0100	[diff] [blame]	1	/*
				2	* Copyright 2020 The Android Open Source Project
				3	*
				4	* Licensed under the Apache License, Version 2.0 (the "License");
				5	* you may not use this file except in compliance with the License.
				6	* You may obtain a copy of the License at
				7	*
				8	* http://www.apache.org/licenses/LICENSE-2.0
				9	*
				10	* Unless required by applicable law or agreed to in writing, software
				11	* distributed under the License is distributed on an "AS IS" BASIS,
				12	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
				13	* See the License for the specific language governing permissions and
				14	* limitations under the License.
				15	*/
				16
				17	#undef LOG_TAG
				18	#define LOG_TAG "LayerInfoTest"
				19
				20	#include <gtest/gtest.h>
				21
				22	#include "Fps.h"
				23	#include "Scheduler/LayerHistory.h"
				24	#include "Scheduler/LayerInfo.h"
				25
				26	namespace android::scheduler {
				27
				28	class LayerInfoTest : public testing::Test {
				29	protected:
				30	using FrameTimeData = LayerInfo::FrameTimeData;
				31
				32	void setFrameTimes(const std::deque<FrameTimeData>& frameTimes) {
				33	layerInfo.mFrameTimes = frameTimes;
				34	}
				35
				36	void setLastRefreshRate(Fps fps) {
				37	layerInfo.mLastRefreshRate.reported = fps;
				38	layerInfo.mLastRefreshRate.calculated = fps;
				39	}
				40
				41	auto calculateAverageFrameTime() { return layerInfo.calculateAverageFrameTime(); }
				42
Ady Abraham	bdda8f0	2021-04-01 16:06:11 -0700	[diff] [blame]	43	LayerInfo layerInfo{"TestLayerInfo", 0, LayerHistory::LayerVoteType::Heuristic};
Marin Shalamanov	2045d5b	2020-12-28 18:11:41 +0100	[diff] [blame]	44	};
				45
				46	namespace {
				47
				48	TEST_F(LayerInfoTest, prefersPresentTime) {
				49	std::deque<FrameTimeData> frameTimes;
				50	constexpr auto kExpectedFps = Fps(50.0f);
				51	constexpr auto kPeriod = kExpectedFps.getPeriodNsecs();
				52	constexpr int kNumFrames = 10;
				53	for (int i = 1; i <= kNumFrames; i++) {
				54	frameTimes.push_back(FrameTimeData{.presentTime = kPeriod * i,
				55	.queueTime = 0,
Marin Shalamanov	a7fe304	2021-01-29 21:02:08 +0100	[diff] [blame]	56	.pendingModeChange = false});
Marin Shalamanov	2045d5b	2020-12-28 18:11:41 +0100	[diff] [blame]	57	}
				58	setFrameTimes(frameTimes);
				59	const auto averageFrameTime = calculateAverageFrameTime();
				60	ASSERT_TRUE(averageFrameTime.has_value());
				61	const auto averageFps = Fps::fromPeriodNsecs(*averageFrameTime);
				62	ASSERT_TRUE(kExpectedFps.equalsWithMargin(averageFps))
				63	<< "Expected " << averageFps << " to be equal to " << kExpectedFps;
				64	}
				65
				66	TEST_F(LayerInfoTest, fallbacksToQueueTimeIfNoPresentTime) {
				67	std::deque<FrameTimeData> frameTimes;
				68	constexpr auto kExpectedFps = Fps(50.0f);
				69	constexpr auto kPeriod = kExpectedFps.getPeriodNsecs();
				70	constexpr int kNumFrames = 10;
				71	for (int i = 1; i <= kNumFrames; i++) {
				72	frameTimes.push_back(FrameTimeData{.presentTime = 0,
				73	.queueTime = kPeriod * i,
Marin Shalamanov	a7fe304	2021-01-29 21:02:08 +0100	[diff] [blame]	74	.pendingModeChange = false});
Marin Shalamanov	2045d5b	2020-12-28 18:11:41 +0100	[diff] [blame]	75	}
				76	setFrameTimes(frameTimes);
				77	setLastRefreshRate(Fps(20.0f)); // Set to some valid value
				78	const auto averageFrameTime = calculateAverageFrameTime();
				79	ASSERT_TRUE(averageFrameTime.has_value());
				80	const auto averageFps = Fps::fromPeriodNsecs(*averageFrameTime);
				81	ASSERT_TRUE(kExpectedFps.equalsWithMargin(averageFps))
				82	<< "Expected " << averageFps << " to be equal to " << kExpectedFps;
				83	}
				84
				85	TEST_F(LayerInfoTest, returnsNulloptIfThereWasConfigChange) {
				86	std::deque<FrameTimeData> frameTimesWithoutConfigChange;
				87	const auto period = Fps(50.0f).getPeriodNsecs();
				88	constexpr int kNumFrames = 10;
				89	for (int i = 1; i <= kNumFrames; i++) {
				90	frameTimesWithoutConfigChange.push_back(FrameTimeData{.presentTime = period * i,
				91	.queueTime = period * i,
Marin Shalamanov	a7fe304	2021-01-29 21:02:08 +0100	[diff] [blame]	92	.pendingModeChange = false});
Marin Shalamanov	2045d5b	2020-12-28 18:11:41 +0100	[diff] [blame]	93	}
				94
				95	setFrameTimes(frameTimesWithoutConfigChange);
				96	ASSERT_TRUE(calculateAverageFrameTime().has_value());
				97
				98	{
				99	// Config change in the first record
				100	auto frameTimes = frameTimesWithoutConfigChange;
Marin Shalamanov	a7fe304	2021-01-29 21:02:08 +0100	[diff] [blame]	101	frameTimes[0].pendingModeChange = true;
Marin Shalamanov	2045d5b	2020-12-28 18:11:41 +0100	[diff] [blame]	102	setFrameTimes(frameTimes);
				103	ASSERT_FALSE(calculateAverageFrameTime().has_value());
				104	}
				105
				106	{
				107	// Config change in the last record
				108	auto frameTimes = frameTimesWithoutConfigChange;
Marin Shalamanov	a7fe304	2021-01-29 21:02:08 +0100	[diff] [blame]	109	frameTimes[frameTimes.size() - 1].pendingModeChange = true;
Marin Shalamanov	2045d5b	2020-12-28 18:11:41 +0100	[diff] [blame]	110	setFrameTimes(frameTimes);
				111	ASSERT_FALSE(calculateAverageFrameTime().has_value());
				112	}
				113
				114	{
				115	// Config change in the middle
				116	auto frameTimes = frameTimesWithoutConfigChange;
Marin Shalamanov	a7fe304	2021-01-29 21:02:08 +0100	[diff] [blame]	117	frameTimes[frameTimes.size() / 2].pendingModeChange = true;
Marin Shalamanov	2045d5b	2020-12-28 18:11:41 +0100	[diff] [blame]	118	setFrameTimes(frameTimes);
				119	ASSERT_FALSE(calculateAverageFrameTime().has_value());
				120	}
				121	}
				122
				123	// A frame can be recorded twice with very close presentation or queue times.
				124	// Make sure that this doesn't influence the calculated average FPS.
				125	TEST_F(LayerInfoTest, ignoresSmallPeriods) {
				126	std::deque<FrameTimeData> frameTimes;
				127	constexpr auto kExpectedFps = Fps(50.0f);
				128	constexpr auto kExpectedPeriod = kExpectedFps.getPeriodNsecs();
				129	constexpr auto kSmallPeriod = Fps(150.0f).getPeriodNsecs();
				130	constexpr int kNumIterations = 10;
				131	for (int i = 1; i <= kNumIterations; i++) {
				132	frameTimes.push_back(FrameTimeData{.presentTime = kExpectedPeriod * i,
				133	.queueTime = 0,
Marin Shalamanov	a7fe304	2021-01-29 21:02:08 +0100	[diff] [blame]	134	.pendingModeChange = false});
Marin Shalamanov	2045d5b	2020-12-28 18:11:41 +0100	[diff] [blame]	135
				136	// A duplicate frame
				137	frameTimes.push_back(FrameTimeData{.presentTime = kExpectedPeriod * i + kSmallPeriod,
				138	.queueTime = 0,
Marin Shalamanov	a7fe304	2021-01-29 21:02:08 +0100	[diff] [blame]	139	.pendingModeChange = false});
Marin Shalamanov	2045d5b	2020-12-28 18:11:41 +0100	[diff] [blame]	140	}
				141	setFrameTimes(frameTimes);
				142	const auto averageFrameTime = calculateAverageFrameTime();
				143	ASSERT_TRUE(averageFrameTime.has_value());
				144	const auto averageFps = Fps::fromPeriodNsecs(*averageFrameTime);
				145	ASSERT_TRUE(kExpectedFps.equalsWithMargin(averageFps))
				146	<< "Expected " << averageFps << " to be equal to " << kExpectedFps;
				147	}
				148
				149	// There may be a big period of time between two frames. Make sure that
				150	// this doesn't influence the calculated average FPS.
				151	TEST_F(LayerInfoTest, ignoresLargePeriods) {
				152	std::deque<FrameTimeData> frameTimes;
				153	constexpr auto kExpectedFps = Fps(50.0f);
				154	constexpr auto kExpectedPeriod = kExpectedFps.getPeriodNsecs();
				155	constexpr auto kLargePeriod = Fps(9.0f).getPeriodNsecs();
				156
				157	auto record = [&](nsecs_t time) {
				158	frameTimes.push_back(
Marin Shalamanov	a7fe304	2021-01-29 21:02:08 +0100	[diff] [blame]	159	FrameTimeData{.presentTime = time, .queueTime = 0, .pendingModeChange = false});
Marin Shalamanov	2045d5b	2020-12-28 18:11:41 +0100	[diff] [blame]	160	};
				161
				162	auto time = kExpectedPeriod; // Start with non-zero time.
				163	record(time);
				164	time += kLargePeriod;
				165	record(time);
				166	constexpr int kNumIterations = 10;
				167	for (int i = 1; i <= kNumIterations; i++) {
				168	time += kExpectedPeriod;
				169	record(time);
				170	}
				171
				172	setFrameTimes(frameTimes);
				173	const auto averageFrameTime = calculateAverageFrameTime();
				174	ASSERT_TRUE(averageFrameTime.has_value());
				175	const auto averageFps = Fps::fromPeriodNsecs(*averageFrameTime);
				176	ASSERT_TRUE(kExpectedFps.equalsWithMargin(averageFps))
				177	<< "Expected " << averageFps << " to be equal to " << kExpectedFps;
				178	}
				179
				180	} // namespace
				181	} // namespace android::scheduler