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cc / trees / presentation_time_callback_buffer_unittest.cc [blame]
// Copyright 2019 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "cc/trees/presentation_time_callback_buffer.h"
#include "base/functional/bind.h"
#include "base/functional/callback.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace {
std::vector<cc::PresentationTimeCallbackBuffer::Callback> GenerateCallbacks(
int num_callbacks) {
std::vector<cc::PresentationTimeCallbackBuffer::Callback> result;
while (num_callbacks-- > 0) {
// `PresentationTimeCallbackBuffer` isn't supposed to invoke any callbacks.
// We can check for that by passing callbacks which cause test failure.
result.push_back(base::BindOnce([](const gfx::PresentationFeedback&) {
FAIL() << "Callbacks should not be directly invoked by "
"PresentationTimeCallbackBuffer";
}));
}
return result;
}
std::vector<cc::PresentationTimeCallbackBuffer::SuccessfulCallback>
GenerateSuccessfulCallbacks(int num_callbacks) {
std::vector<cc::PresentationTimeCallbackBuffer::SuccessfulCallback> result;
while (num_callbacks-- > 0) {
// `PresentationTimeCallbackBuffer` isn't supposed to invoke any callbacks.
// We can check for that by passing callbacks which cause test failure.
result.push_back(base::BindOnce([](base::TimeTicks presentation_timestamp) {
FAIL() << "Callbacks should not be directly invoked by "
"PresentationTimeCallbackBuffer";
}));
}
return result;
}
std::vector<cc::PresentationTimeCallbackBuffer::SuccessfulCallbackWithDetails>
GenerateSuccessfulCallbackWithDetails(int num_callbacks) {
std::vector<cc::PresentationTimeCallbackBuffer::SuccessfulCallbackWithDetails>
result;
while (num_callbacks-- > 0) {
// `PresentationTimeCallbackBuffer` isn't supposed to invoke any callbacks.
// We can check for that by passing callbacks which cause test failure.
result.push_back(base::BindOnce([](const viz::FrameTimingDetails& details) {
FAIL() << "Callbacks should not be directly invoked by "
"PresentationTimeCallbackBuffer";
}));
}
return result;
}
constexpr uint32_t kFrameToken1 = 234;
constexpr uint32_t kFrameToken2 = 345;
constexpr uint32_t kFrameToken3 = 456;
constexpr uint32_t kFrameToken4 = 567;
} // namespace
namespace cc {
TEST(PresentationTimeCallbackBufferTest, TestNoCallbacks) {
PresentationTimeCallbackBuffer buffer;
auto result =
buffer.PopPendingCallbacks(kFrameToken1, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
TEST(PresentationTimeCallbackBufferTest, TestMainThreadCallbackOnSuccess) {
PresentationTimeCallbackBuffer buffer;
buffer.RegisterMainThreadCallbacks(kFrameToken2, GenerateCallbacks(1));
// Make sure that popping early frame tokens doesn't return irrelevant
// entries.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken1, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
// Make sure the callback is returned on a successful presentation.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/false);
EXPECT_EQ(result.main_callbacks.size(), 1ull);
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
// Make sure that the buffer has removed the registration since the "pop".
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
}
TEST(PresentationTimeCallbackBufferTest, TestMainThreadCallbackOnFailure) {
PresentationTimeCallbackBuffer buffer;
buffer.RegisterMainThreadCallbacks(kFrameToken2, GenerateCallbacks(1));
// Make sure that popping early frame tokens doesn't return irrelevant
// entries.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken1, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
// Make sure the callback is returned on a failed presentation.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/true);
EXPECT_EQ(result.main_callbacks.size(), 1ull);
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
// Make sure that the buffer has removed the registration since the "pop".
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
}
TEST(PresentationTimeCallbackBufferTest, TestMainThreadSuccessfulCallback) {
PresentationTimeCallbackBuffer buffer;
buffer.RegisterMainThreadSuccessfulCallbacks(
kFrameToken2, GenerateSuccessfulCallbackWithDetails(1));
// Make sure that popping early frame tokens doesn't return irrelevant
// entries.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken1, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
// Make sure the callback is not returned on a failed presentation.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/true);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
// Make sure the callback is returned on a successful presentation.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_EQ(result.main_successful_callbacks.size(), 1ull);
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
// Make sure that the buffer has removed the registration since the "pop".
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
}
TEST(PresentationTimeCallbackBufferTest,
TestCompositorThreadSuccessfulCallback) {
PresentationTimeCallbackBuffer buffer;
buffer.RegisterCompositorThreadSuccessfulCallbacks(
kFrameToken2, GenerateSuccessfulCallbacks(1));
// Make sure that popping early frame tokens doesn't return irrelevant
// entries.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken1, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
// Make sure the callback is not returned on a failed presentation.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/true);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
// Make sure the callback is returned on a successful presentation.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_EQ(result.compositor_successful_callbacks.size(), 1ull);
}
// Make sure that the buffer has removed the registration since the "pop".
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
}
TEST(PresentationTimeCallbackBufferTest, TestMixedCallbacksOnSuccess) {
PresentationTimeCallbackBuffer buffer;
buffer.RegisterMainThreadCallbacks(kFrameToken2, GenerateCallbacks(1));
buffer.RegisterMainThreadSuccessfulCallbacks(
kFrameToken2, GenerateSuccessfulCallbackWithDetails(1));
buffer.RegisterCompositorThreadSuccessfulCallbacks(
kFrameToken2, GenerateSuccessfulCallbacks(1));
// Make sure that popping early frame tokens doesn't return irrelevant
// entries.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken1, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
// Make sure all callbacks are returned on a successful presentation.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/false);
EXPECT_EQ(result.main_callbacks.size(), 1ull);
EXPECT_EQ(result.main_successful_callbacks.size(), 1ull);
EXPECT_EQ(result.compositor_successful_callbacks.size(), 1ull);
}
// Make sure that the buffer has removed the registrations since the "pop".
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
}
TEST(PresentationTimeCallbackBufferTest, TestMixedCallbacksOnFailure) {
PresentationTimeCallbackBuffer buffer;
buffer.RegisterMainThreadCallbacks(kFrameToken2, GenerateCallbacks(1));
buffer.RegisterMainThreadSuccessfulCallbacks(
kFrameToken2, GenerateSuccessfulCallbackWithDetails(1));
buffer.RegisterCompositorThreadSuccessfulCallbacks(
kFrameToken2, GenerateSuccessfulCallbacks(1));
// Make sure that popping early frame tokens doesn't return irrelevant
// entries.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken1, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
// Make sure only feedback callbacks are returned on a failed presentation.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/true);
EXPECT_EQ(result.main_callbacks.size(), 1ull);
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
// Make sure time callbacks are returned on a successful presentation.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_EQ(result.main_successful_callbacks.size(), 1ull);
EXPECT_EQ(result.compositor_successful_callbacks.size(), 1ull);
}
// Make sure that the buffer has removed the registrations since the "pop".
{
auto result =
buffer.PopPendingCallbacks(kFrameToken2, /*presentation_failed=*/false);
EXPECT_TRUE(result.main_callbacks.empty());
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
}
TEST(PresentationTimeCallbackBufferTest, TestCallbackBatching) {
PresentationTimeCallbackBuffer buffer;
// Register one callback for frame1, two for frame2 and two for frame4.
buffer.RegisterMainThreadCallbacks(kFrameToken1, GenerateCallbacks(1));
buffer.RegisterMainThreadCallbacks(kFrameToken2, GenerateCallbacks(2));
buffer.RegisterMainThreadCallbacks(kFrameToken4, GenerateCallbacks(2));
// Pop callbacks up to and including frame3. Should be three in total; one
// from frame1 and two from frame2.
{
auto result =
buffer.PopPendingCallbacks(kFrameToken3, /*presentation_failed=*/false);
EXPECT_EQ(result.main_callbacks.size(), 3ull);
EXPECT_TRUE(result.main_successful_callbacks.empty());
EXPECT_TRUE(result.compositor_successful_callbacks.empty());
}
}
} // namespace cc