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chromium / chromium / src / refs/tags/78.0.3874.2 / . / ash / rotator / screen_rotation_animator.cc
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// Copyright 2015 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "ash/rotator/screen_rotation_animator.h"
#include <memory>
#include "ash/public/cpp/ash_switches.h"
#include "ash/public/cpp/shell_window_ids.h"
#include "ash/rotator/screen_rotation_animation.h"
#include "ash/rotator/screen_rotation_animator_observer.h"
#include "ash/shell.h"
#include "ash/utility/transformer_util.h"
#include "base/bind.h"
#include "base/command_line.h"
#include "base/metrics/histogram_macros.h"
#include "base/time/time.h"
#include "components/viz/common/frame_sinks/copy_output_request.h"
#include "components/viz/common/frame_sinks/copy_output_result.h"
#include "third_party/khronos/GLES2/gl2.h"
#include "ui/aura/window.h"
#include "ui/base/class_property.h"
#include "ui/compositor/callback_layer_animation_observer.h"
#include "ui/compositor/layer.h"
#include "ui/compositor/layer_animation_element.h"
#include "ui/compositor/layer_animation_sequence.h"
#include "ui/compositor/layer_animator.h"
#include "ui/compositor/layer_owner.h"
#include "ui/compositor/layer_tree_owner.h"
#include "ui/compositor/scoped_animation_duration_scale_mode.h"
#include "ui/display/display.h"
#include "ui/display/manager/display_manager.h"
#include "ui/display/manager/managed_display_info.h"
#include "ui/display/screen.h"
#include "ui/gfx/animation/tween.h"
#include "ui/gfx/geometry/point.h"
#include "ui/gfx/geometry/rect.h"
#include "ui/gfx/geometry/size_f.h"
#include "ui/gfx/transform.h"
#include "ui/gfx/transform_util.h"
#include "ui/wm/core/window_util.h"
DEFINE_UI_CLASS_PROPERTY_TYPE(ash::ScreenRotationAnimator*)
namespace ash {
namespace {
// The number of degrees that the rotation animations animate through.
const int kRotationDegrees = 20;
// The time it takes for the rotation animations to run.
const int kRotationDurationInMs = 250;
// The rotation factors.
const int kCounterClockWiseRotationFactor = 1;
const int kClockWiseRotationFactor = -1;
// A property key to store the ScreenRotationAnimator of the window; Used for
// screen rotation.
DEFINE_OWNED_UI_CLASS_PROPERTY_KEY(ScreenRotationAnimator,
kScreenRotationAnimatorKey,
nullptr)
display::Display::Rotation GetCurrentScreenRotation(int64_t display_id) {
return Shell::Get()
->display_manager()
->GetDisplayInfo(display_id)
.GetActiveRotation();
}
// 180 degree rotations should animate clock-wise.
int GetRotationFactor(display::Display::Rotation initial_rotation,
display::Display::Rotation new_rotation) {
return (initial_rotation + 3) % 4 == new_rotation
? kCounterClockWiseRotationFactor
: kClockWiseRotationFactor;
}
aura::Window* GetScreenRotationContainer(aura::Window* root_window) {
return root_window->GetChildById(kShellWindowId_ScreenRotationContainer);
}
// Returns true if the rotation between |initial_rotation| and |new_rotation| is
// 180 degrees.
bool Is180DegreeFlip(display::Display::Rotation initial_rotation,
display::Display::Rotation new_rotation) {
return (initial_rotation + 2) % 4 == new_rotation;
}
// Returns the initial degrees the old layer animation to begin with.
int GetInitialDegrees(display::Display::Rotation initial_rotation,
display::Display::Rotation new_rotation) {
return (Is180DegreeFlip(initial_rotation, new_rotation) ? 180 : 90);
}
void AddLayerAtTopOfWindowLayers(aura::Window* root_window, ui::Layer* layer) {
// Add the cloned/copied layer tree into the root, so it will be rendered.
root_window->layer()->Add(layer);
root_window->layer()->StackAtTop(layer);
}
void AddLayerBelowWindowLayer(aura::Window* root_window,
ui::Layer* top_layer,
ui::Layer* layer) {
// Add the cloned/copied layer tree into the root, so it will be rendered.
root_window->layer()->Add(layer);
root_window->layer()->StackBelow(layer, top_layer);
}
// The Callback will be invoked when all animation sequences have
// finished. |observer| will be destroyed after invoking the Callback if it
// returns true.
bool AnimationEndedCallback(
base::WeakPtr<ScreenRotationAnimator> animator,
const ui::CallbackLayerAnimationObserver& observer) {
if (animator)
animator->ProcessAnimationQueue();
return true;
}
// Creates a Transform for the old layer in screen rotation animation.
gfx::Transform CreateScreenRotationOldLayerTransformForDisplay(
display::Display::Rotation old_rotation,
display::Display::Rotation new_rotation,
const display::Display& display) {
gfx::Transform inverse;
CHECK(CreateRotationTransform(old_rotation, new_rotation,
gfx::SizeF(display.size()))
.GetInverse(&inverse));
return inverse;
}
// The |request_id| changed since last copy request, which means a
// new rotation stated, we need to ignore this copy result.
bool IgnoreCopyResult(int64_t request_id, int64_t current_request_id) {
DCHECK(request_id <= current_request_id);
return request_id < current_request_id;
}
bool RootWindowChangedForDisplayId(aura::Window* root_window,
int64_t display_id) {
return root_window != Shell::GetRootWindowForDisplayId(display_id);
}
// Creates a mask layer and returns the |mask_layer_tree_owner|.
std::unique_ptr<ui::LayerTreeOwner> CreateMaskLayerTreeOwner(
const gfx::Rect& rect) {
std::unique_ptr<ui::Layer> mask_layer =
std::make_unique<ui::Layer>(ui::LAYER_SOLID_COLOR);
mask_layer->SetBounds(rect);
mask_layer->SetColor(SK_ColorBLACK);
return std::make_unique<ui::LayerTreeOwner>(std::move(mask_layer));
}
class ScreenRotationAnimationMetricsReporter
: public ui::AnimationMetricsReporter {
public:
ScreenRotationAnimationMetricsReporter() = default;
~ScreenRotationAnimationMetricsReporter() override = default;
void Report(int value) override {
UMA_HISTOGRAM_PERCENTAGE("Ash.Rotation.AnimationSmoothness", value);
}
private:
DISALLOW_COPY_AND_ASSIGN(ScreenRotationAnimationMetricsReporter);
};
} // namespace
// static
ScreenRotationAnimator* ScreenRotationAnimator::GetForRootWindow(
aura::Window* root_window) {
auto* animator = root_window->GetProperty(kScreenRotationAnimatorKey);
if (!animator) {
animator = new ScreenRotationAnimator(root_window);
root_window->SetProperty(kScreenRotationAnimatorKey, animator);
}
return animator;
}
// static
void ScreenRotationAnimator::SetScreenRotationAnimatorForTest(
aura::Window* root_window,
std::unique_ptr<ScreenRotationAnimator> animator) {
root_window->SetProperty(kScreenRotationAnimatorKey, animator.release());
}
ScreenRotationAnimator::ScreenRotationAnimator(aura::Window* root_window)
: root_window_(root_window),
screen_rotation_state_(IDLE),
rotation_request_id_(0),
metrics_reporter_(
std::make_unique<ScreenRotationAnimationMetricsReporter>()),
disable_animation_timers_for_test_(false),
weak_factory_(this) {}
ScreenRotationAnimator::~ScreenRotationAnimator() {
// To prevent a call to |AnimationEndedCallback()| from calling a method on
// the |animator_|.
weak_factory_.InvalidateWeakPtrs();
// Explicitly reset the |old_layer_tree_owner_| and |metrics_reporter_| in
// order to make sure |metrics_reporter_| outlives the attached animation
// sequence.
old_layer_tree_owner_.reset();
metrics_reporter_.reset();
}
void ScreenRotationAnimator::StartRotationAnimation(
std::unique_ptr<ScreenRotationRequest> rotation_request) {
const display::Display::Rotation current_rotation =
GetCurrentScreenRotation(rotation_request->display_id);
if (current_rotation == rotation_request->new_rotation) {
// We need to call |ProcessAnimationQueue()| to prepare for next rotation
// request.
ProcessAnimationQueue();
return;
}
rotation_request->old_rotation = current_rotation;
if (DisplayConfigurationController::ANIMATION_SYNC ==
rotation_request->mode) {
StartSlowAnimation(std::move(rotation_request));
} else {
current_async_rotation_request_ = ScreenRotationRequest(*rotation_request);
RequestCopyScreenRotationContainerLayer(
std::make_unique<viz::CopyOutputRequest>(
viz::CopyOutputRequest::ResultFormat::RGBA_TEXTURE,
CreateAfterCopyCallbackBeforeRotation(
std::move(rotation_request))));
screen_rotation_state_ = COPY_REQUESTED;
}
}
void ScreenRotationAnimator::StartSlowAnimation(
std::unique_ptr<ScreenRotationRequest> rotation_request) {
CreateOldLayerTreeForSlowAnimation();
SetRotation(rotation_request->display_id, rotation_request->old_rotation,
rotation_request->new_rotation, rotation_request->source);
AnimateRotation(std::move(rotation_request));
}
void ScreenRotationAnimator::SetRotation(
int64_t display_id,
display::Display::Rotation old_rotation,
display::Display::Rotation new_rotation,
display::Display::RotationSource source) {
// Reset the current request because its rotation must be applied if any.
current_async_rotation_request_.reset();
// Allow compositor locks to extend timeout, so that screen rotation only
// takes output copy after contents are properlly resized, such as wallpaper
// and ARC apps.
ui::Compositor* compositor = root_window_->layer()->GetCompositor();
compositor->SetAllowLocksToExtendTimeout(true);
Shell::Get()->display_manager()->SetDisplayRotation(display_id, new_rotation,
source);
compositor->SetAllowLocksToExtendTimeout(false);
const display::Display display =
Shell::Get()->display_manager()->GetDisplayForId(display_id);
old_layer_tree_owner_->root()->SetTransform(
CreateScreenRotationOldLayerTransformForDisplay(old_rotation,
new_rotation, display));
}
void ScreenRotationAnimator::RequestCopyScreenRotationContainerLayer(
std::unique_ptr<viz::CopyOutputRequest> copy_output_request) {
ui::Layer* screen_rotation_container_layer =
GetScreenRotationContainer(root_window_)->layer();
copy_output_request->set_area(
gfx::Rect(screen_rotation_container_layer->size()));
screen_rotation_container_layer->RequestCopyOfOutput(
std::move(copy_output_request));
}
ScreenRotationAnimator::CopyCallback
ScreenRotationAnimator::CreateAfterCopyCallbackBeforeRotation(
std::unique_ptr<ScreenRotationRequest> rotation_request) {
return base::BindOnce(&ScreenRotationAnimator::
OnScreenRotationContainerLayerCopiedBeforeRotation,
weak_factory_.GetWeakPtr(),
base::Passed(&rotation_request));
}
ScreenRotationAnimator::CopyCallback
ScreenRotationAnimator::CreateAfterCopyCallbackAfterRotation(
std::unique_ptr<ScreenRotationRequest> rotation_request) {
return base::BindOnce(&ScreenRotationAnimator::
OnScreenRotationContainerLayerCopiedAfterRotation,
weak_factory_.GetWeakPtr(),
base::Passed(&rotation_request));
}
void ScreenRotationAnimator::OnScreenRotationContainerLayerCopiedBeforeRotation(
std::unique_ptr<ScreenRotationRequest> rotation_request,
std::unique_ptr<viz::CopyOutputResult> result) {
if (IgnoreCopyResult(rotation_request->id, rotation_request_id_))
return;
// Abort rotation and animation if the display was removed or the
// |root_window| was changed for |display_id|.
if (RootWindowChangedForDisplayId(root_window_,
rotation_request->display_id)) {
ProcessAnimationQueue();
return;
}
// Abort animation and set the rotation to target rotation when the copy
// request has been canceled or failed. It would fail if, for examples: a) The
// layer is removed from the compositor and destroyed before committing the
// request to the compositor. b) The compositor is shutdown.
if (result->IsEmpty()) {
Shell::Get()->display_manager()->SetDisplayRotation(
rotation_request->display_id, rotation_request->new_rotation,
rotation_request->source);
ProcessAnimationQueue();
return;
}
old_layer_tree_owner_ = CopyLayerTree(std::move(result));
AddLayerAtTopOfWindowLayers(root_window_, old_layer_tree_owner_->root());
// TODO(oshima): We need a better way to control animation and other
// activities during system wide animation.
animation_scale_mode_ =
std::make_unique<ui::ScopedAnimationDurationScaleMode>(
ui::ScopedAnimationDurationScaleMode::ZERO_DURATION);
for (auto& observer : screen_rotation_animator_observers_)
observer.OnScreenCopiedBeforeRotation();
SetRotation(rotation_request->display_id, rotation_request->old_rotation,
rotation_request->new_rotation, rotation_request->source);
RequestCopyScreenRotationContainerLayer(
std::make_unique<viz::CopyOutputRequest>(
viz::CopyOutputRequest::ResultFormat::RGBA_TEXTURE,
CreateAfterCopyCallbackAfterRotation(std::move(rotation_request))));
}
void ScreenRotationAnimator::OnScreenRotationContainerLayerCopiedAfterRotation(
std::unique_ptr<ScreenRotationRequest> rotation_request,
std::unique_ptr<viz::CopyOutputResult> result) {
animation_scale_mode_.reset();
if (IgnoreCopyResult(rotation_request->id, rotation_request_id_)) {
NotifyAnimationFinished(/*canceled=*/true);
return;
}
// In the following cases, abort animation:
// 1) if the display was removed,
// 2) if the |root_window| was changed for |display_id|,
// 3) the copy request has been canceled or failed. It would fail if,
// for examples: a) The layer is removed from the compositor and destroyed
// before committing the request to the compositor. b) The compositor is
// shutdown.
if (RootWindowChangedForDisplayId(root_window_,
rotation_request->display_id) ||
result->IsEmpty()) {
ProcessAnimationQueue();
return;
}
new_layer_tree_owner_ = CopyLayerTree(std::move(result));
AddLayerBelowWindowLayer(root_window_, old_layer_tree_owner_->root(),
new_layer_tree_owner_->root());
AnimateRotation(std::move(rotation_request));
}
void ScreenRotationAnimator::CreateOldLayerTreeForSlowAnimation() {
old_layer_tree_owner_ = ::wm::RecreateLayers(root_window_);
AddLayerAtTopOfWindowLayers(root_window_, old_layer_tree_owner_->root());
}
std::unique_ptr<ui::LayerTreeOwner> ScreenRotationAnimator::CopyLayerTree(
std::unique_ptr<viz::CopyOutputResult> result) {
DCHECK(!result->IsEmpty());
DCHECK_EQ(result->format(), viz::CopyOutputResult::Format::RGBA_TEXTURE);
auto transfer_resource = viz::TransferableResource::MakeGL(
result->GetTextureResult()->mailbox, GL_LINEAR, GL_TEXTURE_2D,
result->GetTextureResult()->sync_token, result->size(),
false /* is_overlay_candidate */);
std::unique_ptr<viz::SingleReleaseCallback> release_callback =
result->TakeTextureOwnership();
const gfx::Rect rect(
GetScreenRotationContainer(root_window_)->layer()->size());
std::unique_ptr<ui::Layer> copy_layer = std::make_unique<ui::Layer>();
copy_layer->SetBounds(rect);
copy_layer->SetTransferableResource(transfer_resource,
std::move(release_callback), rect.size());
return std::make_unique<ui::LayerTreeOwner>(std::move(copy_layer));
}
void ScreenRotationAnimator::AnimateRotation(
std::unique_ptr<ScreenRotationRequest> rotation_request) {
screen_rotation_state_ = ROTATING;
const int rotation_factor = GetRotationFactor(rotation_request->old_rotation,
rotation_request->new_rotation);
const int old_layer_initial_rotation_degrees = GetInitialDegrees(
rotation_request->old_rotation, rotation_request->new_rotation);
const base::TimeDelta duration =
base::TimeDelta::FromMilliseconds(kRotationDurationInMs);
const gfx::Tween::Type tween_type = gfx::Tween::FAST_OUT_LINEAR_IN;
const gfx::Rect rotated_screen_bounds = root_window_->GetTargetBounds();
const gfx::Point pivot = gfx::Point(rotated_screen_bounds.width() / 2,
rotated_screen_bounds.height() / 2);
ui::Layer* screen_rotation_container_layer =
GetScreenRotationContainer(root_window_)->layer();
ui::Layer* new_root_layer;
if (!new_layer_tree_owner_) {
new_root_layer = screen_rotation_container_layer;
} else {
new_root_layer = new_layer_tree_owner_->root();
// Add a black mask layer on top of |screen_rotation_container_layer|.
mask_layer_tree_owner_ = CreateMaskLayerTreeOwner(
gfx::Rect(screen_rotation_container_layer->size()));
AddLayerBelowWindowLayer(root_window_, new_root_layer,
mask_layer_tree_owner_->root());
}
std::unique_ptr<ScreenRotationAnimation> new_layer_screen_rotation =
std::make_unique<ScreenRotationAnimation>(
new_root_layer, kRotationDegrees * rotation_factor,
0 /* end_degrees */, new_root_layer->opacity(),
new_root_layer->opacity() /* target_opacity */, pivot, duration,
tween_type);
ui::LayerAnimator* new_layer_animator = new_root_layer->GetAnimator();
new_layer_animator->set_preemption_strategy(
ui::LayerAnimator::REPLACE_QUEUED_ANIMATIONS);
std::unique_ptr<ui::LayerAnimationSequence> new_layer_animation_sequence =
std::make_unique<ui::LayerAnimationSequence>(
std::move(new_layer_screen_rotation));
ui::Layer* old_root_layer = old_layer_tree_owner_->root();
const gfx::Rect original_screen_bounds = old_root_layer->GetTargetBounds();
// The old layer will also be transformed into the new orientation. We will
// translate it so that the old layer's center point aligns with the new
// orientation's center point and use that center point as the pivot for the
// rotation animation.
gfx::Transform translate_transform;
translate_transform.Translate(
(rotated_screen_bounds.width() - original_screen_bounds.width()) / 2,
(rotated_screen_bounds.height() - original_screen_bounds.height()) / 2);
old_root_layer->SetTransform(translate_transform);
std::unique_ptr<ScreenRotationAnimation> old_layer_screen_rotation =
std::make_unique<ScreenRotationAnimation>(
old_root_layer, old_layer_initial_rotation_degrees * rotation_factor,
(old_layer_initial_rotation_degrees - kRotationDegrees) *
rotation_factor,
old_root_layer->opacity(), 0.0f /* target_opacity */, pivot, duration,
tween_type);
ui::LayerAnimator* old_layer_animator = old_root_layer->GetAnimator();
old_layer_animator->set_preemption_strategy(
ui::LayerAnimator::REPLACE_QUEUED_ANIMATIONS);
std::unique_ptr<ui::LayerAnimationSequence> old_layer_animation_sequence =
std::make_unique<ui::LayerAnimationSequence>(
std::move(old_layer_screen_rotation));
// In unit tests, we can use ash::ScreenRotationAnimatorTestApi to control the
// animation.
if (disable_animation_timers_for_test_) {
if (new_layer_tree_owner_)
new_layer_animator->set_disable_timer_for_test(true);
old_layer_animator->set_disable_timer_for_test(true);
}
old_layer_animation_sequence->SetAnimationMetricsReporter(
metrics_reporter_.get());
// Add an observer so that the cloned/copied layers can be cleaned up with the
// animation completes/aborts.
ui::CallbackLayerAnimationObserver* observer =
new ui::CallbackLayerAnimationObserver(
base::Bind(&AnimationEndedCallback, weak_factory_.GetWeakPtr()));
if (new_layer_tree_owner_)
new_layer_animation_sequence->AddObserver(observer);
new_layer_animator->StartAnimation(new_layer_animation_sequence.release());
old_layer_animation_sequence->AddObserver(observer);
old_layer_animator->StartAnimation(old_layer_animation_sequence.release());
observer->SetActive();
}
void ScreenRotationAnimator::Rotate(
display::Display::Rotation new_rotation,
display::Display::RotationSource source,
DisplayConfigurationController::RotationAnimation mode) {
// |rotation_request_id_| is used to skip stale requests. Before the layer
// CopyOutputResult callback called, there could have new rotation request.
// Increases |rotation_request_id_| for each new request and in the callback,
// we compare the |rotation_request.id| and |rotation_request_id_| to
// determine the stale status.
rotation_request_id_++;
const int64_t display_id =
display::Screen::GetScreen()->GetDisplayNearestWindow(root_window_).id();
std::unique_ptr<ScreenRotationRequest> rotation_request =
std::make_unique<ScreenRotationRequest>(rotation_request_id_, display_id,
new_rotation, source, mode);
target_rotation_ = new_rotation;
if (mode == DisplayConfigurationController::ANIMATION_SYNC)
current_async_rotation_request_.reset();
switch (screen_rotation_state_) {
case IDLE:
DCHECK(!current_async_rotation_request_);
FALLTHROUGH;
case COPY_REQUESTED:
if (current_async_rotation_request_ &&
!RootWindowChangedForDisplayId(
root_window_, current_async_rotation_request_->display_id)) {
Shell::Get()->display_manager()->SetDisplayRotation(
current_async_rotation_request_->display_id,
current_async_rotation_request_->new_rotation,
current_async_rotation_request_->source);
current_async_rotation_request_.reset();
}
StartRotationAnimation(std::move(rotation_request));
break;
case ROTATING:
last_pending_request_ = std::move(rotation_request);
// The pending request will be processed when the
// |AnimationEndedCallback()| should be called after |StopAnimating()|.
StopAnimating();
break;
}
}
void ScreenRotationAnimator::AddObserver(
ScreenRotationAnimatorObserver* observer) {
screen_rotation_animator_observers_.AddObserver(observer);
}
void ScreenRotationAnimator::RemoveObserver(
ScreenRotationAnimatorObserver* observer) {
screen_rotation_animator_observers_.RemoveObserver(observer);
}
void ScreenRotationAnimator::ProcessAnimationQueue() {
screen_rotation_state_ = IDLE;
old_layer_tree_owner_.reset();
new_layer_tree_owner_.reset();
mask_layer_tree_owner_.reset();
current_async_rotation_request_.reset();
if (last_pending_request_ &&
!RootWindowChangedForDisplayId(root_window_,
last_pending_request_->display_id)) {
StartRotationAnimation(std::move(last_pending_request_));
return;
}
NotifyAnimationFinished(/*canceled=*/false);
}
bool ScreenRotationAnimator::IsRotating() const {
return screen_rotation_state_ != IDLE;
}
display::Display::Rotation ScreenRotationAnimator::GetTargetRotation() const {
return target_rotation_;
}
void ScreenRotationAnimator::StopAnimating() {
// |old_layer_tree_owner_| new_layer_tree_owner_| could be nullptr if another
// the rotation request comes before the copy request finished.
if (old_layer_tree_owner_)
old_layer_tree_owner_->root()->GetAnimator()->StopAnimating();
if (new_layer_tree_owner_)
new_layer_tree_owner_->root()->GetAnimator()->StopAnimating();
mask_layer_tree_owner_.reset();
}
void ScreenRotationAnimator::NotifyAnimationFinished(bool canceled) {
for (auto& observer : screen_rotation_animator_observers_)
observer.OnScreenRotationAnimationFinished(this, canceled);
}
} // namespace ash