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chromium / chromium / src / 69ad26ad8086df04cffc98b1c5b43752a47e8b06 / . / ui / aura / window_unittest.cc
blob: d5a5768fc9ad27a81b1c6eb86d1d5814d8bd31f0 [file] [log] [blame]
// Copyright (c) 2012 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 "ui/aura/window.h"
#include <limits.h>
#include <string>
#include <utility>
#include <vector>
#include "base/compiler_specific.h"
#include "base/macros.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "build/build_config.h"
#include "cc/trees/layer_tree_frame_sink.h"
#include "services/ws/public/mojom/window_tree_constants.mojom.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "ui/aura/client/capture_client.h"
#include "ui/aura/client/focus_change_observer.h"
#include "ui/aura/client/visibility_client.h"
#include "ui/aura/client/window_parenting_client.h"
#include "ui/aura/layout_manager.h"
#include "ui/aura/test/aura_test_base.h"
#include "ui/aura/test/aura_test_utils.h"
#include "ui/aura/test/test_window_delegate.h"
#include "ui/aura/test/test_windows.h"
#include "ui/aura/test/window_test_api.h"
#include "ui/aura/window_delegate.h"
#include "ui/aura/window_event_dispatcher.h"
#include "ui/aura/window_observer.h"
#include "ui/aura/window_tracker.h"
#include "ui/aura/window_tree_host.h"
#include "ui/base/class_property.h"
#include "ui/base/hit_test.h"
#include "ui/base/ui_base_switches_util.h"
#include "ui/compositor/layer.h"
#include "ui/compositor/layer_animation_observer.h"
#include "ui/compositor/layer_animator.h"
#include "ui/compositor/scoped_animation_duration_scale_mode.h"
#include "ui/compositor/scoped_layer_animation_settings.h"
#include "ui/compositor/test/layer_animator_test_controller.h"
#include "ui/compositor/test/test_layers.h"
#include "ui/display/screen.h"
#include "ui/events/event.h"
#include "ui/events/event_utils.h"
#include "ui/events/gesture_detection/gesture_configuration.h"
#include "ui/events/keycodes/keyboard_codes.h"
#include "ui/events/test/event_generator.h"
#include "ui/gfx/canvas.h"
#include "ui/gfx/geometry/vector2d.h"
#include "ui/gfx/skia_util.h"
DEFINE_UI_CLASS_PROPERTY_TYPE(const char*)
namespace {
enum class DeletionOrder {
LAYOUT_MANAGER_FIRST,
PROPERTY_FIRST,
UNKNOWN,
};
class DeletionTracker {
public:
DeletionTracker() {}
~DeletionTracker() {}
DeletionOrder order() const { return order_; }
bool property_deleted() const { return property_deleted_; }
bool layout_manager_deleted() const { return layout_manager_deleted_; }
void PropertyDeleted() {
property_deleted_ = true;
if (order_ == DeletionOrder::UNKNOWN)
order_ = DeletionOrder::PROPERTY_FIRST;
}
void LayoutManagerDeleted() {
layout_manager_deleted_ = true;
if (order_ == DeletionOrder::UNKNOWN)
order_ = DeletionOrder::LAYOUT_MANAGER_FIRST;
}
private:
bool property_deleted_ = false;
bool layout_manager_deleted_ = false;
DeletionOrder order_ = DeletionOrder::UNKNOWN;
DISALLOW_COPY_AND_ASSIGN(DeletionTracker);
};
class DeletionTestProperty {
public:
explicit DeletionTestProperty(DeletionTracker* tracker) : tracker_(tracker) {}
~DeletionTestProperty() { tracker_->PropertyDeleted(); }
private:
DeletionTracker* tracker_;
DISALLOW_COPY_AND_ASSIGN(DeletionTestProperty);
};
DEFINE_OWNED_UI_CLASS_PROPERTY_KEY(DeletionTestProperty,
kDeletionTestPropertyKey,
nullptr);
} // namespace
DEFINE_UI_CLASS_PROPERTY_TYPE(DeletionTestProperty*);
namespace aura {
namespace test {
namespace {
class WindowTest : public AuraTestBaseWithType {
public:
WindowTest() : max_separation_(0) {
}
void SetUp() override {
AuraTestBaseWithType::SetUp();
// TODO: there needs to be an easier way to do this.
max_separation_ = ui::GestureConfiguration::GetInstance()
->max_separation_for_gesture_touches_in_pixels();
ui::GestureConfiguration::GetInstance()
->set_max_separation_for_gesture_touches_in_pixels(0);
}
void TearDown() override {
AuraTestBase::TearDown();
ui::GestureConfiguration::GetInstance()
->set_max_separation_for_gesture_touches_in_pixels(max_separation_);
}
private:
float max_separation_;
DISALLOW_COPY_AND_ASSIGN(WindowTest);
};
// Used for verifying destruction methods are invoked.
class DestroyTrackingDelegateImpl : public TestWindowDelegate {
public:
DestroyTrackingDelegateImpl()
: destroying_count_(0),
destroyed_count_(0),
in_destroying_(false) {}
void clear_destroying_count() { destroying_count_ = 0; }
int destroying_count() const { return destroying_count_; }
void clear_destroyed_count() { destroyed_count_ = 0; }
int destroyed_count() const { return destroyed_count_; }
bool in_destroying() const { return in_destroying_; }
void OnWindowDestroying(Window* window) override {
EXPECT_FALSE(in_destroying_);
in_destroying_ = true;
destroying_count_++;
}
void OnWindowDestroyed(Window* window) override {
EXPECT_TRUE(in_destroying_);
in_destroying_ = false;
destroyed_count_++;
}
private:
int destroying_count_;
int destroyed_count_;
bool in_destroying_;
DISALLOW_COPY_AND_ASSIGN(DestroyTrackingDelegateImpl);
};
// Used to verify that when OnWindowDestroying is invoked the parent is also
// is in the process of being destroyed.
class ChildWindowDelegateImpl : public DestroyTrackingDelegateImpl {
public:
explicit ChildWindowDelegateImpl(
DestroyTrackingDelegateImpl* parent_delegate)
: parent_delegate_(parent_delegate) {
}
void OnWindowDestroying(Window* window) override {
EXPECT_TRUE(parent_delegate_->in_destroying());
DestroyTrackingDelegateImpl::OnWindowDestroying(window);
}
private:
DestroyTrackingDelegateImpl* parent_delegate_;
DISALLOW_COPY_AND_ASSIGN(ChildWindowDelegateImpl);
};
// Used to verify that a Window is removed from its parent when
// OnWindowDestroyed is called.
class DestroyOrphanDelegate : public TestWindowDelegate {
public:
DestroyOrphanDelegate() : window_(NULL) {
}
void set_window(Window* window) { window_ = window; }
void OnWindowDestroyed(Window* window) override {
EXPECT_FALSE(window_->parent());
}
private:
Window* window_;
DISALLOW_COPY_AND_ASSIGN(DestroyOrphanDelegate);
};
// Used in verifying mouse capture.
class CaptureWindowDelegateImpl : public TestWindowDelegate {
public:
CaptureWindowDelegateImpl() {
ResetCounts();
}
void ResetCounts() {
capture_changed_event_count_ = 0;
capture_lost_count_ = 0;
mouse_event_count_ = 0;
touch_event_count_ = 0;
gesture_event_count_ = 0;
}
int capture_changed_event_count() const {
return capture_changed_event_count_;
}
int capture_lost_count() const { return capture_lost_count_; }
int mouse_event_count() const { return mouse_event_count_; }
int touch_event_count() const { return touch_event_count_; }
int gesture_event_count() const { return gesture_event_count_; }
void OnMouseEvent(ui::MouseEvent* event) override {
if (event->type() == ui::ET_MOUSE_CAPTURE_CHANGED)
capture_changed_event_count_++;
mouse_event_count_++;
}
void OnTouchEvent(ui::TouchEvent* event) override { touch_event_count_++; }
void OnGestureEvent(ui::GestureEvent* event) override {
gesture_event_count_++;
}
void OnCaptureLost() override { capture_lost_count_++; }
private:
int capture_changed_event_count_;
int capture_lost_count_;
int mouse_event_count_;
int touch_event_count_;
int gesture_event_count_;
DISALLOW_COPY_AND_ASSIGN(CaptureWindowDelegateImpl);
};
// Keeps track of the location of the gesture.
class GestureTrackPositionDelegate : public TestWindowDelegate {
public:
GestureTrackPositionDelegate() {}
void OnGestureEvent(ui::GestureEvent* event) override {
position_ = event->location();
event->StopPropagation();
}
const gfx::Point& position() const { return position_; }
private:
gfx::Point position_;
DISALLOW_COPY_AND_ASSIGN(GestureTrackPositionDelegate);
};
base::TimeTicks getTime() {
return ui::EventTimeForNow();
}
class SelfEventHandlingWindowDelegate : public TestWindowDelegate {
public:
SelfEventHandlingWindowDelegate() {}
bool ShouldDescendIntoChildForEventHandling(
Window* child,
const gfx::Point& location) override {
return false;
}
private:
DISALLOW_COPY_AND_ASSIGN(SelfEventHandlingWindowDelegate);
};
// The delegate deletes itself when the window is being destroyed.
class DestroyWindowDelegate : public TestWindowDelegate {
public:
DestroyWindowDelegate() {}
private:
~DestroyWindowDelegate() override {}
// Overridden from WindowDelegate.
void OnWindowDestroyed(Window* window) override { delete this; }
DISALLOW_COPY_AND_ASSIGN(DestroyWindowDelegate);
};
void OffsetBounds(Window* window, int horizontal, int vertical) {
gfx::Rect bounds = window->bounds();
bounds.Offset(horizontal, vertical);
window->SetBounds(bounds);
}
TEST_P(WindowTest, GetChildById) {
std::unique_ptr<Window> w1(CreateTestWindowWithId(1, root_window()));
std::unique_ptr<Window> w11(CreateTestWindowWithId(11, w1.get()));
std::unique_ptr<Window> w111(CreateTestWindowWithId(111, w11.get()));
std::unique_ptr<Window> w12(CreateTestWindowWithId(12, w1.get()));
EXPECT_EQ(NULL, w1->GetChildById(57));
EXPECT_EQ(w12.get(), w1->GetChildById(12));
EXPECT_EQ(w111.get(), w1->GetChildById(111));
}
// Make sure that Window::Contains correctly handles children, grandchildren,
// and not containing NULL or parents.
TEST_P(WindowTest, Contains) {
Window parent(NULL);
parent.Init(ui::LAYER_NOT_DRAWN);
Window child1(NULL);
child1.Init(ui::LAYER_NOT_DRAWN);
Window child2(NULL);
child2.Init(ui::LAYER_NOT_DRAWN);
parent.AddChild(&child1);
child1.AddChild(&child2);
EXPECT_TRUE(parent.Contains(&parent));
EXPECT_TRUE(parent.Contains(&child1));
EXPECT_TRUE(parent.Contains(&child2));
EXPECT_FALSE(parent.Contains(NULL));
EXPECT_FALSE(child1.Contains(&parent));
EXPECT_FALSE(child2.Contains(&child1));
}
TEST_P(WindowTest, ContainsPointInRoot) {
std::unique_ptr<Window> w(CreateTestWindow(
SK_ColorWHITE, 1, gfx::Rect(10, 10, 5, 5), root_window()));
EXPECT_FALSE(w->ContainsPointInRoot(gfx::Point(9, 9)));
EXPECT_TRUE(w->ContainsPointInRoot(gfx::Point(10, 10)));
EXPECT_TRUE(w->ContainsPointInRoot(gfx::Point(14, 14)));
EXPECT_FALSE(w->ContainsPointInRoot(gfx::Point(15, 15)));
EXPECT_FALSE(w->ContainsPointInRoot(gfx::Point(20, 20)));
}
TEST_P(WindowTest, ContainsPoint) {
std::unique_ptr<Window> w(CreateTestWindow(
SK_ColorWHITE, 1, gfx::Rect(10, 10, 5, 5), root_window()));
EXPECT_TRUE(w->ContainsPoint(gfx::Point(0, 0)));
EXPECT_TRUE(w->ContainsPoint(gfx::Point(4, 4)));
EXPECT_FALSE(w->ContainsPoint(gfx::Point(5, 5)));
EXPECT_FALSE(w->ContainsPoint(gfx::Point(10, 10)));
}
TEST_P(WindowTest, ConvertPointToWindow) {
// Window::ConvertPointToWindow is mostly identical to
// Layer::ConvertPointToLayer, except NULL values for |source| are permitted,
// in which case the function just returns.
std::unique_ptr<Window> w1(CreateTestWindowWithId(1, root_window()));
gfx::Point reference_point(100, 100);
gfx::Point test_point = reference_point;
Window::ConvertPointToTarget(NULL, w1.get(), &test_point);
EXPECT_EQ(reference_point, test_point);
}
TEST_P(WindowTest, MoveCursorTo) {
std::unique_ptr<Window> w1(CreateTestWindow(
SK_ColorWHITE, 1, gfx::Rect(10, 10, 500, 500), root_window()));
std::unique_ptr<Window> w11(
CreateTestWindow(SK_ColorGREEN, 11, gfx::Rect(5, 5, 100, 100), w1.get()));
std::unique_ptr<Window> w111(
CreateTestWindow(SK_ColorCYAN, 111, gfx::Rect(5, 5, 75, 75), w11.get()));
std::unique_ptr<Window> w1111(
CreateTestWindow(SK_ColorRED, 1111, gfx::Rect(5, 5, 50, 50), w111.get()));
Window* root = root_window();
root->MoveCursorTo(gfx::Point(10, 10));
EXPECT_EQ("10,10",
display::Screen::GetScreen()->GetCursorScreenPoint().ToString());
w1->MoveCursorTo(gfx::Point(10, 10));
EXPECT_EQ("20,20",
display::Screen::GetScreen()->GetCursorScreenPoint().ToString());
w11->MoveCursorTo(gfx::Point(10, 10));
EXPECT_EQ("25,25",
display::Screen::GetScreen()->GetCursorScreenPoint().ToString());
w111->MoveCursorTo(gfx::Point(10, 10));
EXPECT_EQ("30,30",
display::Screen::GetScreen()->GetCursorScreenPoint().ToString());
w1111->MoveCursorTo(gfx::Point(10, 10));
EXPECT_EQ("35,35",
display::Screen::GetScreen()->GetCursorScreenPoint().ToString());
}
TEST_P(WindowTest, ContainsMouse) {
std::unique_ptr<Window> w(CreateTestWindow(
SK_ColorWHITE, 1, gfx::Rect(10, 10, 500, 500), root_window()));
w->Show();
WindowTestApi w_test_api(w.get());
Window* root = root_window();
root->MoveCursorTo(gfx::Point(10, 10));
EXPECT_TRUE(w_test_api.ContainsMouse());
root->MoveCursorTo(gfx::Point(9, 10));
EXPECT_FALSE(w_test_api.ContainsMouse());
}
// Tests that the root window gets a valid LocalSurfaceId.
TEST_P(WindowTest, RootWindowHasValidLocalSurfaceId) {
// When mus is hosting viz, the LocalSurfaceId is sent from mus.
if (GetParam() != Env::Mode::LOCAL)
return;
EXPECT_TRUE(root_window()
->GetLocalSurfaceIdAllocation()
.local_surface_id()
.is_valid());
}
TEST_P(WindowTest, WindowEmbeddingClientHasValidLocalSurfaceId) {
// When mus is hosting viz, the LocalSurfaceId is sent from mus.
if (GetParam() != Env::Mode::LOCAL)
return;
std::unique_ptr<Window> window(CreateTestWindow(
SK_ColorWHITE, 1, gfx::Rect(10, 10, 300, 200), root_window()));
test::WindowTestApi(window.get()).DisableFrameSinkRegistration();
window->SetEmbedFrameSinkId(viz::FrameSinkId(0, 1));
EXPECT_TRUE(
window->GetLocalSurfaceIdAllocation().local_surface_id().is_valid());
}
// Test Window::ConvertPointToWindow() with transform to root_window.
TEST_P(WindowTest, MoveCursorToWithTransformRootWindow) {
gfx::Transform transform;
transform.Translate(100.0, 100.0);
transform.Rotate(90.0);
transform.Scale(2.0, 5.0);
host()->SetRootTransform(transform);
host()->MoveCursorToLocationInDIP(gfx::Point(10, 10));
#if !defined(OS_WIN)
// TODO(yoshiki): fix this to build on Windows. See crbug.com/133413.OD
EXPECT_EQ("50,120", QueryLatestMousePositionRequestInHost(host()).ToString());
#endif
EXPECT_EQ("10,10",
display::Screen::GetScreen()->GetCursorScreenPoint().ToString());
}
// Tests Window::ConvertPointToWindow() with transform to non-root windows.
TEST_P(WindowTest, MoveCursorToWithTransformWindow) {
std::unique_ptr<Window> w1(CreateTestWindow(
SK_ColorWHITE, 1, gfx::Rect(10, 10, 500, 500), root_window()));
gfx::Transform transform1;
transform1.Scale(2, 2);
w1->SetTransform(transform1);
w1->MoveCursorTo(gfx::Point(10, 10));
EXPECT_EQ("30,30",
display::Screen::GetScreen()->GetCursorScreenPoint().ToString());
gfx::Transform transform2;
transform2.Translate(-10, 20);
w1->SetTransform(transform2);
w1->MoveCursorTo(gfx::Point(10, 10));
EXPECT_EQ("10,40",
display::Screen::GetScreen()->GetCursorScreenPoint().ToString());
gfx::Transform transform3;
transform3.Rotate(90.0);
w1->SetTransform(transform3);
w1->MoveCursorTo(gfx::Point(5, 5));
EXPECT_EQ("5,15",
display::Screen::GetScreen()->GetCursorScreenPoint().ToString());
gfx::Transform transform4;
transform4.Translate(100.0, 100.0);
transform4.Rotate(90.0);
transform4.Scale(2.0, 5.0);
w1->SetTransform(transform4);
w1->MoveCursorTo(gfx::Point(10, 10));
EXPECT_EQ("60,130",
display::Screen::GetScreen()->GetCursorScreenPoint().ToString());
}
// Test Window::ConvertPointToWindow() with complex transforms to both root and
// non-root windows.
// Test Window::ConvertPointToWindow() with transform to root_window.
TEST_P(WindowTest, MoveCursorToWithComplexTransform) {
std::unique_ptr<Window> w1(CreateTestWindow(
SK_ColorWHITE, 1, gfx::Rect(10, 10, 500, 500), root_window()));
std::unique_ptr<Window> w11(
CreateTestWindow(SK_ColorGREEN, 11, gfx::Rect(5, 5, 100, 100), w1.get()));
std::unique_ptr<Window> w111(
CreateTestWindow(SK_ColorCYAN, 111, gfx::Rect(5, 5, 75, 75), w11.get()));
std::unique_ptr<Window> w1111(
CreateTestWindow(SK_ColorRED, 1111, gfx::Rect(5, 5, 50, 50), w111.get()));
// The root window expects transforms that produce integer rects.
gfx::Transform root_transform;
root_transform.Translate(60.0, 70.0);
root_transform.Rotate(-90.0);
root_transform.Translate(-50.0, -50.0);
root_transform.Scale(2.0, 3.0);
gfx::Transform transform;
transform.Translate(10.0, 20.0);
transform.Rotate(10.0);
transform.Scale(0.3f, 0.5f);
host()->SetRootTransform(root_transform);
w1->SetTransform(transform);
w11->SetTransform(transform);
w111->SetTransform(transform);
w1111->SetTransform(transform);
w1111->MoveCursorTo(gfx::Point(10, 10));
#if !defined(OS_WIN)
// TODO(yoshiki): fix this to build on Windows. See crbug.com/133413.
EXPECT_EQ("169,80", QueryLatestMousePositionRequestInHost(host()).ToString());
#endif
EXPECT_EQ("20,53",
display::Screen::GetScreen()->GetCursorScreenPoint().ToString());
}
// Tests that we do not crash when a Window is destroyed by going out of
// scope (as opposed to being explicitly deleted by its WindowDelegate).
TEST_P(WindowTest, NoCrashOnWindowDelete) {
CaptureWindowDelegateImpl delegate;
std::unique_ptr<Window> window(CreateTestWindowWithDelegate(
&delegate, 0, gfx::Rect(0, 0, 20, 20), root_window()));
}
TEST_P(WindowTest, GetEventHandlerForPoint) {
std::unique_ptr<Window> w1(CreateTestWindow(
SK_ColorWHITE, 1, gfx::Rect(10, 10, 500, 500), root_window()));
std::unique_ptr<Window> w11(
CreateTestWindow(SK_ColorGREEN, 11, gfx::Rect(5, 5, 100, 100), w1.get()));
std::unique_ptr<Window> w111(
CreateTestWindow(SK_ColorCYAN, 111, gfx::Rect(5, 5, 75, 75), w11.get()));
std::unique_ptr<Window> w1111(
CreateTestWindow(SK_ColorRED, 1111, gfx::Rect(5, 5, 50, 50), w111.get()));
std::unique_ptr<Window> w12(CreateTestWindow(
SK_ColorMAGENTA, 12, gfx::Rect(10, 420, 25, 25), w1.get()));
std::unique_ptr<Window> w121(
CreateTestWindow(SK_ColorYELLOW, 121, gfx::Rect(5, 5, 5, 5), w12.get()));
std::unique_ptr<Window> w13(
CreateTestWindow(SK_ColorGRAY, 13, gfx::Rect(5, 470, 50, 50), w1.get()));
Window* root = root_window();
w1->parent()->SetBounds(gfx::Rect(500, 500));
EXPECT_EQ(NULL, root->GetEventHandlerForPoint(gfx::Point(5, 5)));
EXPECT_EQ(w1.get(), root->GetEventHandlerForPoint(gfx::Point(11, 11)));
EXPECT_EQ(w11.get(), root->GetEventHandlerForPoint(gfx::Point(16, 16)));
EXPECT_EQ(w111.get(), root->GetEventHandlerForPoint(gfx::Point(21, 21)));
EXPECT_EQ(w1111.get(), root->GetEventHandlerForPoint(gfx::Point(26, 26)));
EXPECT_EQ(w12.get(), root->GetEventHandlerForPoint(gfx::Point(21, 431)));
EXPECT_EQ(w121.get(), root->GetEventHandlerForPoint(gfx::Point(26, 436)));
EXPECT_EQ(w13.get(), root->GetEventHandlerForPoint(gfx::Point(26, 481)));
}
TEST_P(WindowTest, GetEventHandlerForPointInCornerOfChildBounds) {
// If our child is flush to our top-left corner it gets events just inside the
// window edges.
std::unique_ptr<Window> parent(CreateTestWindow(
SK_ColorWHITE, 1, gfx::Rect(10, 20, 400, 500), root_window()));
std::unique_ptr<Window> child(
CreateTestWindow(SK_ColorRED, 2, gfx::Rect(0, 0, 60, 70), parent.get()));
EXPECT_EQ(child.get(), parent->GetEventHandlerForPoint(gfx::Point(0, 0)));
EXPECT_EQ(child.get(), parent->GetEventHandlerForPoint(gfx::Point(1, 1)));
}
TEST_P(WindowTest, GetEventHandlerForPointWithOverrideDescendingOrder) {
std::unique_ptr<SelfEventHandlingWindowDelegate> parent_delegate(
new SelfEventHandlingWindowDelegate);
std::unique_ptr<Window> parent(CreateTestWindowWithDelegate(
parent_delegate.get(), 1, gfx::Rect(10, 20, 400, 500), root_window()));
std::unique_ptr<Window> child(CreateTestWindow(
SK_ColorRED, 2, gfx::Rect(0, 0, 390, 480), parent.get()));
// We can override ShouldDescendIntoChildForEventHandling to make the parent
// grab all events.
EXPECT_EQ(parent.get(), parent->GetEventHandlerForPoint(gfx::Point(0, 0)));
EXPECT_EQ(parent.get(), parent->GetEventHandlerForPoint(gfx::Point(50, 50)));
}
TEST_P(WindowTest, GetToplevelWindow) {
const gfx::Rect kBounds(0, 0, 10, 10);
TestWindowDelegate delegate;
std::unique_ptr<Window> w1(CreateTestWindowWithId(1, root_window()));
std::unique_ptr<Window> w11(
CreateTestWindowWithDelegate(&delegate, 11, kBounds, w1.get()));
std::unique_ptr<Window> w111(CreateTestWindowWithId(111, w11.get()));
std::unique_ptr<Window> w1111(
CreateTestWindowWithDelegate(&delegate, 1111, kBounds, w111.get()));
EXPECT_TRUE(root_window()->GetToplevelWindow() == NULL);
EXPECT_TRUE(w1->GetToplevelWindow() == NULL);
EXPECT_EQ(w11.get(), w11->GetToplevelWindow());
EXPECT_EQ(w11.get(), w111->GetToplevelWindow());
EXPECT_EQ(w11.get(), w1111->GetToplevelWindow());
}
class AddedToRootWindowObserver : public WindowObserver {
public:
AddedToRootWindowObserver() : called_(false) {}
void OnWindowAddedToRootWindow(Window* window) override { called_ = true; }
bool called() const { return called_; }
private:
bool called_;
DISALLOW_COPY_AND_ASSIGN(AddedToRootWindowObserver);
};
TEST_P(WindowTest, WindowAddedToRootWindowShouldNotifyChildAndNotParent) {
AddedToRootWindowObserver parent_observer;
AddedToRootWindowObserver child_observer;
std::unique_ptr<Window> parent_window(
CreateTestWindowWithId(1, root_window()));
std::unique_ptr<Window> child_window(new Window(NULL));
child_window->Init(ui::LAYER_TEXTURED);
child_window->Show();
parent_window->AddObserver(&parent_observer);
child_window->AddObserver(&child_observer);
parent_window->AddChild(child_window.get());
EXPECT_FALSE(parent_observer.called());
EXPECT_TRUE(child_observer.called());
parent_window->RemoveObserver(&parent_observer);
child_window->RemoveObserver(&child_observer);
}
// Various destruction assertions.
TEST_P(WindowTest, DestroyTest) {
DestroyTrackingDelegateImpl parent_delegate;
ChildWindowDelegateImpl child_delegate(&parent_delegate);
{
std::unique_ptr<Window> parent(CreateTestWindowWithDelegate(
&parent_delegate, 0, gfx::Rect(), root_window()));
CreateTestWindowWithDelegate(&child_delegate, 0, gfx::Rect(), parent.get());
}
// Both the parent and child should have been destroyed.
EXPECT_EQ(1, parent_delegate.destroying_count());
EXPECT_EQ(1, parent_delegate.destroyed_count());
EXPECT_EQ(1, child_delegate.destroying_count());
EXPECT_EQ(1, child_delegate.destroyed_count());
}
// Tests that a window is orphaned before OnWindowDestroyed is called.
TEST_P(WindowTest, OrphanedBeforeOnDestroyed) {
TestWindowDelegate parent_delegate;
DestroyOrphanDelegate child_delegate;
{
std::unique_ptr<Window> parent(CreateTestWindowWithDelegate(
&parent_delegate, 0, gfx::Rect(), root_window()));
std::unique_ptr<Window> child(CreateTestWindowWithDelegate(
&child_delegate, 0, gfx::Rect(), parent.get()));
child_delegate.set_window(child.get());
}
}
// Make sure StackChildAtTop moves both the window and layer to the front.
TEST_P(WindowTest, StackChildAtTop) {
Window parent(NULL);
parent.Init(ui::LAYER_NOT_DRAWN);
Window child1(NULL);
child1.Init(ui::LAYER_NOT_DRAWN);
Window child2(NULL);
child2.Init(ui::LAYER_NOT_DRAWN);
parent.AddChild(&child1);
parent.AddChild(&child2);
ASSERT_EQ(2u, parent.children().size());
EXPECT_EQ(&child1, parent.children()[0]);
EXPECT_EQ(&child2, parent.children()[1]);
ASSERT_EQ(2u, parent.layer()->children().size());
EXPECT_EQ(child1.layer(), parent.layer()->children()[0]);
EXPECT_EQ(child2.layer(), parent.layer()->children()[1]);
parent.StackChildAtTop(&child1);
ASSERT_EQ(2u, parent.children().size());
EXPECT_EQ(&child1, parent.children()[1]);
EXPECT_EQ(&child2, parent.children()[0]);
ASSERT_EQ(2u, parent.layer()->children().size());
EXPECT_EQ(child1.layer(), parent.layer()->children()[1]);
EXPECT_EQ(child2.layer(), parent.layer()->children()[0]);
}
// Make sure StackChildBelow works.
TEST_P(WindowTest, StackChildBelow) {
Window parent(NULL);
parent.Init(ui::LAYER_NOT_DRAWN);
Window child1(NULL);
child1.Init(ui::LAYER_NOT_DRAWN);
child1.set_id(1);
Window child2(NULL);
child2.Init(ui::LAYER_NOT_DRAWN);
child2.set_id(2);
Window child3(NULL);
child3.Init(ui::LAYER_NOT_DRAWN);
child3.set_id(3);
parent.AddChild(&child1);
parent.AddChild(&child2);
parent.AddChild(&child3);
EXPECT_EQ("1 2 3", ChildWindowIDsAsString(&parent));
parent.StackChildBelow(&child1, &child2);
EXPECT_EQ("1 2 3", ChildWindowIDsAsString(&parent));
parent.StackChildBelow(&child2, &child1);
EXPECT_EQ("2 1 3", ChildWindowIDsAsString(&parent));
parent.StackChildBelow(&child3, &child2);
EXPECT_EQ("3 2 1", ChildWindowIDsAsString(&parent));
parent.StackChildBelow(&child3, &child1);
EXPECT_EQ("2 3 1", ChildWindowIDsAsString(&parent));
}
// Various assertions for StackChildAbove.
TEST_P(WindowTest, StackChildAbove) {
Window parent(NULL);
parent.Init(ui::LAYER_NOT_DRAWN);
Window child1(NULL);
child1.Init(ui::LAYER_NOT_DRAWN);
Window child2(NULL);
child2.Init(ui::LAYER_NOT_DRAWN);
Window child3(NULL);
child3.Init(ui::LAYER_NOT_DRAWN);
parent.AddChild(&child1);
parent.AddChild(&child2);
// Move 1 in front of 2.
parent.StackChildAbove(&child1, &child2);
ASSERT_EQ(2u, parent.children().size());
EXPECT_EQ(&child2, parent.children()[0]);
EXPECT_EQ(&child1, parent.children()[1]);
ASSERT_EQ(2u, parent.layer()->children().size());
EXPECT_EQ(child2.layer(), parent.layer()->children()[0]);
EXPECT_EQ(child1.layer(), parent.layer()->children()[1]);
// Add 3, resulting in order [2, 1, 3], then move 2 in front of 1, resulting
// in [1, 2, 3].
parent.AddChild(&child3);
parent.StackChildAbove(&child2, &child1);
ASSERT_EQ(3u, parent.children().size());
EXPECT_EQ(&child1, parent.children()[0]);
EXPECT_EQ(&child2, parent.children()[1]);
EXPECT_EQ(&child3, parent.children()[2]);
ASSERT_EQ(3u, parent.layer()->children().size());
EXPECT_EQ(child1.layer(), parent.layer()->children()[0]);
EXPECT_EQ(child2.layer(), parent.layer()->children()[1]);
EXPECT_EQ(child3.layer(), parent.layer()->children()[2]);
// Move 1 in front of 3, resulting in [2, 3, 1].
parent.StackChildAbove(&child1, &child3);
ASSERT_EQ(3u, parent.children().size());
EXPECT_EQ(&child2, parent.children()[0]);
EXPECT_EQ(&child3, parent.children()[1]);
EXPECT_EQ(&child1, parent.children()[2]);
ASSERT_EQ(3u, parent.layer()->children().size());
EXPECT_EQ(child2.layer(), parent.layer()->children()[0]);
EXPECT_EQ(child3.layer(), parent.layer()->children()[1]);
EXPECT_EQ(child1.layer(), parent.layer()->children()[2]);
// Moving 1 in front of 2 should lower it, resulting in [2, 1, 3].
parent.StackChildAbove(&child1, &child2);
ASSERT_EQ(3u, parent.children().size());
EXPECT_EQ(&child2, parent.children()[0]);
EXPECT_EQ(&child1, parent.children()[1]);
EXPECT_EQ(&child3, parent.children()[2]);
ASSERT_EQ(3u, parent.layer()->children().size());
EXPECT_EQ(child2.layer(), parent.layer()->children()[0]);
EXPECT_EQ(child1.layer(), parent.layer()->children()[1]);
EXPECT_EQ(child3.layer(), parent.layer()->children()[2]);
}
// Various capture assertions.
TEST_P(WindowTest, CaptureTests) {
CaptureWindowDelegateImpl delegate;
std::unique_ptr<Window> window(CreateTestWindowWithDelegate(
&delegate, 0, gfx::Rect(0, 0, 20, 20), root_window()));
EXPECT_FALSE(window->HasCapture());
delegate.ResetCounts();
// Do a capture.
window->SetCapture();
EXPECT_TRUE(window->HasCapture());
EXPECT_EQ(0, delegate.capture_lost_count());
EXPECT_EQ(0, delegate.capture_changed_event_count());
ui::test::EventGenerator generator(root_window(), gfx::Point(50, 50));
generator.PressLeftButton();
EXPECT_EQ(1, delegate.mouse_event_count());
generator.ReleaseLeftButton();
EXPECT_EQ(2, delegate.mouse_event_count());
delegate.ResetCounts();
ui::TouchEvent touchev(
ui::ET_TOUCH_PRESSED, gfx::Point(50, 50), getTime(),
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 0));
DispatchEventUsingWindowDispatcher(&touchev);
EXPECT_EQ(1, delegate.touch_event_count());
delegate.ResetCounts();
window->ReleaseCapture();
EXPECT_FALSE(window->HasCapture());
EXPECT_EQ(1, delegate.capture_lost_count());
EXPECT_EQ(1, delegate.capture_changed_event_count());
EXPECT_EQ(1, delegate.mouse_event_count());
EXPECT_EQ(0, delegate.touch_event_count());
generator.PressLeftButton();
EXPECT_EQ(1, delegate.mouse_event_count());
ui::TouchEvent touchev2(
ui::ET_TOUCH_PRESSED, gfx::Point(250, 250), getTime(),
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 1));
DispatchEventUsingWindowDispatcher(&touchev2);
EXPECT_EQ(0, delegate.touch_event_count());
// Removing the capture window from parent should reset the capture window
// in the root window.
window->SetCapture();
EXPECT_EQ(window.get(), aura::client::GetCaptureWindow(root_window()));
window->parent()->RemoveChild(window.get());
EXPECT_FALSE(window->HasCapture());
EXPECT_EQ(NULL, aura::client::GetCaptureWindow(root_window()));
}
TEST_P(WindowTest, TouchCaptureCancelsOtherTouches) {
CaptureWindowDelegateImpl delegate1;
std::unique_ptr<Window> w1(CreateTestWindowWithDelegate(
&delegate1, 0, gfx::Rect(0, 0, 50, 50), root_window()));
CaptureWindowDelegateImpl delegate2;
std::unique_ptr<Window> w2(CreateTestWindowWithDelegate(
&delegate2, 0, gfx::Rect(50, 50, 50, 50), root_window()));
// Press on w1.
ui::TouchEvent press1(
ui::ET_TOUCH_PRESSED, gfx::Point(10, 10), getTime(),
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 0));
DispatchEventUsingWindowDispatcher(&press1);
// We will get both GESTURE_BEGIN and GESTURE_TAP_DOWN.
EXPECT_EQ(2, delegate1.gesture_event_count());
delegate1.ResetCounts();
// Capturing to w2 should cause the touch to be canceled.
w2->SetCapture();
EXPECT_EQ(1, delegate1.touch_event_count());
EXPECT_EQ(0, delegate2.touch_event_count());
delegate1.ResetCounts();
delegate2.ResetCounts();
// Events are now untargetted.
ui::TouchEvent move(
ui::ET_TOUCH_MOVED, gfx::Point(10, 20), getTime(),
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 0));
DispatchEventUsingWindowDispatcher(&move);
EXPECT_EQ(0, delegate1.gesture_event_count());
EXPECT_EQ(0, delegate1.touch_event_count());
EXPECT_EQ(0, delegate2.gesture_event_count());
EXPECT_EQ(0, delegate2.touch_event_count());
ui::TouchEvent release(
ui::ET_TOUCH_RELEASED, gfx::Point(10, 20), getTime(),
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 0));
DispatchEventUsingWindowDispatcher(&release);
EXPECT_EQ(0, delegate1.gesture_event_count());
EXPECT_EQ(0, delegate2.gesture_event_count());
// A new press is captured by w2.
ui::TouchEvent press2(
ui::ET_TOUCH_PRESSED, gfx::Point(10, 10), getTime(),
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 0));
DispatchEventUsingWindowDispatcher(&press2);
EXPECT_EQ(0, delegate1.gesture_event_count());
// We will get both GESTURE_BEGIN and GESTURE_TAP_DOWN.
EXPECT_EQ(2, delegate2.gesture_event_count());
delegate1.ResetCounts();
delegate2.ResetCounts();
// And releasing capture changes nothing.
w2->ReleaseCapture();
EXPECT_EQ(0, delegate1.gesture_event_count());
EXPECT_EQ(0, delegate1.touch_event_count());
EXPECT_EQ(0, delegate2.gesture_event_count());
EXPECT_EQ(0, delegate2.touch_event_count());
}
TEST_P(WindowTest, TouchCaptureDoesntCancelCapturedTouches) {
CaptureWindowDelegateImpl delegate;
std::unique_ptr<Window> window(CreateTestWindowWithDelegate(
&delegate, 0, gfx::Rect(0, 0, 50, 50), root_window()));
base::TimeTicks time = getTime();
const int kTimeDelta = 100;
ui::TouchEvent press(
ui::ET_TOUCH_PRESSED, gfx::Point(10, 10), time,
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 0));
DispatchEventUsingWindowDispatcher(&press);
// We will get both GESTURE_BEGIN and GESTURE_TAP_DOWN.
EXPECT_EQ(2, delegate.gesture_event_count());
EXPECT_EQ(1, delegate.touch_event_count());
delegate.ResetCounts();
window->SetCapture();
EXPECT_EQ(0, delegate.gesture_event_count());
EXPECT_EQ(0, delegate.touch_event_count());
delegate.ResetCounts();
// On move We will get TOUCH_MOVED, GESTURE_TAP_CANCEL,
// GESTURE_SCROLL_START and GESTURE_SCROLL_UPDATE.
time += base::TimeDelta::FromMilliseconds(kTimeDelta);
ui::TouchEvent move(
ui::ET_TOUCH_MOVED, gfx::Point(10, 20), time,
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 0));
DispatchEventUsingWindowDispatcher(&move);
EXPECT_EQ(1, delegate.touch_event_count());
EXPECT_EQ(3, delegate.gesture_event_count());
delegate.ResetCounts();
// Release capture shouldn't change anything.
window->ReleaseCapture();
EXPECT_EQ(0, delegate.touch_event_count());
EXPECT_EQ(0, delegate.gesture_event_count());
delegate.ResetCounts();
// On move we still get TOUCH_MOVED and GESTURE_SCROLL_UPDATE.
time += base::TimeDelta::FromMilliseconds(kTimeDelta);
ui::TouchEvent move2(
ui::ET_TOUCH_MOVED, gfx::Point(10, 30), time,
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 0));
DispatchEventUsingWindowDispatcher(&move2);
EXPECT_EQ(1, delegate.touch_event_count());
EXPECT_EQ(1, delegate.gesture_event_count());
delegate.ResetCounts();
// And on release we get TOUCH_RELEASED, GESTURE_SCROLL_END, GESTURE_END
time += base::TimeDelta::FromMilliseconds(kTimeDelta);
ui::TouchEvent release(
ui::ET_TOUCH_RELEASED, gfx::Point(10, 20), time,
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 0));
DispatchEventUsingWindowDispatcher(&release);
EXPECT_EQ(1, delegate.touch_event_count());
EXPECT_EQ(2, delegate.gesture_event_count());
}
// Assertions around SetCapture() and touch/gestures.
TEST_P(WindowTest, TransferCaptureTouchEvents) {
// Touch on |w1|.
CaptureWindowDelegateImpl d1;
std::unique_ptr<Window> w1(CreateTestWindowWithDelegate(
&d1, 0, gfx::Rect(0, 0, 20, 20), root_window()));
ui::TouchEvent p1(
ui::ET_TOUCH_PRESSED, gfx::Point(10, 10), getTime(),
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 0));
DispatchEventUsingWindowDispatcher(&p1);
// We will get both GESTURE_BEGIN and GESTURE_TAP_DOWN.
EXPECT_EQ(1, d1.touch_event_count());
EXPECT_EQ(2, d1.gesture_event_count());
d1.ResetCounts();
// Touch on |w2| with a different id.
CaptureWindowDelegateImpl d2;
std::unique_ptr<Window> w2(CreateTestWindowWithDelegate(
&d2, 0, gfx::Rect(40, 0, 40, 20), root_window()));
ui::TouchEvent p2(
ui::ET_TOUCH_PRESSED, gfx::Point(41, 10), getTime(),
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 1));
DispatchEventUsingWindowDispatcher(&p2);
EXPECT_EQ(0, d1.touch_event_count());
EXPECT_EQ(0, d1.gesture_event_count());
// We will get both GESTURE_BEGIN and GESTURE_TAP_DOWN for new target window.
EXPECT_EQ(1, d2.touch_event_count());
EXPECT_EQ(2, d2.gesture_event_count());
d1.ResetCounts();
d2.ResetCounts();
// Set capture on |w2|, this should send a cancel (TAP_CANCEL, END) to |w1|
// but not |w2|.
w2->SetCapture();
EXPECT_EQ(1, d1.touch_event_count());
EXPECT_EQ(2, d1.gesture_event_count());
EXPECT_EQ(0, d2.touch_event_count());
EXPECT_EQ(0, d2.gesture_event_count());
d1.ResetCounts();
d2.ResetCounts();
CaptureWindowDelegateImpl d3;
std::unique_ptr<Window> w3(CreateTestWindowWithDelegate(
&d3, 0, gfx::Rect(0, 0, 100, 101), root_window()));
// Set capture on |w3|. All touches have already been cancelled.
w3->SetCapture();
EXPECT_EQ(0, d1.touch_event_count());
EXPECT_EQ(0, d1.gesture_event_count());
EXPECT_EQ(1, d2.touch_event_count());
EXPECT_EQ(2, d2.gesture_event_count());
EXPECT_EQ(0, d3.touch_event_count());
EXPECT_EQ(0, d3.gesture_event_count());
d2.ResetCounts();
// Move touch id originally associated with |w2|. The touch has been
// cancelled, so no events should be dispatched.
ui::TouchEvent m3(
ui::ET_TOUCH_MOVED, gfx::Point(110, 105), getTime(),
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 1));
DispatchEventUsingWindowDispatcher(&m3);
EXPECT_EQ(0, d1.touch_event_count());
EXPECT_EQ(0, d1.gesture_event_count());
EXPECT_EQ(0, d2.touch_event_count());
EXPECT_EQ(0, d2.gesture_event_count());
EXPECT_EQ(0, d3.touch_event_count());
EXPECT_EQ(0, d3.gesture_event_count());
// When we release capture, no touches are canceled.
w3->ReleaseCapture();
EXPECT_EQ(0, d1.touch_event_count());
EXPECT_EQ(0, d1.gesture_event_count());
EXPECT_EQ(0, d2.touch_event_count());
EXPECT_EQ(0, d2.gesture_event_count());
EXPECT_EQ(0, d3.touch_event_count());
EXPECT_EQ(0, d3.gesture_event_count());
// The touch has been cancelled, so no events are dispatched.
ui::TouchEvent m4(
ui::ET_TOUCH_MOVED, gfx::Point(120, 105), getTime(),
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 1));
DispatchEventUsingWindowDispatcher(&m4);
EXPECT_EQ(0, d1.touch_event_count());
EXPECT_EQ(0, d1.gesture_event_count());
EXPECT_EQ(0, d2.touch_event_count());
EXPECT_EQ(0, d2.gesture_event_count());
EXPECT_EQ(0, d3.touch_event_count());
EXPECT_EQ(0, d3.gesture_event_count());
}
// Changes capture while capture is already ongoing.
TEST_P(WindowTest, ChangeCaptureWhileMouseDown) {
CaptureWindowDelegateImpl delegate;
std::unique_ptr<Window> window(CreateTestWindowWithDelegate(
&delegate, 0, gfx::Rect(0, 0, 20, 20), root_window()));
CaptureWindowDelegateImpl delegate2;
std::unique_ptr<Window> w2(CreateTestWindowWithDelegate(
&delegate2, 0, gfx::Rect(20, 20, 20, 20), root_window()));
// Execute the scheduled draws so that mouse events are not
// aggregated.
RunAllPendingInMessageLoop();
EXPECT_FALSE(window->HasCapture());
// Do a capture.
delegate.ResetCounts();
window->SetCapture();
EXPECT_TRUE(window->HasCapture());
EXPECT_EQ(0, delegate.capture_lost_count());
EXPECT_EQ(0, delegate.capture_changed_event_count());
ui::test::EventGenerator generator(root_window(), gfx::Point(50, 50));
generator.PressLeftButton();
EXPECT_EQ(0, delegate.capture_lost_count());
EXPECT_EQ(0, delegate.capture_changed_event_count());
EXPECT_EQ(1, delegate.mouse_event_count());
// Set capture to |w2|, should implicitly unset capture for |window|.
delegate.ResetCounts();
delegate2.ResetCounts();
w2->SetCapture();
generator.MoveMouseTo(gfx::Point(40, 40), 2);
EXPECT_EQ(1, delegate.capture_lost_count());
EXPECT_EQ(1, delegate.capture_changed_event_count());
EXPECT_EQ(1, delegate.mouse_event_count());
EXPECT_EQ(2, delegate2.mouse_event_count());
}
// Verifies capture is reset when a window is destroyed.
TEST_P(WindowTest, ReleaseCaptureOnDestroy) {
CaptureWindowDelegateImpl delegate;
std::unique_ptr<Window> window(CreateTestWindowWithDelegate(
&delegate, 0, gfx::Rect(0, 0, 20, 20), root_window()));
EXPECT_FALSE(window->HasCapture());
// Do a capture.
window->SetCapture();
EXPECT_TRUE(window->HasCapture());
// Destroy the window.
window.reset();
// Make sure the root window doesn't reference the window anymore.
EXPECT_EQ(NULL, host()->dispatcher()->mouse_pressed_handler());
EXPECT_EQ(NULL, aura::client::GetCaptureWindow(root_window()));
}
TEST_P(WindowTest, GetBoundsInRootWindow) {
std::unique_ptr<Window> viewport(
CreateTestWindowWithBounds(gfx::Rect(0, 0, 300, 300), root_window()));
std::unique_ptr<Window> child(
CreateTestWindowWithBounds(gfx::Rect(0, 0, 100, 100), viewport.get()));
// Sanity check.
EXPECT_EQ("0,0 100x100", child->GetBoundsInRootWindow().ToString());
// The |child| window's screen bounds should move along with the |viewport|.
viewport->SetBounds(gfx::Rect(-100, -100, 300, 300));
EXPECT_EQ("-100,-100 100x100", child->GetBoundsInRootWindow().ToString());
// The |child| window is moved to the 0,0 in screen coordinates.
// |GetBoundsInRootWindow()| should return 0,0.
child->SetBounds(gfx::Rect(100, 100, 100, 100));
EXPECT_EQ("0,0 100x100", child->GetBoundsInRootWindow().ToString());
}
TEST_P(WindowTest, GetBoundsInRootWindowWithLayers) {
std::unique_ptr<Window> viewport(
CreateTestWindowWithBounds(gfx::Rect(0, 0, 300, 300), root_window()));
std::unique_ptr<Window> widget(
CreateTestWindowWithBounds(gfx::Rect(0, 0, 200, 200), viewport.get()));
std::unique_ptr<Window> child(
CreateTestWindowWithBounds(gfx::Rect(0, 0, 100, 100), widget.get()));
// Sanity check.
EXPECT_EQ("0,0 100x100", child->GetBoundsInRootWindow().ToString());
// The |child| window's screen bounds should move along with the |viewport|.
OffsetBounds(viewport.get(), -100, -100);
EXPECT_EQ("-100,-100 100x100", child->GetBoundsInRootWindow().ToString());
OffsetBounds(widget.get(), 50, 50);
EXPECT_EQ("-50,-50 100x100", child->GetBoundsInRootWindow().ToString());
// The |child| window is moved to the 0,0 in screen coordinates.
// |GetBoundsInRootWindow()| should return 0,0.
OffsetBounds(child.get(), 50, 50);
EXPECT_EQ("0,0 100x100", child->GetBoundsInRootWindow().ToString());
}
TEST_P(WindowTest, GetBoundsInRootWindowWithLayersAndTranslations) {
std::unique_ptr<Window> viewport(
CreateTestWindowWithBounds(gfx::Rect(0, 0, 300, 300), root_window()));
std::unique_ptr<Window> widget(
CreateTestWindowWithBounds(gfx::Rect(0, 0, 200, 200), viewport.get()));
std::unique_ptr<Window> child(
CreateTestWindowWithBounds(gfx::Rect(0, 0, 100, 100), widget.get()));
// Sanity check.
EXPECT_EQ("0,0 100x100", child->GetBoundsInRootWindow().ToString());
// The |child| window's screen bounds should move along with the |viewport|.
viewport->SetBounds(gfx::Rect(-100, -100, 300, 300));
EXPECT_EQ("-100,-100 100x100", child->GetBoundsInRootWindow().ToString());
widget->SetBounds(gfx::Rect(50, 50, 200, 200));
EXPECT_EQ("-50,-50 100x100", child->GetBoundsInRootWindow().ToString());
// The |child| window is moved to the 0,0 in screen coordinates.
// |GetBoundsInRootWindow()| should return 0,0.
child->SetBounds(gfx::Rect(50, 50, 100, 100));
EXPECT_EQ("0,0 100x100", child->GetBoundsInRootWindow().ToString());
gfx::Transform transform1;
transform1.Translate(-10, 20);
viewport->SetTransform(transform1);
EXPECT_EQ("-10,20 100x100", child->GetBoundsInRootWindow().ToString());
gfx::Transform transform2;
transform2.Translate(40, 100);
widget->SetTransform(transform2);
EXPECT_EQ("30,120 100x100", child->GetBoundsInRootWindow().ToString());
// Testing potentially buggy place
gfx::Transform transform3;
transform3.Translate(-30, -120);
child->SetTransform(transform3);
EXPECT_EQ("0,0 100x100", child->GetBoundsInRootWindow().ToString());
}
// TODO(tdanderson): Remove this class and use
// test::EventCountDelegate in its place.
class MouseEnterExitWindowDelegate : public TestWindowDelegate {
public:
MouseEnterExitWindowDelegate() : entered_(false), exited_(false) {}
void OnMouseEvent(ui::MouseEvent* event) override {
switch (event->type()) {
case ui::ET_MOUSE_ENTERED:
EXPECT_TRUE(event->flags() & ui::EF_IS_SYNTHESIZED);
entered_ = true;
break;
case ui::ET_MOUSE_EXITED:
EXPECT_TRUE(event->flags() & ui::EF_IS_SYNTHESIZED);
exited_ = true;
break;
default:
break;
}
}
bool entered() const { return entered_; }
bool exited() const { return exited_; }
// Clear the entered / exited states.
void ResetExpectations() {
entered_ = false;
exited_ = false;
}
private:
bool entered_;
bool exited_;
DISALLOW_COPY_AND_ASSIGN(MouseEnterExitWindowDelegate);
};
// Verifies that the WindowDelegate receives MouseExit and MouseEnter events for
// mouse transitions from window to window.
TEST_P(WindowTest, MouseEnterExit) {
MouseEnterExitWindowDelegate d1;
std::unique_ptr<Window> w1(CreateTestWindowWithDelegate(
&d1, 1, gfx::Rect(10, 10, 50, 50), root_window()));
MouseEnterExitWindowDelegate d2;
std::unique_ptr<Window> w2(CreateTestWindowWithDelegate(
&d2, 2, gfx::Rect(70, 70, 50, 50), root_window()));
ui::test::EventGenerator generator(root_window());
generator.MoveMouseToCenterOf(w1.get());
EXPECT_TRUE(d1.entered());
EXPECT_FALSE(d1.exited());
EXPECT_FALSE(d2.entered());
EXPECT_FALSE(d2.exited());
generator.MoveMouseToCenterOf(w2.get());
EXPECT_TRUE(d1.entered());
EXPECT_TRUE(d1.exited());
EXPECT_TRUE(d2.entered());
EXPECT_FALSE(d2.exited());
}
// Verifies that the WindowDelegate receives MouseExit from ET_MOUSE_EXITED.
TEST_P(WindowTest, WindowTreeHostExit) {
MouseEnterExitWindowDelegate d1;
std::unique_ptr<Window> w1(CreateTestWindowWithDelegate(
&d1, 1, gfx::Rect(10, 10, 50, 50), root_window()));
ui::test::EventGenerator generator(root_window());
generator.MoveMouseToCenterOf(w1.get());
EXPECT_TRUE(d1.entered());
EXPECT_FALSE(d1.exited());
d1.ResetExpectations();
ui::MouseEvent exit_event(ui::ET_MOUSE_EXITED, gfx::Point(), gfx::Point(),
ui::EventTimeForNow(), 0, 0);
DispatchEventUsingWindowDispatcher(&exit_event);
EXPECT_FALSE(d1.entered());
EXPECT_TRUE(d1.exited());
}
// Verifies that the WindowDelegate receives MouseExit and MouseEnter events for
// mouse transitions from window to window, even if the entered window sets
// and releases capture.
TEST_P(WindowTest, MouseEnterExitWithClick) {
MouseEnterExitWindowDelegate d1;
std::unique_ptr<Window> w1(CreateTestWindowWithDelegate(
&d1, 1, gfx::Rect(10, 10, 50, 50), root_window()));
MouseEnterExitWindowDelegate d2;
std::unique_ptr<Window> w2(CreateTestWindowWithDelegate(
&d2, 2, gfx::Rect(70, 70, 50, 50), root_window()));
ui::test::EventGenerator generator(root_window());
generator.MoveMouseToCenterOf(w1.get());
EXPECT_TRUE(d1.entered());
EXPECT_FALSE(d1.exited());
EXPECT_FALSE(d2.entered());
EXPECT_FALSE(d2.exited());
// Emmulate what Views does on a click by grabbing and releasing capture.
generator.PressLeftButton();
w1->SetCapture();
w1->ReleaseCapture();
generator.ReleaseLeftButton();
generator.MoveMouseToCenterOf(w2.get());
EXPECT_TRUE(d1.entered());
EXPECT_TRUE(d1.exited());
EXPECT_TRUE(d2.entered());
EXPECT_FALSE(d2.exited());
}
TEST_P(WindowTest, MouseEnterExitWhenDeleteWithCapture) {
MouseEnterExitWindowDelegate delegate;
std::unique_ptr<Window> window(CreateTestWindowWithDelegate(
&delegate, 1, gfx::Rect(10, 10, 50, 50), root_window()));
ui::test::EventGenerator generator(root_window());
generator.MoveMouseToCenterOf(window.get());
EXPECT_TRUE(delegate.entered());
EXPECT_FALSE(delegate.exited());
// Emmulate what Views does on a click by grabbing and releasing capture.
generator.PressLeftButton();
window->SetCapture();
delegate.ResetExpectations();
generator.MoveMouseTo(0, 0);
EXPECT_FALSE(delegate.entered());
EXPECT_FALSE(delegate.exited());
delegate.ResetExpectations();
window.reset();
EXPECT_FALSE(delegate.entered());
EXPECT_FALSE(delegate.exited());
}
// Verifies that the correct enter / exits are sent if windows appear and are
// deleted under the current mouse position.
TEST_P(WindowTest, MouseEnterExitWithWindowAppearAndDelete) {
MouseEnterExitWindowDelegate d1;
std::unique_ptr<Window> w1(CreateTestWindowWithDelegate(
&d1, 1, gfx::Rect(10, 10, 50, 50), root_window()));
// The cursor is moved into the bounds of |w1|. We expect the delegate
// of |w1| to see an ET_MOUSE_ENTERED event.
ui::test::EventGenerator generator(root_window());
generator.MoveMouseToCenterOf(w1.get());
EXPECT_TRUE(d1.entered());
EXPECT_FALSE(d1.exited());
d1.ResetExpectations();
MouseEnterExitWindowDelegate d2;
{
std::unique_ptr<Window> w2(CreateTestWindowWithDelegate(
&d2, 2, gfx::Rect(10, 10, 50, 50), root_window()));
// Enters / exits can be sent asynchronously.
RunAllPendingInMessageLoop();
// |w2| appears over top of |w1|. We expect the delegate of |w1| to see
// an ET_MOUSE_EXITED and the delegate of |w2| to see an ET_MOUSE_ENTERED.
EXPECT_FALSE(d1.entered());
EXPECT_TRUE(d1.exited());
EXPECT_TRUE(d2.entered());
EXPECT_FALSE(d2.exited());
d1.ResetExpectations();
d2.ResetExpectations();
}
// Enters / exits can be sent asynchronously.
RunAllPendingInMessageLoop();
// |w2| has been destroyed, so its delegate should see no further events.
// The delegate of |w1| should see an ET_MOUSE_ENTERED event.
EXPECT_TRUE(d1.entered());
EXPECT_FALSE(d1.exited());
EXPECT_FALSE(d2.entered());
EXPECT_FALSE(d2.exited());
}
// Verifies that enter / exits are sent if windows appear and are hidden
// under the current mouse position..
TEST_P(WindowTest, MouseEnterExitWithHide) {
MouseEnterExitWindowDelegate d1;
std::unique_ptr<Window> w1(CreateTestWindowWithDelegate(
&d1, 1, gfx::Rect(10, 10, 50, 50), root_window()));
ui::test::EventGenerator generator(root_window());
generator.MoveMouseToCenterOf(w1.get());
EXPECT_TRUE(d1.entered());
EXPECT_FALSE(d1.exited());
MouseEnterExitWindowDelegate d2;
std::unique_ptr<Window> w2(CreateTestWindowWithDelegate(
&d2, 2, gfx::Rect(10, 10, 50, 50), root_window()));
// Enters / exits can be send asynchronously.
RunAllPendingInMessageLoop();
EXPECT_TRUE(d1.entered());
EXPECT_TRUE(d1.exited());
EXPECT_TRUE(d2.entered());
EXPECT_FALSE(d2.exited());
d1.ResetExpectations();
w2->Hide();
// Enters / exits can be send asynchronously.
RunAllPendingInMessageLoop();
EXPECT_TRUE(d2.exited());
EXPECT_TRUE(d1.entered());
}
TEST_P(WindowTest, MouseEnterExitWithParentHide) {
MouseEnterExitWindowDelegate d1;
std::unique_ptr<Window> w1(CreateTestWindowWithDelegate(
&d1, 1, gfx::Rect(10, 10, 50, 50), root_window()));
MouseEnterExitWindowDelegate d2;
Window* w2 = CreateTestWindowWithDelegate(&d2, 2, gfx::Rect(10, 10, 50, 50),
w1.get());
ui::test::EventGenerator generator(root_window());
generator.MoveMouseToCenterOf(w2);
// Enters / exits can be send asynchronously.
RunAllPendingInMessageLoop();
EXPECT_TRUE(d2.entered());
EXPECT_FALSE(d2.exited());
d2.ResetExpectations();
w1->Hide();
RunAllPendingInMessageLoop();
EXPECT_FALSE(d2.entered());
EXPECT_TRUE(d2.exited());
w1.reset();
}
TEST_P(WindowTest, MouseEnterExitWithParentDelete) {
MouseEnterExitWindowDelegate d1;
std::unique_ptr<Window> w1(CreateTestWindowWithDelegate(
&d1, 1, gfx::Rect(10, 10, 50, 50), root_window()));
MouseEnterExitWindowDelegate d2;
Window* w2 = CreateTestWindowWithDelegate(&d2, 2, gfx::Rect(10, 10, 50, 50),
w1.get());
ui::test::EventGenerator generator(root_window());
generator.MoveMouseToCenterOf(w2);
// Enters / exits can be send asynchronously.
RunAllPendingInMessageLoop();
EXPECT_TRUE(d2.entered());
EXPECT_FALSE(d2.exited());
d2.ResetExpectations();
w1.reset();
RunAllPendingInMessageLoop();
// Both windows are in the process of destroying, so their delegates should
// not see any mouse events.
EXPECT_FALSE(d1.entered());
EXPECT_FALSE(d1.exited());
EXPECT_FALSE(d2.entered());
EXPECT_FALSE(d2.exited());
}
// Creates a window with a delegate (w111) that can handle events at a lower
// z-index than a window without a delegate (w12). w12 is sized to fill the
// entire bounds of the container. This test verifies that
// GetEventHandlerForPoint() skips w12 even though its bounds contain the event,
// because it has no children that can handle the event and it has no delegate
// allowing it to handle the event itself.
TEST_P(WindowTest, GetEventHandlerForPoint_NoDelegate) {
TestWindowDelegate d111;
std::unique_ptr<Window> w1(CreateTestWindowWithDelegate(
NULL, 1, gfx::Rect(0, 0, 500, 500), root_window()));
std::unique_ptr<Window> w11(CreateTestWindowWithDelegate(
NULL, 11, gfx::Rect(0, 0, 500, 500), w1.get()));
std::unique_ptr<Window> w111(CreateTestWindowWithDelegate(
&d111, 111, gfx::Rect(50, 50, 450, 450), w11.get()));
std::unique_ptr<Window> w12(CreateTestWindowWithDelegate(
NULL, 12, gfx::Rect(0, 0, 500, 500), w1.get()));
gfx::Point target_point = w111->bounds().CenterPoint();
EXPECT_EQ(w111.get(), w1->GetEventHandlerForPoint(target_point));
}
class VisibilityWindowDelegate : public TestWindowDelegate {
public:
VisibilityWindowDelegate()
: shown_(0),
hidden_(0) {
}
int shown() const { return shown_; }
int hidden() const { return hidden_; }
void Clear() {
shown_ = 0;
hidden_ = 0;
}
void OnWindowTargetVisibilityChanged(bool visible) override {
if (visible)
shown_++;
else
hidden_++;
}
private:
int shown_;
int hidden_;
DISALLOW_COPY_AND_ASSIGN(VisibilityWindowDelegate);
};
// Verifies show/hide propagate correctly to children and the layer.
TEST_P(WindowTest, Visibility) {
VisibilityWindowDelegate d;
VisibilityWindowDelegate d2;
std::unique_ptr<Window> w1(
CreateTestWindowWithDelegate(&d, 1, gfx::Rect(), root_window()));
std::unique_ptr<Window> w2(
CreateTestWindowWithDelegate(&d2, 2, gfx::Rect(), w1.get()));
std::unique_ptr<Window> w3(CreateTestWindowWithId(3, w2.get()));
// Create shows all the windows.
EXPECT_TRUE(w1->IsVisible());
EXPECT_TRUE(w2->IsVisible());
EXPECT_TRUE(w3->IsVisible());
EXPECT_EQ(1, d.shown());
d.Clear();
w1->Hide();
EXPECT_FALSE(w1->IsVisible());
EXPECT_FALSE(w2->IsVisible());
EXPECT_FALSE(w3->IsVisible());
EXPECT_EQ(1, d.hidden());
EXPECT_EQ(0, d.shown());
w2->Show();
EXPECT_FALSE(w1->IsVisible());
EXPECT_FALSE(w2->IsVisible());
EXPECT_FALSE(w3->IsVisible());
w3->Hide();
EXPECT_FALSE(w1->IsVisible());
EXPECT_FALSE(w2->IsVisible());
EXPECT_FALSE(w3->IsVisible());
d.Clear();
w1->Show();
EXPECT_TRUE(w1->IsVisible());
EXPECT_TRUE(w2->IsVisible());
EXPECT_FALSE(w3->IsVisible());
EXPECT_EQ(0, d.hidden());
EXPECT_EQ(1, d.shown());
w3->Show();
EXPECT_TRUE(w1->IsVisible());
EXPECT_TRUE(w2->IsVisible());
EXPECT_TRUE(w3->IsVisible());
// Verify that if an ancestor isn't visible and we change the visibility of a
// child window that OnChildWindowVisibilityChanged() is still invoked.
w1->Hide();
d2.Clear();
w2->Hide();
EXPECT_EQ(1, d2.hidden());
EXPECT_EQ(0, d2.shown());
d2.Clear();
w2->Show();
EXPECT_EQ(0, d2.hidden());
EXPECT_EQ(1, d2.shown());
}
TEST_P(WindowTest, EventTargetingPolicy) {
TestWindowDelegate d11;
TestWindowDelegate d12;
TestWindowDelegate d111;
TestWindowDelegate d121;
std::unique_ptr<Window> w1(CreateTestWindowWithDelegate(
NULL, 1, gfx::Rect(0, 0, 500, 500), root_window()));
std::unique_ptr<Window> w11(CreateTestWindowWithDelegate(
&d11, 11, gfx::Rect(0, 0, 500, 500), w1.get()));
std::unique_ptr<Window> w111(CreateTestWindowWithDelegate(
&d111, 111, gfx::Rect(50, 50, 450, 450), w11.get()));
std::unique_ptr<Window> w12(CreateTestWindowWithDelegate(
&d12, 12, gfx::Rect(0, 0, 500, 500), w1.get()));
std::unique_ptr<Window> w121(CreateTestWindowWithDelegate(
&d121, 121, gfx::Rect(150, 150, 50, 50), w12.get()));
EXPECT_EQ(w121.get(), w1->GetEventHandlerForPoint(gfx::Point(160, 160)));
w12->SetEventTargetingPolicy(ws::mojom::EventTargetingPolicy::TARGET_ONLY);
EXPECT_EQ(w12.get(), w1->GetEventHandlerForPoint(gfx::Point(160, 160)));
w12->SetEventTargetingPolicy(
ws::mojom::EventTargetingPolicy::TARGET_AND_DESCENDANTS);
EXPECT_EQ(w12.get(), w1->GetEventHandlerForPoint(gfx::Point(10, 10)));
w12->SetEventTargetingPolicy(ws::mojom::EventTargetingPolicy::NONE);
EXPECT_EQ(w11.get(), w1->GetEventHandlerForPoint(gfx::Point(10, 10)));
w12->SetEventTargetingPolicy(
ws::mojom::EventTargetingPolicy::TARGET_AND_DESCENDANTS);
EXPECT_EQ(w121.get(), w1->GetEventHandlerForPoint(gfx::Point(160, 160)));
w121->SetEventTargetingPolicy(ws::mojom::EventTargetingPolicy::NONE);
EXPECT_EQ(w12.get(), w1->GetEventHandlerForPoint(gfx::Point(160, 160)));
w12->SetEventTargetingPolicy(ws::mojom::EventTargetingPolicy::NONE);
EXPECT_EQ(w111.get(), w1->GetEventHandlerForPoint(gfx::Point(160, 160)));
w111->SetEventTargetingPolicy(ws::mojom::EventTargetingPolicy::NONE);
EXPECT_EQ(w11.get(), w1->GetEventHandlerForPoint(gfx::Point(160, 160)));
w11->SetEventTargetingPolicy(
ws::mojom::EventTargetingPolicy::DESCENDANTS_ONLY);
EXPECT_EQ(nullptr, w1->GetEventHandlerForPoint(gfx::Point(160, 160)));
w111->SetEventTargetingPolicy(
ws::mojom::EventTargetingPolicy::TARGET_AND_DESCENDANTS);
EXPECT_EQ(w111.get(), w1->GetEventHandlerForPoint(gfx::Point(160, 160)));
}
// Tests transformation on the root window.
TEST_P(WindowTest, Transform) {
gfx::Size size = host()->GetBoundsInPixels().size();
EXPECT_EQ(gfx::Rect(size), display::Screen::GetScreen()
->GetDisplayNearestPoint(gfx::Point())
.bounds());
// Rotate it clock-wise 90 degrees.
gfx::Transform transform;
transform.Translate(size.height(), 0);
transform.Rotate(90.0);
host()->SetRootTransform(transform);
// The size should be the transformed size.
gfx::Size transformed_size(size.height(), size.width());
EXPECT_EQ(transformed_size.ToString(),
root_window()->bounds().size().ToString());
EXPECT_EQ(gfx::Rect(transformed_size).ToString(),
display::Screen::GetScreen()
->GetDisplayNearestPoint(gfx::Point())
.bounds()
.ToString());
// Host size shouldn't change.
EXPECT_EQ(size.ToString(), host()->GetBoundsInPixels().size().ToString());
}
TEST_P(WindowTest, TransformGesture) {
// This test is only applicable to LOCAL mode as it's setting a transform on
// host() and expecting events to be transformed while routing the event
// directly through host(). In MUS mode the window-service does the
// transformation.
if (GetParam() == Env::Mode::MUS)
return;
gfx::Size size = host()->GetBoundsInPixels().size();
std::unique_ptr<GestureTrackPositionDelegate> delegate(
new GestureTrackPositionDelegate);
std::unique_ptr<Window> window(CreateTestWindowWithDelegate(
delegate.get(), -1234, gfx::Rect(0, 0, 20, 20), root_window()));
// Rotate the root-window clock-wise 90 degrees.
gfx::Transform transform;
transform.Translate(size.height(), 0.0);
transform.Rotate(90.0);
host()->SetRootTransform(transform);
ui::TouchEvent press(
ui::ET_TOUCH_PRESSED, gfx::Point(size.height() - 10, 10), getTime(),
ui::PointerDetails(ui::EventPointerType::POINTER_TYPE_TOUCH, 0));
DispatchEventUsingWindowDispatcher(&press);
EXPECT_EQ(gfx::Point(10, 10).ToString(), delegate->position().ToString());
}
TEST_P(WindowTest, Property) {
std::unique_ptr<Window> w(CreateTestWindowWithId(0, root_window()));
static const char native_prop_key[] = "fnord";
// Non-existent properties should return the default values.
EXPECT_EQ(nullptr, w->GetNativeWindowProperty(native_prop_key));
w->SetNativeWindowProperty(native_prop_key, &*w);
EXPECT_EQ(&*w, w->GetNativeWindowProperty(native_prop_key));
w->SetNativeWindowProperty(native_prop_key, nullptr);
EXPECT_EQ(nullptr, w->GetNativeWindowProperty(native_prop_key));
}
class DeletionTestLayoutManager : public LayoutManager {
public:
explicit DeletionTestLayoutManager(DeletionTracker* tracker)
: tracker_(tracker) {}
~DeletionTestLayoutManager() override { tracker_->LayoutManagerDeleted(); }
private:
// LayoutManager:
void OnWindowResized() override {}
void OnWindowAddedToLayout(Window* child) override {}
void OnWillRemoveWindowFromLayout(Window* child) override {}
void OnWindowRemovedFromLayout(Window* child) override {}
void OnChildWindowVisibilityChanged(Window* child, bool visible) override {}
void SetChildBounds(Window* child,
const gfx::Rect& requested_bounds) override {}
DeletionTracker* tracker_;
DISALLOW_COPY_AND_ASSIGN(DeletionTestLayoutManager);
};
TEST_P(WindowTest, DeleteLayoutManagerBeforeOwnedProps) {
DeletionTracker tracker;
{
Window w(nullptr);
w.Init(ui::LAYER_NOT_DRAWN);
w.SetLayoutManager(new DeletionTestLayoutManager(&tracker));
w.SetProperty(kDeletionTestPropertyKey, new DeletionTestProperty(&tracker));
}
EXPECT_TRUE(tracker.property_deleted());
EXPECT_TRUE(tracker.layout_manager_deleted());
EXPECT_EQ(DeletionOrder::LAYOUT_MANAGER_FIRST, tracker.order());
}
TEST_P(WindowTest, SetBoundsInternalShouldCheckTargetBounds) {
// We cannot short-circuit animations in this test.
ui::ScopedAnimationDurationScaleMode test_duration_mode(
ui::ScopedAnimationDurationScaleMode::NON_ZERO_DURATION);
std::unique_ptr<Window> w1(
CreateTestWindowWithBounds(gfx::Rect(0, 0, 100, 100), root_window()));
EXPECT_TRUE(w1->layer());
w1->layer()->GetAnimator()->set_disable_timer_for_test(true);
ui::LayerAnimator* animator = w1->layer()->GetAnimator();
EXPECT_EQ("0,0 100x100", w1->bounds().ToString());
EXPECT_EQ("0,0 100x100", w1->layer()->GetTargetBounds().ToString());
// Animate to a different position.
{
ui::ScopedLayerAnimationSettings settings(w1->layer()->GetAnimator());
w1->SetBounds(gfx::Rect(100, 100, 100, 100));
}
EXPECT_EQ("0,0 100x100", w1->bounds().ToString());
EXPECT_EQ("100,100 100x100", w1->layer()->GetTargetBounds().ToString());
// Animate back to the first position. The animation hasn't started yet, so
// the current bounds are still (0, 0, 100, 100), but the target bounds are
// (100, 100, 100, 100). If we step the animator ahead, we should find that
// we're at (0, 0, 100, 100). That is, the second animation should be applied.
{
ui::ScopedLayerAnimationSettings settings(w1->layer()->GetAnimator());
w1->SetBounds(gfx::Rect(0, 0, 100, 100));
}
EXPECT_EQ("0,0 100x100", w1->bounds().ToString());
EXPECT_EQ("0,0 100x100", w1->layer()->GetTargetBounds().ToString());
// Confirm that the target bounds are reached.
base::TimeTicks start_time =
w1->layer()->GetAnimator()->last_step_time();
animator->Step(start_time + base::TimeDelta::FromMilliseconds(1000));
EXPECT_EQ("0,0 100x100", w1->bounds().ToString());
}
typedef std::pair<const void*, intptr_t> PropertyChangeInfo;
class WindowObserverTest : public WindowTest,
public WindowObserver {
public:
struct VisibilityInfo {
bool window_visible;
bool visible_param;
int changed_count;
};
struct WindowBoundsInfo {
int changed_count = 0;
Window* window = nullptr;
gfx::Rect old_bounds;
gfx::Rect new_bounds;
ui::PropertyChangeReason reason =
ui::PropertyChangeReason::NOT_FROM_ANIMATION;
};
struct WindowOpacityInfo {
int changed_count = 0;
Window* window = nullptr;
ui::PropertyChangeReason reason =
ui::PropertyChangeReason::NOT_FROM_ANIMATION;
};
struct WindowTargetTransformChangingInfo {
int changed_count = 0;
Window* window = nullptr;
gfx::Transform new_transform;
};
struct WindowTransformedInfo {
int changed_count = 0;
Window* window = nullptr;
ui::PropertyChangeReason reason =
ui::PropertyChangeReason::NOT_FROM_ANIMATION;
};
struct CountAndWindow {
int count = 0;
Window* window = nullptr;
};
WindowObserverTest() = default;
~WindowObserverTest() override = default;
const VisibilityInfo* GetVisibilityInfo() const {
return visibility_info_.get();
}
const WindowBoundsInfo& window_bounds_info() const {
return window_bounds_info_;
}
const WindowOpacityInfo& window_opacity_info() const {
return window_opacity_info_;
}
const CountAndWindow& alpha_shape_info() const { return alpha_shape_info_; }
const WindowTargetTransformChangingInfo&
window_target_transform_changing_info() const {
return window_target_transform_changing_info_;
}
const WindowTransformedInfo& window_transformed_info() const {
return window_transformed_info_;
}
const CountAndWindow& layer_recreated_info() const {
return layer_recreated_info_;
}
void ResetVisibilityInfo() {
visibility_info_.reset();
}
// Returns a description of the WindowObserver methods that have been invoked.
std::string WindowObserverCountStateAndClear() {
std::string result(
base::StringPrintf("added=%d removed=%d",
added_count_, removed_count_));
added_count_ = removed_count_ = 0;
return result;
}
int DestroyedCountAndClear() {
int result = destroyed_count_;
destroyed_count_ = 0;
return result;
}
// Return a tuple of the arguments passed in OnPropertyChanged callback.
PropertyChangeInfo PropertyChangeInfoAndClear() {
PropertyChangeInfo result(property_key_, old_property_value_);
property_key_ = NULL;
old_property_value_ = -3;
return result;
}
private:
void OnWindowAdded(Window* new_window) override { added_count_++; }
void OnWillRemoveWindow(Window* window) override { removed_count_++; }
void OnWindowVisibilityChanged(Window* window, bool visible) override {
if (!visibility_info_) {
visibility_info_.reset(new VisibilityInfo);
visibility_info_->changed_count = 0;
}
visibility_info_->window_visible = window->IsVisible();
visibility_info_->visible_param = visible;
visibility_info_->changed_count++;
}
void OnWindowDestroyed(Window* window) override {
EXPECT_FALSE(window->parent());
destroyed_count_++;
}
void OnWindowPropertyChanged(Window* window,
const void* key,
intptr_t old) override {
property_key_ = key;
old_property_value_ = old;
}
void OnWindowBoundsChanged(Window* window,
const gfx::Rect& old_bounds,
const gfx::Rect& new_bounds,
ui::PropertyChangeReason reason) override {
++window_bounds_info_.changed_count;
window_bounds_info_.window = window;
window_bounds_info_.old_bounds = old_bounds;
window_bounds_info_.new_bounds = new_bounds;
window_bounds_info_.reason = reason;
}
void OnWindowOpacitySet(Window* window,
ui::PropertyChangeReason reason) override {
++window_opacity_info_.changed_count;
window_opacity_info_.window = window;
window_opacity_info_.reason = reason;
}
void OnWindowAlphaShapeSet(Window* window) override {
++alpha_shape_info_.count;
alpha_shape_info_.window = window;
}
void OnWindowTargetTransformChanging(
Window* window,
const gfx::Transform& new_transform) override {
++window_target_transform_changing_info_.changed_count;
window_target_transform_changing_info_.window = window;
window_target_transform_changing_info_.new_transform = new_transform;
}
void OnWindowTransformed(Window* window,
ui::PropertyChangeReason reason) override {
++window_transformed_info_.changed_count;
window_transformed_info_.window = window;
window_transformed_info_.reason = reason;
}
void OnWindowLayerRecreated(Window* window) override {
++layer_recreated_info_.count;
layer_recreated_info_.window = window;
}
int added_count_ = 0;
int removed_count_ = 0;
int destroyed_count_ = 0;
std::unique_ptr<VisibilityInfo> visibility_info_;
const void* property_key_ = nullptr;
intptr_t old_property_value_ = -3;
std::vector<std::pair<int, int> > transform_notifications_;
WindowBoundsInfo window_bounds_info_;
WindowOpacityInfo window_opacity_info_;
WindowTargetTransformChangingInfo window_target_transform_changing_info_;
WindowTransformedInfo window_transformed_info_;
CountAndWindow alpha_shape_info_;
CountAndWindow layer_recreated_info_;
DISALLOW_COPY_AND_ASSIGN(WindowObserverTest);
};
// Various assertions for WindowObserver.
TEST_P(WindowObserverTest, WindowObserver) {
std::unique_ptr<Window> w1(CreateTestWindowWithId(1, root_window()));
w1->AddObserver(this);
// Create a new window as a child of w1, our observer should be notified.
std::unique_ptr<Window> w2(CreateTestWindowWithId(2, w1.get()));
EXPECT_EQ("added=1 removed=0", WindowObserverCountStateAndClear());
// Delete w2, which should result in the remove notification.
w2.reset();
EXPECT_EQ("added=0 removed=1", WindowObserverCountStateAndClear());
// Create a window that isn't parented to w1, we shouldn't get any
// notification.
std::unique_ptr<Window> w3(CreateTestWindowWithId(3, root_window()));
EXPECT_EQ("added=0 removed=0", WindowObserverCountStateAndClear());
// Similarly destroying w3 shouldn't notify us either.
w3.reset();
EXPECT_EQ("added=0 removed=0", WindowObserverCountStateAndClear());
w1->RemoveObserver(this);
}
// Test if OnWindowVisibilityChanged is invoked with expected
// parameters.
TEST_P(WindowObserverTest, WindowVisibility) {
std::unique_ptr<Window> w1(CreateTestWindowWithId(1, root_window()));
std::unique_ptr<Window> w2(CreateTestWindowWithId(1, w1.get()));
w2->AddObserver(this);
// Hide should make the window invisible and the passed visible
// parameter is false.
w2->Hide();
EXPECT_TRUE(GetVisibilityInfo());
EXPECT_TRUE(GetVisibilityInfo());
if (!GetVisibilityInfo())
return;
EXPECT_FALSE(GetVisibilityInfo()->window_visible);
EXPECT_FALSE(GetVisibilityInfo()->visible_param);
EXPECT_EQ(1, GetVisibilityInfo()->changed_count);
// If parent isn't visible, showing window won't make the window visible, but
// passed visible value must be true.
w1->Hide();
ResetVisibilityInfo();
EXPECT_TRUE(!GetVisibilityInfo());
w2->Show();
EXPECT_TRUE(GetVisibilityInfo());
if (!GetVisibilityInfo())
return;
EXPECT_FALSE(GetVisibilityInfo()->window_visible);
EXPECT_TRUE(GetVisibilityInfo()->visible_param);
EXPECT_EQ(1, GetVisibilityInfo()->changed_count);
// If parent is visible, showing window will make the window
// visible and the passed visible value is true.
w1->Show();
w2->Hide();
ResetVisibilityInfo();
w2->Show();
EXPECT_TRUE(GetVisibilityInfo());
if (!GetVisibilityInfo())
return;
EXPECT_TRUE(GetVisibilityInfo()->window_visible);
EXPECT_TRUE(GetVisibilityInfo()->visible_param);
EXPECT_EQ(1, GetVisibilityInfo()->changed_count);
// Verify that the OnWindowVisibilityChanged only once
// per visibility change.
w2->Hide();
EXPECT_EQ(2, GetVisibilityInfo()->changed_count);
w2->Hide();
EXPECT_EQ(2, GetVisibilityInfo()->changed_count);
}
// Test if OnWindowDestroyed is invoked as expected.
TEST_P(WindowObserverTest, WindowDestroyed) {
// Delete a window should fire a destroyed notification.
std::unique_ptr<Window> w1(CreateTestWindowWithId(1, root_window()));
w1->AddObserver(this);
w1.reset();
EXPECT_EQ(1, DestroyedCountAndClear());
// Observe on child and delete parent window should fire a notification.
std::unique_ptr<Window> parent(CreateTestWindowWithId(1, root_window()));
Window* child = CreateTestWindowWithId(1, parent.get()); // owned by parent
child->AddObserver(this);
parent.reset();
EXPECT_EQ(1, DestroyedCountAndClear());
}
TEST_P(WindowObserverTest, PropertyChanged) {
// Setting property should fire a property change notification.
std::unique_ptr<Window> w1(CreateTestWindowWithId(1, root_window()));
w1->AddObserver(this);
static const WindowProperty<int> prop = {-2};
static const char native_prop_key[] = "fnord";
w1->SetProperty(&prop, 1);
EXPECT_EQ(PropertyChangeInfo(&prop, -2), PropertyChangeInfoAndClear());
w1->SetProperty(&prop, -2);
EXPECT_EQ(PropertyChangeInfo(&prop, 1), PropertyChangeInfoAndClear());
w1->SetProperty(&prop, 3);
EXPECT_EQ(PropertyChangeInfo(&prop, -2), PropertyChangeInfoAndClear());
w1->ClearProperty(&prop);
EXPECT_EQ(PropertyChangeInfo(&prop, 3), PropertyChangeInfoAndClear());
w1->SetNativeWindowProperty(native_prop_key, &*w1);
EXPECT_EQ(PropertyChangeInfo(native_prop_key, 0),
PropertyChangeInfoAndClear());
w1->SetNativeWindowProperty(native_prop_key, NULL);
EXPECT_EQ(PropertyChangeInfo(native_prop_key,
reinterpret_cast<intptr_t>(&*w1)),
PropertyChangeInfoAndClear());
// Sanity check to see if |PropertyChangeInfoAndClear| really clears.
EXPECT_EQ(PropertyChangeInfo(
reinterpret_cast<const void*>(NULL), -3), PropertyChangeInfoAndClear());
}
// Verify that WindowObserver::OnWindowBoundsChanged() is notified when the
// bounds of a Window's Layer change without an animation.
TEST_P(WindowObserverTest, WindowBoundsChanged) {
std::unique_ptr<Window> window(CreateTestWindowWithId(1, root_window()));
window->AddObserver(this);
const gfx::Rect initial_bounds = window->bounds();
constexpr gfx::Rect kTargetBounds(10, 20, 30, 40);
window->layer()->SetBounds(kTargetBounds);
ASSERT_EQ(1, window_bounds_info().changed_count);
EXPECT_EQ(window.get(), window_bounds_info().window);
EXPECT_EQ(initial_bounds, window_bounds_info().old_bounds);
EXPECT_EQ(kTargetBounds, window_bounds_info().new_bounds);
EXPECT_EQ(ui::PropertyChangeReason::NOT_FROM_ANIMATION,
window_bounds_info().reason);
}
// Verify that WindowObserver::OnWindowBoundsChanged() is notified at every step
// of a bounds animation.
TEST_P(WindowObserverTest, WindowBoundsChangedAnimation) {
std::unique_ptr<Window> window(CreateTestWindowWithId(1, root_window()));
window->AddObserver(this);
const gfx::Rect initial_bounds = window->bounds();
constexpr gfx::Rect kTargetBounds(10, 20, 30, 40);
const gfx::Rect step_bounds =
gfx::Tween::RectValueBetween(0.5, initial_bounds, kTargetBounds);
ui::ScopedAnimationDurationScaleMode scoped_animation_duration_scale_mode(
ui::ScopedAnimationDurationScaleMode::NORMAL_DURATION);
ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
window->layer()->SetBounds(kTargetBounds);
ASSERT_EQ(0, window_opacity_info().changed_count);
window->layer()->GetAnimator()->Step(
window->layer()->GetAnimator()->last_step_time() +
settings.GetTransitionDuration() / 2);
ASSERT_EQ(1, window_bounds_info().changed_count);
EXPECT_EQ(window.get(), window_bounds_info().window);
EXPECT_EQ(initial_bounds, window_bounds_info().old_bounds);
EXPECT_EQ(step_bounds, window_bounds_info().new_bounds);
EXPECT_EQ(ui::PropertyChangeReason::FROM_ANIMATION,
window_bounds_info().reason);
window->layer()->GetAnimator()->StopAnimatingProperty(
ui::LayerAnimationElement::BOUNDS);
ASSERT_EQ(2, window_bounds_info().changed_count);
EXPECT_EQ(window.get(), window_bounds_info().window);
EXPECT_EQ(step_bounds, window_bounds_info().old_bounds);
EXPECT_EQ(kTargetBounds, window_bounds_info().new_bounds);
EXPECT_EQ(ui::PropertyChangeReason::FROM_ANIMATION,
window_bounds_info().reason);
}
// Verify that WindowObserver::OnWindowOpacitySet() is notified when the
// opacity of a Window's Layer changes without an animation.
TEST_P(WindowObserverTest, WindowOpacityChanged) {
std::unique_ptr<Window> window(CreateTestWindowWithId(1, root_window()));
window->AddObserver(this);
window->layer()->SetOpacity(0.5f);
ASSERT_EQ(1, window_opacity_info().changed_count);
EXPECT_EQ(window.get(), window_opacity_info().window);
EXPECT_EQ(ui::PropertyChangeReason::NOT_FROM_ANIMATION,
window_opacity_info().reason);
}
// Verify that WindowObserver::OnWindowOpacitySet() is notified at the
// beginning and at the end of a threaded opacity animation.
TEST_P(WindowObserverTest, WindowOpacityChangedAnimation) {
std::unique_ptr<Window> window(CreateTestWindowWithId(1, root_window()));
window->AddObserver(this);
ui::ScopedAnimationDurationScaleMode scoped_animation_duration_scale_mode(
ui::ScopedAnimationDurationScaleMode::NORMAL_DURATION);
ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
window->layer()->SetOpacity(0.5f);
ASSERT_EQ(1, window_opacity_info().changed_count);
EXPECT_EQ(window.get(), window_opacity_info().window);
EXPECT_EQ(ui::PropertyChangeReason::FROM_ANIMATION,
window_opacity_info().reason);
window->layer()->GetAnimator()->StopAnimatingProperty(
ui::LayerAnimationElement::OPACITY);
ASSERT_EQ(2, window_opacity_info().changed_count);
EXPECT_EQ(window.get(), window_opacity_info().window);
EXPECT_EQ(ui::PropertyChangeReason::FROM_ANIMATION,
window_opacity_info().reason);
}
// Verify that WindowObserver::OnWindowAlphaShapeSet() is notified when an alpha
// shape is set for a window.
TEST_P(WindowObserverTest, WindowAlphaShapeChanged) {
std::unique_ptr<Window> window(CreateTestWindowWithId(1, root_window()));
window->AddObserver(this);
auto shape = std::make_unique<ui::Layer::ShapeRects>();
shape->emplace_back(0, 0, 10, 20);
EXPECT_EQ(0, alpha_shape_info().count);
EXPECT_EQ(nullptr, alpha_shape_info().window);
window->layer()->SetAlphaShape(std::move(shape));
EXPECT_EQ(1, alpha_shape_info().count);
EXPECT_EQ(window.get(), alpha_shape_info().window);
}
// Verify that WindowObserver::OnWindow(TargetTransformChanging|Transformed)()
// are notified when SetTransform() is called and there is no animation.
TEST_P(WindowObserverTest, SetTransform) {
std::unique_ptr<Window> window(CreateTestWindowWithId(1, root_window()));
window->AddObserver(this);
gfx::Transform target_transform;
target_transform.Skew(10.0, 5.0);
window->SetTransform(target_transform);
ASSERT_EQ(1, window_target_transform_changing_info().changed_count);
EXPECT_EQ(window.get(), window_target_transform_changing_info().window);
EXPECT_EQ(target_transform,
window_target_transform_changing_info().new_transform);
ASSERT_EQ(1, window_transformed_info().changed_count);
EXPECT_EQ(window.get(), window_transformed_info().window);
EXPECT_EQ(ui::PropertyChangeReason::NOT_FROM_ANIMATION,
window_transformed_info().reason);
}
// Verify that WindowObserver::OnWindowTransformed)() is notified at the
// beginning and at the end of a threaded transform animation. Verify that
// WindowObserver::OnWindowTargetTransformChanging() is notified when the
// threaded animation is started by SetTransform().
TEST_P(WindowObserverTest, SetTransformAnimation) {
std::unique_ptr<Window> window(CreateTestWindowWithId(1, root_window()));
window->AddObserver(this);
ui::ScopedAnimationDurationScaleMode scoped_animation_duration_scale_mode(
ui::ScopedAnimationDurationScaleMode::NORMAL_DURATION);
ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
gfx::Transform target_transform;
target_transform.Skew(10.0, 5.0);
window->SetTransform(target_transform);
ASSERT_EQ(1, window_target_transform_changing_info().changed_count);
EXPECT_EQ(window.get(), window_target_transform_changing_info().window);
EXPECT_EQ(target_transform,
window_target_transform_changing_info().new_transform);
ASSERT_EQ(1, window_transformed_info().changed_count);
EXPECT_EQ(window.get(), window_transformed_info().window);
EXPECT_EQ(ui::PropertyChangeReason::FROM_ANIMATION,
window_transformed_info().reason);
window->layer()->GetAnimator()->StopAnimatingProperty(
ui::LayerAnimationElement::TRANSFORM);
EXPECT_EQ(1, window_target_transform_changing_info().changed_count);
ASSERT_EQ(2, window_transformed_info().changed_count);
EXPECT_EQ(window.get(), window_transformed_info().window);
EXPECT_EQ(ui::PropertyChangeReason::FROM_ANIMATION,
window_transformed_info().reason);
}
TEST_P(WindowObserverTest, OnWindowLayerRecreated) {
std::unique_ptr<Window> window(CreateTestWindowWithId(1, root_window()));
window->AddObserver(this);
EXPECT_EQ(0, layer_recreated_info().count);
std::unique_ptr<ui::Layer> old_layer = window->RecreateLayer();
EXPECT_EQ(1, layer_recreated_info().count);
EXPECT_EQ(window.get(), layer_recreated_info().window);
}
TEST_P(WindowObserverTest, OnWindowLayerRecreatedWithOpacityAnimation) {
std::unique_ptr<Window> window(CreateTestWindowWithId(1, root_window()));
ui::ScopedAnimationDurationScaleMode scoped_animation_duration_scale_mode(
ui::ScopedAnimationDurationScaleMode::NORMAL_DURATION);
ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
window->layer()->SetOpacity(0.5);
EXPECT_TRUE(window->layer()->GetAnimator()->IsAnimatingProperty(
ui::LayerAnimationElement::OPACITY));
window->AddObserver(this);
EXPECT_EQ(0, layer_recreated_info().count);
EXPECT_EQ(0, window_opacity_info().changed_count);
std::unique_ptr<ui::Layer> old_layer = window->RecreateLayer();
EXPECT_EQ(1, layer_recreated_info().count);
EXPECT_EQ(window.get(), layer_recreated_info().window);
EXPECT_EQ(1, window_opacity_info().changed_count);
EXPECT_EQ(window.get(), window_opacity_info().window);
EXPECT_EQ(ui::PropertyChangeReason::FROM_ANIMATION,
window_opacity_info().reason);
}
TEST_P(WindowObserverTest, OnWindowLayerRecreatedWithTransformAnimation) {
std::unique_ptr<Window> window(CreateTestWindowWithId(1, root_window()));
ui::ScopedAnimationDurationScaleMode scoped_animation_duration_scale_mode(
ui::ScopedAnimationDurationScaleMode::NORMAL_DURATION);
ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
gfx::Transform target_transform;
target_transform.Skew(10.0, 5.0);
window->SetTransform(target_transform);
EXPECT_TRUE(window->layer()->GetAnimator()->IsAnimatingProperty(
ui::LayerAnimationElement::TRANSFORM));
window->AddObserver(this);
EXPECT_EQ(0, layer_recreated_info().count);
EXPECT_EQ(0, window_transformed_info().changed_count);
std::unique_ptr<ui::Layer> old_layer = window->RecreateLayer();
EXPECT_EQ(1, layer_recreated_info().count);
EXPECT_EQ(window.get(), layer_recreated_info().window);
EXPECT_EQ(1, window_transformed_info().changed_count);
EXPECT_EQ(window.get(), window_transformed_info().window);
EXPECT_EQ(ui::PropertyChangeReason::FROM_ANIMATION,
window_transformed_info().reason);
}
TEST_P(WindowTest, AcquireLayer) {
std::unique_ptr<Window> window1(CreateTestWindowWithId(1, root_window()));
std::unique_ptr<Window> window2(CreateTestWindowWithId(2, root_window()));
ui::Layer* parent = window1->parent()->layer();
EXPECT_EQ(2U, parent->children().size());
WindowTestApi window1_test_api(window1.get());
WindowTestApi window2_test_api(window2.get());
EXPECT_TRUE(window1_test_api.OwnsLayer());
EXPECT_TRUE(window2_test_api.OwnsLayer());
// After acquisition, window1 should not own its layer, but it should still
// be available to the window.
std::unique_ptr<ui::Layer> window1_layer(window1->AcquireLayer());
EXPECT_FALSE(window1_test_api.OwnsLayer());
EXPECT_TRUE(window1_layer.get() == window1->layer());
// The acquired layer's owner should be set NULL and re-acquring
// should return NULL.
EXPECT_FALSE(window1_layer->owner());
std::unique_ptr<ui::Layer> window1_layer_reacquired(window1->AcquireLayer());
EXPECT_FALSE(window1_layer_reacquired.get());
// Upon destruction, window1's layer should still be valid, and in the layer
// hierarchy, but window2's should be gone, and no longer in the hierarchy.
window1.reset();
window2.reset();
// This should be set by the window's destructor.
EXPECT_TRUE(window1_layer->delegate() == NULL);
EXPECT_EQ(1U, parent->children().size());
}
// Make sure that properties which should persist from the old layer to the new
// layer actually do.
TEST_P(WindowTest, RecreateLayer) {
// Set properties to non default values.
gfx::Rect window_bounds(100, 100);
Window w(new ColorTestWindowDelegate(SK_ColorWHITE));
w.set_id(1);
w.Init(ui::LAYER_SOLID_COLOR);
w.SetBounds(window_bounds);
ui::Layer* layer = w.layer();
layer->SetVisible(false);
layer->SetMasksToBounds(true);
ui::Layer child_layer;
layer->Add(&child_layer);
std::unique_ptr<ui::Layer> old_layer(w.RecreateLayer());
layer = w.layer();
EXPECT_EQ(ui::LAYER_SOLID_COLOR, layer->type());
EXPECT_FALSE(layer->visible());
EXPECT_EQ(1u, layer->children().size());
EXPECT_TRUE(layer->GetMasksToBounds());
EXPECT_EQ("0,0 100x100", w.bounds().ToString());
EXPECT_EQ("0,0 100x100", layer->bounds().ToString());
}
// Verify that RecreateLayer() stacks the old layer above the newly creatd
// layer.
TEST_P(WindowTest, RecreateLayerZOrder) {
std::unique_ptr<Window> w(CreateTestWindow(
SK_ColorWHITE, 1, gfx::Rect(0, 0, 100, 100), root_window()));
std::unique_ptr<ui::Layer> old_layer(w->RecreateLayer());
const std::vector<ui::Layer*>& child_layers =
root_window()->layer()->children();
ASSERT_EQ(2u, child_layers.size());
EXPECT_EQ(w->layer(), child_layers[0]);
EXPECT_EQ(old_layer.get(), child_layers[1]);
}
// Ensure that acquiring a layer then recreating a layer does not crash
// and that RecreateLayer returns null.
TEST_P(WindowTest, AcquireThenRecreateLayer) {
std::unique_ptr<Window> w(CreateTestWindow(
SK_ColorWHITE, 1, gfx::Rect(0, 0, 100, 100), root_window()));
std::unique_ptr<ui::Layer> acquired_layer(w->AcquireLayer());
std::unique_ptr<ui::Layer> doubly_acquired_layer(w->RecreateLayer());
EXPECT_EQ(NULL, doubly_acquired_layer.get());
// Destroy window before layer gets destroyed.
w.reset();
}
class TestVisibilityClient : public client::VisibilityClient {
public:
explicit TestVisibilityClient(Window* root_window)
: ignore_visibility_changes_(false) {
client::SetVisibilityClient(root_window, this);
}
~TestVisibilityClient() override {}
void set_ignore_visibility_changes(bool ignore_visibility_changes) {
ignore_visibility_changes_ = ignore_visibility_changes;
}
// Overridden from client::VisibilityClient:
void UpdateLayerVisibility(aura::Window* window, bool visible) override {
if (!ignore_visibility_changes_)
window->layer()->SetVisible(visible);
}
private:
bool ignore_visibility_changes_;
DISALLOW_COPY_AND_ASSIGN(TestVisibilityClient);
};
TEST_P(WindowTest, VisibilityClientIsVisible) {
TestVisibilityClient client(root_window());
std::unique_ptr<Window> window(CreateTestWindowWithId(1, root_window()));
EXPECT_TRUE(window->IsVisible());
EXPECT_TRUE(window->layer()->visible());
window->Hide();
EXPECT_FALSE(window->IsVisible());
EXPECT_FALSE(window->layer()->visible());
window->Show();
client.set_ignore_visibility_changes(true);
window->Hide();
EXPECT_FALSE(window->IsVisible());
EXPECT_TRUE(window->layer()->visible());
}
// Tests the mouse events seen by WindowDelegates in a Window hierarchy when
// changing the properties of a leaf Window.
TEST_P(WindowTest, MouseEventsOnLeafWindowChange) {
ui::test::EventGenerator generator(root_window());
generator.MoveMouseTo(50, 50);
EventCountDelegate d1;
std::unique_ptr<Window> w1(CreateTestWindowWithDelegate(
&d1, 1, gfx::Rect(0, 0, 100, 100), root_window()));
RunAllPendingInMessageLoop();
// The format of result is "Enter/Move/Leave".
EXPECT_EQ("1 1 0", d1.GetMouseMotionCountsAndReset());
// Add new window |w11| on top of |w1| which contains the cursor.
EventCountDelegate d11;
std::unique_ptr<Window> w11(CreateTestWindowWithDelegate(
&d11, 1, gfx::Rect(0, 0, 100, 100), w1.get()));
RunAllPendingInMessageLoop();
EXPECT_EQ("0 0 1", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("1 1 0", d11.GetMouseMotionCountsAndReset());
// Resize |w11| so that it does not contain the cursor.
w11->SetBounds(gfx::Rect(0, 0, 10, 10));
RunAllPendingInMessageLoop();
EXPECT_EQ("1 1 0", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("0 0 1", d11.GetMouseMotionCountsAndReset());
// Resize |w11| so that it does contain the cursor.
w11->SetBounds(gfx::Rect(0, 0, 60, 60));
RunAllPendingInMessageLoop();
EXPECT_EQ("0 0 1", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("1 1 0", d11.GetMouseMotionCountsAndReset());
// Detach |w11| from |w1|.
w1->RemoveChild(w11.get());
RunAllPendingInMessageLoop();
EXPECT_EQ("1 1 0", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("0 0 1", d11.GetMouseMotionCountsAndReset());
// Re-attach |w11| to |w1|.
w1->AddChild(w11.get());
RunAllPendingInMessageLoop();
EXPECT_EQ("0 0 1", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("1 1 0", d11.GetMouseMotionCountsAndReset());
// Hide |w11|.
w11->Hide();
RunAllPendingInMessageLoop();
EXPECT_EQ("1 1 0", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("0 0 1", d11.GetMouseMotionCountsAndReset());
// Show |w11|.
w11->Show();
RunAllPendingInMessageLoop();
EXPECT_EQ("0 0 1", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("1 1 0", d11.GetMouseMotionCountsAndReset());
// Translate |w11| so that it does not contain the mouse cursor.
gfx::Transform transform;
transform.Translate(100, 100);
w11->SetTransform(transform);
RunAllPendingInMessageLoop();
EXPECT_EQ("1 1 0", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("0 0 1", d11.GetMouseMotionCountsAndReset());
// Clear the transform on |w11| so that it does contain the cursor.
w11->SetTransform(gfx::Transform());
RunAllPendingInMessageLoop();
EXPECT_EQ("0 0 1", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("1 1 0", d11.GetMouseMotionCountsAndReset());
// Close |w11|. Note that since |w11| is being destroyed, its delegate should
// not see any further events.
w11.reset();
RunAllPendingInMessageLoop();
EXPECT_EQ("1 1 0", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("0 0 0", d11.GetMouseMotionCountsAndReset());
// Move the mouse outside the bounds of the root window. Since the mouse
// cursor is no longer within their bounds, the delegates of the child
// windows should not see any mouse events.
generator.MoveMouseTo(-10, -10);
EXPECT_EQ("0 0 1", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("0 0 0", d11.GetMouseMotionCountsAndReset());
// Add |w11|.
w11.reset(CreateTestWindowWithDelegate(
&d11, 1, gfx::Rect(0, 0, 100, 100), w1.get()));
RunAllPendingInMessageLoop();
EXPECT_EQ("0 0 0", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("0 0 0", d11.GetMouseMotionCountsAndReset());
// Close |w11|.
w11.reset();
RunAllPendingInMessageLoop();
EXPECT_EQ("0 0 0", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("0 0 0", d11.GetMouseMotionCountsAndReset());
}
// Tests the mouse events seen by WindowDelegates in a Window hierarchy when
// deleting a non-leaf Window.
TEST_P(WindowTest, MouseEventsOnNonLeafWindowDelete) {
ui::test::EventGenerator generator(root_window());
generator.MoveMouseTo(50, 50);
EventCountDelegate d1;
std::unique_ptr<Window> w1(CreateTestWindowWithDelegate(
&d1, 1, gfx::Rect(0, 0, 100, 100), root_window()));
RunAllPendingInMessageLoop();
// The format of result is "Enter/Move/Leave".
EXPECT_EQ("1 1 0", d1.GetMouseMotionCountsAndReset());
// Add new window |w2| on top of |w1| which contains the cursor.
EventCountDelegate d2;
std::unique_ptr<Window> w2(CreateTestWindowWithDelegate(
&d2, 1, gfx::Rect(0, 0, 100, 100), w1.get()));
RunAllPendingInMessageLoop();
EXPECT_EQ("0 0 1", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("1 1 0", d2.GetMouseMotionCountsAndReset());
// Add new window on top of |w2| which contains the cursor.
EventCountDelegate d3;
CreateTestWindowWithDelegate(
&d3, 1, gfx::Rect(0, 0, 100, 100), w2.get());
RunAllPendingInMessageLoop();
EXPECT_EQ("0 0 0", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("0 0 1", d2.GetMouseMotionCountsAndReset());
EXPECT_EQ("1 1 0", d3.GetMouseMotionCountsAndReset());
// Delete |w2|, which will also delete its owned child window. Since |w2| and
// its child are in the process of being destroyed, their delegates should
// not see any further events.
w2.reset();
RunAllPendingInMessageLoop();
EXPECT_EQ("1 1 0", d1.GetMouseMotionCountsAndReset());
EXPECT_EQ("0 0 0", d2.GetMouseMotionCountsAndReset());
EXPECT_EQ("0 0 0", d3.GetMouseMotionCountsAndReset());
}
class RootWindowAttachmentObserver : public WindowObserver {
public:
RootWindowAttachmentObserver() : added_count_(0), removed_count_(0) {}
~RootWindowAttachmentObserver() override {}
int added_count() const { return added_count_; }
int removed_count() const { return removed_count_; }
void Clear() {
added_count_ = 0;
removed_count_ = 0;
}
// Overridden from WindowObserver:
void OnWindowAddedToRootWindow(Window* window) override { ++added_count_; }
void OnWindowRemovingFromRootWindow(Window* window,
Window* new_root) override {
++removed_count_;
}
private:
int added_count_;
int removed_count_;
DISALLOW_COPY_AND_ASSIGN(RootWindowAttachmentObserver);
};
TEST_P(WindowTest, RootWindowAttachment) {
RootWindowAttachmentObserver observer;
// Test a direct add/remove from the RootWindow.
std::unique_ptr<Window> w1(new Window(NULL));
w1->Init(ui::LAYER_NOT_DRAWN);
w1->AddObserver(&observer);
ParentWindow(w1.get());
EXPECT_EQ(1, observer.added_count());
EXPECT_EQ(0, observer.removed_count());
w1.reset();
EXPECT_EQ(1, observer.added_count());
EXPECT_EQ(1, observer.removed_count());
observer.Clear();
// Test an indirect add/remove from the RootWindow.
w1.reset(new Window(NULL));
w1->Init(ui::LAYER_NOT_DRAWN);
Window* w11 = new Window(NULL);
w11->Init(ui::LAYER_NOT_DRAWN);
w11->AddObserver(&observer);
w1->AddChild(w11);
EXPECT_EQ(0, observer.added_count());
EXPECT_EQ(0, observer.removed_count());
ParentWindow(w1.get());
EXPECT_EQ(1, observer.added_count());
EXPECT_EQ(0, observer.removed_count());
w1.reset(); // Deletes w11.
w11 = NULL;
EXPECT_EQ(1, observer.added_count());
EXPECT_EQ(1, observer.removed_count());
observer.Clear();
// Test an indirect add/remove with nested observers.
w1.reset(new Window(NULL));
w1->Init(ui::LAYER_NOT_DRAWN);
w11 = new Window(NULL);
w11->Init(ui::LAYER_NOT_DRAWN);
w11->AddObserver(&observer);
w1->AddChild(w11);
Window* w111 = new Window(NULL);
w111->Init(ui::LAYER_NOT_DRAWN);
w111->AddObserver(&observer);
w11->AddChild(w111);
EXPECT_EQ(0, observer.added_count());
EXPECT_EQ(0, observer.removed_count());
ParentWindow(w1.get());
EXPECT_EQ(2, observer.added_count());
EXPECT_EQ(0, observer.removed_count());
w1.reset(); // Deletes w11 and w111.
w11 = NULL;
w111 = NULL;
EXPECT_EQ(2, observer.added_count());
EXPECT_EQ(2, observer.removed_count());
}
class BoundsChangedWindowObserver : public WindowObserver {
public:
BoundsChangedWindowObserver() : root_set_(false) {}
void OnWindowBoundsChanged(Window* window,
const gfx::Rect& old_bounds,
const gfx::Rect& new_bounds,
ui::PropertyChangeReason reason) override {
root_set_ = window->GetRootWindow() != NULL;
}
bool root_set() const { return root_set_; }
private:
bool root_set_;
DISALLOW_COPY_AND_ASSIGN(BoundsChangedWindowObserver);
};
TEST_P(WindowTest, RootWindowSetWhenReparenting) {
Window parent1(NULL);
parent1.Init(ui::LAYER_NOT_DRAWN);
Window parent2(NULL);
parent2.Init(ui::LAYER_NOT_DRAWN);
ParentWindow(&parent1);
ParentWindow(&parent2);
parent1.SetBounds(gfx::Rect(10, 10, 300, 300));
parent2.SetBounds(gfx::Rect(20, 20, 300, 300));
BoundsChangedWindowObserver observer;
Window child(NULL);
child.Init(ui::LAYER_NOT_DRAWN);
child.SetBounds(gfx::Rect(5, 5, 100, 100));
parent1.AddChild(&child);
// We need animations to start in order to observe the bounds changes.
ui::ScopedAnimationDurationScaleMode test_duration_mode(
ui::ScopedAnimationDurationScaleMode::NON_ZERO_DURATION);
ui::ScopedLayerAnimationSettings settings1(child.layer()->GetAnimator());
settings1.SetTransitionDuration(base::TimeDelta::FromMilliseconds(100));
gfx::Rect new_bounds(gfx::Rect(35, 35, 50, 50));
child.SetBounds(new_bounds);
child.AddObserver(&observer);
// Reparenting the |child| will cause it to get moved. During this move
// the window should still have root window set.
parent2.AddChild(&child);
EXPECT_TRUE(observer.root_set());
// Animations should stop and the bounds should be as set before the |child|
// got reparented.
EXPECT_EQ(new_bounds.ToString(), child.GetTargetBounds().ToString());
EXPECT_EQ(new_bounds.ToString(), child.bounds().ToString());
EXPECT_EQ("55,55 50x50", child.GetBoundsInRootWindow().ToString());
}
TEST_P(WindowTest, OwnedByParentFalse) {
// By default, a window is owned by its parent. If this is set to false, the
// window will not be destroyed when its parent is.
std::unique_ptr<Window> w1(new Window(NULL));
w1->Init(ui::LAYER_NOT_DRAWN);
std::unique_ptr<Window> w2(new Window(NULL));
w2->set_owned_by_parent(false);
w2->Init(ui::LAYER_NOT_DRAWN);
w1->AddChild(w2.get());
w1.reset();
// We should be able to deref w2 still, but its parent should now be NULL.
EXPECT_EQ(NULL, w2->parent());
}
// Used By DeleteWindowFromOnWindowDestroyed. Destroys a Window from
// OnWindowDestroyed().
class OwningWindowDelegate : public TestWindowDelegate {
public:
OwningWindowDelegate() {}
void SetOwnedWindow(Window* window) {
owned_window_.reset(window);
}
void OnWindowDestroyed(Window* window) override { owned_window_.reset(NULL); }
private:
std::unique_ptr<Window> owned_window_;
DISALLOW_COPY_AND_ASSIGN(OwningWindowDelegate);
};
// Creates a window with two child windows. When the first child window is
// destroyed (WindowDelegate::OnWindowDestroyed) it deletes the second child.
// This synthesizes BrowserView and the status bubble. Both are children of the
// same parent and destroying BrowserView triggers it destroying the status
// bubble.
TEST_P(WindowTest, DeleteWindowFromOnWindowDestroyed) {
std::unique_ptr<Window> parent(new Window(NULL));
parent->Init(ui::LAYER_NOT_DRAWN);
OwningWindowDelegate delegate;
Window* c1 = new Window(&delegate);
c1->Init(ui::LAYER_NOT_DRAWN);
parent->AddChild(c1);
Window* c2 = new Window(NULL);
c2->Init(ui::LAYER_NOT_DRAWN);
parent->AddChild(c2);
delegate.SetOwnedWindow(c2);
parent.reset();
}
// WindowObserver implementation that deletes a window in
// OnWindowVisibilityChanged().
class DeleteOnVisibilityChangedObserver : public WindowObserver {
public:
// |to_observe| is the Window this is added as an observer to. When
// OnWindowVisibilityChanged() is called |to_delete| is deleted.
explicit DeleteOnVisibilityChangedObserver(Window* to_observe,
Window* to_delete)
: to_observe_(to_observe), to_delete_(to_delete) {
to_observe_->AddObserver(this);
}
~DeleteOnVisibilityChangedObserver() override {
// OnWindowVisibilityChanged() should have been called.
DCHECK(!to_delete_);
}
// WindowObserver:
void OnWindowVisibilityChanged(Window* window, bool visible) override {
to_observe_->RemoveObserver(this);
delete to_delete_;
to_delete_ = nullptr;
}
private:
Window* to_observe_;
Window* to_delete_;
DISALLOW_COPY_AND_ASSIGN(DeleteOnVisibilityChangedObserver);
};
TEST_P(WindowTest, DeleteParentWindowFromOnWindowVisibiltyChanged) {
WindowTracker tracker;
Window* root = CreateTestWindowWithId(0, nullptr);
tracker.Add(root);
Window* child1 = CreateTestWindowWithId(0, root);
tracker.Add(child1);
tracker.Add(CreateTestWindowWithId(0, root));
// This deletes |root| (the parent) when OnWindowVisibilityChanged() is
// received by |child1|.
DeleteOnVisibilityChangedObserver deletion_observer(child1, root);
// The Hide() calls trigger deleting |root|, which should delete the whole
// tree.
root->Hide();
EXPECT_TRUE(tracker.windows().empty());
}
// Used by DelegateNotifiedAsBoundsChange to verify OnBoundsChanged() is
// invoked.
class BoundsChangeDelegate : public TestWindowDelegate {
public:
BoundsChangeDelegate() : bounds_changed_(false) {}
void clear_bounds_changed() { bounds_changed_ = false; }
bool bounds_changed() const {
return bounds_changed_;
}
// Window
void OnBoundsChanged(const gfx::Rect& old_bounds,
const gfx::Rect& new_bounds) override {
bounds_changed_ = true;
}
private:
// Was OnBoundsChanged() invoked?
bool bounds_changed_;
DISALLOW_COPY_AND_ASSIGN(BoundsChangeDelegate);
};
// Verifies the delegate is notified when the actual bounds of the layer
// change.
TEST_P(WindowTest, DelegateNotifiedAsBoundsChange) {
BoundsChangeDelegate delegate;
// We cannot short-circuit animations in this test.
ui::ScopedAnimationDurationScaleMode test_duration_mode(
ui::ScopedAnimationDurationScaleMode::NON_ZERO_DURATION);
std::unique_ptr<Window> window(CreateTestWindowWithDelegate(
&delegate, 1, gfx::Rect(0, 0, 100, 100), root_window()));
window->layer()->GetAnimator()->set_disable_timer_for_test(true);
delegate.clear_bounds_changed();
// Animate to a different position.
{
ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
window->SetBounds(gfx::Rect(100, 100, 100, 100));
}
// Bounds shouldn't immediately have changed.
EXPECT_EQ("0,0 100x100", window->bounds().ToString());
EXPECT_FALSE(delegate.bounds_changed());
// Animate to the end, which should notify of the change.
base::TimeTicks start_time =
window->layer()->GetAnimator()->last_step_time();
ui::LayerAnimator* animator = window->layer()->GetAnimator();
animator->Step(start_time + base::TimeDelta::FromMilliseconds(1000));
EXPECT_TRUE(delegate.bounds_changed());
EXPECT_NE("0,0 100x100", window->bounds().ToString());
}
// Verifies the delegate is notified when the actual bounds of the layer
// change even when the window is not the layer's delegate
TEST_P(WindowTest, DelegateNotifiedAsBoundsChangeInHiddenLayer) {
BoundsChangeDelegate delegate;
// We cannot short-circuit animations in this test.
ui::ScopedAnimationDurationScaleMode test_duration_mode(
ui::ScopedAnimationDurationScaleMode::NON_ZERO_DURATION);
std::unique_ptr<Window> window(CreateTestWindowWithDelegate(
&delegate, 1, gfx::Rect(0, 0, 100, 100), root_window()));
window->layer()->GetAnimator()->set_disable_timer_for_test(true);
delegate.clear_bounds_changed();
// Suppress paint on the window since it is hidden (should reset the layer's
// delegate to NULL)
window->SuppressPaint();
EXPECT_EQ(NULL, window->layer()->delegate());
// Animate to a different position.
{
ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
window->SetBounds(gfx::Rect(100, 100, 110, 100));
}
// Layer delegate is NULL but we should still get bounds changed notification.
EXPECT_EQ("100,100 110x100", window->GetTargetBounds().ToString());
EXPECT_TRUE(delegate.bounds_changed());
delegate.clear_bounds_changed();
// Animate to the end: will *not* notify of the change since we are hidden.
base::TimeTicks start_time =
window->layer()->GetAnimator()->last_step_time();
ui::LayerAnimator* animator = window->layer()->GetAnimator();
animator->Step(start_time + base::TimeDelta::FromMilliseconds(1000));
// No bounds changed notification at the end of animation since layer
// delegate is NULL.
EXPECT_FALSE(delegate.bounds_changed());
EXPECT_NE("0,0 100x100", window->layer()->bounds().ToString());
}
// Used by AddChildNotifications to track notification counts.
class AddChildNotificationsObserver : public WindowObserver {
public:
AddChildNotificationsObserver() : added_count_(0), removed_count_(0) {}
std::string CountStringAndReset() {
std::string result = base::IntToString(added_count_) + " " +
base::IntToString(removed_count_);
added_count_ = removed_count_ = 0;
return result;
}
// WindowObserver overrides:
void OnWindowAddedToRootWindow(Window* window) override { added_count_++; }
void OnWindowRemovingFromRootWindow(Window* window,
Window* new_root) override {
removed_count_++;
}
private:
int added_count_;
int removed_count_;
DISALLOW_COPY_AND_ASSIGN(AddChildNotificationsObserver);
};
// Assertions around when root window notifications are sent.
TEST_P(WindowTest, AddChildNotifications) {
AddChildNotificationsObserver observer;
std::unique_ptr<Window> w1(CreateTestWindowWithId(1, root_window()));
std::unique_ptr<Window> w2(CreateTestWindowWithId(1, root_window()));
w2->AddObserver(&observer);
w2->Focus();
EXPECT_TRUE(w2->HasFocus());
// Move |w2| to be a child of |w1|.
w1->AddChild(w2.get());
// Sine we moved in the same root, observer shouldn't be notified.
EXPECT_EQ("0 0", observer.CountStringAndReset());
// |w2| should still have focus after moving.
EXPECT_TRUE(w2->HasFocus());
}
// Tests that a delegate that destroys itself when the window is destroyed does
// not break.
TEST_P(WindowTest, DelegateDestroysSelfOnWindowDestroy) {
std::unique_ptr<Window> w1(
CreateTestWindowWithDelegate(new DestroyWindowDelegate(), 0,
gfx::Rect(10, 20, 30, 40), root_window()));
}
class HierarchyObserver : public WindowObserver {
public:
explicit HierarchyObserver(Window* target) : target_(target) {
target_->AddObserver(this);
}
~HierarchyObserver() override { target_->RemoveObserver(this); }
void ValidateState(
int index,
const WindowObserver::HierarchyChangeParams& params) const {
ParamsMatch(params_[index], params);
}
void Reset() {
params_.clear();
}
private:
// Overridden from WindowObserver:
void OnWindowHierarchyChanging(const HierarchyChangeParams& params) override {
params_.push_back(params);
}
void OnWindowHierarchyChanged(const HierarchyChangeParams& params) override {
params_.push_back(params);
}
void ParamsMatch(const WindowObserver::HierarchyChangeParams& p1,
const WindowObserver::HierarchyChangeParams& p2) const {
EXPECT_EQ(p1.phase, p2.phase);
EXPECT_EQ(p1.target, p2.target);
EXPECT_EQ(p1.new_parent, p2.new_parent);
EXPECT_EQ(p1.old_parent, p2.old_parent);
EXPECT_EQ(p1.receiver, p2.receiver);
}
Window* target_;
std::vector<WindowObserver::HierarchyChangeParams> params_;
DISALLOW_COPY_AND_ASSIGN(HierarchyObserver);
};
// Tests hierarchy change notifications.
TEST_P(WindowTest, OnWindowHierarchyChange) {
{
// Simple add & remove.
HierarchyObserver oroot(root_window());
std::unique_ptr<Window> w1(CreateTestWindowWithId(1, NULL));
HierarchyObserver o1(w1.get());
// Add.
root_window()->AddChild(w1.get());
WindowObserver::HierarchyChangeParams params;
params.phase = WindowObserver::HierarchyChangeParams::HIERARCHY_CHANGING;
params.target = w1.get();
params.old_parent = NULL;
params.new_parent = root_window();
params.receiver = w1.get();
o1.ValidateState(0, params);
params.phase = WindowObserver::HierarchyChangeParams::HIERARCHY_CHANGED;
params.receiver = w1.get();
o1.ValidateState(1, params);
params.receiver = root_window();
oroot.ValidateState(0, params);
// Remove.
o1.Reset();
oroot.Reset();
root_window()->RemoveChild(w1.get());
params.phase = WindowObserver::HierarchyChangeParams::HIERARCHY_CHANGING;
params.old_parent = root_window();
params.new_parent = NULL;
params.receiver = w1.get();
o1.ValidateState(0, params);
params.receiver = root_window();
oroot.ValidateState(0, params);
params.phase = WindowObserver::HierarchyChangeParams::HIERARCHY_CHANGED;
params.receiver = w1.get();
o1.ValidateState(1, params);
}
{
// Add & remove of hierarchy. Tests notification order per documentation in
// WindowObserver.
HierarchyObserver o(root_window());
std::unique_ptr<Window> w1(CreateTestWindowWithId(1, NULL));
Window* w11 = CreateTestWindowWithId(11, w1.get());
w1->AddObserver(&o);
w11->AddObserver(&o);
// Add.
root_window()->AddChild(w1.get());
// Dispatched to target first.
int index = 0;
WindowObserver::HierarchyChangeParams params;
params.phase = WindowObserver::HierarchyChangeParams::HIERARCHY_CHANGING;
params.target = w1.get();
params.old_parent = NULL;
params.new_parent = root_window();
params.receiver = w1.get();
o.ValidateState(index++, params);
// Dispatched to target's children.
params.receiver = w11;
o.ValidateState(index++, params);
params.phase = WindowObserver::HierarchyChangeParams::HIERARCHY_CHANGED;
// Now process the "changed" phase.
params.receiver = w1.get();
o.ValidateState(index++, params);
params.receiver = w11;
o.ValidateState(index++, params);
params.receiver = root_window();
o.ValidateState(index++, params);
// Remove.
root_window()->RemoveChild(w1.get());
params.phase = WindowObserver::HierarchyChangeParams::HIERARCHY_CHANGING;
params.old_parent = root_window();
params.new_parent = NULL;
params.receiver = w1.get();
o.ValidateState(index++, params);
params.receiver = w11;
o.ValidateState(index++, params);
params.receiver = root_window();
o.ValidateState(index++, params);
params.phase = WindowObserver::HierarchyChangeParams::HIERARCHY_CHANGED;
params.receiver = w1.get();
o.ValidateState(index++, params);
params.receiver = w11;
o.ValidateState(index++, params);
w1.reset();
}
{
// Reparent. Tests notification order per documentation in WindowObserver.
std::unique_ptr<Window> w1(CreateTestWindowWithId(1, root_window()));
Window* w11 = CreateTestWindowWithId(11, w1.get());
Window* w111 = CreateTestWindowWithId(111, w11);
std::unique_ptr<Window> w2(CreateTestWindowWithId(2, root_window()));
HierarchyObserver o(root_window());
w1->AddObserver(&o);
w11->AddObserver(&o);
w111->AddObserver(&o);
w2->AddObserver(&o);
w2->AddChild(w11);
// Dispatched to target first.
int index = 0;
WindowObserver::HierarchyChangeParams params;
params.phase = WindowObserver::HierarchyChangeParams::HIERARCHY_CHANGING;
params.target = w11;
params.old_parent = w1.get();
params.new_parent = w2.get();
params.receiver = w11;
o.ValidateState(index++, params);
// Then to target's children.
params.receiver = w111;
o.ValidateState(index++, params);
// Then to target's old parent chain.
params.receiver = w1.get();
o.ValidateState(index++, params);
params.receiver = root_window();
o.ValidateState(index++, params);
// "Changed" phase.
params.phase = WindowObserver::HierarchyChangeParams::HIERARCHY_CHANGED;
params.receiver = w11;
o.ValidateState(index++, params);
params.receiver = w111;
o.ValidateState(index++, params);
params.receiver = w2.get();
o.ValidateState(index++, params);
params.receiver = root_window();
o.ValidateState(index++, params);
w1.reset();
w2.reset();
}
}
class TestLayerAnimationObserver : public ui::LayerAnimationObserver {
public:
TestLayerAnimationObserver()
: animation_completed_(false),
animation_aborted_(false) {}
~TestLayerAnimationObserver() override {}
bool animation_completed() const { return animation_completed_; }
bool animation_aborted() const { return animation_aborted_; }
void Reset() {
animation_completed_ = false;
animation_aborted_ = false;
}
private:
// ui::LayerAnimationObserver:
void OnLayerAnimationEnded(ui::LayerAnimationSequence* sequence) override {
animation_completed_ = true;
}
void OnLayerAnimationAborted(ui::LayerAnimationSequence* sequence) override {
animation_aborted_ = true;
}
void OnLayerAnimationScheduled(
ui::LayerAnimationSequence* sequence) override {}
bool animation_completed_;
bool animation_aborted_;
DISALLOW_COPY_AND_ASSIGN(TestLayerAnimationObserver);
};
TEST_P(WindowTest, WindowDestroyCompletesAnimations) {
ui::ScopedAnimationDurationScaleMode test_duration_mode(
ui::ScopedAnimationDurationScaleMode::NON_ZERO_DURATION);
scoped_refptr<ui::LayerAnimator> animator =
ui::LayerAnimator::CreateImplicitAnimator();
TestLayerAnimationObserver observer;
animator->AddObserver(&observer);
// Make sure destroying a Window completes the animation.
{
std::unique_ptr<Window> window(CreateTestWindowWithId(1, root_window()));
window->layer()->SetAnimator(animator.get());
gfx::Transform transform;
transform.Scale(0.5f, 0.5f);
window->SetTransform(transform);
EXPECT_TRUE(animator->is_animating());
EXPECT_FALSE(observer.animation_completed());
}
EXPECT_TRUE(animator.get());
EXPECT_FALSE(animator->is_animating());
EXPECT_TRUE(observer.animation_completed());
EXPECT_FALSE(observer.animation_aborted());
animator->RemoveObserver(&observer);
observer.Reset();
animator = ui::LayerAnimator::CreateImplicitAnimator();
animator->AddObserver(&observer);
ui::Layer layer;
layer.SetAnimator(animator.get());
{
std::unique_ptr<Window> window(CreateTestWindowWithId(1, root_window()));
window->layer()->Add(&layer);
gfx::Transform transform;
transform.Scale(0.5f, 0.5f);
layer.SetTransform(transform);
EXPECT_TRUE(animator->is_animating());
EXPECT_FALSE(observer.animation_completed());
}
EXPECT_TRUE(animator.get());
EXPECT_FALSE(animator->is_animating());
EXPECT_TRUE(observer.animation_completed());
EXPECT_FALSE(observer.animation_aborted());
animator->RemoveObserver(&observer);
}
TEST_P(WindowTest, RootWindowUsesCompositorFrameSinkId) {
// MUS doesn't create context_factory_private, which results in this test
// failing.
// TODO(sky): figure out the right thing here.
if (GetParam() == Env::Mode::MUS)
return;
EXPECT_EQ(host()->compositor()->frame_sink_id(),
root_window()->GetFrameSinkId());
EXPECT_TRUE(root_window()->GetFrameSinkId().is_valid());
}
TEST_P(WindowTest, LocalSurfaceIdChanges) {
Window window(nullptr);
window.Init(ui::LAYER_NOT_DRAWN);
window.SetBounds(gfx::Rect(300, 300));
std::unique_ptr<cc::LayerTreeFrameSink> frame_sink(
window.CreateLayerTreeFrameSink());
viz::LocalSurfaceId local_surface_id1 =
window.GetLocalSurfaceIdAllocation().local_surface_id();
EXPECT_NE(nullptr, frame_sink.get());
EXPECT_TRUE(local_surface_id1.is_valid());
// Resize 0x0 to make sure WindowPort* stores the correct window size before
// creating the frame sink.
window.SetBounds(gfx::Rect(0, 0));
viz::LocalSurfaceId local_surface_id2 =
window.GetLocalSurfaceIdAllocation().local_surface_id();
EXPECT_TRUE(local_surface_id2.is_valid());
EXPECT_NE(local_surface_id1, local_surface_id2);
window.SetBounds(gfx::Rect(300, 300));
viz::LocalSurfaceId local_surface_id3 =
window.GetLocalSurfaceIdAllocation().local_surface_id();
EXPECT_TRUE(local_surface_id3.is_valid());
EXPECT_NE(local_surface_id1, local_surface_id3);
EXPECT_NE(local_surface_id2, local_surface_id3);
window.OnDeviceScaleFactorChanged(1.0f, 3.0f);
viz::LocalSurfaceId local_surface_id4 =
window.GetLocalSurfaceIdAllocation().local_surface_id();
EXPECT_TRUE(local_surface_id4.is_valid());
EXPECT_NE(local_surface_id1, local_surface_id4);
EXPECT_NE(local_surface_id2, local_surface_id4);
EXPECT_NE(local_surface_id3, local_surface_id4);
window.RecreateLayer();
viz::LocalSurfaceId local_surface_id5 =
window.GetLocalSurfaceIdAllocation().local_surface_id();
EXPECT_TRUE(local_surface_id5.is_valid());
EXPECT_NE(local_surface_id1, local_surface_id5);
EXPECT_NE(local_surface_id2, local_surface_id5);
EXPECT_NE(local_surface_id3, local_surface_id5);
EXPECT_NE(local_surface_id4, local_surface_id5);
window.AllocateLocalSurfaceId();
viz::LocalSurfaceId local_surface_id6 =
window.GetLocalSurfaceIdAllocation().local_surface_id();
EXPECT_TRUE(local_surface_id6.is_valid());
EXPECT_NE(local_surface_id1, local_surface_id6);
EXPECT_NE(local_surface_id2, local_surface_id6);
EXPECT_NE(local_surface_id3, local_surface_id6);
EXPECT_NE(local_surface_id4, local_surface_id6);
EXPECT_NE(local_surface_id5, local_surface_id6);
}
INSTANTIATE_TEST_CASE_P(/* no prefix */,
WindowTest,
::testing::Values(Env::Mode::LOCAL, Env::Mode::MUS));
INSTANTIATE_TEST_CASE_P(/* no prefix */,
WindowObserverTest,
::testing::Values(Env::Mode::LOCAL, Env::Mode::MUS));
} // namespace
} // namespace test
} // namespace aura