ui/wm/core/transient_window_stacking_client_unittest.cc - chromium/src - Git at Google

 // Copyright (c) 2013 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/wm/core/transient_window_stacking_client.h"

 #include <memory>

 #include "base/macros.h"
 #include "ui/aura/test/aura_test_base.h"
 #include "ui/aura/test/test_windows.h"
 #include "ui/compositor/test/test_layers.h"
 #include "ui/wm/core/window_util.h"

 using aura::test::ChildWindowIDsAsString;
 using aura::test::CreateTestWindowWithId;
 using aura::Window;

 namespace wm {

 class TransientWindowStackingClientTest : public aura::test::AuraTestBase {
  public:
   TransientWindowStackingClientTest() {}
   ~TransientWindowStackingClientTest() override {}

   void SetUp() override {
     AuraTestBase::SetUp();
     client_.reset(new TransientWindowStackingClient);
     aura::client::SetWindowStackingClient(client_.get());
   }

   void TearDown() override {
     aura::client::SetWindowStackingClient(NULL);
     AuraTestBase::TearDown();
   }

  private:
   std::unique_ptr<TransientWindowStackingClient> client_;
   DISALLOW_COPY_AND_ASSIGN(TransientWindowStackingClientTest);
 };

 // Tests that transient children are stacked as a unit when using stack above.
 TEST_F(TransientWindowStackingClientTest, TransientChildrenGroupAbove) {
   std::unique_ptr<Window> parent(CreateTestWindowWithId(0, root_window()));
   std::unique_ptr<Window> w1(CreateTestWindowWithId(1, parent.get()));
   Window* w11 = CreateTestWindowWithId(11, parent.get());
   std::unique_ptr<Window> w2(CreateTestWindowWithId(2, parent.get()));
   Window* w21 = CreateTestWindowWithId(21, parent.get());
   Window* w211 = CreateTestWindowWithId(211, parent.get());
   Window* w212 = CreateTestWindowWithId(212, parent.get());
   Window* w213 = CreateTestWindowWithId(213, parent.get());
   Window* w22 = CreateTestWindowWithId(22, parent.get());
   ASSERT_EQ(8u, parent->children().size());

   AddTransientChild(w1.get(), w11);  // w11 is now owned by w1.
   AddTransientChild(w2.get(), w21);  // w21 is now owned by w2.
   AddTransientChild(w2.get(), w22);  // w22 is now owned by w2.
   AddTransientChild(w21, w211);  // w211 is now owned by w21.
   AddTransientChild(w21, w212);  // w212 is now owned by w21.
   AddTransientChild(w21, w213);  // w213 is now owned by w21.
   EXPECT_EQ("1 11 2 21 211 212 213 22", ChildWindowIDsAsString(parent.get()));

   // Stack w1 at the top (end), this should force w11 to be last (on top of w1).
   parent->StackChildAtTop(w1.get());
   EXPECT_EQ(w11, parent->children().back());
   EXPECT_EQ("2 21 211 212 213 22 1 11", ChildWindowIDsAsString(parent.get()));

   // This tests that the order in children_ array rather than in
   // transient_children_ array is used when reinserting transient children.
   // If transient_children_ array was used '22' would be following '21'.
   parent->StackChildAtTop(w2.get());
   EXPECT_EQ(w22, parent->children().back());
   EXPECT_EQ("1 11 2 21 211 212 213 22", ChildWindowIDsAsString(parent.get()));

   parent->StackChildAbove(w11, w2.get());
   EXPECT_EQ(w11, parent->children().back());
   EXPECT_EQ("2 21 211 212 213 22 1 11", ChildWindowIDsAsString(parent.get()));

   parent->StackChildAbove(w21, w1.get());
   EXPECT_EQ(w22, parent->children().back());
   EXPECT_EQ("1 11 2 21 211 212 213 22", ChildWindowIDsAsString(parent.get()));

   parent->StackChildAbove(w21, w22);
   EXPECT_EQ(w213, parent->children().back());
   EXPECT_EQ("1 11 2 22 21 211 212 213", ChildWindowIDsAsString(parent.get()));

   parent->StackChildAbove(w11, w21);
   EXPECT_EQ(w11, parent->children().back());
   EXPECT_EQ("2 22 21 211 212 213 1 11", ChildWindowIDsAsString(parent.get()));

   parent->StackChildAbove(w213, w21);
   EXPECT_EQ(w11, parent->children().back());
   EXPECT_EQ("2 22 21 213 211 212 1 11", ChildWindowIDsAsString(parent.get()));

   // No change when stacking a transient parent above its transient child.
   parent->StackChildAbove(w21, w211);
   EXPECT_EQ(w11, parent->children().back());
   EXPECT_EQ("2 22 21 213 211 212 1 11", ChildWindowIDsAsString(parent.get()));

   // This tests that the order in children_ array rather than in
   // transient_children_ array is used when reinserting transient children.
   // If transient_children_ array was used '22' would be following '21'.
   parent->StackChildAbove(w2.get(), w1.get());
   EXPECT_EQ(w212, parent->children().back());
   EXPECT_EQ("1 11 2 22 21 213 211 212", ChildWindowIDsAsString(parent.get()));

   parent->StackChildAbove(w11, w213);
   EXPECT_EQ(w11, parent->children().back());
   EXPECT_EQ("2 22 21 213 211 212 1 11", ChildWindowIDsAsString(parent.get()));
 }

 // Tests that transient children are stacked as a unit when using stack below.
 TEST_F(TransientWindowStackingClientTest, TransientChildrenGroupBelow) {
   std::unique_ptr<Window> parent(CreateTestWindowWithId(0, root_window()));
   std::unique_ptr<Window> w1(CreateTestWindowWithId(1, parent.get()));
   Window* w11 = CreateTestWindowWithId(11, parent.get());
   std::unique_ptr<Window> w2(CreateTestWindowWithId(2, parent.get()));
   Window* w21 = CreateTestWindowWithId(21, parent.get());
   Window* w211 = CreateTestWindowWithId(211, parent.get());
   Window* w212 = CreateTestWindowWithId(212, parent.get());
   Window* w213 = CreateTestWindowWithId(213, parent.get());
   Window* w22 = CreateTestWindowWithId(22, parent.get());
   ASSERT_EQ(8u, parent->children().size());

   AddTransientChild(w1.get(), w11);  // w11 is now owned by w1.
   AddTransientChild(w2.get(), w21);  // w21 is now owned by w2.
   AddTransientChild(w2.get(), w22);  // w22 is now owned by w2.
   AddTransientChild(w21, w211);  // w211 is now owned by w21.
   AddTransientChild(w21, w212);  // w212 is now owned by w21.
   AddTransientChild(w21, w213);  // w213 is now owned by w21.
   EXPECT_EQ("1 11 2 21 211 212 213 22", ChildWindowIDsAsString(parent.get()));

   // Stack w2 at the bottom, this should force w11 to be last (on top of w1).
   // This also tests that the order in children_ array rather than in
   // transient_children_ array is used when reinserting transient children.
   // If transient_children_ array was used '22' would be following '21'.
   parent->StackChildAtBottom(w2.get());
   EXPECT_EQ(w11, parent->children().back());
   EXPECT_EQ("2 21 211 212 213 22 1 11", ChildWindowIDsAsString(parent.get()));

   parent->StackChildAtBottom(w1.get());
   EXPECT_EQ(w22, parent->children().back());
   EXPECT_EQ("1 11 2 21 211 212 213 22", ChildWindowIDsAsString(parent.get()));

   parent->StackChildBelow(w21, w1.get());
   EXPECT_EQ(w11, parent->children().back());
   EXPECT_EQ("2 21 211 212 213 22 1 11", ChildWindowIDsAsString(parent.get()));

   parent->StackChildBelow(w11, w2.get());
   EXPECT_EQ(w22, parent->children().back());
   EXPECT_EQ("1 11 2 21 211 212 213 22", ChildWindowIDsAsString(parent.get()));

   parent->StackChildBelow(w22, w21);
   EXPECT_EQ(w213, parent->children().back());
   EXPECT_EQ("1 11 2 22 21 211 212 213", ChildWindowIDsAsString(parent.get()));

   parent->StackChildBelow(w21, w11);
   EXPECT_EQ(w11, parent->children().back());
   EXPECT_EQ("2 22 21 211 212 213 1 11", ChildWindowIDsAsString(parent.get()));

   parent->StackChildBelow(w213, w211);
   EXPECT_EQ(w11, parent->children().back());
   EXPECT_EQ("2 22 21 213 211 212 1 11", ChildWindowIDsAsString(parent.get()));

   // No change when stacking a transient parent below its transient child.
   parent->StackChildBelow(w21, w211);
   EXPECT_EQ(w11, parent->children().back());
   EXPECT_EQ("2 22 21 213 211 212 1 11", ChildWindowIDsAsString(parent.get()));

   parent->StackChildBelow(w1.get(), w2.get());
   EXPECT_EQ(w212, parent->children().back());
   EXPECT_EQ("1 11 2 22 21 213 211 212", ChildWindowIDsAsString(parent.get()));

   parent->StackChildBelow(w213, w11);
   EXPECT_EQ(w11, parent->children().back());
   EXPECT_EQ("2 22 21 213 211 212 1 11", ChildWindowIDsAsString(parent.get()));
 }

 // Tests that windows can be stacked above windows with a NULL layer delegate.
 // Windows have a NULL layer delegate when they are in the process of closing.
 // See crbug.com/443433
 TEST_F(TransientWindowStackingClientTest,
        StackAboveWindowWithNULLLayerDelegate) {
   std::unique_ptr<Window> parent(CreateTestWindowWithId(0, root_window()));
   std::unique_ptr<Window> w1(CreateTestWindowWithId(1, parent.get()));
   std::unique_ptr<Window> w2(CreateTestWindowWithId(2, parent.get()));
   w2->layer()->set_delegate(NULL);
   EXPECT_EQ(w2.get(), parent->children().back());

   parent->StackChildAbove(w1.get(), w2.get());
   EXPECT_EQ(w1.get(), parent->children().back());
 }

 }  // namespace wm
	// Copyright (c) 2013 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/wm/core/transient_window_stacking_client.h"

	#include <memory>

	#include "base/macros.h"
	#include "ui/aura/test/aura_test_base.h"
	#include "ui/aura/test/test_windows.h"
	#include "ui/compositor/test/test_layers.h"
	#include "ui/wm/core/window_util.h"

	using aura::test::ChildWindowIDsAsString;
	using aura::test::CreateTestWindowWithId;
	using aura::Window;

	namespace wm {

	class TransientWindowStackingClientTest : public aura::test::AuraTestBase {
	public:
	TransientWindowStackingClientTest() {}
	~TransientWindowStackingClientTest() override {}

	void SetUp() override {
	AuraTestBase::SetUp();
	client_.reset(new TransientWindowStackingClient);
	aura::client::SetWindowStackingClient(client_.get());
	}

	void TearDown() override {
	aura::client::SetWindowStackingClient(NULL);
	AuraTestBase::TearDown();
	}

	private:
	std::unique_ptr<TransientWindowStackingClient> client_;
	DISALLOW_COPY_AND_ASSIGN(TransientWindowStackingClientTest);
	};

	// Tests that transient children are stacked as a unit when using stack above.
	TEST_F(TransientWindowStackingClientTest, TransientChildrenGroupAbove) {
	std::unique_ptr<Window> parent(CreateTestWindowWithId(0, root_window()));
	std::unique_ptr<Window> w1(CreateTestWindowWithId(1, parent.get()));
	Window* w11 = CreateTestWindowWithId(11, parent.get());
	std::unique_ptr<Window> w2(CreateTestWindowWithId(2, parent.get()));
	Window* w21 = CreateTestWindowWithId(21, parent.get());
	Window* w211 = CreateTestWindowWithId(211, parent.get());
	Window* w212 = CreateTestWindowWithId(212, parent.get());
	Window* w213 = CreateTestWindowWithId(213, parent.get());
	Window* w22 = CreateTestWindowWithId(22, parent.get());
	ASSERT_EQ(8u, parent->children().size());

	AddTransientChild(w1.get(), w11); // w11 is now owned by w1.
	AddTransientChild(w2.get(), w21); // w21 is now owned by w2.
	AddTransientChild(w2.get(), w22); // w22 is now owned by w2.
	AddTransientChild(w21, w211); // w211 is now owned by w21.
	AddTransientChild(w21, w212); // w212 is now owned by w21.
	AddTransientChild(w21, w213); // w213 is now owned by w21.
	EXPECT_EQ("1 11 2 21 211 212 213 22", ChildWindowIDsAsString(parent.get()));

	// Stack w1 at the top (end), this should force w11 to be last (on top of w1).
	parent->StackChildAtTop(w1.get());
	EXPECT_EQ(w11, parent->children().back());
	EXPECT_EQ("2 21 211 212 213 22 1 11", ChildWindowIDsAsString(parent.get()));

	// This tests that the order in children_ array rather than in
	// transient_children_ array is used when reinserting transient children.
	// If transient_children_ array was used '22' would be following '21'.
	parent->StackChildAtTop(w2.get());
	EXPECT_EQ(w22, parent->children().back());
	EXPECT_EQ("1 11 2 21 211 212 213 22", ChildWindowIDsAsString(parent.get()));

	parent->StackChildAbove(w11, w2.get());
	EXPECT_EQ(w11, parent->children().back());
	EXPECT_EQ("2 21 211 212 213 22 1 11", ChildWindowIDsAsString(parent.get()));

	parent->StackChildAbove(w21, w1.get());
	EXPECT_EQ(w22, parent->children().back());
	EXPECT_EQ("1 11 2 21 211 212 213 22", ChildWindowIDsAsString(parent.get()));

	parent->StackChildAbove(w21, w22);
	EXPECT_EQ(w213, parent->children().back());
	EXPECT_EQ("1 11 2 22 21 211 212 213", ChildWindowIDsAsString(parent.get()));

	parent->StackChildAbove(w11, w21);
	EXPECT_EQ(w11, parent->children().back());
	EXPECT_EQ("2 22 21 211 212 213 1 11", ChildWindowIDsAsString(parent.get()));

	parent->StackChildAbove(w213, w21);
	EXPECT_EQ(w11, parent->children().back());
	EXPECT_EQ("2 22 21 213 211 212 1 11", ChildWindowIDsAsString(parent.get()));

	// No change when stacking a transient parent above its transient child.
	parent->StackChildAbove(w21, w211);
	EXPECT_EQ(w11, parent->children().back());
	EXPECT_EQ("2 22 21 213 211 212 1 11", ChildWindowIDsAsString(parent.get()));

	// This tests that the order in children_ array rather than in
	// transient_children_ array is used when reinserting transient children.
	// If transient_children_ array was used '22' would be following '21'.
	parent->StackChildAbove(w2.get(), w1.get());
	EXPECT_EQ(w212, parent->children().back());
	EXPECT_EQ("1 11 2 22 21 213 211 212", ChildWindowIDsAsString(parent.get()));

	parent->StackChildAbove(w11, w213);
	EXPECT_EQ(w11, parent->children().back());
	EXPECT_EQ("2 22 21 213 211 212 1 11", ChildWindowIDsAsString(parent.get()));
	}

	// Tests that transient children are stacked as a unit when using stack below.
	TEST_F(TransientWindowStackingClientTest, TransientChildrenGroupBelow) {
	std::unique_ptr<Window> parent(CreateTestWindowWithId(0, root_window()));
	std::unique_ptr<Window> w1(CreateTestWindowWithId(1, parent.get()));
	Window* w11 = CreateTestWindowWithId(11, parent.get());
	std::unique_ptr<Window> w2(CreateTestWindowWithId(2, parent.get()));
	Window* w21 = CreateTestWindowWithId(21, parent.get());
	Window* w211 = CreateTestWindowWithId(211, parent.get());
	Window* w212 = CreateTestWindowWithId(212, parent.get());
	Window* w213 = CreateTestWindowWithId(213, parent.get());
	Window* w22 = CreateTestWindowWithId(22, parent.get());
	ASSERT_EQ(8u, parent->children().size());

	AddTransientChild(w1.get(), w11); // w11 is now owned by w1.
	AddTransientChild(w2.get(), w21); // w21 is now owned by w2.
	AddTransientChild(w2.get(), w22); // w22 is now owned by w2.
	AddTransientChild(w21, w211); // w211 is now owned by w21.
	AddTransientChild(w21, w212); // w212 is now owned by w21.
	AddTransientChild(w21, w213); // w213 is now owned by w21.
	EXPECT_EQ("1 11 2 21 211 212 213 22", ChildWindowIDsAsString(parent.get()));

	// Stack w2 at the bottom, this should force w11 to be last (on top of w1).
	// This also tests that the order in children_ array rather than in
	// transient_children_ array is used when reinserting transient children.
	// If transient_children_ array was used '22' would be following '21'.
	parent->StackChildAtBottom(w2.get());
	EXPECT_EQ(w11, parent->children().back());
	EXPECT_EQ("2 21 211 212 213 22 1 11", ChildWindowIDsAsString(parent.get()));

	parent->StackChildAtBottom(w1.get());
	EXPECT_EQ(w22, parent->children().back());
	EXPECT_EQ("1 11 2 21 211 212 213 22", ChildWindowIDsAsString(parent.get()));

	parent->StackChildBelow(w21, w1.get());
	EXPECT_EQ(w11, parent->children().back());
	EXPECT_EQ("2 21 211 212 213 22 1 11", ChildWindowIDsAsString(parent.get()));

	parent->StackChildBelow(w11, w2.get());
	EXPECT_EQ(w22, parent->children().back());
	EXPECT_EQ("1 11 2 21 211 212 213 22", ChildWindowIDsAsString(parent.get()));

	parent->StackChildBelow(w22, w21);
	EXPECT_EQ(w213, parent->children().back());
	EXPECT_EQ("1 11 2 22 21 211 212 213", ChildWindowIDsAsString(parent.get()));

	parent->StackChildBelow(w21, w11);
	EXPECT_EQ(w11, parent->children().back());
	EXPECT_EQ("2 22 21 211 212 213 1 11", ChildWindowIDsAsString(parent.get()));

	parent->StackChildBelow(w213, w211);
	EXPECT_EQ(w11, parent->children().back());
	EXPECT_EQ("2 22 21 213 211 212 1 11", ChildWindowIDsAsString(parent.get()));

	// No change when stacking a transient parent below its transient child.
	parent->StackChildBelow(w21, w211);
	EXPECT_EQ(w11, parent->children().back());
	EXPECT_EQ("2 22 21 213 211 212 1 11", ChildWindowIDsAsString(parent.get()));

	parent->StackChildBelow(w1.get(), w2.get());
	EXPECT_EQ(w212, parent->children().back());
	EXPECT_EQ("1 11 2 22 21 213 211 212", ChildWindowIDsAsString(parent.get()));

	parent->StackChildBelow(w213, w11);
	EXPECT_EQ(w11, parent->children().back());
	EXPECT_EQ("2 22 21 213 211 212 1 11", ChildWindowIDsAsString(parent.get()));
	}

	// Tests that windows can be stacked above windows with a NULL layer delegate.
	// Windows have a NULL layer delegate when they are in the process of closing.
	// See crbug.com/443433
	TEST_F(TransientWindowStackingClientTest,
	StackAboveWindowWithNULLLayerDelegate) {
	std::unique_ptr<Window> parent(CreateTestWindowWithId(0, root_window()));
	std::unique_ptr<Window> w1(CreateTestWindowWithId(1, parent.get()));
	std::unique_ptr<Window> w2(CreateTestWindowWithId(2, parent.get()));
	w2->layer()->set_delegate(NULL);
	EXPECT_EQ(w2.get(), parent->children().back());

	parent->StackChildAbove(w1.get(), w2.get());
	EXPECT_EQ(w1.get(), parent->children().back());
	}

	} // namespace wm