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android / platform / external / chromium_org / d0247b1 / . / chrome / browser / ui / window_sizer / window_sizer_ash_unittest.cc
blob: c5e1f5e09536763239371c7aaf99c2015b481ef4 [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 "ash/screen_ash.h"
#include "ash/shell.h"
#include "ash/test/ash_test_base.h"
#include "ash/test/test_shell_delegate.h"
#include "ash/wm/window_resizer.h"
#include "ash/wm/window_settings.h"
#include "base/compiler_specific.h"
#include "chrome/browser/ui/browser.h"
#include "chrome/browser/ui/window_sizer/window_sizer_common_unittest.h"
#include "chrome/common/chrome_switches.h"
#include "chrome/test/base/testing_profile.h"
#include "content/public/test/render_view_test.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "ui/aura/client/activation_client.h"
#include "ui/aura/client/aura_constants.h"
#include "ui/aura/env.h"
#include "ui/aura/root_window.h"
#include "ui/aura/test/test_windows.h"
typedef ash::test::AshTestBase WindowSizerAshTest;
namespace {
// A browser window proxy which is able to associate an aura native window with
// it.
class TestBrowserWindowAura : public TestBrowserWindow {
public:
// |native_window| will still be owned by the caller after the constructor
// was called.
explicit TestBrowserWindowAura(aura::Window* native_window)
: native_window_(native_window) {
}
virtual ~TestBrowserWindowAura() {}
// TestBrowserWindow overrides:
virtual void Show() OVERRIDE {
native_window_->Show();
Activate();
}
virtual void Hide() OVERRIDE {
native_window_->Hide();
}
virtual void Activate() OVERRIDE {
GetActivationClient(
native_window_->GetRootWindow())->ActivateWindow(native_window_.get());
}
virtual gfx::NativeWindow GetNativeWindow() OVERRIDE {
return native_window_.get();
}
virtual gfx::Rect GetBounds() const OVERRIDE {
return native_window_->bounds();
}
Browser* browser() { return browser_.get(); }
void CreateBrowser(const Browser::CreateParams& params) {
Browser::CreateParams create_params = params;
create_params.window = this;
browser_.reset(new Browser(create_params));
if (browser_->is_type_tabbed() || browser_->is_app()) {
ash::wm::GetWindowSettings(native_window_.get())->
set_window_position_managed(true);
}
}
private:
scoped_ptr<Browser> browser_;
scoped_ptr<aura::Window> native_window_;
DISALLOW_COPY_AND_ASSIGN(TestBrowserWindowAura);
};
int AlignToGridRoundDown(int location, int grid_size) {
if (grid_size <= 1 || location % grid_size == 0)
return location;
return location / grid_size * grid_size;
}
scoped_ptr<TestBrowserWindowAura> CreateTestBrowserWindow(
aura::Window* window,
const gfx::Rect& bounds,
const Browser::CreateParams& params) {
if (!bounds.IsEmpty())
window->SetBounds(bounds);
scoped_ptr<TestBrowserWindowAura> browser_window(
new TestBrowserWindowAura(window));
browser_window->CreateBrowser(params);
return browser_window.Pass();
}
} // namespace
// Test that the window is sized appropriately for the first run experience
// where the default window bounds calculation is invoked.
TEST_F(WindowSizerAshTest, DefaultSizeCase) {
int grid = WindowSizer::kDesktopBorderSize;
{ // 4:3 monitor case, 1024x768, no taskbar
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(), gfx::Rect(),
gfx::Rect(), DEFAULT, NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ(gfx::Rect(WindowSizer::kDesktopBorderSize,
WindowSizer::kDesktopBorderSize,
1024 - WindowSizer::kDesktopBorderSize * 2,
768 - WindowSizer::kDesktopBorderSize),
window_bounds);
}
{ // 4:3 monitor case, 1024x768, taskbar on bottom
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, taskbar_bottom_work_area, gfx::Rect(),
gfx::Rect(), gfx::Rect(), DEFAULT, NULL, gfx::Rect(),
&window_bounds);
EXPECT_EQ(gfx::Rect(WindowSizer::kDesktopBorderSize,
WindowSizer::kDesktopBorderSize,
1024 - WindowSizer::kDesktopBorderSize * 2,
AlignToGridRoundDown(
taskbar_bottom_work_area.height() -
WindowSizer::kDesktopBorderSize, grid)),
window_bounds);
}
{ // 4:3 monitor case, 1024x768, taskbar on right
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, taskbar_right_work_area, gfx::Rect(),
gfx::Rect(), gfx::Rect(), DEFAULT, NULL, gfx::Rect(),
&window_bounds);
EXPECT_EQ(gfx::Rect(WindowSizer::kDesktopBorderSize,
WindowSizer::kDesktopBorderSize,
AlignToGridRoundDown(
taskbar_right_work_area.width() -
WindowSizer::kDesktopBorderSize * 2, grid),
768 - WindowSizer::kDesktopBorderSize),
window_bounds);
}
{ // 4:3 monitor case, 1024x768, taskbar on left
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, taskbar_left_work_area, gfx::Rect(),
gfx::Rect(), gfx::Rect(), DEFAULT, NULL, gfx::Rect(),
&window_bounds);
EXPECT_EQ(gfx::Rect(taskbar_left_work_area.x() +
WindowSizer::kDesktopBorderSize,
WindowSizer::kDesktopBorderSize,
AlignToGridRoundDown(
taskbar_left_work_area.width() -
WindowSizer::kDesktopBorderSize * 2, grid),
AlignToGridRoundDown(
taskbar_left_work_area.height() -
WindowSizer::kDesktopBorderSize, grid)),
window_bounds);
}
{ // 4:3 monitor case, 1024x768, taskbar on top
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, taskbar_top_work_area, gfx::Rect(),
gfx::Rect(), gfx::Rect(), DEFAULT, NULL, gfx::Rect(),
&window_bounds);
EXPECT_EQ(gfx::Rect(WindowSizer::kDesktopBorderSize,
taskbar_top_work_area.y() +
WindowSizer::kDesktopBorderSize,
1024 - WindowSizer::kDesktopBorderSize * 2,
AlignToGridRoundDown(
taskbar_top_work_area.height() -
WindowSizer::kDesktopBorderSize, grid)),
window_bounds);
}
{ // 4:3 monitor case, 1280x1024
gfx::Rect window_bounds;
GetWindowBounds(p1280x1024, p1280x1024, gfx::Rect(), gfx::Rect(),
gfx::Rect(), DEFAULT, NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ(gfx::Rect((1280 - WindowSizer::kMaximumWindowWidth) / 2,
WindowSizer::kDesktopBorderSize,
WindowSizer::kMaximumWindowWidth,
1024 - WindowSizer::kDesktopBorderSize),
window_bounds);
}
{ // 4:3 monitor case, 1600x1200
gfx::Rect window_bounds;
GetWindowBounds(p1600x1200, p1600x1200, gfx::Rect(), gfx::Rect(),
gfx::Rect(), DEFAULT, NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ(gfx::Rect((1600 - WindowSizer::kMaximumWindowWidth) / 2,
WindowSizer::kDesktopBorderSize,
WindowSizer::kMaximumWindowWidth,
1200 - WindowSizer::kDesktopBorderSize),
window_bounds);
}
{ // 16:10 monitor case, 1680x1050
gfx::Rect window_bounds;
GetWindowBounds(p1680x1050, p1680x1050, gfx::Rect(), gfx::Rect(),
gfx::Rect(), DEFAULT, NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ(gfx::Rect((1680 - WindowSizer::kMaximumWindowWidth) / 2,
WindowSizer::kDesktopBorderSize,
WindowSizer::kMaximumWindowWidth,
AlignToGridRoundDown(
1050 - WindowSizer::kDesktopBorderSize,
grid)),
window_bounds);
}
{ // 16:10 monitor case, 1920x1200
gfx::Rect window_bounds;
GetWindowBounds(p1920x1200, p1920x1200, gfx::Rect(), gfx::Rect(),
gfx::Rect(), DEFAULT, NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ(gfx::Rect((1920 - WindowSizer::kMaximumWindowWidth) / 2,
WindowSizer::kDesktopBorderSize,
WindowSizer::kMaximumWindowWidth,
1200 - WindowSizer::kDesktopBorderSize),
window_bounds);
}
}
// Test that the next opened window is positioned appropriately given the
// bounds of an existing window of the same type.
TEST_F(WindowSizerAshTest, LastWindowBoundsCase) {
{ // normal, in the middle of the screen somewhere.
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(),
gfx::Rect(WindowSizer::kDesktopBorderSize,
WindowSizer::kDesktopBorderSize, 500, 400),
gfx::Rect(), LAST_ACTIVE, NULL, gfx::Rect(),
&window_bounds);
EXPECT_EQ(gfx::Rect(kWindowTilePixels + WindowSizer::kDesktopBorderSize,
kWindowTilePixels + WindowSizer::kDesktopBorderSize,
500, 400).ToString(),
window_bounds.ToString());
}
{ // taskbar on top.
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, taskbar_top_work_area, gfx::Rect(),
gfx::Rect(WindowSizer::kDesktopBorderSize,
WindowSizer::kDesktopBorderSize, 500, 400),
gfx::Rect(), LAST_ACTIVE, NULL, gfx::Rect(),
&window_bounds);
EXPECT_EQ(gfx::Rect(kWindowTilePixels + WindowSizer::kDesktopBorderSize,
std::max(kWindowTilePixels +
WindowSizer::kDesktopBorderSize,
34 /* toolbar height */),
500, 400).ToString(), window_bounds.ToString());
}
{ // Too small to satisify the minimum visibility condition.
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(),
gfx::Rect(WindowSizer::kDesktopBorderSize,
WindowSizer::kDesktopBorderSize, 29, 29),
gfx::Rect(), LAST_ACTIVE, NULL, gfx::Rect(),
&window_bounds);
EXPECT_EQ(gfx::Rect(kWindowTilePixels + WindowSizer::kDesktopBorderSize,
kWindowTilePixels + WindowSizer::kDesktopBorderSize,
30 /* not 29 */,
30 /* not 29 */).ToString(),
window_bounds.ToString());
}
{ // Normal.
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(),
gfx::Rect(WindowSizer::kDesktopBorderSize,
WindowSizer::kDesktopBorderSize, 500, 400),
gfx::Rect(), LAST_ACTIVE, NULL, gfx::Rect(),
&window_bounds);
EXPECT_EQ(gfx::Rect(kWindowTilePixels + WindowSizer::kDesktopBorderSize,
kWindowTilePixels + WindowSizer::kDesktopBorderSize,
500, 400).ToString(),
window_bounds.ToString());
}
}
// Test that the window opened is sized appropriately given persisted sizes.
TEST_F(WindowSizerAshTest, PersistedBoundsCase) {
{ // normal, in the middle of the screen somewhere.
gfx::Rect initial_bounds(WindowSizer::kDesktopBorderSize,
WindowSizer::kDesktopBorderSize, 500, 400);
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(), initial_bounds,
gfx::Rect(), PERSISTED, NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ(initial_bounds.ToString(), window_bounds.ToString());
}
{ // Normal.
gfx::Rect initial_bounds(0, 0, 1024, 768);
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(), initial_bounds,
gfx::Rect(), PERSISTED, NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ(initial_bounds.ToString(), window_bounds.ToString());
}
{ // normal, on non-primary monitor in negative coords.
gfx::Rect initial_bounds(-600, 10, 500, 400);
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, left_s1024x768,
initial_bounds, gfx::Rect(), PERSISTED, NULL, gfx::Rect(),
&window_bounds);
EXPECT_EQ(initial_bounds.ToString(), window_bounds.ToString());
}
{ // normal, on non-primary monitor in negative coords.
gfx::Rect initial_bounds(-1024, 0, 1024, 768);
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, left_s1024x768,
initial_bounds, gfx::Rect(), PERSISTED, NULL, gfx::Rect(),
&window_bounds);
EXPECT_EQ(initial_bounds.ToString(), window_bounds.ToString());
}
{ // Non-primary monitor resoultion has changed, but the monitor still
// completely contains the window.
gfx::Rect initial_bounds(1074, 50, 600, 500);
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(1024, 0, 800, 600),
initial_bounds, right_s1024x768, PERSISTED, NULL,
gfx::Rect(), &window_bounds);
EXPECT_EQ(initial_bounds.ToString(), window_bounds.ToString());
}
{ // Non-primary monitor resoultion has changed, and the window is partially
// off-screen.
gfx::Rect initial_bounds(1274, 50, 600, 500);
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(1024, 0, 800, 600),
initial_bounds, right_s1024x768, PERSISTED,
NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ("1224,50 600x500", window_bounds.ToString());
}
{ // Non-primary monitor resoultion has changed, and the window is now too
// large for the monitor.
gfx::Rect initial_bounds(1274, 50, 900, 700);
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(1024, 0, 800, 600),
initial_bounds, right_s1024x768, PERSISTED,
NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ("1024,0 800x600", window_bounds.ToString());
}
{ // width and height too small
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(),
gfx::Rect(WindowSizer::kDesktopBorderSize,
WindowSizer::kDesktopBorderSize, 29, 29),
gfx::Rect(), PERSISTED, NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ(gfx::Rect(WindowSizer::kDesktopBorderSize,
WindowSizer::kDesktopBorderSize,
30 /* not 29 */, 30 /* not 29 */).ToString(),
window_bounds.ToString());
}
}
//////////////////////////////////////////////////////////////////////////////
// The following unittests have different results on Mac/non-Mac because we
// reposition windows aggressively on Mac. The *WithAggressiveReposition tests
// are run on Mac, and the *WithNonAggressiveRepositioning tests are run on
// other platforms.
TEST_F(WindowSizerAshTest, LastWindowOffscreenWithNonAggressiveRepositioning) {
{ // taskbar on left.
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, taskbar_left_work_area, gfx::Rect(),
gfx::Rect(WindowSizer::kDesktopBorderSize,
WindowSizer::kDesktopBorderSize, 500, 400),
gfx::Rect(), LAST_ACTIVE, NULL, gfx::Rect(),
&window_bounds);
EXPECT_EQ(gfx::Rect(kWindowTilePixels + WindowSizer::kDesktopBorderSize,
kWindowTilePixels + WindowSizer::kDesktopBorderSize,
500, 400).ToString(),
window_bounds.ToString());
}
{ // offset would put the new window offscreen at the bottom but the minimum
// visibility condition is barely satisfied without relocation.
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(),
gfx::Rect(10, 728, 500, 400), gfx::Rect(), LAST_ACTIVE,
NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ(gfx::Rect(10 + kWindowTilePixels, 738, 500, 400).ToString(),
window_bounds.ToString());
}
{ // offset would put the new window offscreen at the bottom and the minimum
// visibility condition is satisified by relocation.
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(),
gfx::Rect(10, 729, 500, 400), gfx::Rect(), LAST_ACTIVE,
NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ(gfx::Rect(10 + kWindowTilePixels,
738 /* not 739 */,
500,
400).ToString(),
window_bounds.ToString());
}
{ // offset would put the new window offscreen at the right but the minimum
// visibility condition is barely satisfied without relocation.
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(),
gfx::Rect(984, 10, 500, 400), gfx::Rect(), LAST_ACTIVE,
NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ(gfx::Rect(994, 10 + kWindowTilePixels, 500, 400).ToString(),
window_bounds.ToString());
}
{ // offset would put the new window offscreen at the right and the minimum
// visibility condition is satisified by relocation.
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(),
gfx::Rect(985, 10, 500, 400), gfx::Rect(), LAST_ACTIVE,
NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ(gfx::Rect(994 /* not 995 */,
10 + kWindowTilePixels,
500,
400).ToString(),
window_bounds.ToString());
}
{ // offset would put the new window offscreen at the bottom right and the
// minimum visibility condition is satisified by relocation.
gfx::Rect window_bounds;
GetWindowBounds(p1024x768, p1024x768, gfx::Rect(),
gfx::Rect(985, 729, 500, 400), gfx::Rect(), LAST_ACTIVE,
NULL, gfx::Rect(), &window_bounds);
EXPECT_EQ(gfx::Rect(994 /* not 995 */,
738 /* not 739 */,
500,
400).ToString(),
window_bounds.ToString());
}
}
// Test the placement of newly created windows.
TEST_F(WindowSizerAshTest, PlaceNewWindows) {
// Create a browser which we can use to pass into the GetWindowBounds
// function.
scoped_ptr<TestingProfile> profile(new TestingProfile());
// Creating a popup handler here to make sure it does not interfere with the
// existing windows.
Browser::CreateParams native_params(profile.get(),
chrome::HOST_DESKTOP_TYPE_ASH);
scoped_ptr<Browser> browser(
chrome::CreateBrowserWithTestWindowForParams(&native_params));
// Creating a popup handler here to make sure it does not interfere with the
// existing windows.
scoped_ptr<BrowserWindow> browser_window(CreateTestBrowserWindow(
CreateTestWindowInShellWithId(0),
gfx::Rect(16, 32, 640, 320),
Browser::CreateParams(profile.get(), chrome::HOST_DESKTOP_TYPE_ASH)));
// Creating a popup to make sure it does not interfere with the positioning.
scoped_ptr<TestBrowserWindowAura> browser_popup(CreateTestBrowserWindow(
CreateTestWindowInShellWithId(1),
gfx::Rect(16, 32, 128, 256),
Browser::CreateParams(Browser::TYPE_POPUP, profile.get(),
chrome::HOST_DESKTOP_TYPE_ASH)));
// Creating a panel to make sure it does not interfere with the positioning.
scoped_ptr<BrowserWindow> browser_panel(CreateTestBrowserWindow(
CreateTestWindowInShellWithId(2),
gfx::Rect(32, 48, 256, 512),
Browser::CreateParams(Browser::TYPE_POPUP, profile.get(),
chrome::HOST_DESKTOP_TYPE_ASH)));
browser_window->Show();
{ // Make sure that popups do not get changed.
gfx::Rect window_bounds;
GetWindowBounds(p1600x1200, p1600x1200, gfx::Rect(),
gfx::Rect(50, 100, 300, 150), bottom_s1600x1200,
PERSISTED, browser_popup->browser(),
gfx::Rect(), &window_bounds);
EXPECT_EQ("50,100 300x150", window_bounds.ToString());
}
browser_window->Hide();
{ // If a window is there but not shown the persisted default should be used.
gfx::Rect window_bounds;
GetWindowBounds(p1600x1200, p1600x1200, gfx::Rect(),
gfx::Rect(50, 100, 300, 150), bottom_s1600x1200,
PERSISTED, browser.get(), gfx::Rect(), &window_bounds);
EXPECT_EQ("50,100 300x150", window_bounds.ToString());
}
{ // If a window is there but not shown the default should be returned.
gfx::Rect window_bounds;
GetWindowBounds(p1600x1200, p1600x1200, gfx::Rect(),
gfx::Rect(), bottom_s1600x1200,
DEFAULT, browser.get(), gfx::Rect(), &window_bounds);
// Note: We need to also take the defaults maximum width into account here
// since that might get used if the resolution is too big.
EXPECT_EQ(gfx::Rect(std::max(WindowSizer::kDesktopBorderSize,
(1600 - WindowSizer::kMaximumWindowWidth) / 2),
WindowSizer::kDesktopBorderSize,
std::min(WindowSizer::kMaximumWindowWidth,
1600 - 2 * WindowSizer::kDesktopBorderSize),
1200 - WindowSizer::kDesktopBorderSize).ToString(),
window_bounds.ToString());
}
}
// Test the placement of newly created windows on an empty desktop.
// This test supplements "PlaceNewWindows" by testing the creation of a newly
// created browser window on an empty desktop.
TEST_F(WindowSizerAshTest, PlaceNewBrowserWindowOnEmptyDesktop) {
// Create a browser which we can use to pass into the GetWindowBounds
// function.
scoped_ptr<TestingProfile> profile(new TestingProfile());
Browser::CreateParams native_params(profile.get(),
chrome::HOST_DESKTOP_TYPE_ASH);
scoped_ptr<Browser> browser(
chrome::CreateBrowserWithTestWindowForParams(&native_params));
// A common screen size for Chrome OS devices where this behavior is
// desirable.
const gfx::Rect p1366x768(0, 0, 1366, 768);
// If there is no previous state the window should get maximized if the
// screen is less than or equal to our limit (1366 pixels width).
gfx::Rect window_bounds;
ui::WindowShowState out_show_state1 = ui::SHOW_STATE_DEFAULT;
GetWindowBoundsAndShowState(
p1366x768, // The screen resolution.
p1366x768, // The monitor work area.
gfx::Rect(), // The second monitor.
gfx::Rect(), // The (persisted) bounds.
p1366x768, // The overall work area.
ui::SHOW_STATE_NORMAL, // The persisted show state.
ui::SHOW_STATE_DEFAULT, // The last show state.
DEFAULT, // No persisted values.
browser.get(), // Use this browser.
gfx::Rect(), // Don't request valid bounds.
&window_bounds,
&out_show_state1);
EXPECT_EQ(ui::SHOW_STATE_MAXIMIZED, out_show_state1);
// If there is a stored coordinate however, that should be taken instead.
ui::WindowShowState out_show_state2 = ui::SHOW_STATE_DEFAULT;
GetWindowBoundsAndShowState(
p1366x768, // The screen resolution.
p1366x768, // The monitor work area.
gfx::Rect(), // The second monitor.
gfx::Rect(50, 100, 300, 150), // The (persisted) bounds.
p1366x768, // The overall work area.
ui::SHOW_STATE_NORMAL, // The persisted show state.
ui::SHOW_STATE_DEFAULT, // The last show state.
PERSISTED, // Set the persisted values.
browser.get(), // Use this browser.
gfx::Rect(), // Don't request valid bounds.
&window_bounds,
&out_show_state2);
EXPECT_EQ(ui::SHOW_STATE_NORMAL, out_show_state2);
EXPECT_EQ("50,100 300x150", window_bounds.ToString());
// A larger monitor should not trigger auto-maximize.
ui::WindowShowState out_show_state3 = ui::SHOW_STATE_DEFAULT;
GetWindowBoundsAndShowState(
p1600x1200, // The screen resolution.
p1600x1200, // The monitor work area.
gfx::Rect(), // The second monitor.
gfx::Rect(), // The (persisted) bounds.
p1600x1200, // The overall work area.
ui::SHOW_STATE_NORMAL, // The persisted show state.
ui::SHOW_STATE_DEFAULT, // The last show state.
DEFAULT, // No persisted values.
browser.get(), // Use this browser.
gfx::Rect(), // Don't request valid bounds.
&window_bounds,
&out_show_state3);
EXPECT_EQ(ui::SHOW_STATE_DEFAULT, out_show_state3);
}
#if defined(OS_CHROMEOS)
#define MAYBE_PlaceNewWindowsOnMultipleDisplays PlaceNewWindowsOnMultipleDisplays
#else
// No multiple displays on windows ash.
#define MAYBE_PlaceNewWindowsOnMultipleDisplays DISABLED_PlaceNewWindowsOnMultipleDisplays
#endif
// Test the placement of newly created windows on multiple dislays.
TEST_F(WindowSizerAshTest, MAYBE_PlaceNewWindowsOnMultipleDisplays) {
UpdateDisplay("1600x1200,1600x1200");
gfx::Rect primary_bounds = ash::Shell::GetInstance()->GetScreen()->
GetPrimaryDisplay().bounds();
gfx::Rect secondary_bounds = ash::ScreenAsh::GetSecondaryDisplay().bounds();
ash::Shell::GetInstance()->set_target_root_window(
ash::Shell::GetPrimaryRootWindow());
scoped_ptr<TestingProfile> profile(new TestingProfile());
// Create browser windows that are used as reference.
scoped_ptr<BrowserWindow> browser_window(CreateTestBrowserWindow(
CreateTestWindowInShellWithId(0),
gfx::Rect(10, 10, 200, 200),
Browser::CreateParams(profile.get(), chrome::HOST_DESKTOP_TYPE_ASH)));
browser_window->Show();
EXPECT_EQ(browser_window->GetNativeWindow()->GetRootWindow(),
ash::Shell::GetTargetRootWindow());
scoped_ptr<BrowserWindow> another_browser_window(CreateTestBrowserWindow(
CreateTestWindowInShellWithId(1),
gfx::Rect(400, 10, 300, 300),
Browser::CreateParams(profile.get(), chrome::HOST_DESKTOP_TYPE_ASH)));
another_browser_window->Show();
// Creating a new window to verify the new placement.
scoped_ptr<TestBrowserWindowAura> new_browser_window(CreateTestBrowserWindow(
CreateTestWindowInShellWithId(0),
gfx::Rect(),
Browser::CreateParams(profile.get(),
chrome::HOST_DESKTOP_TYPE_ASH)));
// Make sure the primary root is active.
ASSERT_EQ(ash::Shell::GetPrimaryRootWindow(),
ash::Shell::GetTargetRootWindow());
// First new window should be in the primary.
{
gfx::Rect window_bounds;
GetWindowBounds(p1600x1200, p1600x1200, secondary_bounds,
gfx::Rect(), secondary_bounds,
PERSISTED, new_browser_window->browser(),
gfx::Rect(), &window_bounds);
// TODO(oshima): Use exact bounds when the window_sizer_ash is
// moved to ash and changed to include the result from
// RearrangeVisibleWindowOnShow.
EXPECT_TRUE(primary_bounds.Contains(window_bounds));
}
// Move the window to the right side of the secondary display and create a new
// window. It should be opened then on the secondary display.
{
gfx::Display second_display = ash::Shell::GetScreen()->
GetDisplayNearestPoint(gfx::Point(1600 + 100,10));
browser_window->GetNativeWindow()->SetBoundsInScreen(
gfx::Rect(secondary_bounds.CenterPoint().x() - 100, 10, 200, 200),
second_display);
browser_window->Activate();
EXPECT_NE(ash::Shell::GetPrimaryRootWindow(),
ash::Shell::GetTargetRootWindow());
gfx::Rect window_bounds;
GetWindowBounds(p1600x1200, p1600x1200, secondary_bounds,
gfx::Rect(), secondary_bounds,
PERSISTED, new_browser_window->browser(),
gfx::Rect(), &window_bounds);
// TODO(oshima): Use exact bounds when the window_sizer_ash is
// moved to ash and changed to include the result from
// RearrangeVisibleWindowOnShow.
EXPECT_TRUE(secondary_bounds.Contains(window_bounds));
}
// Activate another window in the primary display and create a new window.
// It should be created in the primary display.
{
another_browser_window->Activate();
EXPECT_EQ(ash::Shell::GetPrimaryRootWindow(),
ash::Shell::GetTargetRootWindow());
gfx::Rect window_bounds;
GetWindowBounds(p1600x1200, p1600x1200, secondary_bounds,
gfx::Rect(), secondary_bounds,
PERSISTED, new_browser_window->browser(),
gfx::Rect(), &window_bounds);
// TODO(oshima): Use exact bounds when the window_sizer_ash is
// moved to ash and changed to include the result from
// RearrangeVisibleWindowOnShow.
EXPECT_TRUE(primary_bounds.Contains(window_bounds));
}
}
// Test that the show state is properly returned for non default cases.
TEST_F(WindowSizerAshTest, TestShowState) {
scoped_ptr<TestingProfile> profile(new TestingProfile());
// Creating a browser & window to play with.
scoped_ptr<TestBrowserWindowAura> browser_window(CreateTestBrowserWindow(
CreateTestWindowInShellWithId(0),
gfx::Rect(16, 32, 640, 320),
Browser::CreateParams(Browser::TYPE_TABBED, profile.get(),
chrome::HOST_DESKTOP_TYPE_ASH)));
// Create also a popup browser since that behaves different.
scoped_ptr<TestBrowserWindowAura> browser_popup(CreateTestBrowserWindow(
CreateTestWindowInShellWithId(1),
gfx::Rect(16, 32, 640, 320),
Browser::CreateParams(Browser::TYPE_POPUP, profile.get(),
chrome::HOST_DESKTOP_TYPE_ASH)));
// Tabbed windows should retrieve the saved window state - since there is a
// top window.
EXPECT_EQ(ui::SHOW_STATE_MAXIMIZED,
GetWindowShowState(ui::SHOW_STATE_MAXIMIZED,
ui::SHOW_STATE_NORMAL,
BOTH,
browser_window->browser(),
p1600x1200));
EXPECT_EQ(ui::SHOW_STATE_DEFAULT,
GetWindowShowState(ui::SHOW_STATE_DEFAULT,
ui::SHOW_STATE_NORMAL,
BOTH,
browser_window->browser(),
p1600x1200));
// Non tabbed windows should always follow the window saved visibility state.
EXPECT_EQ(ui::SHOW_STATE_MAXIMIZED,
GetWindowShowState(ui::SHOW_STATE_MAXIMIZED,
ui::SHOW_STATE_NORMAL,
BOTH,
browser_popup->browser(),
p1600x1200));
// The non tabbed window will take the status of the last active of its kind.
EXPECT_EQ(ui::SHOW_STATE_NORMAL,
GetWindowShowState(ui::SHOW_STATE_DEFAULT,
ui::SHOW_STATE_NORMAL,
BOTH,
browser_popup->browser(),
p1600x1200));
// Now create a top level window and check again for both. Only the tabbed
// window should follow the top level window's state.
// Creating a browser & window to play with.
scoped_ptr<TestBrowserWindowAura> browser_window2(CreateTestBrowserWindow(
CreateTestWindowInShellWithId(3),
gfx::Rect(16, 32, 640, 320),
Browser::CreateParams(Browser::TYPE_TABBED, profile.get(),
chrome::HOST_DESKTOP_TYPE_ASH)));
// A tabbed window should now take the top level window state.
EXPECT_EQ(ui::SHOW_STATE_DEFAULT,
GetWindowShowState(ui::SHOW_STATE_MAXIMIZED,
ui::SHOW_STATE_DEFAULT,
BOTH,
browser_window->browser(),
p1600x1200));
// Non tabbed windows should always follow the window saved visibility state.
EXPECT_EQ(ui::SHOW_STATE_MAXIMIZED,
GetWindowShowState(ui::SHOW_STATE_MAXIMIZED,
ui::SHOW_STATE_MINIMIZED,
BOTH,
browser_popup->browser(),
p1600x1200));
// In smaller screen resolutions we default to maximized if there is no other
// window visible.
int min_size = WindowSizer::GetForceMaximizedWidthLimit() / 2;
if (min_size > 0) {
const gfx::Rect tiny_screen(0, 0, min_size, min_size);
EXPECT_EQ(ui::SHOW_STATE_DEFAULT,
GetWindowShowState(ui::SHOW_STATE_MAXIMIZED,
ui::SHOW_STATE_DEFAULT,
BOTH,
browser_window->browser(),
tiny_screen));
browser_window->Hide();
EXPECT_EQ(ui::SHOW_STATE_MAXIMIZED,
GetWindowShowState(ui::SHOW_STATE_MAXIMIZED,
ui::SHOW_STATE_DEFAULT,
BOTH,
browser_window2->browser(),
tiny_screen));
}
}
// Test that the default show state override behavior is properly handled.
TEST_F(WindowSizerAshTest, TestShowStateDefaults) {
// Creating a browser & window to play with.
scoped_ptr<TestingProfile> profile(new TestingProfile());
scoped_ptr<TestBrowserWindowAura> browser_window(CreateTestBrowserWindow(
CreateTestWindowInShellWithId(0),
gfx::Rect(16, 32, 640, 320),
Browser::CreateParams(Browser::TYPE_TABBED, profile.get(),
chrome::HOST_DESKTOP_TYPE_ASH)));
// Create also a popup browser since that behaves slightly different for
// defaults.
scoped_ptr<TestBrowserWindowAura> browser_popup(CreateTestBrowserWindow(
CreateTestWindowInShellWithId(1),
gfx::Rect(16, 32, 128, 256),
Browser::CreateParams(Browser::TYPE_POPUP, profile.get(),
chrome::HOST_DESKTOP_TYPE_ASH)));
// Check that a browser creation state always get used if not given as
// SHOW_STATE_DEFAULT.
EXPECT_EQ(GetWindowShowState(ui::SHOW_STATE_MAXIMIZED,
ui::SHOW_STATE_MAXIMIZED,
DEFAULT,
browser_window->browser(),
p1600x1200), ui::SHOW_STATE_DEFAULT);
browser_window->browser()->set_initial_show_state(ui::SHOW_STATE_MINIMIZED);
EXPECT_EQ(GetWindowShowState(ui::SHOW_STATE_MAXIMIZED,
ui::SHOW_STATE_MAXIMIZED,
BOTH,
browser_window->browser(),
p1600x1200), ui::SHOW_STATE_MINIMIZED);
browser_window->browser()->set_initial_show_state(ui::SHOW_STATE_NORMAL);
EXPECT_EQ(GetWindowShowState(ui::SHOW_STATE_MAXIMIZED,
ui::SHOW_STATE_MAXIMIZED,
BOTH,
browser_window->browser(),
p1600x1200), ui::SHOW_STATE_NORMAL);
browser_window->browser()->set_initial_show_state(ui::SHOW_STATE_MAXIMIZED);
EXPECT_EQ(GetWindowShowState(ui::SHOW_STATE_NORMAL,
ui::SHOW_STATE_NORMAL,
BOTH,
browser_window->browser(),
p1600x1200), ui::SHOW_STATE_MAXIMIZED);
// Check that setting the maximized command line option is forcing the
// maximized state.
CommandLine::ForCurrentProcess()->AppendSwitch(switches::kStartMaximized);
browser_window->browser()->set_initial_show_state(ui::SHOW_STATE_NORMAL);
EXPECT_EQ(GetWindowShowState(ui::SHOW_STATE_NORMAL,
ui::SHOW_STATE_NORMAL,
BOTH,
browser_window->browser(),
p1600x1200), ui::SHOW_STATE_MAXIMIZED);
// The popup should favor the initial show state over the command line.
EXPECT_EQ(GetWindowShowState(ui::SHOW_STATE_NORMAL,
ui::SHOW_STATE_NORMAL,
BOTH,
browser_popup->browser(),
p1600x1200), ui::SHOW_STATE_NORMAL);
}