Revert "Reland c91b178b07b0d - Delete dead signin code (SigninGlobalError)"
[chromium-blink-merge.git] / ash / wm / overview / window_grid.cc
blob2e019b3223b0d2f974c7b88fb26ac19817023ef9
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "ash/wm/overview/window_grid.h"
7 #include <algorithm>
8 #include <functional>
9 #include <set>
10 #include <vector>
12 #include "ash/ash_switches.h"
13 #include "ash/screen_util.h"
14 #include "ash/shell.h"
15 #include "ash/shell_window_ids.h"
16 #include "ash/wm/overview/scoped_transform_overview_window.h"
17 #include "ash/wm/overview/window_selector.h"
18 #include "ash/wm/overview/window_selector_item.h"
19 #include "ash/wm/window_state.h"
20 #include "base/command_line.h"
21 #include "base/i18n/string_search.h"
22 #include "base/memory/scoped_vector.h"
23 #include "third_party/skia/include/core/SkColor.h"
24 #include "ui/aura/window.h"
25 #include "ui/compositor/layer_animation_observer.h"
26 #include "ui/compositor/scoped_layer_animation_settings.h"
27 #include "ui/gfx/animation/tween.h"
28 #include "ui/gfx/geometry/vector2d.h"
29 #include "ui/views/background.h"
30 #include "ui/views/border.h"
31 #include "ui/views/view.h"
32 #include "ui/views/widget/widget.h"
33 #include "ui/wm/core/window_animations.h"
35 namespace ash {
36 namespace {
38 typedef std::vector<aura::Window*> Windows;
40 // An observer which holds onto the passed widget until the animation is
41 // complete.
42 class CleanupWidgetAfterAnimationObserver
43 : public ui::ImplicitAnimationObserver {
44 public:
45 explicit CleanupWidgetAfterAnimationObserver(
46 scoped_ptr<views::Widget> widget);
47 ~CleanupWidgetAfterAnimationObserver() override;
49 // ui::ImplicitAnimationObserver:
50 void OnImplicitAnimationsCompleted() override;
52 private:
53 scoped_ptr<views::Widget> widget_;
55 DISALLOW_COPY_AND_ASSIGN(CleanupWidgetAfterAnimationObserver);
58 CleanupWidgetAfterAnimationObserver::CleanupWidgetAfterAnimationObserver(
59 scoped_ptr<views::Widget> widget)
60 : widget_(widget.Pass()) {
63 CleanupWidgetAfterAnimationObserver::~CleanupWidgetAfterAnimationObserver() {
66 void CleanupWidgetAfterAnimationObserver::OnImplicitAnimationsCompleted() {
67 delete this;
70 // A comparator for locating a given target window.
71 struct WindowSelectorItemComparator
72 : public std::unary_function<WindowSelectorItem*, bool> {
73 explicit WindowSelectorItemComparator(const aura::Window* target_window)
74 : target(target_window) {
77 bool operator()(WindowSelectorItem* window) const {
78 return window->GetWindow() == target;
81 const aura::Window* target;
84 // Conceptually the window overview is a table or grid of cells having this
85 // fixed aspect ratio. The number of columns is determined by maximizing the
86 // area of them based on the number of window_list.
87 const float kCardAspectRatio = 4.0f / 3.0f;
89 // The minimum number of cards along the major axis (i.e. horizontally on a
90 // landscape orientation).
91 const int kMinCardsMajor = 3;
93 const int kOverviewSelectorTransitionMilliseconds = 100;
95 // The color and opacity of the overview selector.
96 const SkColor kWindowSelectionColor = SkColorSetARGB(128, 0, 0, 0);
97 const SkColor kWindowSelectionBorderColor = SkColorSetARGB(38, 255, 255, 255);
98 const int kWindowSelectionBorderThickness = 2;
100 // The minimum amount of spacing between the bottom of the text filtering
101 // text field and the top of the selection widget on the first row of items.
102 const int kTextFilterBottomMargin = 5;
104 // Returns the vector for the fade in animation.
105 gfx::Vector2d GetSlideVectorForFadeIn(WindowSelector::Direction direction,
106 const gfx::Rect& bounds) {
107 gfx::Vector2d vector;
108 switch (direction) {
109 case WindowSelector::DOWN:
110 vector.set_y(bounds.width());
111 break;
112 case WindowSelector::RIGHT:
113 vector.set_x(bounds.height());
114 break;
115 case WindowSelector::UP:
116 vector.set_y(-bounds.width());
117 break;
118 case WindowSelector::LEFT:
119 vector.set_x(-bounds.height());
120 break;
122 return vector;
125 // Given |root_window|, calculates the item size necessary to fit |items|
126 // items in the window selection. |bounding_rect| is set to the centered
127 // rectangle containing the grid and |item_size| is set to the size of each
128 // individual item.
129 void CalculateOverviewSizes(aura::Window* root_window,
130 size_t items,
131 gfx::Rect* bounding_rect,
132 gfx::Size* item_size) {
133 gfx::Rect total_bounds = ScreenUtil::ConvertRectToScreen(
134 root_window,
135 ScreenUtil::GetDisplayWorkAreaBoundsInParent(
136 Shell::GetContainer(root_window, kShellWindowId_DefaultContainer)));
138 // Reserve space at the top for the text filtering textbox to appear.
139 total_bounds.Inset(
140 0, WindowSelector::kTextFilterBottomEdge + kTextFilterBottomMargin, 0, 0);
142 // Find the minimum number of windows per row that will fit all of the
143 // windows on screen.
144 int num_columns = std::max(
145 total_bounds.width() > total_bounds.height() ? kMinCardsMajor : 1,
146 static_cast<int>(ceil(sqrt(total_bounds.width() * items /
147 (kCardAspectRatio * total_bounds.height())))));
148 int num_rows = ((items + num_columns - 1) / num_columns);
149 item_size->set_width(std::min(
150 static_cast<int>(total_bounds.width() / num_columns),
151 static_cast<int>(total_bounds.height() * kCardAspectRatio / num_rows)));
152 item_size->set_height(item_size->width() / kCardAspectRatio);
154 bounding_rect->set_width(std::min(static_cast<int>(items), num_columns) *
155 item_size->width());
156 bounding_rect->set_height(num_rows * item_size->height());
157 // Calculate the X and Y offsets necessary to center the grid.
158 bounding_rect->set_x(total_bounds.x() +
159 (total_bounds.width() - bounding_rect->width()) / 2);
160 bounding_rect->set_y(total_bounds.y() +
161 (total_bounds.height() - bounding_rect->height()) / 2);
164 // Reorders the list of windows |items| in |root_window| in an attempt to
165 // minimize the distance each window will travel to enter overview. For
166 // equidistant windows preserves a stable order between overview sessions
167 // by comparing window pointers.
168 void ReorderItemsGreedyLeastMovement(std::vector<aura::Window*>* items,
169 aura::Window* root_window) {
170 if (items->empty())
171 return;
172 gfx::Rect bounding_rect;
173 gfx::Size item_size;
174 CalculateOverviewSizes(root_window, items->size(), &bounding_rect,
175 &item_size);
176 int num_columns = std::min(static_cast<int>(items->size()),
177 bounding_rect.width() / item_size.width());
178 for (size_t i = 0; i < items->size(); ++i) {
179 int column = i % num_columns;
180 int row = i / num_columns;
181 gfx::Point overview_item_center(
182 bounding_rect.x() + column * item_size.width() + item_size.width() / 2,
183 bounding_rect.y() + row * item_size.height() + item_size.height() / 2);
184 // Find the nearest window for this position.
185 size_t swap_index = i;
186 int64 shortest_distance = std::numeric_limits<int64>::max();
187 for (size_t j = i; j < items->size(); ++j) {
188 aura::Window* window = (*items)[j];
189 int64 distance = (ScreenUtil::ConvertRectToScreen(
190 window, window->GetTargetBounds()).CenterPoint() -
191 overview_item_center).LengthSquared();
192 // We compare raw pointers to create a stable ordering given two windows
193 // with the same center point.
194 if (distance < shortest_distance ||
195 (distance == shortest_distance && window < (*items)[swap_index])) {
196 shortest_distance = distance;
197 swap_index = j;
200 if (swap_index > i)
201 std::swap((*items)[i], (*items)[swap_index]);
205 } // namespace
207 WindowGrid::WindowGrid(aura::Window* root_window,
208 const std::vector<aura::Window*>& windows,
209 WindowSelector* window_selector)
210 : root_window_(root_window),
211 window_selector_(window_selector) {
212 std::vector<aura::Window*> windows_in_root;
213 for (auto window : windows) {
214 if (window->GetRootWindow() == root_window)
215 windows_in_root.push_back(window);
218 if (base::CommandLine::ForCurrentProcess()->HasSwitch(
219 switches::kAshEnableStableOverviewOrder)) {
220 // Reorder windows to try to minimize movement to target overview positions.
221 // This also creates a stable window ordering.
222 ReorderItemsGreedyLeastMovement(&windows_in_root, root_window_);
224 for (auto window : windows_in_root) {
225 window->AddObserver(this);
226 observed_windows_.insert(window);
227 window_list_.push_back(new WindowSelectorItem(window, window_selector_));
231 WindowGrid::~WindowGrid() {
232 for (std::set<aura::Window*>::iterator iter = observed_windows_.begin();
233 iter != observed_windows_.end(); iter++) {
234 (*iter)->RemoveObserver(this);
238 void WindowGrid::PrepareForOverview() {
239 for (ScopedVector<WindowSelectorItem>::iterator iter = window_list_.begin();
240 iter != window_list_.end(); ++iter) {
241 (*iter)->PrepareForOverview();
245 void WindowGrid::PositionWindows(bool animate) {
246 CHECK(!window_list_.empty());
247 gfx::Rect bounding_rect;
248 gfx::Size item_size;
249 CalculateOverviewSizes(root_window_, window_list_.size(), &bounding_rect,
250 &item_size);
251 num_columns_ = std::min(static_cast<int>(window_list_.size()),
252 bounding_rect.width() / item_size.width());
253 for (size_t i = 0; i < window_list_.size(); ++i) {
254 gfx::Transform transform;
255 int column = i % num_columns_;
256 int row = i / num_columns_;
257 gfx::Rect target_bounds(item_size.width() * column + bounding_rect.x(),
258 item_size.height() * row + bounding_rect.y(),
259 item_size.width(), item_size.height());
260 window_list_[i]->SetBounds(target_bounds, animate ?
261 OverviewAnimationType::OVERVIEW_ANIMATION_LAY_OUT_SELECTOR_ITEMS :
262 OverviewAnimationType::OVERVIEW_ANIMATION_NONE);
265 // If the selection widget is active, reposition it without any animation.
266 if (selection_widget_)
267 MoveSelectionWidgetToTarget(animate);
270 bool WindowGrid::Move(WindowSelector::Direction direction, bool animate) {
271 bool recreate_selection_widget = false;
272 bool out_of_bounds = false;
273 bool changed_selection_index = false;
274 if (!selection_widget_) {
275 switch (direction) {
276 case WindowSelector::LEFT:
277 selected_index_ = window_list_.size() - 1;
278 break;
279 case WindowSelector::UP:
280 selected_index_ =
281 (window_list_.size() / num_columns_) * num_columns_ - 1;
282 break;
283 case WindowSelector::RIGHT:
284 case WindowSelector::DOWN:
285 selected_index_ = 0;
286 break;
288 changed_selection_index = true;
290 while (!changed_selection_index ||
291 (!out_of_bounds && window_list_[selected_index_]->dimmed())) {
292 switch (direction) {
293 case WindowSelector::RIGHT:
294 if (selected_index_ >= window_list_.size() - 1)
295 out_of_bounds = true;
296 selected_index_++;
297 if (selected_index_ % num_columns_ == 0)
298 recreate_selection_widget = true;
299 break;
300 case WindowSelector::LEFT:
301 if (selected_index_ == 0)
302 out_of_bounds = true;
303 selected_index_--;
304 if ((selected_index_ + 1) % num_columns_ == 0)
305 recreate_selection_widget = true;
306 break;
307 case WindowSelector::DOWN:
308 selected_index_ += num_columns_;
309 if (selected_index_ >= window_list_.size()) {
310 selected_index_ = (selected_index_ + 1) % num_columns_;
311 if (selected_index_ == 0)
312 out_of_bounds = true;
313 recreate_selection_widget = true;
315 break;
316 case WindowSelector::UP:
317 if (selected_index_ == 0)
318 out_of_bounds = true;
319 if (selected_index_ < num_columns_) {
320 selected_index_ += num_columns_ *
321 ((window_list_.size() - selected_index_) / num_columns_) - 1;
322 recreate_selection_widget = true;
323 } else {
324 selected_index_ -= num_columns_;
326 break;
328 changed_selection_index = true;
331 MoveSelectionWidget(direction, recreate_selection_widget,
332 out_of_bounds, animate);
333 return out_of_bounds;
336 WindowSelectorItem* WindowGrid::SelectedWindow() const {
337 if (!selection_widget_)
338 return nullptr;
339 CHECK(selected_index_ < window_list_.size());
340 return window_list_[selected_index_];
343 bool WindowGrid::Contains(const aura::Window* window) const {
344 for (const WindowSelectorItem* window_item : window_list_) {
345 if (window_item->Contains(window))
346 return true;
348 return false;
351 void WindowGrid::FilterItems(const base::string16& pattern) {
352 base::i18n::FixedPatternStringSearchIgnoringCaseAndAccents finder(pattern);
353 for (ScopedVector<WindowSelectorItem>::iterator iter = window_list_.begin();
354 iter != window_list_.end(); iter++) {
355 if (finder.Search((*iter)->GetWindow()->title(), nullptr, nullptr)) {
356 (*iter)->SetDimmed(false);
357 } else {
358 (*iter)->SetDimmed(true);
359 if (selection_widget_ && SelectedWindow() == *iter)
360 selection_widget_.reset();
365 void WindowGrid::OnWindowDestroying(aura::Window* window) {
366 window->RemoveObserver(this);
367 observed_windows_.erase(window);
368 ScopedVector<WindowSelectorItem>::iterator iter =
369 std::find_if(window_list_.begin(), window_list_.end(),
370 WindowSelectorItemComparator(window));
372 DCHECK(iter != window_list_.end());
374 size_t removed_index = iter - window_list_.begin();
375 window_list_.erase(iter);
377 if (empty()) {
378 // If the grid is now empty, notify the window selector so that it erases us
379 // from its grid list.
380 window_selector_->OnGridEmpty(this);
381 return;
384 // If selecting, update the selection index.
385 if (selection_widget_) {
386 bool send_focus_alert = selected_index_ == removed_index;
387 if (selected_index_ >= removed_index && selected_index_ != 0)
388 selected_index_--;
389 if (send_focus_alert)
390 SelectedWindow()->SendFocusAlert();
393 PositionWindows(true);
396 void WindowGrid::OnWindowBoundsChanged(aura::Window* window,
397 const gfx::Rect& old_bounds,
398 const gfx::Rect& new_bounds) {
399 ScopedVector<WindowSelectorItem>::const_iterator iter =
400 std::find_if(window_list_.begin(), window_list_.end(),
401 WindowSelectorItemComparator(window));
402 DCHECK(iter != window_list_.end());
404 // Immediately finish any active bounds animation.
405 window->layer()->GetAnimator()->StopAnimatingProperty(
406 ui::LayerAnimationElement::BOUNDS);
408 // Recompute the transform for the window.
409 (*iter)->RecomputeWindowTransforms();
412 void WindowGrid::InitSelectionWidget(WindowSelector::Direction direction) {
413 selection_widget_.reset(new views::Widget);
414 views::Widget::InitParams params;
415 params.type = views::Widget::InitParams::TYPE_POPUP;
416 params.keep_on_top = false;
417 params.ownership = views::Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET;
418 params.opacity = views::Widget::InitParams::TRANSLUCENT_WINDOW;
419 params.parent = Shell::GetContainer(root_window_,
420 kShellWindowId_DefaultContainer);
421 params.accept_events = false;
422 selection_widget_->set_focus_on_creation(false);
423 selection_widget_->Init(params);
424 // Disable the "bounce in" animation when showing the window.
425 ::wm::SetWindowVisibilityAnimationTransition(
426 selection_widget_->GetNativeWindow(), ::wm::ANIMATE_NONE);
427 // The selection widget should not activate the shelf when passing under it.
428 wm::GetWindowState(selection_widget_->GetNativeWindow())->
429 set_ignored_by_shelf(true);
431 views::View* content_view = new views::View;
432 content_view->set_background(
433 views::Background::CreateSolidBackground(kWindowSelectionColor));
434 content_view->SetBorder(views::Border::CreateSolidBorder(
435 kWindowSelectionBorderThickness, kWindowSelectionBorderColor));
436 selection_widget_->SetContentsView(content_view);
437 selection_widget_->GetNativeWindow()->parent()->StackChildAtBottom(
438 selection_widget_->GetNativeWindow());
439 selection_widget_->Show();
440 // New selection widget starts with 0 opacity and then fades in.
441 selection_widget_->GetNativeWindow()->layer()->SetOpacity(0);
443 const gfx::Rect target_bounds = SelectedWindow()->target_bounds();
444 gfx::Vector2d fade_out_direction =
445 GetSlideVectorForFadeIn(direction, target_bounds);
446 gfx::Display dst_display = gfx::Screen::GetScreenFor(root_window_)->
447 GetDisplayMatching(target_bounds);
448 selection_widget_->GetNativeWindow()->SetBoundsInScreen(
449 target_bounds - fade_out_direction, dst_display);
452 void WindowGrid::MoveSelectionWidget(WindowSelector::Direction direction,
453 bool recreate_selection_widget,
454 bool out_of_bounds,
455 bool animate) {
456 // If the selection widget is already active, fade it out in the selection
457 // direction.
458 if (selection_widget_ && (recreate_selection_widget || out_of_bounds)) {
459 // Animate the old selection widget and then destroy it.
460 views::Widget* old_selection = selection_widget_.get();
461 gfx::Vector2d fade_out_direction =
462 GetSlideVectorForFadeIn(
463 direction, old_selection->GetNativeWindow()->bounds());
465 ui::ScopedLayerAnimationSettings animation_settings(
466 old_selection->GetNativeWindow()->layer()->GetAnimator());
467 animation_settings.SetTransitionDuration(
468 base::TimeDelta::FromMilliseconds(
469 kOverviewSelectorTransitionMilliseconds));
470 animation_settings.SetPreemptionStrategy(
471 ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
472 animation_settings.SetTweenType(gfx::Tween::FAST_OUT_LINEAR_IN);
473 // CleanupWidgetAfterAnimationObserver will delete itself (and the
474 // widget) when the movement animation is complete.
475 animation_settings.AddObserver(
476 new CleanupWidgetAfterAnimationObserver(selection_widget_.Pass()));
477 old_selection->SetOpacity(0);
478 old_selection->GetNativeWindow()->SetBounds(
479 old_selection->GetNativeWindow()->bounds() + fade_out_direction);
480 old_selection->Hide();
482 if (out_of_bounds)
483 return;
485 if (!selection_widget_)
486 InitSelectionWidget(direction);
487 // Send an a11y alert so that if ChromeVox is enabled, the item label is
488 // read.
489 SelectedWindow()->SendFocusAlert();
490 // The selection widget is moved to the newly selected item in the same
491 // grid.
492 MoveSelectionWidgetToTarget(animate);
495 void WindowGrid::MoveSelectionWidgetToTarget(bool animate) {
496 if (animate) {
497 ui::ScopedLayerAnimationSettings animation_settings(
498 selection_widget_->GetNativeWindow()->layer()->GetAnimator());
499 animation_settings.SetTransitionDuration(base::TimeDelta::FromMilliseconds(
500 kOverviewSelectorTransitionMilliseconds));
501 animation_settings.SetTweenType(gfx::Tween::LINEAR_OUT_SLOW_IN);
502 animation_settings.SetPreemptionStrategy(
503 ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
504 selection_widget_->SetBounds(SelectedWindow()->target_bounds());
505 selection_widget_->SetOpacity(255);
506 return;
508 selection_widget_->SetBounds(SelectedWindow()->target_bounds());
509 selection_widget_->SetOpacity(255);
512 } // namespace ash