ash/display/extended_mouse_warp_controller.cc - chromium/src - Git at Google

 // Copyright 2015 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "ash/display/extended_mouse_warp_controller.h"

 #include <cmath>
 #include <memory>

 #include "ash/display/display_util.h"
 #include "ash/display/shared_display_edge_indicator.h"
 #include "ash/display/window_tree_host_manager.h"
 #include "ash/root_window_controller.h"
 #include "ash/shell.h"
 #include "ui/aura/window.h"
 #include "ui/display/display_layout.h"
 #include "ui/display/manager/display_manager.h"
 #include "ui/display/manager/display_manager_utilities.h"
 #include "ui/display/screen.h"
 #include "ui/display/types/display_constants.h"
 #include "ui/events/event_utils.h"
 #include "ui/wm/core/coordinate_conversion.h"

 namespace ash {

 namespace {

 // Maximum size on the display edge that initiate snapping phantom window,
 // from the corner of the display.
 constexpr int kMaximumSnapHeight = 32;

 // Minimum height of an indicator on the display edge that allows
 // dragging a window.  If two displays shares the edge smaller than
 // this, entire edge will be used as a draggable space.
 constexpr int kMinimumIndicatorHeight = 200;

 // Helper method that maps an aura::Window to display id;
 int64_t GetDisplayIdFromWindow(aura::Window* window) {
   return display::Screen::GetScreen()->GetDisplayNearestWindow(window).id();
 }

 // Adjust the edge so that it has |barrier_size| gap at the top to
 // trigger snap window action.
 void AdjustSourceEdgeBounds(const gfx::Rect& display_bounds,
                             int barrier_size,
                             gfx::Rect* edge) {
   DCHECK_GT(edge->height(), edge->width());
   int target_y = display_bounds.y() + barrier_size;
   if (target_y < edge->y())
     return;

   int available_height = edge->height() - kMinimumIndicatorHeight;
   if (available_height <= 0)
     return;
   edge->Inset(0, std::min(available_height, target_y - edge->y()), 0, 0);
 }

 }  // namespace

 ExtendedMouseWarpController::WarpRegion::WarpRegion(
     int64_t a_display_id,
     int64_t b_display_id,
     const gfx::Rect& a_indicator_bounds,
     const gfx::Rect& b_indicator_bounds)
     : a_display_id_(a_display_id),
       b_display_id_(b_display_id),
       a_indicator_bounds_(a_indicator_bounds),
       b_indicator_bounds_(b_indicator_bounds),
       shared_display_edge_indicator_(nullptr) {
   // Initialize edge bounds from indicator bounds.
   aura::Window* a_window = Shell::GetRootWindowForDisplayId(a_display_id);
   aura::Window* b_window = Shell::GetRootWindowForDisplayId(b_display_id);

   AshWindowTreeHost* a_ash_host =
       RootWindowController::ForWindow(a_window)->ash_host();
   AshWindowTreeHost* b_ash_host =
       RootWindowController::ForWindow(b_window)->ash_host();

   a_edge_bounds_in_native_ =
       GetNativeEdgeBounds(a_ash_host, a_indicator_bounds);
   b_edge_bounds_in_native_ =
       GetNativeEdgeBounds(b_ash_host, b_indicator_bounds);
 }

 ExtendedMouseWarpController::WarpRegion::~WarpRegion() = default;

 const gfx::Rect&
 ExtendedMouseWarpController::WarpRegion::GetIndicatorBoundsForTest(
     int64_t id) const {
   if (a_display_id_ == id)
     return a_indicator_bounds_;
   DCHECK_EQ(b_display_id_, id);
   return b_indicator_bounds_;
 }

 const gfx::Rect&
 ExtendedMouseWarpController::WarpRegion::GetIndicatorNativeBoundsForTest(
     int64_t id) const {
   if (a_display_id_ == id)
     return a_edge_bounds_in_native_;
   DCHECK_EQ(b_display_id_, id);
   return b_edge_bounds_in_native_;
 }

 ExtendedMouseWarpController::ExtendedMouseWarpController(
     aura::Window* drag_source)
     : drag_source_root_(drag_source), allow_non_native_event_(false) {
   display::DisplayManager* display_manager = Shell::Get()->display_manager();
   int64_t drag_source_id = drag_source ? GetDisplayIdFromWindow(drag_source)
                                        : display::kInvalidDisplayId;
   display::Displays display_list = display_manager->active_display_list();
   // Try to create a Warp region for all possible two displays combination.
   // The following code does it by poping the last element in the list
   // and then pairing with remaining displays in the list, until the list
   // becomes single element.
   while (display_list.size() > 1) {
     display::Display display = display_list.back();
     display_list.pop_back();
     for (const display::Display& peer : display_list) {
       std::unique_ptr<WarpRegion> region =
           CreateWarpRegion(display, peer, drag_source_id);
       if (region)
         AddWarpRegion(std::move(region), drag_source != nullptr);
     }
   }
 }

 ExtendedMouseWarpController::~ExtendedMouseWarpController() = default;

 bool ExtendedMouseWarpController::WarpMouseCursor(ui::MouseEvent* event) {
   if (display::Screen::GetScreen()->GetNumDisplays() <= 1 || !enabled_)
     return false;

   aura::Window* target = static_cast<aura::Window*>(event->target());
   gfx::Point point_in_screen = event->location();
   ::wm::ConvertPointToScreen(target, &point_in_screen);

   // A native event may not exist in unit test. Generate the native point
   // from the screen point instead.
   if (!event->HasNativeEvent()) {
     if (!allow_non_native_event_)
       return false;
     aura::Window* target_root = target->GetRootWindow();
     gfx::Point point_in_native = point_in_screen;
     ::wm::ConvertPointFromScreen(target_root, &point_in_native);
     target_root->GetHost()->ConvertDIPToScreenInPixels(&point_in_native);
     return WarpMouseCursorInNativeCoords(point_in_native, point_in_screen,
                                          true);
   }

   gfx::Point point_in_native =
       ui::EventSystemLocationFromNative(event->native_event());

   // TODO(dnicoara): crbug.com/415680 Move cursor warping into Ozone once Ozone
   // has access to the logical display layout.
   // Native events in Ozone are in the native window coordinate system. We need
   // to translate them to get the global position.
   point_in_native.Offset(target->GetHost()->GetBoundsInPixels().x(),
                          target->GetHost()->GetBoundsInPixels().y());

   return WarpMouseCursorInNativeCoords(point_in_native, point_in_screen, false);
 }

 void ExtendedMouseWarpController::SetEnabled(bool enabled) {
   enabled_ = enabled;
 }

 void ExtendedMouseWarpController::AddWarpRegion(
     std::unique_ptr<WarpRegion> warp_region,
     bool has_drag_source) {
   if (has_drag_source) {
     warp_region->shared_display_edge_indicator_.reset(
         new SharedDisplayEdgeIndicator);
     warp_region->shared_display_edge_indicator_->Show(
         warp_region->a_indicator_bounds_, warp_region->b_indicator_bounds_);
   }

   warp_regions_.emplace_back(std::move(warp_region));
 }

 bool ExtendedMouseWarpController::WarpMouseCursorInNativeCoords(
     const gfx::Point& point_in_native,
     const gfx::Point& point_in_screen,
     bool update_mouse_location_now) {
   for (const std::unique_ptr<WarpRegion>& warp : warp_regions_) {
     bool in_a_edge = warp->a_edge_bounds_in_native_.Contains(point_in_native);
     bool in_b_edge = warp->b_edge_bounds_in_native_.Contains(point_in_native);
     if (!in_a_edge && !in_b_edge)
       continue;

     // The mouse must move.
     aura::Window* dst_window = Shell::GetRootWindowForDisplayId(
         in_a_edge ? warp->b_display_id_ : warp->a_display_id_);
     AshWindowTreeHost* target_ash_host =
         RootWindowController::ForWindow(dst_window)->ash_host();

     MoveCursorTo(target_ash_host, point_in_screen, update_mouse_location_now);
     return true;
   }

   return false;
 }

 std::unique_ptr<ExtendedMouseWarpController::WarpRegion>
 ExtendedMouseWarpController::CreateWarpRegion(const display::Display& a,
                                               const display::Display& b,
                                               int64_t drag_source_id) {
   gfx::Rect a_edge;
   gfx::Rect b_edge;
   int snap_barrier =
       drag_source_id == display::kInvalidDisplayId ? 0 : kMaximumSnapHeight;

   if (!display::ComputeBoundary(a, b, &a_edge, &b_edge))
     return nullptr;

   // Creates the snap window barrirer only when horizontally connected.
   if (a_edge.height() > a_edge.width()) {
     if (drag_source_id == a.id())
       AdjustSourceEdgeBounds(a.bounds(), snap_barrier, &a_edge);
     else if (drag_source_id == b.id())
       AdjustSourceEdgeBounds(b.bounds(), snap_barrier, &b_edge);
   }

   return std::make_unique<WarpRegion>(a.id(), b.id(), a_edge, b_edge);
 }

 }  // namespace ash
	// Copyright 2015 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "ash/display/extended_mouse_warp_controller.h"

	#include <cmath>
	#include <memory>

	#include "ash/display/display_util.h"
	#include "ash/display/shared_display_edge_indicator.h"
	#include "ash/display/window_tree_host_manager.h"
	#include "ash/root_window_controller.h"
	#include "ash/shell.h"
	#include "ui/aura/window.h"
	#include "ui/display/display_layout.h"
	#include "ui/display/manager/display_manager.h"
	#include "ui/display/manager/display_manager_utilities.h"
	#include "ui/display/screen.h"
	#include "ui/display/types/display_constants.h"
	#include "ui/events/event_utils.h"
	#include "ui/wm/core/coordinate_conversion.h"

	namespace ash {

	namespace {

	// Maximum size on the display edge that initiate snapping phantom window,
	// from the corner of the display.
	constexpr int kMaximumSnapHeight = 32;

	// Minimum height of an indicator on the display edge that allows
	// dragging a window. If two displays shares the edge smaller than
	// this, entire edge will be used as a draggable space.
	constexpr int kMinimumIndicatorHeight = 200;

	// Helper method that maps an aura::Window to display id;
	int64_t GetDisplayIdFromWindow(aura::Window* window) {
	return display::Screen::GetScreen()->GetDisplayNearestWindow(window).id();
	}

	// Adjust the edge so that it has \|barrier_size\| gap at the top to
	// trigger snap window action.
	void AdjustSourceEdgeBounds(const gfx::Rect& display_bounds,
	int barrier_size,
	gfx::Rect* edge) {
	DCHECK_GT(edge->height(), edge->width());
	int target_y = display_bounds.y() + barrier_size;
	if (target_y < edge->y())
	return;

	int available_height = edge->height() - kMinimumIndicatorHeight;
	if (available_height <= 0)
	return;
	edge->Inset(0, std::min(available_height, target_y - edge->y()), 0, 0);
	}

	} // namespace

	ExtendedMouseWarpController::WarpRegion::WarpRegion(
	int64_t a_display_id,
	int64_t b_display_id,
	const gfx::Rect& a_indicator_bounds,
	const gfx::Rect& b_indicator_bounds)
	: a_display_id_(a_display_id),
	b_display_id_(b_display_id),
	a_indicator_bounds_(a_indicator_bounds),
	b_indicator_bounds_(b_indicator_bounds),
	shared_display_edge_indicator_(nullptr) {
	// Initialize edge bounds from indicator bounds.
	aura::Window* a_window = Shell::GetRootWindowForDisplayId(a_display_id);
	aura::Window* b_window = Shell::GetRootWindowForDisplayId(b_display_id);

	AshWindowTreeHost* a_ash_host =
	RootWindowController::ForWindow(a_window)->ash_host();
	AshWindowTreeHost* b_ash_host =
	RootWindowController::ForWindow(b_window)->ash_host();

	a_edge_bounds_in_native_ =
	GetNativeEdgeBounds(a_ash_host, a_indicator_bounds);
	b_edge_bounds_in_native_ =
	GetNativeEdgeBounds(b_ash_host, b_indicator_bounds);
	}

	ExtendedMouseWarpController::WarpRegion::~WarpRegion() = default;

	const gfx::Rect&
	ExtendedMouseWarpController::WarpRegion::GetIndicatorBoundsForTest(
	int64_t id) const {
	if (a_display_id_ == id)
	return a_indicator_bounds_;
	DCHECK_EQ(b_display_id_, id);
	return b_indicator_bounds_;
	}

	const gfx::Rect&
	ExtendedMouseWarpController::WarpRegion::GetIndicatorNativeBoundsForTest(
	int64_t id) const {
	if (a_display_id_ == id)
	return a_edge_bounds_in_native_;
	DCHECK_EQ(b_display_id_, id);
	return b_edge_bounds_in_native_;
	}

	ExtendedMouseWarpController::ExtendedMouseWarpController(
	aura::Window* drag_source)
	: drag_source_root_(drag_source), allow_non_native_event_(false) {
	display::DisplayManager* display_manager = Shell::Get()->display_manager();
	int64_t drag_source_id = drag_source ? GetDisplayIdFromWindow(drag_source)
	: display::kInvalidDisplayId;
	display::Displays display_list = display_manager->active_display_list();
	// Try to create a Warp region for all possible two displays combination.
	// The following code does it by poping the last element in the list
	// and then pairing with remaining displays in the list, until the list
	// becomes single element.
	while (display_list.size() > 1) {
	display::Display display = display_list.back();
	display_list.pop_back();
	for (const display::Display& peer : display_list) {
	std::unique_ptr<WarpRegion> region =
	CreateWarpRegion(display, peer, drag_source_id);
	if (region)
	AddWarpRegion(std::move(region), drag_source != nullptr);
	}
	}
	}

	ExtendedMouseWarpController::~ExtendedMouseWarpController() = default;

	bool ExtendedMouseWarpController::WarpMouseCursor(ui::MouseEvent* event) {
	if (display::Screen::GetScreen()->GetNumDisplays() <= 1 \|\| !enabled_)
	return false;

	aura::Window* target = static_cast<aura::Window*>(event->target());
	gfx::Point point_in_screen = event->location();
	::wm::ConvertPointToScreen(target, &point_in_screen);

	// A native event may not exist in unit test. Generate the native point
	// from the screen point instead.
	if (!event->HasNativeEvent()) {
	if (!allow_non_native_event_)
	return false;
	aura::Window* target_root = target->GetRootWindow();
	gfx::Point point_in_native = point_in_screen;
	::wm::ConvertPointFromScreen(target_root, &point_in_native);
	target_root->GetHost()->ConvertDIPToScreenInPixels(&point_in_native);
	return WarpMouseCursorInNativeCoords(point_in_native, point_in_screen,
	true);
	}

	gfx::Point point_in_native =
	ui::EventSystemLocationFromNative(event->native_event());

	// TODO(dnicoara): crbug.com/415680 Move cursor warping into Ozone once Ozone
	// has access to the logical display layout.
	// Native events in Ozone are in the native window coordinate system. We need
	// to translate them to get the global position.
	point_in_native.Offset(target->GetHost()->GetBoundsInPixels().x(),
	target->GetHost()->GetBoundsInPixels().y());

	return WarpMouseCursorInNativeCoords(point_in_native, point_in_screen, false);
	}

	void ExtendedMouseWarpController::SetEnabled(bool enabled) {
	enabled_ = enabled;
	}

	void ExtendedMouseWarpController::AddWarpRegion(
	std::unique_ptr<WarpRegion> warp_region,
	bool has_drag_source) {
	if (has_drag_source) {
	warp_region->shared_display_edge_indicator_.reset(
	new SharedDisplayEdgeIndicator);
	warp_region->shared_display_edge_indicator_->Show(
	warp_region->a_indicator_bounds_, warp_region->b_indicator_bounds_);
	}

	warp_regions_.emplace_back(std::move(warp_region));
	}

	bool ExtendedMouseWarpController::WarpMouseCursorInNativeCoords(
	const gfx::Point& point_in_native,
	const gfx::Point& point_in_screen,
	bool update_mouse_location_now) {
	for (const std::unique_ptr<WarpRegion>& warp : warp_regions_) {
	bool in_a_edge = warp->a_edge_bounds_in_native_.Contains(point_in_native);
	bool in_b_edge = warp->b_edge_bounds_in_native_.Contains(point_in_native);
	if (!in_a_edge && !in_b_edge)
	continue;

	// The mouse must move.
	aura::Window* dst_window = Shell::GetRootWindowForDisplayId(
	in_a_edge ? warp->b_display_id_ : warp->a_display_id_);
	AshWindowTreeHost* target_ash_host =
	RootWindowController::ForWindow(dst_window)->ash_host();

	MoveCursorTo(target_ash_host, point_in_screen, update_mouse_location_now);
	return true;
	}

	return false;
	}

	std::unique_ptr<ExtendedMouseWarpController::WarpRegion>
	ExtendedMouseWarpController::CreateWarpRegion(const display::Display& a,
	const display::Display& b,
	int64_t drag_source_id) {
	gfx::Rect a_edge;
	gfx::Rect b_edge;
	int snap_barrier =
	drag_source_id == display::kInvalidDisplayId ? 0 : kMaximumSnapHeight;

	if (!display::ComputeBoundary(a, b, &a_edge, &b_edge))
	return nullptr;

	// Creates the snap window barrirer only when horizontally connected.
	if (a_edge.height() > a_edge.width()) {
	if (drag_source_id == a.id())
	AdjustSourceEdgeBounds(a.bounds(), snap_barrier, &a_edge);
	else if (drag_source_id == b.id())
	AdjustSourceEdgeBounds(b.bounds(), snap_barrier, &b_edge);
	}

	return std::make_unique<WarpRegion>(a.id(), b.id(), a_edge, b_edge);
	}

	} // namespace ash