ash/display/unified_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/unified_mouse_warp_controller.h"

 #include <cmath>

 #include "ash/display/display_util.h"
 #include "ash/display/mirror_window_controller.h"
 #include "ash/display/window_tree_host_manager.h"
 #include "ash/host/ash_window_tree_host.h"
 #include "ash/shell.h"
 #include "ui/aura/client/cursor_client.h"
 #include "ui/aura/window.h"
 #include "ui/aura/window_tree_host.h"
 #include "ui/base/layout.h"
 #include "ui/display/display_finder.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/events/event_utils.h"
 #include "ui/wm/core/coordinate_conversion.h"

 namespace ash {

 namespace {

 AshWindowTreeHost* GetMirroringAshWindowTreeHostForDisplayId(
     int64_t display_id) {
   return Shell::Get()
       ->window_tree_host_manager()
       ->mirror_window_controller()
       ->GetAshWindowTreeHostForDisplayId(display_id);
 }

 const aura::WindowTreeHost* GetMirroringSourceHostForCurrentEvent() {
   return Shell::Get()
       ->window_tree_host_manager()
       ->mirror_window_controller()
       ->current_event_targeter_src_host();
 }

 }  // namespace

 UnifiedMouseWarpController::UnifiedMouseWarpController()
     : current_cursor_display_id_(display::kInvalidDisplayId),
       update_location_for_test_(false),
       display_boundaries_computed_(false) {}

 UnifiedMouseWarpController::~UnifiedMouseWarpController() = default;

 bool UnifiedMouseWarpController::WarpMouseCursor(ui::MouseEvent* event) {
   // Mirroring windows are created asynchronously, so compute the edge
   // beounds when we received an event instead of in constructor.
   if (!display_boundaries_computed_)
     ComputeBounds();

   aura::Window* target = static_cast<aura::Window*>(event->target());
   gfx::Point point_in_unified_host = event->location();
   ::wm::ConvertPointToScreen(target, &point_in_unified_host);
   // The display bounds of the mirroring windows isn't scaled, so
   // transform back to the host coordinates.
   target->GetHost()->GetRootTransform().TransformPoint(&point_in_unified_host);

   // A native event may not exist in unit test.
   if (!event->HasNativeEvent())
     return false;

   // 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.
   const auto* host = GetMirroringSourceHostForCurrentEvent();
   if (!host)
     return false;

   gfx::Point point_in_native =
       ui::EventSystemLocationFromNative(event->native_event());
   point_in_native.Offset(host->GetBoundsInPixels().x(),
                          host->GetBoundsInPixels().y());

   // TODO(afakhry): Remove implicit grab. crbug.com/773348.
   const display::Display display =
       display::Screen::GetScreen()->GetDisplayNearestWindow(
           const_cast<aura::Window*>(host->window()));
   if (current_cursor_display_id_ != display::kInvalidDisplayId &&
       current_cursor_display_id_ != display.id()) {
     aura::client::CursorClient* cursor_client =
         aura::client::GetCursorClient(target->GetRootWindow());
     if (cursor_client) {
       cursor_client->SetDisplay(display);
       current_cursor_display_id_ = display::kInvalidDisplayId;
     }
   }

   return WarpMouseCursorInNativeCoords(display.id(), point_in_native,
                                        point_in_unified_host,
                                        update_location_for_test_);
 }

 void UnifiedMouseWarpController::SetEnabled(bool enabled) {
   // Mouse warp should be always on in Unified mode.
 }

 void UnifiedMouseWarpController::ComputeBounds() {
   display::Displays display_list =
       Shell::Get()->display_manager()->software_mirroring_display_list();

   if (display_list.size() < 2) {
     LOG(ERROR) << "Mirroring Display lost during re-configuration";
     return;
   }

   for (size_t i = 0; i < display_list.size() - 1; ++i) {
     const display::Display& first = display_list[i];
     for (size_t j = i + 1; j < display_list.size(); ++j) {
       const display::Display& second = display_list[j];
       gfx::Rect first_edge;
       gfx::Rect second_edge;
       if (display::ComputeBoundary(first, second, &first_edge, &second_edge)) {
         first_edge = GetNativeEdgeBounds(
             GetMirroringAshWindowTreeHostForDisplayId(first.id()), first_edge);
         second_edge = GetNativeEdgeBounds(
             GetMirroringAshWindowTreeHostForDisplayId(second.id()),
             second_edge);

         displays_edges_map_[first.id()].emplace_back(first.id(), second.id(),
                                                      first_edge);
         displays_edges_map_[second.id()].emplace_back(second.id(), first.id(),
                                                       second_edge);
       }
     }
   }

   display_boundaries_computed_ = true;
 }

 bool UnifiedMouseWarpController::WarpMouseCursorInNativeCoords(
     int64_t source_display,
     const gfx::Point& point_in_native,
     const gfx::Point& point_in_unified_host,
     bool update_mouse_location_now) {
   const auto edges_iter = displays_edges_map_.find(source_display);
   if (edges_iter == displays_edges_map_.end())
     return false;

   const std::vector<DisplayEdge>& potential_edges = edges_iter->second;
   for (const auto& edge : potential_edges) {
     if (edge.edge_native_bounds_in_source_display.Contains(point_in_native)) {
       // Wait updating the cursor until the cursor moves to the new display
       // to avoid showing the wrong sized cursor at the source display.
       current_cursor_display_id_ = edge.source_display_id;

       AshWindowTreeHost* target_ash_host =
           GetMirroringAshWindowTreeHostForDisplayId(edge.target_display_id);
       MoveCursorTo(target_ash_host, point_in_unified_host,
                    update_mouse_location_now);
       return true;
     }
   }

   return false;
 }

 }  // 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/unified_mouse_warp_controller.h"

	#include <cmath>

	#include "ash/display/display_util.h"
	#include "ash/display/mirror_window_controller.h"
	#include "ash/display/window_tree_host_manager.h"
	#include "ash/host/ash_window_tree_host.h"
	#include "ash/shell.h"
	#include "ui/aura/client/cursor_client.h"
	#include "ui/aura/window.h"
	#include "ui/aura/window_tree_host.h"
	#include "ui/base/layout.h"
	#include "ui/display/display_finder.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/events/event_utils.h"
	#include "ui/wm/core/coordinate_conversion.h"

	namespace ash {

	namespace {

	AshWindowTreeHost* GetMirroringAshWindowTreeHostForDisplayId(
	int64_t display_id) {
	return Shell::Get()
	->window_tree_host_manager()
	->mirror_window_controller()
	->GetAshWindowTreeHostForDisplayId(display_id);
	}

	const aura::WindowTreeHost* GetMirroringSourceHostForCurrentEvent() {
	return Shell::Get()
	->window_tree_host_manager()
	->mirror_window_controller()
	->current_event_targeter_src_host();
	}

	} // namespace

	UnifiedMouseWarpController::UnifiedMouseWarpController()
	: current_cursor_display_id_(display::kInvalidDisplayId),
	update_location_for_test_(false),
	display_boundaries_computed_(false) {}

	UnifiedMouseWarpController::~UnifiedMouseWarpController() = default;

	bool UnifiedMouseWarpController::WarpMouseCursor(ui::MouseEvent* event) {
	// Mirroring windows are created asynchronously, so compute the edge
	// beounds when we received an event instead of in constructor.
	if (!display_boundaries_computed_)
	ComputeBounds();

	aura::Window* target = static_cast<aura::Window*>(event->target());
	gfx::Point point_in_unified_host = event->location();
	::wm::ConvertPointToScreen(target, &point_in_unified_host);
	// The display bounds of the mirroring windows isn't scaled, so
	// transform back to the host coordinates.
	target->GetHost()->GetRootTransform().TransformPoint(&point_in_unified_host);

	// A native event may not exist in unit test.
	if (!event->HasNativeEvent())
	return false;

	// 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.
	const auto* host = GetMirroringSourceHostForCurrentEvent();
	if (!host)
	return false;

	gfx::Point point_in_native =
	ui::EventSystemLocationFromNative(event->native_event());
	point_in_native.Offset(host->GetBoundsInPixels().x(),
	host->GetBoundsInPixels().y());

	// TODO(afakhry): Remove implicit grab. crbug.com/773348.
	const display::Display display =
	display::Screen::GetScreen()->GetDisplayNearestWindow(
	const_cast<aura::Window*>(host->window()));
	if (current_cursor_display_id_ != display::kInvalidDisplayId &&
	current_cursor_display_id_ != display.id()) {
	aura::client::CursorClient* cursor_client =
	aura::client::GetCursorClient(target->GetRootWindow());
	if (cursor_client) {
	cursor_client->SetDisplay(display);
	current_cursor_display_id_ = display::kInvalidDisplayId;
	}
	}

	return WarpMouseCursorInNativeCoords(display.id(), point_in_native,
	point_in_unified_host,
	update_location_for_test_);
	}

	void UnifiedMouseWarpController::SetEnabled(bool enabled) {
	// Mouse warp should be always on in Unified mode.
	}

	void UnifiedMouseWarpController::ComputeBounds() {
	display::Displays display_list =
	Shell::Get()->display_manager()->software_mirroring_display_list();

	if (display_list.size() < 2) {
	LOG(ERROR) << "Mirroring Display lost during re-configuration";
	return;
	}

	for (size_t i = 0; i < display_list.size() - 1; ++i) {
	const display::Display& first = display_list[i];
	for (size_t j = i + 1; j < display_list.size(); ++j) {
	const display::Display& second = display_list[j];
	gfx::Rect first_edge;
	gfx::Rect second_edge;
	if (display::ComputeBoundary(first, second, &first_edge, &second_edge)) {
	first_edge = GetNativeEdgeBounds(
	GetMirroringAshWindowTreeHostForDisplayId(first.id()), first_edge);
	second_edge = GetNativeEdgeBounds(
	GetMirroringAshWindowTreeHostForDisplayId(second.id()),
	second_edge);

	displays_edges_map_[first.id()].emplace_back(first.id(), second.id(),
	first_edge);
	displays_edges_map_[second.id()].emplace_back(second.id(), first.id(),
	second_edge);
	}
	}
	}

	display_boundaries_computed_ = true;
	}

	bool UnifiedMouseWarpController::WarpMouseCursorInNativeCoords(
	int64_t source_display,
	const gfx::Point& point_in_native,
	const gfx::Point& point_in_unified_host,
	bool update_mouse_location_now) {
	const auto edges_iter = displays_edges_map_.find(source_display);
	if (edges_iter == displays_edges_map_.end())
	return false;

	const std::vector<DisplayEdge>& potential_edges = edges_iter->second;
	for (const auto& edge : potential_edges) {
	if (edge.edge_native_bounds_in_source_display.Contains(point_in_native)) {
	// Wait updating the cursor until the cursor moves to the new display
	// to avoid showing the wrong sized cursor at the source display.
	current_cursor_display_id_ = edge.source_display_id;

	AshWindowTreeHost* target_ash_host =
	GetMirroringAshWindowTreeHostForDisplayId(edge.target_display_id);
	MoveCursorTo(target_ash_host, point_in_unified_host,
	update_mouse_location_now);
	return true;
	}
	}

	return false;
	}

	} // namespace ash