ui/display/mac/screen_mac.mm - chromium/src - Git at Google

 // 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 "ui/display/screen.h"

 #import <ApplicationServices/ApplicationServices.h>
 #import <Cocoa/Cocoa.h>
 #include <stdint.h>

 #include <map>
 #include <memory>

 #include "base/logging.h"
 #include "base/mac/sdk_forward_declarations.h"
 #include "base/macros.h"
 #include "base/timer/timer.h"
 #include "ui/display/display.h"
 #include "ui/display/display_change_notifier.h"
 #include "ui/gfx/mac/coordinate_conversion.h"

 extern "C" {
 Boolean CGDisplayUsesForceToGray(void);
 }

 namespace display {
 namespace {

 // The delay to handle the display configuration changes.
 // See comments in ScreenMac::HandleDisplayReconfiguration.
 const int64_t kConfigureDelayMs = 500;

 NSScreen* GetMatchingScreen(const gfx::Rect& match_rect) {
   // Default to the monitor with the current keyboard focus, in case
   // |match_rect| is not on any screen at all.
   NSScreen* max_screen = [NSScreen mainScreen];
   int max_area = 0;

   for (NSScreen* screen in [NSScreen screens]) {
     gfx::Rect monitor_area = gfx::ScreenRectFromNSRect([screen frame]);
     gfx::Rect intersection = gfx::IntersectRects(monitor_area, match_rect);
     int area = intersection.width() * intersection.height();
     if (area > max_area) {
       max_area = area;
       max_screen = screen;
     }
   }

   return max_screen;
 }

 Display GetDisplayForScreen(NSScreen* screen) {
   NSRect frame = [screen frame];

   CGDirectDisplayID display_id = [[[screen deviceDescription]
       objectForKey:@"NSScreenNumber"] unsignedIntValue];

   Display display(display_id, gfx::Rect(NSRectToCGRect(frame)));
   NSRect visible_frame = [screen visibleFrame];
   NSScreen* primary = [[NSScreen screens] firstObject];

   // Convert work area's coordinate systems.
   if ([screen isEqual:primary]) {
     gfx::Rect work_area = gfx::Rect(NSRectToCGRect(visible_frame));
     work_area.set_y(frame.size.height - visible_frame.origin.y -
                     visible_frame.size.height);
     display.set_work_area(work_area);
   } else {
     display.set_bounds(gfx::ScreenRectFromNSRect(frame));
     display.set_work_area(gfx::ScreenRectFromNSRect(visible_frame));
   }
   CGFloat scale = [screen backingScaleFactor];

   if (Display::HasForceDeviceScaleFactor())
     scale = Display::GetForcedDeviceScaleFactor();

   display.set_device_scale_factor(scale);

   display.set_icc_profile(
       gfx::ICCProfile::FromCGColorSpace([[screen colorSpace] CGColorSpace]));
   display.set_color_depth(NSBitsPerPixelFromDepth([screen depth]));
   display.set_depth_per_component(NSBitsPerSampleFromDepth([screen depth]));
   display.set_is_monochrome(CGDisplayUsesForceToGray());

   // CGDisplayRotation returns a double. Display::SetRotationAsDegree will
   // handle the unexpected situations were the angle is not a multiple of 90.
   display.SetRotationAsDegree(static_cast<int>(CGDisplayRotation(display_id)));
   return display;
 }

 // Returns the minimum Manhattan distance from |point| to corners of |screen|
 // frame.
 CGFloat GetMinimumDistanceToCorner(const NSPoint& point, NSScreen* screen) {
   NSRect frame = [screen frame];
   CGFloat distance =
       fabs(point.x - NSMinX(frame)) + fabs(point.y - NSMinY(frame));
   distance = std::min(
       distance, fabs(point.x - NSMaxX(frame)) + fabs(point.y - NSMinY(frame)));
   distance = std::min(
       distance, fabs(point.x - NSMinX(frame)) + fabs(point.y - NSMaxY(frame)));
   distance = std::min(
       distance, fabs(point.x - NSMaxX(frame)) + fabs(point.y - NSMaxY(frame)));
   return distance;
 }

 class ScreenMac : public Screen {
  public:
   ScreenMac() {
     displays_ = BuildDisplaysFromQuartz();

     CGDisplayRegisterReconfigurationCallback(
         ScreenMac::DisplayReconfigurationCallBack, this);
   }

   ~ScreenMac() override {
     CGDisplayRemoveReconfigurationCallback(
         ScreenMac::DisplayReconfigurationCallBack, this);
   }

   gfx::Point GetCursorScreenPoint() override {
     // Flip coordinates to gfx (0,0 in top-left corner) using primary screen.
     return gfx::ScreenPointFromNSPoint([NSEvent mouseLocation]);
   }

   bool IsWindowUnderCursor(gfx::NativeWindow window) override {
     NOTIMPLEMENTED();
     return false;
   }

   gfx::NativeWindow GetWindowAtScreenPoint(const gfx::Point& point) override {
     NOTIMPLEMENTED();
     return gfx::NativeWindow();
   }

   int GetNumDisplays() const override { return GetAllDisplays().size(); }

   std::vector<Display> GetAllDisplays() const override {
     return displays_;
   }

   Display GetDisplayNearestWindow(gfx::NativeView view) const override {
     NSWindow* window = nil;
 #if !defined(USE_AURA)
     if (view)
       window = [view window];
 #endif
     if (!window)
       return GetPrimaryDisplay();
     NSScreen* match_screen = [window screen];
     if (!match_screen)
       return GetPrimaryDisplay();
     return GetDisplayForScreen(match_screen);
   }

   Display GetDisplayNearestPoint(const gfx::Point& point) const override {
     NSArray* screens = [NSScreen screens];
     if ([screens count] <= 1)
       return GetPrimaryDisplay();

     NSPoint ns_point = NSPointFromCGPoint(point.ToCGPoint());
     NSScreen* primary = [screens objectAtIndex:0];
     ns_point.y = NSMaxY([primary frame]) - ns_point.y;
     for (NSScreen* screen in screens) {
       if (NSMouseInRect(ns_point, [screen frame], NO))
         return GetDisplayForScreen(screen);
     }

     NSScreen* nearest_screen = primary;
     CGFloat min_distance = CGFLOAT_MAX;
     for (NSScreen* screen in screens) {
       CGFloat distance = GetMinimumDistanceToCorner(ns_point, screen);
       if (distance < min_distance) {
         min_distance = distance;
         nearest_screen = screen;
       }
     }
     return GetDisplayForScreen(nearest_screen);
   }

   // Returns the display that most closely intersects the provided bounds.
   Display GetDisplayMatching(const gfx::Rect& match_rect) const override {
     NSScreen* match_screen = GetMatchingScreen(match_rect);
     return GetDisplayForScreen(match_screen);
   }

   // Returns the primary display.
   Display GetPrimaryDisplay() const override {
     // Primary display is defined as the display with the menubar,
     // which is always at index 0.
     NSScreen* primary = [[NSScreen screens] firstObject];
     Display display = GetDisplayForScreen(primary);
     return display;
   }

   void AddObserver(DisplayObserver* observer) override {
     change_notifier_.AddObserver(observer);
   }

   void RemoveObserver(DisplayObserver* observer) override {
     change_notifier_.RemoveObserver(observer);
   }

   static void DisplayReconfigurationCallBack(CGDirectDisplayID display,
                                              CGDisplayChangeSummaryFlags flags,
                                              void* userInfo) {
     if (flags & kCGDisplayBeginConfigurationFlag)
       return;

     static_cast<ScreenMac*>(userInfo)->HandleDisplayReconfiguration();
   }

   void HandleDisplayReconfiguration() {
     // Given that we need to rebuild the list of displays, we want to coalesce
     // the events. For that, we use a timer that will be reset every time we get
     // a new event and will be fulfilled kConfigureDelayMs after the latest.
     if (configure_timer_.get() && configure_timer_->IsRunning()) {
       configure_timer_->Reset();
       return;
     }

     configure_timer_.reset(new base::OneShotTimer());
     configure_timer_->Start(
         FROM_HERE, base::TimeDelta::FromMilliseconds(kConfigureDelayMs), this,
         &ScreenMac::ConfigureTimerFired);
   }

  private:
   void ConfigureTimerFired() {
     std::vector<Display> old_displays = displays_;
     displays_ = BuildDisplaysFromQuartz();

     change_notifier_.NotifyDisplaysChanged(old_displays, displays_);
   }

   std::vector<Display> BuildDisplaysFromQuartz() const {
     // Don't just return all online displays.  This would include displays
     // that mirror other displays, which are not desired in this list.  It's
     // tempting to use the count returned by CGGetActiveDisplayList, but active
     // displays exclude sleeping displays, and those are desired.

     // It would be ridiculous to have this many displays connected, but
     // CGDirectDisplayID is just an integer, so supporting up to this many
     // doesn't hurt.
     CGDirectDisplayID online_displays[128];
     CGDisplayCount online_display_count = 0;
     if (CGGetOnlineDisplayList(arraysize(online_displays), online_displays,
                                &online_display_count) != kCGErrorSuccess) {
       return std::vector<Display>(1, GetPrimaryDisplay());
     }

     typedef std::map<int64_t, NSScreen*> ScreenIdsToScreensMap;
     ScreenIdsToScreensMap screen_ids_to_screens;
     for (NSScreen* screen in [NSScreen screens]) {
       NSDictionary* screen_device_description = [screen deviceDescription];
       int64_t screen_id = [[screen_device_description
           objectForKey:@"NSScreenNumber"] unsignedIntValue];
       screen_ids_to_screens[screen_id] = screen;
     }

     std::vector<Display> displays;
     for (CGDisplayCount online_display_index = 0;
          online_display_index < online_display_count; ++online_display_index) {
       CGDirectDisplayID online_display = online_displays[online_display_index];
       if (CGDisplayMirrorsDisplay(online_display) == kCGNullDirectDisplay) {
         // If this display doesn't mirror any other, include it in the list.
         // The primary display in a mirrored set will be counted, but those that
         // mirror it will not be.
         ScreenIdsToScreensMap::iterator foundScreen =
             screen_ids_to_screens.find(online_display);
         if (foundScreen != screen_ids_to_screens.end()) {
           displays.push_back(GetDisplayForScreen(foundScreen->second));
         }
       }
     }

     return displays.empty() ? std::vector<Display>(1, GetPrimaryDisplay())
                             : displays;
   }

   // The displays currently attached to the device.
   std::vector<Display> displays_;

   // The timer to delay configuring outputs. See also the comments in
   // HandleDisplayReconfiguration().
   std::unique_ptr<base::OneShotTimer> configure_timer_;

   DisplayChangeNotifier change_notifier_;

   DISALLOW_COPY_AND_ASSIGN(ScreenMac);
 };

 }  // namespace

 #if !defined(USE_AURA)
 Screen* CreateNativeScreen() {
   return new ScreenMac;
 }
 #endif

 }  // namespace display
	// 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 "ui/display/screen.h"

	#import <ApplicationServices/ApplicationServices.h>
	#import <Cocoa/Cocoa.h>
	#include <stdint.h>

	#include <map>
	#include <memory>

	#include "base/logging.h"
	#include "base/mac/sdk_forward_declarations.h"
	#include "base/macros.h"
	#include "base/timer/timer.h"
	#include "ui/display/display.h"
	#include "ui/display/display_change_notifier.h"
	#include "ui/gfx/mac/coordinate_conversion.h"

	extern "C" {
	Boolean CGDisplayUsesForceToGray(void);
	}

	namespace display {
	namespace {

	// The delay to handle the display configuration changes.
	// See comments in ScreenMac::HandleDisplayReconfiguration.
	const int64_t kConfigureDelayMs = 500;

	NSScreen* GetMatchingScreen(const gfx::Rect& match_rect) {
	// Default to the monitor with the current keyboard focus, in case
	// \|match_rect\| is not on any screen at all.
	NSScreen* max_screen = [NSScreen mainScreen];
	int max_area = 0;

	for (NSScreen* screen in [NSScreen screens]) {
	gfx::Rect monitor_area = gfx::ScreenRectFromNSRect([screen frame]);
	gfx::Rect intersection = gfx::IntersectRects(monitor_area, match_rect);
	int area = intersection.width() * intersection.height();
	if (area > max_area) {
	max_area = area;
	max_screen = screen;
	}
	}

	return max_screen;
	}

	Display GetDisplayForScreen(NSScreen* screen) {
	NSRect frame = [screen frame];

	CGDirectDisplayID display_id = [[[screen deviceDescription]
	objectForKey:@"NSScreenNumber"] unsignedIntValue];

	Display display(display_id, gfx::Rect(NSRectToCGRect(frame)));
	NSRect visible_frame = [screen visibleFrame];
	NSScreen* primary = [[NSScreen screens] firstObject];

	// Convert work area's coordinate systems.
	if ([screen isEqual:primary]) {
	gfx::Rect work_area = gfx::Rect(NSRectToCGRect(visible_frame));
	work_area.set_y(frame.size.height - visible_frame.origin.y -
	visible_frame.size.height);
	display.set_work_area(work_area);
	} else {
	display.set_bounds(gfx::ScreenRectFromNSRect(frame));
	display.set_work_area(gfx::ScreenRectFromNSRect(visible_frame));
	}
	CGFloat scale = [screen backingScaleFactor];

	if (Display::HasForceDeviceScaleFactor())
	scale = Display::GetForcedDeviceScaleFactor();

	display.set_device_scale_factor(scale);

	display.set_icc_profile(
	gfx::ICCProfile::FromCGColorSpace([[screen colorSpace] CGColorSpace]));
	display.set_color_depth(NSBitsPerPixelFromDepth([screen depth]));
	display.set_depth_per_component(NSBitsPerSampleFromDepth([screen depth]));
	display.set_is_monochrome(CGDisplayUsesForceToGray());

	// CGDisplayRotation returns a double. Display::SetRotationAsDegree will
	// handle the unexpected situations were the angle is not a multiple of 90.
	display.SetRotationAsDegree(static_cast<int>(CGDisplayRotation(display_id)));
	return display;
	}

	// Returns the minimum Manhattan distance from \|point\| to corners of \|screen\|
	// frame.
	CGFloat GetMinimumDistanceToCorner(const NSPoint& point, NSScreen* screen) {
	NSRect frame = [screen frame];
	CGFloat distance =
	fabs(point.x - NSMinX(frame)) + fabs(point.y - NSMinY(frame));
	distance = std::min(
	distance, fabs(point.x - NSMaxX(frame)) + fabs(point.y - NSMinY(frame)));
	distance = std::min(
	distance, fabs(point.x - NSMinX(frame)) + fabs(point.y - NSMaxY(frame)));
	distance = std::min(
	distance, fabs(point.x - NSMaxX(frame)) + fabs(point.y - NSMaxY(frame)));
	return distance;
	}

	class ScreenMac : public Screen {
	public:
	ScreenMac() {
	displays_ = BuildDisplaysFromQuartz();

	CGDisplayRegisterReconfigurationCallback(
	ScreenMac::DisplayReconfigurationCallBack, this);
	}

	~ScreenMac() override {
	CGDisplayRemoveReconfigurationCallback(
	ScreenMac::DisplayReconfigurationCallBack, this);
	}

	gfx::Point GetCursorScreenPoint() override {
	// Flip coordinates to gfx (0,0 in top-left corner) using primary screen.
	return gfx::ScreenPointFromNSPoint([NSEvent mouseLocation]);
	}

	bool IsWindowUnderCursor(gfx::NativeWindow window) override {
	NOTIMPLEMENTED();
	return false;
	}

	gfx::NativeWindow GetWindowAtScreenPoint(const gfx::Point& point) override {
	NOTIMPLEMENTED();
	return gfx::NativeWindow();
	}

	int GetNumDisplays() const override { return GetAllDisplays().size(); }

	std::vector<Display> GetAllDisplays() const override {
	return displays_;
	}

	Display GetDisplayNearestWindow(gfx::NativeView view) const override {
	NSWindow* window = nil;
	#if !defined(USE_AURA)
	if (view)
	window = [view window];
	#endif
	if (!window)
	return GetPrimaryDisplay();
	NSScreen* match_screen = [window screen];
	if (!match_screen)
	return GetPrimaryDisplay();
	return GetDisplayForScreen(match_screen);
	}

	Display GetDisplayNearestPoint(const gfx::Point& point) const override {
	NSArray* screens = [NSScreen screens];
	if ([screens count] <= 1)
	return GetPrimaryDisplay();

	NSPoint ns_point = NSPointFromCGPoint(point.ToCGPoint());
	NSScreen* primary = [screens objectAtIndex:0];
	ns_point.y = NSMaxY([primary frame]) - ns_point.y;
	for (NSScreen* screen in screens) {
	if (NSMouseInRect(ns_point, [screen frame], NO))
	return GetDisplayForScreen(screen);
	}

	NSScreen* nearest_screen = primary;
	CGFloat min_distance = CGFLOAT_MAX;
	for (NSScreen* screen in screens) {
	CGFloat distance = GetMinimumDistanceToCorner(ns_point, screen);
	if (distance < min_distance) {
	min_distance = distance;
	nearest_screen = screen;
	}
	}
	return GetDisplayForScreen(nearest_screen);
	}

	// Returns the display that most closely intersects the provided bounds.
	Display GetDisplayMatching(const gfx::Rect& match_rect) const override {
	NSScreen* match_screen = GetMatchingScreen(match_rect);
	return GetDisplayForScreen(match_screen);
	}

	// Returns the primary display.
	Display GetPrimaryDisplay() const override {
	// Primary display is defined as the display with the menubar,
	// which is always at index 0.
	NSScreen* primary = [[NSScreen screens] firstObject];
	Display display = GetDisplayForScreen(primary);
	return display;
	}

	void AddObserver(DisplayObserver* observer) override {
	change_notifier_.AddObserver(observer);
	}

	void RemoveObserver(DisplayObserver* observer) override {
	change_notifier_.RemoveObserver(observer);
	}

	static void DisplayReconfigurationCallBack(CGDirectDisplayID display,
	CGDisplayChangeSummaryFlags flags,
	void* userInfo) {
	if (flags & kCGDisplayBeginConfigurationFlag)
	return;

	static_cast<ScreenMac*>(userInfo)->HandleDisplayReconfiguration();
	}

	void HandleDisplayReconfiguration() {
	// Given that we need to rebuild the list of displays, we want to coalesce
	// the events. For that, we use a timer that will be reset every time we get
	// a new event and will be fulfilled kConfigureDelayMs after the latest.
	if (configure_timer_.get() && configure_timer_->IsRunning()) {
	configure_timer_->Reset();
	return;
	}

	configure_timer_.reset(new base::OneShotTimer());
	configure_timer_->Start(
	FROM_HERE, base::TimeDelta::FromMilliseconds(kConfigureDelayMs), this,
	&ScreenMac::ConfigureTimerFired);
	}

	private:
	void ConfigureTimerFired() {
	std::vector<Display> old_displays = displays_;
	displays_ = BuildDisplaysFromQuartz();

	change_notifier_.NotifyDisplaysChanged(old_displays, displays_);
	}

	std::vector<Display> BuildDisplaysFromQuartz() const {
	// Don't just return all online displays. This would include displays
	// that mirror other displays, which are not desired in this list. It's
	// tempting to use the count returned by CGGetActiveDisplayList, but active
	// displays exclude sleeping displays, and those are desired.

	// It would be ridiculous to have this many displays connected, but
	// CGDirectDisplayID is just an integer, so supporting up to this many
	// doesn't hurt.
	CGDirectDisplayID online_displays[128];
	CGDisplayCount online_display_count = 0;
	if (CGGetOnlineDisplayList(arraysize(online_displays), online_displays,
	&online_display_count) != kCGErrorSuccess) {
	return std::vector<Display>(1, GetPrimaryDisplay());
	}

	typedef std::map<int64_t, NSScreen*> ScreenIdsToScreensMap;
	ScreenIdsToScreensMap screen_ids_to_screens;
	for (NSScreen* screen in [NSScreen screens]) {
	NSDictionary* screen_device_description = [screen deviceDescription];
	int64_t screen_id = [[screen_device_description
	objectForKey:@"NSScreenNumber"] unsignedIntValue];
	screen_ids_to_screens[screen_id] = screen;
	}

	std::vector<Display> displays;
	for (CGDisplayCount online_display_index = 0;
	online_display_index < online_display_count; ++online_display_index) {
	CGDirectDisplayID online_display = online_displays[online_display_index];
	if (CGDisplayMirrorsDisplay(online_display) == kCGNullDirectDisplay) {
	// If this display doesn't mirror any other, include it in the list.
	// The primary display in a mirrored set will be counted, but those that
	// mirror it will not be.
	ScreenIdsToScreensMap::iterator foundScreen =
	screen_ids_to_screens.find(online_display);
	if (foundScreen != screen_ids_to_screens.end()) {
	displays.push_back(GetDisplayForScreen(foundScreen->second));
	}
	}
	}

	return displays.empty() ? std::vector<Display>(1, GetPrimaryDisplay())
	: displays;
	}

	// The displays currently attached to the device.
	std::vector<Display> displays_;

	// The timer to delay configuring outputs. See also the comments in
	// HandleDisplayReconfiguration().
	std::unique_ptr<base::OneShotTimer> configure_timer_;

	DisplayChangeNotifier change_notifier_;

	DISALLOW_COPY_AND_ASSIGN(ScreenMac);
	};

	} // namespace

	#if !defined(USE_AURA)
	Screen* CreateNativeScreen() {
	return new ScreenMac;
	}
	#endif

	} // namespace display