src/libcef/browser/views/view_util.cc - cef - Git at Google

 // Copyright 2016 The Chromium Embedded Framework 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 "libcef/browser/views/view_util.h"

 #include <utility>

 #include "libcef/browser/views/view_adapter.h"

 #include "ui/aura/window.h"
 #include "ui/aura/window_tree_host.h"
 #include "ui/display/display.h"
 #include "ui/display/screen.h"
 #include "ui/gfx/geometry/point.h"
 #include "ui/gfx/geometry/point_conversions.h"
 #include "ui/views/widget/widget.h"
 #include "ui/views/widget/widget_delegate.h"
 #include "ui/views/window/non_client_view.h"

 #if defined(OS_WIN)
 #include "ui/display/win/screen_win.h"
 #endif

 namespace view_util {

 namespace {

 // Manages the association between views::View and CefView instances.
 class UserData : public base::SupportsUserData::Data {
  public:
   // Create the initial association between the views::View and the CefView. The
   // CefView owns the views::View at this stage.
   static void Register(CefRefPtr<CefView> cef_view) {
     DCHECK(cef_view->IsValid());
     DCHECK(!cef_view->IsAttached());

     views::View* view = CefViewAdapter::GetFor(cef_view)->Get();
     DCHECK(view);

     // The CefView should not already be registered.
     DCHECK(!view->GetUserData(UserDataKey()));

     view->SetUserData(UserDataKey(), base::WrapUnique(new UserData(cef_view)));
   }

   static CefRefPtr<CefView> GetFor(const views::View* view) {
     DCHECK(view);
     UserData* data = static_cast<UserData*>(view->GetUserData(UserDataKey()));
     if (data)
       return data->view_ref_;
     return nullptr;
   }

   // Transfer ownership of the views::View to the caller. The views::View will
   // gain a ref-counted reference to the CefView and the CefView will keep an
   // unowned reference to the views::View. Destruction of the views::View will
   // release the ref-counted reference to the CefView.
   static std::unique_ptr<views::View> PassOwnership(CefRefPtr<CefView> cef_view)
       WARN_UNUSED_RESULT {
     DCHECK(cef_view->IsValid());
     DCHECK(!cef_view->IsAttached());

     std::unique_ptr<views::View> view =
         CefViewAdapter::GetFor(cef_view)->PassOwnership();
     DCHECK(view);

     UserData* data = static_cast<UserData*>(view->GetUserData(UserDataKey()));
     DCHECK(data);
     data->TakeReference();

     return view;
   }

   // The CefView resumes ownership of the views::View. The views::View no longer
   // keeps a ref-counted reference to the CefView.
   static void ResumeOwnership(CefRefPtr<CefView> cef_view) {
     DCHECK(cef_view->IsValid());
     DCHECK(cef_view->IsAttached());

     CefViewAdapter* adapter = CefViewAdapter::GetFor(cef_view);
     adapter->ResumeOwnership();

     views::View* view = adapter->Get();
     DCHECK(view);

     UserData* data = static_cast<UserData*>(view->GetUserData(UserDataKey()));
     DCHECK(data);
     data->ReleaseReference();
   }

  private:
   friend std::default_delete<UserData>;

   explicit UserData(CefRefPtr<CefView> cef_view) : view_ref_(cef_view.get()) {
     DCHECK(view_ref_);
   }

   ~UserData() override {
     if (view_) {
       // The CefView does not own the views::View. Remove the CefView's
       // reference to the views::View.
       CefViewAdapter::GetFor(view_)->Detach();
     }
   }

   void TakeReference() { view_ = view_ref_; }

   void ReleaseReference() { view_ = nullptr; }

   static void* UserDataKey() {
     // We just need a unique constant. Use the address of a static that
     // COMDAT folding won't touch in an optimizing linker.
     static int data_key = 0;
     return reinterpret_cast<void*>(&data_key);
   }

   CefRefPtr<CefView> view_;
   CefView* view_ref_;
 };

 }  // namespace

 const SkColor kDefaultBackgroundColor = SkColorSetARGB(255, 255, 255, 255);
 const char kDefaultFontList[] = "Arial, Helvetica, 14px";

 void Register(CefRefPtr<CefView> view) {
   UserData::Register(view);
 }

 CefRefPtr<CefView> GetFor(const views::View* view, bool find_known_parent) {
   if (!view)
     return nullptr;

   if (!find_known_parent)
     return UserData::GetFor(view);

   CefRefPtr<CefView> cef_view;
   const views::View* current_view = view;
   do {
     cef_view = UserData::GetFor(current_view);
     if (cef_view)
       break;
     current_view = current_view->parent();
   } while (current_view);

   return cef_view;
 }

 views::View* GetFor(CefRefPtr<CefView> view) {
   return CefViewAdapter::GetFor(view)->Get();
 }

 std::unique_ptr<views::View> PassOwnership(CefRefPtr<CefView> view) {
   return UserData::PassOwnership(view);
 }

 void ResumeOwnership(CefRefPtr<CefView> view) {
   UserData::ResumeOwnership(view);
 }

 CefRefPtr<CefWindow> GetWindowFor(views::Widget* widget) {
   CefRefPtr<CefWindow> window;

   if (widget) {
     // The views::WidgetDelegate should be a CefWindowView and |content_view|
     // should be the same CefWindowView. However, just in case the views::Widget
     // was created by something else let's go about this the safer way.
     views::View* content_view = widget->widget_delegate()->GetContentsView();
     CefRefPtr<CefView> cef_view = GetFor(content_view, false);
     if (cef_view && cef_view->AsPanel())
       window = cef_view->AsPanel()->AsWindow();

     // The Window should always exist if we created the views::Widget.
     DCHECK(window);
   }

   return window;
 }

 display::Display GetDisplayNearestPoint(const gfx::Point& point,
                                         bool input_pixel_coords) {
   gfx::Point find_point = point;
 #if defined(OS_WIN)
   if (input_pixel_coords) {
     find_point = gfx::ToFlooredPoint(
         display::win::ScreenWin::ScreenToDIPPoint(gfx::PointF(point)));
   }
 #endif
   return display::Screen::GetScreen()->GetDisplayNearestPoint(find_point);
 }

 display::Display GetDisplayMatchingBounds(const gfx::Rect& bounds,
                                           bool input_pixel_coords) {
   gfx::Rect find_bounds = bounds;
 #if defined(OS_WIN)
   if (input_pixel_coords) {
     find_bounds =
         display::win::ScreenWin::ScreenToDIPRect(nullptr, find_bounds);
   }
 #endif
   return display::Screen::GetScreen()->GetDisplayMatching(find_bounds);
 }

 void ConvertPointFromPixels(gfx::Point* point, int device_scale_factor) {
   *point = gfx::ToFlooredPoint(
       gfx::ScalePoint(gfx::PointF(*point), 1.0f / device_scale_factor));
 }

 void ConvertPointToPixels(gfx::Point* point, int device_scale_factor) {
   *point = gfx::ToFlooredPoint(
       gfx::ScalePoint(gfx::PointF(*point), device_scale_factor));
 }

 bool ConvertPointToScreen(views::View* view,
                           gfx::Point* point,
                           bool output_pixel_coords) {
   if (!view->GetWidget())
     return false;

   views::View::ConvertPointToScreen(view, point);

   if (output_pixel_coords) {
     const display::Display& display = GetDisplayNearestPoint(*point, false);
     ConvertPointToPixels(point, display.device_scale_factor());
   }

   return true;
 }

 bool ConvertPointFromScreen(views::View* view,
                             gfx::Point* point,
                             bool input_pixel_coords) {
   if (!view->GetWidget())
     return false;

   if (input_pixel_coords) {
     const display::Display& display = GetDisplayNearestPoint(*point, true);
     ConvertPointFromPixels(point, display.device_scale_factor());
   }

   views::View::ConvertPointFromScreen(view, point);

   return true;
 }

 bool ConvertPointToWindow(views::View* view, gfx::Point* point) {
   views::Widget* widget = view->GetWidget();
   if (!widget)
     return false;

   views::View::ConvertPointToWidget(view, point);

   if (widget->non_client_view()) {
     views::NonClientFrameView* non_client_frame_view =
         widget->non_client_view()->frame_view();
     if (non_client_frame_view) {
       // When using a custom drawn NonClientFrameView the native Window will not
       // know the actual client bounds. Adjust the native Window bounds for the
       // reported client bounds.
       const gfx::Rect& client_bounds =
           non_client_frame_view->GetBoundsForClientView();
       *point -= client_bounds.OffsetFromOrigin();
     }
   }

   return true;
 }

 bool ConvertPointFromWindow(views::View* view, gfx::Point* point) {
   views::Widget* widget = view->GetWidget();
   if (!widget)
     return false;

   if (widget->non_client_view()) {
     views::NonClientFrameView* non_client_frame_view =
         widget->non_client_view()->frame_view();
     if (non_client_frame_view) {
       // When using a custom drawn NonClientFrameView the native Window will not
       // know the actual client bounds. Adjust the native Window bounds for the
       // reported client bounds.
       const gfx::Rect& client_bounds =
           non_client_frame_view->GetBoundsForClientView();
       *point += client_bounds.OffsetFromOrigin();
     }
   }

   views::View::ConvertPointFromWidget(view, point);

   return true;
 }

 gfx::NativeWindow GetNativeWindow(views::Widget* widget) {
   if (widget) {
     aura::Window* window = widget->GetNativeWindow();
     if (window)
       return window->GetRootWindow();
   }
   return nullptr;
 }

 CefWindowHandle GetWindowHandle(views::Widget* widget) {
   // Same implementation as views::HWNDForView() but cross-platform.
   if (widget) {
     aura::Window* window = widget->GetNativeWindow();
     if (window && window->GetRootWindow())
       return window->GetHost()->GetAcceleratedWidget();
   }
   return kNullWindowHandle;
 }

 }  // namespace view_util
	// Copyright 2016 The Chromium Embedded Framework 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 "libcef/browser/views/view_util.h"

	#include <utility>

	#include "libcef/browser/views/view_adapter.h"

	#include "ui/aura/window.h"
	#include "ui/aura/window_tree_host.h"
	#include "ui/display/display.h"
	#include "ui/display/screen.h"
	#include "ui/gfx/geometry/point.h"
	#include "ui/gfx/geometry/point_conversions.h"
	#include "ui/views/widget/widget.h"
	#include "ui/views/widget/widget_delegate.h"
	#include "ui/views/window/non_client_view.h"

	#if defined(OS_WIN)
	#include "ui/display/win/screen_win.h"
	#endif

	namespace view_util {

	namespace {

	// Manages the association between views::View and CefView instances.
	class UserData : public base::SupportsUserData::Data {
	public:
	// Create the initial association between the views::View and the CefView. The
	// CefView owns the views::View at this stage.
	static void Register(CefRefPtr<CefView> cef_view) {
	DCHECK(cef_view->IsValid());
	DCHECK(!cef_view->IsAttached());

	views::View* view = CefViewAdapter::GetFor(cef_view)->Get();
	DCHECK(view);

	// The CefView should not already be registered.
	DCHECK(!view->GetUserData(UserDataKey()));

	view->SetUserData(UserDataKey(), base::WrapUnique(new UserData(cef_view)));
	}

	static CefRefPtr<CefView> GetFor(const views::View* view) {
	DCHECK(view);
	UserData* data = static_cast<UserData*>(view->GetUserData(UserDataKey()));
	if (data)
	return data->view_ref_;
	return nullptr;
	}

	// Transfer ownership of the views::View to the caller. The views::View will
	// gain a ref-counted reference to the CefView and the CefView will keep an
	// unowned reference to the views::View. Destruction of the views::View will
	// release the ref-counted reference to the CefView.
	static std::unique_ptr<views::View> PassOwnership(CefRefPtr<CefView> cef_view)
	WARN_UNUSED_RESULT {
	DCHECK(cef_view->IsValid());
	DCHECK(!cef_view->IsAttached());

	std::unique_ptr<views::View> view =
	CefViewAdapter::GetFor(cef_view)->PassOwnership();
	DCHECK(view);

	UserData* data = static_cast<UserData*>(view->GetUserData(UserDataKey()));
	DCHECK(data);
	data->TakeReference();

	return view;
	}

	// The CefView resumes ownership of the views::View. The views::View no longer
	// keeps a ref-counted reference to the CefView.
	static void ResumeOwnership(CefRefPtr<CefView> cef_view) {
	DCHECK(cef_view->IsValid());
	DCHECK(cef_view->IsAttached());

	CefViewAdapter* adapter = CefViewAdapter::GetFor(cef_view);
	adapter->ResumeOwnership();

	views::View* view = adapter->Get();
	DCHECK(view);

	UserData* data = static_cast<UserData*>(view->GetUserData(UserDataKey()));
	DCHECK(data);
	data->ReleaseReference();
	}

	private:
	friend std::default_delete<UserData>;

	explicit UserData(CefRefPtr<CefView> cef_view) : view_ref_(cef_view.get()) {
	DCHECK(view_ref_);
	}

	~UserData() override {
	if (view_) {
	// The CefView does not own the views::View. Remove the CefView's
	// reference to the views::View.
	CefViewAdapter::GetFor(view_)->Detach();
	}
	}

	void TakeReference() { view_ = view_ref_; }

	void ReleaseReference() { view_ = nullptr; }

	static void* UserDataKey() {
	// We just need a unique constant. Use the address of a static that
	// COMDAT folding won't touch in an optimizing linker.
	static int data_key = 0;
	return reinterpret_cast<void*>(&data_key);
	}

	CefRefPtr<CefView> view_;
	CefView* view_ref_;
	};

	} // namespace

	const SkColor kDefaultBackgroundColor = SkColorSetARGB(255, 255, 255, 255);
	const char kDefaultFontList[] = "Arial, Helvetica, 14px";

	void Register(CefRefPtr<CefView> view) {
	UserData::Register(view);
	}

	CefRefPtr<CefView> GetFor(const views::View* view, bool find_known_parent) {
	if (!view)
	return nullptr;

	if (!find_known_parent)
	return UserData::GetFor(view);

	CefRefPtr<CefView> cef_view;
	const views::View* current_view = view;
	do {
	cef_view = UserData::GetFor(current_view);
	if (cef_view)
	break;
	current_view = current_view->parent();
	} while (current_view);

	return cef_view;
	}

	views::View* GetFor(CefRefPtr<CefView> view) {
	return CefViewAdapter::GetFor(view)->Get();
	}

	std::unique_ptr<views::View> PassOwnership(CefRefPtr<CefView> view) {
	return UserData::PassOwnership(view);
	}

	void ResumeOwnership(CefRefPtr<CefView> view) {
	UserData::ResumeOwnership(view);
	}

	CefRefPtr<CefWindow> GetWindowFor(views::Widget* widget) {
	CefRefPtr<CefWindow> window;

	if (widget) {
	// The views::WidgetDelegate should be a CefWindowView and \|content_view\|
	// should be the same CefWindowView. However, just in case the views::Widget
	// was created by something else let's go about this the safer way.
	views::View* content_view = widget->widget_delegate()->GetContentsView();
	CefRefPtr<CefView> cef_view = GetFor(content_view, false);
	if (cef_view && cef_view->AsPanel())
	window = cef_view->AsPanel()->AsWindow();

	// The Window should always exist if we created the views::Widget.
	DCHECK(window);
	}

	return window;
	}

	display::Display GetDisplayNearestPoint(const gfx::Point& point,
	bool input_pixel_coords) {
	gfx::Point find_point = point;
	#if defined(OS_WIN)
	if (input_pixel_coords) {
	find_point = gfx::ToFlooredPoint(
	display::win::ScreenWin::ScreenToDIPPoint(gfx::PointF(point)));
	}
	#endif
	return display::Screen::GetScreen()->GetDisplayNearestPoint(find_point);
	}

	display::Display GetDisplayMatchingBounds(const gfx::Rect& bounds,
	bool input_pixel_coords) {
	gfx::Rect find_bounds = bounds;
	#if defined(OS_WIN)
	if (input_pixel_coords) {
	find_bounds =
	display::win::ScreenWin::ScreenToDIPRect(nullptr, find_bounds);
	}
	#endif
	return display::Screen::GetScreen()->GetDisplayMatching(find_bounds);
	}

	void ConvertPointFromPixels(gfx::Point* point, int device_scale_factor) {
	*point = gfx::ToFlooredPoint(
	gfx::ScalePoint(gfx::PointF(*point), 1.0f / device_scale_factor));
	}

	void ConvertPointToPixels(gfx::Point* point, int device_scale_factor) {
	*point = gfx::ToFlooredPoint(
	gfx::ScalePoint(gfx::PointF(*point), device_scale_factor));
	}

	bool ConvertPointToScreen(views::View* view,
	gfx::Point* point,
	bool output_pixel_coords) {
	if (!view->GetWidget())
	return false;

	views::View::ConvertPointToScreen(view, point);

	if (output_pixel_coords) {
	const display::Display& display = GetDisplayNearestPoint(*point, false);
	ConvertPointToPixels(point, display.device_scale_factor());
	}

	return true;
	}

	bool ConvertPointFromScreen(views::View* view,
	gfx::Point* point,
	bool input_pixel_coords) {
	if (!view->GetWidget())
	return false;

	if (input_pixel_coords) {
	const display::Display& display = GetDisplayNearestPoint(*point, true);
	ConvertPointFromPixels(point, display.device_scale_factor());
	}

	views::View::ConvertPointFromScreen(view, point);

	return true;
	}

	bool ConvertPointToWindow(views::View* view, gfx::Point* point) {
	views::Widget* widget = view->GetWidget();
	if (!widget)
	return false;

	views::View::ConvertPointToWidget(view, point);

	if (widget->non_client_view()) {
	views::NonClientFrameView* non_client_frame_view =
	widget->non_client_view()->frame_view();
	if (non_client_frame_view) {
	// When using a custom drawn NonClientFrameView the native Window will not
	// know the actual client bounds. Adjust the native Window bounds for the
	// reported client bounds.
	const gfx::Rect& client_bounds =
	non_client_frame_view->GetBoundsForClientView();
	*point -= client_bounds.OffsetFromOrigin();
	}
	}

	return true;
	}

	bool ConvertPointFromWindow(views::View* view, gfx::Point* point) {
	views::Widget* widget = view->GetWidget();
	if (!widget)
	return false;

	if (widget->non_client_view()) {
	views::NonClientFrameView* non_client_frame_view =
	widget->non_client_view()->frame_view();
	if (non_client_frame_view) {
	// When using a custom drawn NonClientFrameView the native Window will not
	// know the actual client bounds. Adjust the native Window bounds for the
	// reported client bounds.
	const gfx::Rect& client_bounds =
	non_client_frame_view->GetBoundsForClientView();
	*point += client_bounds.OffsetFromOrigin();
	}
	}

	views::View::ConvertPointFromWidget(view, point);

	return true;
	}

	gfx::NativeWindow GetNativeWindow(views::Widget* widget) {
	if (widget) {
	aura::Window* window = widget->GetNativeWindow();
	if (window)
	return window->GetRootWindow();
	}
	return nullptr;
	}

	CefWindowHandle GetWindowHandle(views::Widget* widget) {
	// Same implementation as views::HWNDForView() but cross-platform.
	if (widget) {
	aura::Window* window = widget->GetNativeWindow();
	if (window && window->GetRootWindow())
	return window->GetHost()->GetAcceleratedWidget();
	}
	return kNullWindowHandle;
	}

	} // namespace view_util