ui/platform_window/platform_window_delegate.h - chromium/src - Git at Google

 // Copyright 2019 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef UI_PLATFORM_WINDOW_PLATFORM_WINDOW_DELEGATE_H_
 #define UI_PLATFORM_WINDOW_PLATFORM_WINDOW_DELEGATE_H_

 #include <optional>
 #include <string>

 #include "base/component_export.h"
 #include "build/build_config.h"
 #include "ui/base/ui_base_types.h"
 #include "ui/gfx/geometry/insets.h"
 #include "ui/gfx/geometry/rect.h"
 #include "ui/gfx/native_widget_types.h"

 namespace gfx {
 class Size;
 class PointF;
 }  // namespace gfx

 class SkPath;

 namespace ui {

 class Event;
 struct OwnedWindowAnchor;

 enum class PlatformWindowState {
   kUnknown,
   kMaximized,
   kMinimized,
   kNormal,
   kFullScreen,
 };

 enum class PlatformWindowOcclusionState {
   kUnknown,
   kVisible,
   kOccluded,
   kHidden,
 };

 class COMPONENT_EXPORT(PLATFORM_WINDOW) PlatformWindowDelegate {
  public:
   struct COMPONENT_EXPORT(PLATFORM_WINDOW) BoundsChange {
     BoundsChange() = delete;
     constexpr BoundsChange(bool origin_changed)
         : origin_changed(origin_changed) {}
     ~BoundsChange() = default;

     // True if the bounds change resulted in the origin change.
     bool origin_changed : 1;

 #if BUILDFLAG(IS_FUCHSIA)
     // The widths of border regions which are obscured by overlapping
     // platform UI elements like onscreen keyboards.
     //
     // As an example, the overlap from an onscreen keyboard covering
     // the bottom of the Window would be represented like this:
     //
     // +------------------------+                ---
     // |                        |                 |
     // |        content         |                 |
     // |                        |                 | window
     // +------------------------+  ---            |
     // |    onscreen keyboard   |   |  overlap    |
     // +------------------------+  ---           ---
     gfx::Insets system_ui_overlap;
 #endif  // BUILDFLAG(IS_FUCHSIA)
   };

   // State describes important data about this window, for example data that
   // needs to be synchronized and acked. We apply this state to the client
   // (us) and wait for a frame to be produced matching this state. That frame
   // is identified by the sequence id.
   // This is used by OnStateChanged and currently only by ozone/wayland.
   struct COMPONENT_EXPORT(PLATFORM_WINDOW) State {
     bool operator==(const State& rhs) const {
       return std::tie(window_state, tiled_edges, bounds_dip, size_px,
                       window_scale, ui_scale, occlusion_state) ==
              std::tie(rhs.window_state, tiled_edges, rhs.bounds_dip,
                       rhs.size_px, rhs.window_scale, rhs.ui_scale,
                       rhs.occlusion_state);
     }

     // Current platform window state.
     PlatformWindowState window_state = PlatformWindowState::kUnknown;

     // The tiled edges of the window.
     WindowTiledEdges tiled_edges;

     // Bounds in DIP. The origin of `bounds_dip` does not affect whether it
     // produces a new frame or not. Only the size of `bounds_dip` does.
     gfx::Rect bounds_dip;

     // Size in pixels. Note that it's required to keep information in both DIP
     // and pixels since it is not always possible to convert between them.
     gfx::Size size_px;

     // Current scale factor of the output where the window is located at.
     float window_scale = 1.0;

     // Scale of the window UI content. Used by platform window code to trigger
     // the resize and relayout of UI elements when needed, e.g: in reaction to
     // system's 'large text' setting. Which is done by downscaling the DIP size
     // by the ui_scale, e.g: 1.25, while the pixel size is kept unchanged, which
     // makes UI elements to look bigger while still sharp. OTOH, window_scale is
     // used to scale the whole frame, affecting the buffers' size such that it
     // matches the expected DPI used by the display server. Used only by the
     // Wayland backend for now.
     float ui_scale = 1.0;

     // Occlusion state
     PlatformWindowOcclusionState occlusion_state =
         PlatformWindowOcclusionState::kUnknown;

     // Returns true if updating from the given State `old` to this state
     // should produce a frame.
     bool WillProduceFrameOnUpdateFrom(const State& old) const;

     std::string ToString() const;
   };

   PlatformWindowDelegate();
   virtual ~PlatformWindowDelegate();

   // Calculates the insets in dip based on the window state.
   virtual gfx::Insets CalculateInsetsInDIP(
       PlatformWindowState window_state) const;

   virtual void OnBoundsChanged(const BoundsChange& change) = 0;

   // Note that |damaged_region| is in the platform-window's coordinates, in
   // physical pixels.
   virtual void OnDamageRect(const gfx::Rect& damaged_region) = 0;

   virtual void DispatchEvent(Event* event) = 0;

   virtual void OnCloseRequest() = 0;
   virtual void OnClosed() = 0;

   virtual void OnWindowStateChanged(PlatformWindowState old_state,
                                     PlatformWindowState new_state) = 0;

 #if BUILDFLAG(IS_LINUX)
   // Notifies the delegate that the tiled state of the window edges has changed.
   virtual void OnWindowTiledStateChanged(WindowTiledEdges new_tiled_edges);
 #endif

   enum RotateDirection {
     kForward,
     kBackward,
   };
   // Rotates the focus within the window. The method will return true if there
   // are more views left after rotation and false otherwise. Reset will restart
   // the focus and focus on the first view for the given direction.
   virtual bool OnRotateFocus(RotateDirection direction, bool reset);

   virtual void OnLostCapture() = 0;

   virtual void OnAcceleratedWidgetAvailable(gfx::AcceleratedWidget widget) = 0;

   // Notifies the delegate that the widget is about to be destroyed.
   virtual void OnWillDestroyAcceleratedWidget() = 0;

   // Notifies the delegate that the widget cannot be used anymore until
   // a new widget is made available through OnAcceleratedWidgetAvailable().
   // Must not be called when the PlatformWindow is being destroyed.
   virtual void OnAcceleratedWidgetDestroyed() = 0;

   virtual void OnActivationChanged(bool active) = 0;

   // Requests size constraints for the PlatformWindow in DIP.
   virtual std::optional<gfx::Size> GetMinimumSizeForWindow() const;
   virtual std::optional<gfx::Size> GetMaximumSizeForWindow() const;

   virtual bool CanMaximize() const;
   virtual bool CanFullscreen() const;

   // Returns a mask to be used to clip the window for the size of
   // |WindowTreeHost::GetBoundsInPixels|.
   // This is used to create the non-rectangular window shape.
   virtual SkPath GetWindowMaskForWindowShapeInPixels();

   // Called when the location of mouse pointer entered the window.  This is
   // different from ui::EventType::kMouseEntered which may not be generated when
   // mouse is captured either by implicitly or explicitly.
   virtual void OnMouseEnter() = 0;

   // Called when the occlusion state changes, if the underlying platform
   // is providing us with occlusion information.
   virtual void OnOcclusionStateChanged(
       PlatformWindowOcclusionState occlusion_state);

   // Updates state for clients that need sequence point synchronized
   // PlatformWindowDelegate::State operations. In particular, this requests a
   // new LocalSurfaceId for the window tree of this platform window. It returns
   // the new parent ID. Calling code can compare this value with the
   // gfx::FrameData::seq value to see when viz has produced a frame at or after
   // the (conceptually) inserted sequence point. OnStateUpdate may return -1 if
   // the state update does not require a new frame to be considered
   // synchronized. For example, this can happen if the old and new states are
   // the same, or it only changes the origin of the bounds.
   virtual int64_t OnStateUpdate(const State& old, const State& latest);

   // Returns optional information for owned windows that require anchor for
   // positioning. Useful for such backends as Wayland as it provides flexibility
   // in positioning child windows, which must be repositioned if the originally
   // intended position caused the surface to be constrained.
   virtual std::optional<OwnedWindowAnchor> GetOwnedWindowAnchorAndRectInDIP();

   // Converts gfx::Rect in pixels to DIP in screen, and vice versa.
   virtual gfx::Rect ConvertRectToPixels(const gfx::Rect& rect_in_dp) const;
   virtual gfx::Rect ConvertRectToDIP(const gfx::Rect& rect_in_pixels) const;

   // Converts gfx::Point in screen pixels to dip in the window's local
   // coordinate.
   virtual gfx::PointF ConvertScreenPointToLocalDIP(
       const gfx::Point& screen_in_pixels) const;

   // Converts gfx::Insets in DIP to pixels.
   virtual gfx::Insets ConvertInsetsToPixels(
       const gfx::Insets& insets_dip) const;
 };

 }  // namespace ui

 #endif  // UI_PLATFORM_WINDOW_PLATFORM_WINDOW_DELEGATE_H_
	// Copyright 2019 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef UI_PLATFORM_WINDOW_PLATFORM_WINDOW_DELEGATE_H_
	#define UI_PLATFORM_WINDOW_PLATFORM_WINDOW_DELEGATE_H_

	#include <optional>
	#include <string>

	#include "base/component_export.h"
	#include "build/build_config.h"
	#include "ui/base/ui_base_types.h"
	#include "ui/gfx/geometry/insets.h"
	#include "ui/gfx/geometry/rect.h"
	#include "ui/gfx/native_widget_types.h"

	namespace gfx {
	class Size;
	class PointF;
	} // namespace gfx

	class SkPath;

	namespace ui {

	class Event;
	struct OwnedWindowAnchor;

	enum class PlatformWindowState {
	kUnknown,
	kMaximized,
	kMinimized,
	kNormal,
	kFullScreen,
	};

	enum class PlatformWindowOcclusionState {
	kUnknown,
	kVisible,
	kOccluded,
	kHidden,
	};

	class COMPONENT_EXPORT(PLATFORM_WINDOW) PlatformWindowDelegate {
	public:
	struct COMPONENT_EXPORT(PLATFORM_WINDOW) BoundsChange {
	BoundsChange() = delete;
	constexpr BoundsChange(bool origin_changed)
	: origin_changed(origin_changed) {}
	~BoundsChange() = default;

	// True if the bounds change resulted in the origin change.
	bool origin_changed : 1;

	#if BUILDFLAG(IS_FUCHSIA)
	// The widths of border regions which are obscured by overlapping
	// platform UI elements like onscreen keyboards.
	//
	// As an example, the overlap from an onscreen keyboard covering
	// the bottom of the Window would be represented like this:
	//
	// +------------------------+ ---
	// \| \| \|
	// \| content \| \|
	// \| \| \| window
	// +------------------------+ --- \|
	// \| onscreen keyboard \| \| overlap \|
	// +------------------------+ --- ---
	gfx::Insets system_ui_overlap;
	#endif // BUILDFLAG(IS_FUCHSIA)
	};

	// State describes important data about this window, for example data that
	// needs to be synchronized and acked. We apply this state to the client
	// (us) and wait for a frame to be produced matching this state. That frame
	// is identified by the sequence id.
	// This is used by OnStateChanged and currently only by ozone/wayland.
	struct COMPONENT_EXPORT(PLATFORM_WINDOW) State {
	bool operator==(const State& rhs) const {
	return std::tie(window_state, tiled_edges, bounds_dip, size_px,
	window_scale, ui_scale, occlusion_state) ==
	std::tie(rhs.window_state, tiled_edges, rhs.bounds_dip,
	rhs.size_px, rhs.window_scale, rhs.ui_scale,
	rhs.occlusion_state);
	}

	// Current platform window state.
	PlatformWindowState window_state = PlatformWindowState::kUnknown;

	// The tiled edges of the window.
	WindowTiledEdges tiled_edges;

	// Bounds in DIP. The origin of `bounds_dip` does not affect whether it
	// produces a new frame or not. Only the size of `bounds_dip` does.
	gfx::Rect bounds_dip;

	// Size in pixels. Note that it's required to keep information in both DIP
	// and pixels since it is not always possible to convert between them.
	gfx::Size size_px;

	// Current scale factor of the output where the window is located at.
	float window_scale = 1.0;

	// Scale of the window UI content. Used by platform window code to trigger
	// the resize and relayout of UI elements when needed, e.g: in reaction to
	// system's 'large text' setting. Which is done by downscaling the DIP size
	// by the ui_scale, e.g: 1.25, while the pixel size is kept unchanged, which
	// makes UI elements to look bigger while still sharp. OTOH, window_scale is
	// used to scale the whole frame, affecting the buffers' size such that it
	// matches the expected DPI used by the display server. Used only by the
	// Wayland backend for now.
	float ui_scale = 1.0;

	// Occlusion state
	PlatformWindowOcclusionState occlusion_state =
	PlatformWindowOcclusionState::kUnknown;

	// Returns true if updating from the given State `old` to this state
	// should produce a frame.
	bool WillProduceFrameOnUpdateFrom(const State& old) const;

	std::string ToString() const;
	};

	PlatformWindowDelegate();
	virtual ~PlatformWindowDelegate();

	// Calculates the insets in dip based on the window state.
	virtual gfx::Insets CalculateInsetsInDIP(
	PlatformWindowState window_state) const;

	virtual void OnBoundsChanged(const BoundsChange& change) = 0;

	// Note that \|damaged_region\| is in the platform-window's coordinates, in
	// physical pixels.
	virtual void OnDamageRect(const gfx::Rect& damaged_region) = 0;

	virtual void DispatchEvent(Event* event) = 0;

	virtual void OnCloseRequest() = 0;
	virtual void OnClosed() = 0;

	virtual void OnWindowStateChanged(PlatformWindowState old_state,
	PlatformWindowState new_state) = 0;

	#if BUILDFLAG(IS_LINUX)
	// Notifies the delegate that the tiled state of the window edges has changed.
	virtual void OnWindowTiledStateChanged(WindowTiledEdges new_tiled_edges);
	#endif

	enum RotateDirection {
	kForward,
	kBackward,
	};
	// Rotates the focus within the window. The method will return true if there
	// are more views left after rotation and false otherwise. Reset will restart
	// the focus and focus on the first view for the given direction.
	virtual bool OnRotateFocus(RotateDirection direction, bool reset);

	virtual void OnLostCapture() = 0;

	virtual void OnAcceleratedWidgetAvailable(gfx::AcceleratedWidget widget) = 0;

	// Notifies the delegate that the widget is about to be destroyed.
	virtual void OnWillDestroyAcceleratedWidget() = 0;

	// Notifies the delegate that the widget cannot be used anymore until
	// a new widget is made available through OnAcceleratedWidgetAvailable().
	// Must not be called when the PlatformWindow is being destroyed.
	virtual void OnAcceleratedWidgetDestroyed() = 0;

	virtual void OnActivationChanged(bool active) = 0;

	// Requests size constraints for the PlatformWindow in DIP.
	virtual std::optional<gfx::Size> GetMinimumSizeForWindow() const;
	virtual std::optional<gfx::Size> GetMaximumSizeForWindow() const;

	virtual bool CanMaximize() const;
	virtual bool CanFullscreen() const;

	// Returns a mask to be used to clip the window for the size of
	// \|WindowTreeHost::GetBoundsInPixels\|.
	// This is used to create the non-rectangular window shape.
	virtual SkPath GetWindowMaskForWindowShapeInPixels();

	// Called when the location of mouse pointer entered the window. This is
	// different from ui::EventType::kMouseEntered which may not be generated when
	// mouse is captured either by implicitly or explicitly.
	virtual void OnMouseEnter() = 0;

	// Called when the occlusion state changes, if the underlying platform
	// is providing us with occlusion information.
	virtual void OnOcclusionStateChanged(
	PlatformWindowOcclusionState occlusion_state);

	// Updates state for clients that need sequence point synchronized
	// PlatformWindowDelegate::State operations. In particular, this requests a
	// new LocalSurfaceId for the window tree of this platform window. It returns
	// the new parent ID. Calling code can compare this value with the
	// gfx::FrameData::seq value to see when viz has produced a frame at or after
	// the (conceptually) inserted sequence point. OnStateUpdate may return -1 if
	// the state update does not require a new frame to be considered
	// synchronized. For example, this can happen if the old and new states are
	// the same, or it only changes the origin of the bounds.
	virtual int64_t OnStateUpdate(const State& old, const State& latest);

	// Returns optional information for owned windows that require anchor for
	// positioning. Useful for such backends as Wayland as it provides flexibility
	// in positioning child windows, which must be repositioned if the originally
	// intended position caused the surface to be constrained.
	virtual std::optional<OwnedWindowAnchor> GetOwnedWindowAnchorAndRectInDIP();

	// Converts gfx::Rect in pixels to DIP in screen, and vice versa.
	virtual gfx::Rect ConvertRectToPixels(const gfx::Rect& rect_in_dp) const;
	virtual gfx::Rect ConvertRectToDIP(const gfx::Rect& rect_in_pixels) const;

	// Converts gfx::Point in screen pixels to dip in the window's local
	// coordinate.
	virtual gfx::PointF ConvertScreenPointToLocalDIP(
	const gfx::Point& screen_in_pixels) const;

	// Converts gfx::Insets in DIP to pixels.
	virtual gfx::Insets ConvertInsetsToPixels(
	const gfx::Insets& insets_dip) const;
	};

	} // namespace ui

	#endif // UI_PLATFORM_WINDOW_PLATFORM_WINDOW_DELEGATE_H_