services/surfaceflinger/RenderArea.h - third_party/android/platform/frameworks/native - Git at Google

 #pragma once

 #include <ui/GraphicTypes.h>
 #include <ui/Transform.h>

 #include <functional>

 namespace android {

 class DisplayDevice;

 // RenderArea describes a rectangular area that layers can be rendered to.
 //
 // There is a logical render area and a physical render area.  When a layer is
 // rendered to the render area, it is first transformed and clipped to the logical
 // render area.  The transformed and clipped layer is then projected onto the
 // physical render area.
 class RenderArea {
 public:
     using RotationFlags = ui::Transform::RotationFlags;

     enum class CaptureFill {CLEAR, OPAQUE};

     static float getCaptureFillValue(CaptureFill captureFill);

     RenderArea(uint32_t reqWidth, uint32_t reqHeight, CaptureFill captureFill,
                ui::Dataspace reqDataSpace, const Rect& displayViewport,
                RotationFlags rotation = ui::Transform::ROT_0)
           : mReqWidth(reqWidth),
             mReqHeight(reqHeight),
             mReqDataSpace(reqDataSpace),
             mCaptureFill(captureFill),
             mRotationFlags(rotation),
             mDisplayViewport(displayViewport) {}

     virtual ~RenderArea() = default;

     // Invoke drawLayers to render layers into the render area.
     virtual void render(std::function<void()> drawLayers) { drawLayers(); }

     // Returns true if the render area is secure.  A secure layer should be
     // blacked out / skipped when rendered to an insecure render area.
     virtual bool isSecure() const = 0;

     // Returns true if the otherwise disabled layer filtering should be
     // enabled when rendering to this render area.
     virtual bool needsFiltering() const = 0;

     // Returns the transform to be applied on layers to transform them into
     // the logical render area.
     virtual const ui::Transform& getTransform() const = 0;

     // Returns the size of the logical render area.  Layers are clipped to the
     // logical render area.
     virtual int getWidth() const = 0;
     virtual int getHeight() const = 0;
     virtual Rect getBounds() const = 0;

     // Returns the source crop of the render area.  The source crop defines
     // how layers are projected from the logical render area onto the physical
     // render area.  It can be larger than the logical render area.  It can
     // also be optionally rotated.
     //
     // The source crop is specified in layer space (when rendering a layer and
     // its children), or in layer-stack space (when rendering all layers visible
     // on the display).
     virtual Rect getSourceCrop() const = 0;

     // Returns the rotation of the source crop and the layers.
     RotationFlags getRotationFlags() const { return mRotationFlags; }

     // Returns the size of the physical render area.
     int getReqWidth() const { return static_cast<int>(mReqWidth); }
     int getReqHeight() const { return static_cast<int>(mReqHeight); }

     // Returns the composition data space of the render area.
     ui::Dataspace getReqDataSpace() const { return mReqDataSpace; }

     // Returns the fill color of the physical render area.  Regions not
     // covered by any rendered layer should be filled with this color.
     CaptureFill getCaptureFill() const { return mCaptureFill; }

     virtual sp<const DisplayDevice> getDisplayDevice() const = 0;

     // Returns the source display viewport.
     const Rect& getDisplayViewport() const { return mDisplayViewport; }

 private:
     const uint32_t mReqWidth;
     const uint32_t mReqHeight;
     const ui::Dataspace mReqDataSpace;
     const CaptureFill mCaptureFill;
     const RotationFlags mRotationFlags;
     const Rect mDisplayViewport;
 };

 } // namespace android
	#pragma once

	#include <ui/GraphicTypes.h>
	#include <ui/Transform.h>

	#include <functional>

	namespace android {

	class DisplayDevice;

	// RenderArea describes a rectangular area that layers can be rendered to.
	//
	// There is a logical render area and a physical render area. When a layer is
	// rendered to the render area, it is first transformed and clipped to the logical
	// render area. The transformed and clipped layer is then projected onto the
	// physical render area.
	class RenderArea {
	public:
	using RotationFlags = ui::Transform::RotationFlags;

	enum class CaptureFill {CLEAR, OPAQUE};

	static float getCaptureFillValue(CaptureFill captureFill);

	RenderArea(uint32_t reqWidth, uint32_t reqHeight, CaptureFill captureFill,
	ui::Dataspace reqDataSpace, const Rect& displayViewport,
	RotationFlags rotation = ui::Transform::ROT_0)
	: mReqWidth(reqWidth),
	mReqHeight(reqHeight),
	mReqDataSpace(reqDataSpace),
	mCaptureFill(captureFill),
	mRotationFlags(rotation),
	mDisplayViewport(displayViewport) {}

	virtual ~RenderArea() = default;

	// Invoke drawLayers to render layers into the render area.
	virtual void render(std::function<void()> drawLayers) { drawLayers(); }

	// Returns true if the render area is secure. A secure layer should be
	// blacked out / skipped when rendered to an insecure render area.
	virtual bool isSecure() const = 0;

	// Returns true if the otherwise disabled layer filtering should be
	// enabled when rendering to this render area.
	virtual bool needsFiltering() const = 0;

	// Returns the transform to be applied on layers to transform them into
	// the logical render area.
	virtual const ui::Transform& getTransform() const = 0;

	// Returns the size of the logical render area. Layers are clipped to the
	// logical render area.
	virtual int getWidth() const = 0;
	virtual int getHeight() const = 0;
	virtual Rect getBounds() const = 0;

	// Returns the source crop of the render area. The source crop defines
	// how layers are projected from the logical render area onto the physical
	// render area. It can be larger than the logical render area. It can
	// also be optionally rotated.
	//
	// The source crop is specified in layer space (when rendering a layer and
	// its children), or in layer-stack space (when rendering all layers visible
	// on the display).
	virtual Rect getSourceCrop() const = 0;

	// Returns the rotation of the source crop and the layers.
	RotationFlags getRotationFlags() const { return mRotationFlags; }

	// Returns the size of the physical render area.
	int getReqWidth() const { return static_cast<int>(mReqWidth); }
	int getReqHeight() const { return static_cast<int>(mReqHeight); }

	// Returns the composition data space of the render area.
	ui::Dataspace getReqDataSpace() const { return mReqDataSpace; }

	// Returns the fill color of the physical render area. Regions not
	// covered by any rendered layer should be filled with this color.
	CaptureFill getCaptureFill() const { return mCaptureFill; }

	virtual sp<const DisplayDevice> getDisplayDevice() const = 0;

	// Returns the source display viewport.
	const Rect& getDisplayViewport() const { return mDisplayViewport; }

	private:
	const uint32_t mReqWidth;
	const uint32_t mReqHeight;
	const ui::Dataspace mReqDataSpace;
	const CaptureFill mCaptureFill;
	const RotationFlags mRotationFlags;
	const Rect mDisplayViewport;
	};

	} // namespace android