libs/hwui/CanvasState.h - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2014 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #pragma once

 #include "Snapshot.h"

 #include <SkClipOp.h>
 #include <SkMatrix.h>
 #include <SkPath.h>
 #include <SkRegion.h>

 namespace android {
 namespace uirenderer {

 /**
  * Abstract base class for any class containing CanvasState.
  * Defines three mandatory callbacks.
  */
 class CanvasStateClient {
 public:
     CanvasStateClient() {}
     virtual ~CanvasStateClient() {}

     /**
      * Callback allowing embedder to take actions in the middle of a
      * setViewport() call.
      */
     virtual void onViewportInitialized() = 0;

     /**
      * Callback allowing embedder to take actions in the middle of a
      * restore() call.  May be called several times sequentially.
      */
     virtual void onSnapshotRestored(const Snapshot& removed, const Snapshot& restored) = 0;

     /**
      * Allows subclasses to control what value is stored in snapshot's
      * fbo field in * initializeSaveStack.
      */
     virtual GLuint getTargetFbo() const = 0;

 };  // class CanvasStateClient

 /**
  * Implements Canvas state methods on behalf of Renderers.
  *
  * Manages the Snapshot stack, implementing matrix, save/restore, and clipping methods in the
  * Renderer interface. Drawing and recording classes that include a CanvasState will have
  * different use cases:
  *
  * Drawing code maintaining canvas state (e.g. FrameBuilder) can query attributes (such as
  * transform) or hook into changes (e.g. save/restore) with minimal surface area for manipulating
  * the stack itself.
  *
  * Recording code maintaining canvas state (e.g. RecordingCanvas) can both record and pass
  * through state operations to CanvasState, so that not only will querying operations work
  * (getClip/Matrix), but so that quickRejection can also be used.
  */

 class CanvasState {
 public:
     explicit CanvasState(CanvasStateClient& renderer);
     ~CanvasState();

     /**
      * Initializes the first snapshot, computing the projection matrix,
      * and stores the dimensions of the render target.
      */
     void initializeRecordingSaveStack(int viewportWidth, int viewportHeight);

     /**
      * Initializes the first snapshot, computing the projection matrix,
      * and stores the dimensions of the render target.
      */
     void initializeSaveStack(int viewportWidth, int viewportHeight, float clipLeft, float clipTop,
                              float clipRight, float clipBottom, const Vector3& lightCenter);

     bool hasRectToRectTransform() const { return CC_LIKELY(currentTransform()->rectToRect()); }

     // Save (layer)
     int getSaveCount() const { return mSaveCount; }
     int save(int flags);
     void restore();
     void restoreToCount(int saveCount);

     // Save/Restore without side-effects
     int saveSnapshot(int flags);
     void restoreSnapshot();

     // Matrix
     void getMatrix(SkMatrix* outMatrix) const;
     void translate(float dx, float dy, float dz = 0.0f);
     void rotate(float degrees);
     void scale(float sx, float sy);
     void skew(float sx, float sy);

     void setMatrix(const SkMatrix& matrix);
     void setMatrix(const Matrix4& matrix);  // internal only convenience method
     void concatMatrix(const SkMatrix& matrix);
     void concatMatrix(const Matrix4& matrix);  // internal only convenience method

     // Clip
     const Rect& getLocalClipBounds() const { return mSnapshot->getLocalClip(); }
     const Rect& getRenderTargetClipBounds() const { return mSnapshot->getRenderTargetClip(); }

     bool quickRejectConservative(float left, float top, float right, float bottom) const;

     bool clipRect(float left, float top, float right, float bottom, SkClipOp op);
     bool clipPath(const SkPath* path, SkClipOp op);

     /**
      * Sets a "clipping outline", which is independent from the regular clip.
      * Currently only supports rectangles or rounded rectangles; passing in a
      * more complicated outline fails silently. Replaces any previous clipping
      * outline.
      */
     void setClippingOutline(LinearAllocator& allocator, const Outline* outline);
     void setClippingRoundRect(LinearAllocator& allocator, const Rect& rect, float radius,
                               bool highPriority = true) {
         mSnapshot->setClippingRoundRect(allocator, rect, radius, highPriority);
     }
     void setProjectionPathMask(const SkPath* path) { mSnapshot->setProjectionPathMask(path); }

     /**
      * Returns true if drawing in the rectangle (left, top, right, bottom)
      * will be clipped out. Is conservative: might return false when subpixel-
      * perfect tests would return true.
      */
     bool calculateQuickRejectForScissor(float left, float top, float right, float bottom,
                                         bool* clipRequired, bool* roundRectClipRequired,
                                         bool snapOut) const;

     void scaleAlpha(float alpha) { mSnapshot->alpha *= alpha; }

     inline const mat4* currentTransform() const { return currentSnapshot()->transform; }
     inline const Rect& currentRenderTargetClip() const {
         return currentSnapshot()->getRenderTargetClip();
     }
     inline int currentFlags() const { return currentSnapshot()->flags; }
     const Vector3& currentLightCenter() const {
         return currentSnapshot()->getRelativeLightCenter();
     }
     int getViewportWidth() const { return currentSnapshot()->getViewportWidth(); }
     int getViewportHeight() const { return currentSnapshot()->getViewportHeight(); }
     int getWidth() const { return mWidth; }
     int getHeight() const { return mHeight; }
     bool clipIsSimple() const { return currentSnapshot()->clipIsSimple(); }

     inline const Snapshot* currentSnapshot() const { return mSnapshot; }
     inline Snapshot* writableSnapshot() { return mSnapshot; }
     inline const Snapshot* firstSnapshot() const { return &mFirstSnapshot; }

 private:
     Snapshot* allocSnapshot(Snapshot* previous, int savecount);
     void freeSnapshot(Snapshot* snapshot);
     void freeAllSnapshots();

     /// Dimensions of the drawing surface
     int mWidth, mHeight;

     /// Number of saved states
     int mSaveCount;

     /// Base state
     Snapshot mFirstSnapshot;

     /// Host providing callbacks
     CanvasStateClient& mCanvas;

     /// Current state
     Snapshot* mSnapshot;

     // Pool of allocated snapshots to re-use
     // NOTE: The dtors have already been invoked!
     Snapshot* mSnapshotPool = nullptr;
     int mSnapshotPoolCount = 0;

 };  // class CanvasState

 };  // namespace uirenderer
 };  // namespace android
	/*
	* Copyright (C) 2014 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#pragma once

	#include "Snapshot.h"

	#include <SkClipOp.h>
	#include <SkMatrix.h>
	#include <SkPath.h>
	#include <SkRegion.h>

	namespace android {
	namespace uirenderer {

	/**
	* Abstract base class for any class containing CanvasState.
	* Defines three mandatory callbacks.
	*/
	class CanvasStateClient {
	public:
	CanvasStateClient() {}
	virtual ~CanvasStateClient() {}

	/**
	* Callback allowing embedder to take actions in the middle of a
	* setViewport() call.
	*/
	virtual void onViewportInitialized() = 0;

	/**
	* Callback allowing embedder to take actions in the middle of a
	* restore() call. May be called several times sequentially.
	*/
	virtual void onSnapshotRestored(const Snapshot& removed, const Snapshot& restored) = 0;

	/**
	* Allows subclasses to control what value is stored in snapshot's
	* fbo field in * initializeSaveStack.
	*/
	virtual GLuint getTargetFbo() const = 0;

	}; // class CanvasStateClient

	/**
	* Implements Canvas state methods on behalf of Renderers.
	*
	* Manages the Snapshot stack, implementing matrix, save/restore, and clipping methods in the
	* Renderer interface. Drawing and recording classes that include a CanvasState will have
	* different use cases:
	*
	* Drawing code maintaining canvas state (e.g. FrameBuilder) can query attributes (such as
	* transform) or hook into changes (e.g. save/restore) with minimal surface area for manipulating
	* the stack itself.
	*
	* Recording code maintaining canvas state (e.g. RecordingCanvas) can both record and pass
	* through state operations to CanvasState, so that not only will querying operations work
	* (getClip/Matrix), but so that quickRejection can also be used.
	*/

	class CanvasState {
	public:
	explicit CanvasState(CanvasStateClient& renderer);
	~CanvasState();

	/**
	* Initializes the first snapshot, computing the projection matrix,
	* and stores the dimensions of the render target.
	*/
	void initializeRecordingSaveStack(int viewportWidth, int viewportHeight);

	/**
	* Initializes the first snapshot, computing the projection matrix,
	* and stores the dimensions of the render target.
	*/
	void initializeSaveStack(int viewportWidth, int viewportHeight, float clipLeft, float clipTop,
	float clipRight, float clipBottom, const Vector3& lightCenter);

	bool hasRectToRectTransform() const { return CC_LIKELY(currentTransform()->rectToRect()); }

	// Save (layer)
	int getSaveCount() const { return mSaveCount; }
	int save(int flags);
	void restore();
	void restoreToCount(int saveCount);

	// Save/Restore without side-effects
	int saveSnapshot(int flags);
	void restoreSnapshot();

	// Matrix
	void getMatrix(SkMatrix* outMatrix) const;
	void translate(float dx, float dy, float dz = 0.0f);
	void rotate(float degrees);
	void scale(float sx, float sy);
	void skew(float sx, float sy);

	void setMatrix(const SkMatrix& matrix);
	void setMatrix(const Matrix4& matrix); // internal only convenience method
	void concatMatrix(const SkMatrix& matrix);
	void concatMatrix(const Matrix4& matrix); // internal only convenience method

	// Clip
	const Rect& getLocalClipBounds() const { return mSnapshot->getLocalClip(); }
	const Rect& getRenderTargetClipBounds() const { return mSnapshot->getRenderTargetClip(); }

	bool quickRejectConservative(float left, float top, float right, float bottom) const;

	bool clipRect(float left, float top, float right, float bottom, SkClipOp op);
	bool clipPath(const SkPath* path, SkClipOp op);

	/**
	* Sets a "clipping outline", which is independent from the regular clip.
	* Currently only supports rectangles or rounded rectangles; passing in a
	* more complicated outline fails silently. Replaces any previous clipping
	* outline.
	*/
	void setClippingOutline(LinearAllocator& allocator, const Outline* outline);
	void setClippingRoundRect(LinearAllocator& allocator, const Rect& rect, float radius,
	bool highPriority = true) {
	mSnapshot->setClippingRoundRect(allocator, rect, radius, highPriority);
	}
	void setProjectionPathMask(const SkPath* path) { mSnapshot->setProjectionPathMask(path); }

	/**
	* Returns true if drawing in the rectangle (left, top, right, bottom)
	* will be clipped out. Is conservative: might return false when subpixel-
	* perfect tests would return true.
	*/
	bool calculateQuickRejectForScissor(float left, float top, float right, float bottom,
	bool* clipRequired, bool* roundRectClipRequired,
	bool snapOut) const;

	void scaleAlpha(float alpha) { mSnapshot->alpha *= alpha; }

	inline const mat4* currentTransform() const { return currentSnapshot()->transform; }
	inline const Rect& currentRenderTargetClip() const {
	return currentSnapshot()->getRenderTargetClip();
	}
	inline int currentFlags() const { return currentSnapshot()->flags; }
	const Vector3& currentLightCenter() const {
	return currentSnapshot()->getRelativeLightCenter();
	}
	int getViewportWidth() const { return currentSnapshot()->getViewportWidth(); }
	int getViewportHeight() const { return currentSnapshot()->getViewportHeight(); }
	int getWidth() const { return mWidth; }
	int getHeight() const { return mHeight; }
	bool clipIsSimple() const { return currentSnapshot()->clipIsSimple(); }

	inline const Snapshot* currentSnapshot() const { return mSnapshot; }
	inline Snapshot* writableSnapshot() { return mSnapshot; }
	inline const Snapshot* firstSnapshot() const { return &mFirstSnapshot; }

	private:
	Snapshot* allocSnapshot(Snapshot* previous, int savecount);
	void freeSnapshot(Snapshot* snapshot);
	void freeAllSnapshots();

	/// Dimensions of the drawing surface
	int mWidth, mHeight;

	/// Number of saved states
	int mSaveCount;

	/// Base state
	Snapshot mFirstSnapshot;

	/// Host providing callbacks
	CanvasStateClient& mCanvas;

	/// Current state
	Snapshot* mSnapshot;

	// Pool of allocated snapshots to re-use
	// NOTE: The dtors have already been invoked!
	Snapshot* mSnapshotPool = nullptr;
	int mSnapshotPoolCount = 0;

	}; // class CanvasState

	}; // namespace uirenderer
	}; // namespace android