include/effects/SkGroupShape.h - skia - Git at Google

 #ifndef SkGroupShape_DEFINED
 #define SkGroupShape_DEFINED

 #include "SkMatrix.h"
 #include "SkShape.h"
 #include "SkTDArray.h"
 #include "SkThread.h"

 template <typename T> class SkTRefCnt : public T {
 public:
     SkTRefCnt() : fRefCnt(1) {}
     ~SkTRefCnt() { SkASSERT(1 == fRefCnt); }

     int32_t getRefCnt() const { return fRefCnt; }

     /** Increment the reference count. Must be balanced by a call to unref().
      */
     void ref() const {
         SkASSERT(fRefCnt > 0);
         sk_atomic_inc(&fRefCnt);
     }

     /** Decrement the reference count. If the reference count is 1 before the
         decrement, then call delete on the object. Note that if this is the
         case, then the object needs to have been allocated via new, and not on
         the stack.
      */
     void unref() const {
         SkASSERT(fRefCnt > 0);
         if (sk_atomic_dec(&fRefCnt) == 1) {
             fRefCnt = 1;    // so our destructor won't complain
             SkDELETE(this);
         }
     }

     static void SafeRef(const SkTRefCnt* obj) {
         if (obj) {
             obj->ref();
         }
     }

     static void SafeUnref(const SkTRefCnt* obj) {
         if (obj) {
             obj->unref();
         }
     }

 private:
     mutable int32_t fRefCnt;
 };

 class SkMatrixRef : public SkTRefCnt<SkMatrix> {
 public:
     SkMatrixRef() { this->reset(); }
     explicit SkMatrixRef(const SkMatrix& matrix) {
         SkMatrix& m = *this;
         m = matrix;
     }

     SkMatrix& operator=(const SkMatrix& matrix) {
         SkMatrix& m = *this;
         m = matrix;
         return m;
     }
 };

 class SkGroupShape : public SkShape {
 public:
             SkGroupShape();
     virtual ~SkGroupShape();

     /** Return the number of child shapes in this group
      */
     int countShapes() const;

     /** Return the shape at the specified index. Note this does not affect the
         owner count of the index'd shape. If index is out of range, returns NULL
      */
     SkShape* getShape(int index, SkMatrixRef** = NULL) const;

     /** Helper function to return the matrixref of the specified shape.
      */
     SkMatrixRef* getShapeMatrixRef(int index) const {
         SkMatrixRef* mr = NULL;
         (void)this->getShape(index, &mr);
         return mr;
     }

     /** Ref the specified shape, and insert it into the child list at the
         specified index. If index == countShapes(), then the shape will be
         appended to the child list, otherwise if index is out of range, the
         shape is not added. Either way, the shape parameter is returned.

         Child shapes are drawn in order, after the parent, so the shape at index
         0 will be drawn first, and the shape at index countShapes() - 1 will be
         drawn last.
      */
     void addShape(int index, SkShape*, SkMatrixRef* = NULL);

     void addShape(int index, SkShape* shape, const SkMatrix& matrix) {
         SkMatrixRef* mr = SkNEW_ARGS(SkMatrixRef, (matrix));
         this->addShape(index, shape, mr);
         mr->unref();
     }

     /** Helper method to append a shape, passing countShapes() for the index
      */
     SkShape* appendShape(SkShape* shape, SkMatrixRef* mr = NULL) {
         this->addShape(this->countShapes(), shape, mr);
         return shape;
     }

     SkShape* appendShape(SkShape* shape, const SkMatrix& matrix) {
         this->addShape(this->countShapes(), shape, matrix);
         return shape;
     }

     /** Unref the specified index, and remove it from the child list. If index
         is out of range, does nothing.
      */
     void removeShape(int index);

     /** Unrefs and removes all of the child shapes
      */
     void removeAllShapes();

     // overrides
     virtual Factory getFactory();
     virtual void flatten(SkFlattenableWriteBuffer&);

     // public for Registrar
     static SkFlattenable* CreateProc(SkFlattenableReadBuffer&);

 protected:
     // overrides
     virtual void onDraw(SkCanvas*);

     SkGroupShape(SkFlattenableReadBuffer&);

 private:
     struct Rec {
         SkShape*     fShape;
         SkMatrixRef* fMatrixRef;
     };
     SkTDArray<Rec> fList;

     typedef SkShape INHERITED;
 };

 #endif
	#ifndef SkGroupShape_DEFINED
	#define SkGroupShape_DEFINED

	#include "SkMatrix.h"
	#include "SkShape.h"
	#include "SkTDArray.h"
	#include "SkThread.h"

	template <typename T> class SkTRefCnt : public T {
	public:
	SkTRefCnt() : fRefCnt(1) {}
	~SkTRefCnt() { SkASSERT(1 == fRefCnt); }

	int32_t getRefCnt() const { return fRefCnt; }

	/** Increment the reference count. Must be balanced by a call to unref().
	*/
	void ref() const {
	SkASSERT(fRefCnt > 0);
	sk_atomic_inc(&fRefCnt);
	}

	/** Decrement the reference count. If the reference count is 1 before the
	decrement, then call delete on the object. Note that if this is the
	case, then the object needs to have been allocated via new, and not on
	the stack.
	*/
	void unref() const {
	SkASSERT(fRefCnt > 0);
	if (sk_atomic_dec(&fRefCnt) == 1) {
	fRefCnt = 1; // so our destructor won't complain
	SkDELETE(this);
	}
	}

	static void SafeRef(const SkTRefCnt* obj) {
	if (obj) {
	obj->ref();
	}
	}

	static void SafeUnref(const SkTRefCnt* obj) {
	if (obj) {
	obj->unref();
	}
	}

	private:
	mutable int32_t fRefCnt;
	};

	class SkMatrixRef : public SkTRefCnt<SkMatrix> {
	public:
	SkMatrixRef() { this->reset(); }
	explicit SkMatrixRef(const SkMatrix& matrix) {
	SkMatrix& m = *this;
	m = matrix;
	}

	SkMatrix& operator=(const SkMatrix& matrix) {
	SkMatrix& m = *this;
	m = matrix;
	return m;
	}
	};

	class SkGroupShape : public SkShape {
	public:
	SkGroupShape();
	virtual ~SkGroupShape();

	/** Return the number of child shapes in this group
	*/
	int countShapes() const;

	/** Return the shape at the specified index. Note this does not affect the
	owner count of the index'd shape. If index is out of range, returns NULL
	*/
	SkShape* getShape(int index, SkMatrixRef** = NULL) const;

	/** Helper function to return the matrixref of the specified shape.
	*/
	SkMatrixRef* getShapeMatrixRef(int index) const {
	SkMatrixRef* mr = NULL;
	(void)this->getShape(index, &mr);
	return mr;
	}

	/** Ref the specified shape, and insert it into the child list at the
	specified index. If index == countShapes(), then the shape will be
	appended to the child list, otherwise if index is out of range, the
	shape is not added. Either way, the shape parameter is returned.

	Child shapes are drawn in order, after the parent, so the shape at index
	0 will be drawn first, and the shape at index countShapes() - 1 will be
	drawn last.
	*/
	void addShape(int index, SkShape, SkMatrixRef = NULL);

	void addShape(int index, SkShape* shape, const SkMatrix& matrix) {
	SkMatrixRef* mr = SkNEW_ARGS(SkMatrixRef, (matrix));
	this->addShape(index, shape, mr);
	mr->unref();
	}

	/** Helper method to append a shape, passing countShapes() for the index
	*/
	SkShape* appendShape(SkShape* shape, SkMatrixRef* mr = NULL) {
	this->addShape(this->countShapes(), shape, mr);
	return shape;
	}

	SkShape* appendShape(SkShape* shape, const SkMatrix& matrix) {
	this->addShape(this->countShapes(), shape, matrix);
	return shape;
	}

	/** Unref the specified index, and remove it from the child list. If index
	is out of range, does nothing.
	*/
	void removeShape(int index);

	/** Unrefs and removes all of the child shapes
	*/
	void removeAllShapes();

	// overrides
	virtual Factory getFactory();
	virtual void flatten(SkFlattenableWriteBuffer&);

	// public for Registrar
	static SkFlattenable* CreateProc(SkFlattenableReadBuffer&);

	protected:
	// overrides
	virtual void onDraw(SkCanvas*);

	SkGroupShape(SkFlattenableReadBuffer&);

	private:
	struct Rec {
	SkShape* fShape;
	SkMatrixRef* fMatrixRef;
	};
	SkTDArray<Rec> fList;

	typedef SkShape INHERITED;
	};

	#endif