include/core/SkPathEffect.h - skia - Git at Google

 /*
  * Copyright 2006 The Android Open Source Project
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SkPathEffect_DEFINED
 #define SkPathEffect_DEFINED

 #include "SkFlattenable.h"
 #include "SkPath.h"
 #include "SkPoint.h"
 #include "SkRect.h"

 class SkPath;
 class SkStrokeRec;

 /** \class SkPathEffect

     SkPathEffect is the base class for objects in the SkPaint that affect
     the geometry of a drawing primitive before it is transformed by the
     canvas' matrix and drawn.

     Dashing is implemented as a subclass of SkPathEffect.
 */
 class SK_API SkPathEffect : public SkFlattenable {
 public:
     /**
      *  Returns a patheffect that apples each effect (first and second) to the original path,
      *  and returns a path with the sum of these.
      *
      *  result = first(path) + second(path)
      *
      */
     static sk_sp<SkPathEffect> MakeSum(sk_sp<SkPathEffect> first, sk_sp<SkPathEffect> second);

     /**
      *  Returns a patheffect that applies the inner effect to the path, and then applies the
      *  outer effect to the result of the inner's.
      *
      *  result = outer(inner(path))
      */
     static sk_sp<SkPathEffect> MakeCompose(sk_sp<SkPathEffect> outer, sk_sp<SkPathEffect> inner);

     /**
      *  Given a src path (input) and a stroke-rec (input and output), apply
      *  this effect to the src path, returning the new path in dst, and return
      *  true. If this effect cannot be applied, return false and ignore dst
      *  and stroke-rec.
      *
      *  The stroke-rec specifies the initial request for stroking (if any).
      *  The effect can treat this as input only, or it can choose to change
      *  the rec as well. For example, the effect can decide to change the
      *  stroke's width or join, or the effect can change the rec from stroke
      *  to fill (or fill to stroke) in addition to returning a new (dst) path.
      *
      *  If this method returns true, the caller will apply (as needed) the
      *  resulting stroke-rec to dst and then draw.
      */
     bool filterPath(SkPath* dst, const SkPath& src, SkStrokeRec*, const SkRect* cullR) const;

     /**
      *  Compute a conservative bounds for its effect, given the src bounds.
      *  The baseline implementation just assigns src to dst.
      */
     void computeFastBounds(SkRect* dst, const SkRect& src) const;

     /** \class PointData

         PointData aggregates all the information needed to draw the point
         primitives returned by an 'asPoints' call.
     */
     class PointData {
     public:
         PointData()
             : fFlags(0)
             , fPoints(nullptr)
             , fNumPoints(0) {
             fSize.set(SK_Scalar1, SK_Scalar1);
             // 'asPoints' needs to initialize/fill-in 'fClipRect' if it sets
             // the kUseClip flag
         }
         ~PointData() {
             delete [] fPoints;
         }

         // TODO: consider using passed-in flags to limit the work asPoints does.
         // For example, a kNoPath flag could indicate don't bother generating
         // stamped solutions.

         // Currently none of these flags are supported.
         enum PointFlags {
             kCircles_PointFlag            = 0x01,   // draw points as circles (instead of rects)
             kUsePath_PointFlag            = 0x02,   // draw points as stamps of the returned path
             kUseClip_PointFlag            = 0x04,   // apply 'fClipRect' before drawing the points
         };

         uint32_t           fFlags;      // flags that impact the drawing of the points
         SkPoint*           fPoints;     // the center point of each generated point
         int                fNumPoints;  // number of points in fPoints
         SkVector           fSize;       // the size to draw the points
         SkRect             fClipRect;   // clip required to draw the points (if kUseClip is set)
         SkPath             fPath;       // 'stamp' to be used at each point (if kUsePath is set)

         SkPath             fFirst;      // If not empty, contains geometry for first point
         SkPath             fLast;       // If not empty, contains geometry for last point
     };

     /**
      *  Does applying this path effect to 'src' yield a set of points? If so,
      *  optionally return the points in 'results'.
      */
     bool asPoints(PointData* results, const SkPath& src,
                           const SkStrokeRec&, const SkMatrix&,
                           const SkRect* cullR) const;

     /**
      *  If the PathEffect can be represented as a dash pattern, asADash will return kDash_DashType
      *  and None otherwise. If a non NULL info is passed in, the various DashInfo will be filled
      *  in if the PathEffect can be a dash pattern. If passed in info has an fCount equal or
      *  greater to that of the effect, it will memcpy the values of the dash intervals into the
      *  info. Thus the general approach will be call asADash once with default info to get DashType
      *  and fCount. If effect can be represented as a dash pattern, allocate space for the intervals
      *  in info, then call asADash again with the same info and the intervals will get copied in.
      */

     enum DashType {
         kNone_DashType, //!< ignores the info parameter
         kDash_DashType, //!< fills in all of the info parameter
     };

     struct DashInfo {
         DashInfo() : fIntervals(nullptr), fCount(0), fPhase(0) {}
         DashInfo(SkScalar* intervals, int32_t count, SkScalar phase)
             : fIntervals(intervals), fCount(count), fPhase(phase) {}

         SkScalar*   fIntervals;         //!< Length of on/off intervals for dashed lines
                                         //   Even values represent ons, and odds offs
         int32_t     fCount;             //!< Number of intervals in the dash. Should be even number
         SkScalar    fPhase;             //!< Offset into the dashed interval pattern
                                         //   mod the sum of all intervals
     };

     DashType asADash(DashInfo* info) const;

     static void RegisterFlattenables();

     static SkFlattenable::Type GetFlattenableType() {
         return kSkPathEffect_Type;
     }

     SkFlattenable::Type getFlattenableType() const override {
         return kSkPathEffect_Type;
     }

     static sk_sp<SkPathEffect> Deserialize(const void* data, size_t size,
                                           const SkDeserialProcs* procs = nullptr) {
         return sk_sp<SkPathEffect>(static_cast<SkPathEffect*>(
                                   SkFlattenable::Deserialize(
                                   kSkPathEffect_Type, data, size, procs).release()));
     }

 protected:
     SkPathEffect() {}

     virtual bool onFilterPath(SkPath*, const SkPath&, SkStrokeRec*, const SkRect*) const = 0;
     virtual SkRect onComputeFastBounds(const SkRect& src) const {
         return src;
     }
     virtual bool onAsPoints(PointData*, const SkPath&, const SkStrokeRec&, const SkMatrix&,
                             const SkRect*) const {
         return false;
     }
     virtual DashType onAsADash(DashInfo*) const {
         return kNone_DashType;
     }

 private:
     // illegal
     SkPathEffect(const SkPathEffect&);
     SkPathEffect& operator=(const SkPathEffect&);

     typedef SkFlattenable INHERITED;
 };

 #endif
	/*
	* Copyright 2006 The Android Open Source Project
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SkPathEffect_DEFINED
	#define SkPathEffect_DEFINED

	#include "SkFlattenable.h"
	#include "SkPath.h"
	#include "SkPoint.h"
	#include "SkRect.h"

	class SkPath;
	class SkStrokeRec;

	/** \class SkPathEffect

	SkPathEffect is the base class for objects in the SkPaint that affect
	the geometry of a drawing primitive before it is transformed by the
	canvas' matrix and drawn.

	Dashing is implemented as a subclass of SkPathEffect.
	*/
	class SK_API SkPathEffect : public SkFlattenable {
	public:
	/**
	* Returns a patheffect that apples each effect (first and second) to the original path,
	* and returns a path with the sum of these.
	*
	* result = first(path) + second(path)
	*
	*/
	static sk_sp<SkPathEffect> MakeSum(sk_sp<SkPathEffect> first, sk_sp<SkPathEffect> second);

	/**
	* Returns a patheffect that applies the inner effect to the path, and then applies the
	* outer effect to the result of the inner's.
	*
	* result = outer(inner(path))
	*/
	static sk_sp<SkPathEffect> MakeCompose(sk_sp<SkPathEffect> outer, sk_sp<SkPathEffect> inner);

	/**
	* Given a src path (input) and a stroke-rec (input and output), apply
	* this effect to the src path, returning the new path in dst, and return
	* true. If this effect cannot be applied, return false and ignore dst
	* and stroke-rec.
	*
	* The stroke-rec specifies the initial request for stroking (if any).
	* The effect can treat this as input only, or it can choose to change
	* the rec as well. For example, the effect can decide to change the
	* stroke's width or join, or the effect can change the rec from stroke
	* to fill (or fill to stroke) in addition to returning a new (dst) path.
	*
	* If this method returns true, the caller will apply (as needed) the
	* resulting stroke-rec to dst and then draw.
	*/
	bool filterPath(SkPath* dst, const SkPath& src, SkStrokeRec, const SkRect cullR) const;

	/**
	* Compute a conservative bounds for its effect, given the src bounds.
	* The baseline implementation just assigns src to dst.
	*/
	void computeFastBounds(SkRect* dst, const SkRect& src) const;

	/** \class PointData

	PointData aggregates all the information needed to draw the point
	primitives returned by an 'asPoints' call.
	*/
	class PointData {
	public:
	PointData()
	: fFlags(0)
	, fPoints(nullptr)
	, fNumPoints(0) {
	fSize.set(SK_Scalar1, SK_Scalar1);
	// 'asPoints' needs to initialize/fill-in 'fClipRect' if it sets
	// the kUseClip flag
	}
	~PointData() {
	delete [] fPoints;
	}

	// TODO: consider using passed-in flags to limit the work asPoints does.
	// For example, a kNoPath flag could indicate don't bother generating
	// stamped solutions.

	// Currently none of these flags are supported.
	enum PointFlags {
	kCircles_PointFlag = 0x01, // draw points as circles (instead of rects)
	kUsePath_PointFlag = 0x02, // draw points as stamps of the returned path
	kUseClip_PointFlag = 0x04, // apply 'fClipRect' before drawing the points
	};

	uint32_t fFlags; // flags that impact the drawing of the points
	SkPoint* fPoints; // the center point of each generated point
	int fNumPoints; // number of points in fPoints
	SkVector fSize; // the size to draw the points
	SkRect fClipRect; // clip required to draw the points (if kUseClip is set)
	SkPath fPath; // 'stamp' to be used at each point (if kUsePath is set)

	SkPath fFirst; // If not empty, contains geometry for first point
	SkPath fLast; // If not empty, contains geometry for last point
	};

	/**
	* Does applying this path effect to 'src' yield a set of points? If so,
	* optionally return the points in 'results'.
	*/
	bool asPoints(PointData* results, const SkPath& src,
	const SkStrokeRec&, const SkMatrix&,
	const SkRect* cullR) const;

	/**
	* If the PathEffect can be represented as a dash pattern, asADash will return kDash_DashType
	* and None otherwise. If a non NULL info is passed in, the various DashInfo will be filled
	* in if the PathEffect can be a dash pattern. If passed in info has an fCount equal or
	* greater to that of the effect, it will memcpy the values of the dash intervals into the
	* info. Thus the general approach will be call asADash once with default info to get DashType
	* and fCount. If effect can be represented as a dash pattern, allocate space for the intervals
	* in info, then call asADash again with the same info and the intervals will get copied in.
	*/

	enum DashType {
	kNone_DashType, //!< ignores the info parameter
	kDash_DashType, //!< fills in all of the info parameter
	};

	struct DashInfo {
	DashInfo() : fIntervals(nullptr), fCount(0), fPhase(0) {}
	DashInfo(SkScalar* intervals, int32_t count, SkScalar phase)
	: fIntervals(intervals), fCount(count), fPhase(phase) {}

	SkScalar* fIntervals; //!< Length of on/off intervals for dashed lines
	// Even values represent ons, and odds offs
	int32_t fCount; //!< Number of intervals in the dash. Should be even number
	SkScalar fPhase; //!< Offset into the dashed interval pattern
	// mod the sum of all intervals
	};

	DashType asADash(DashInfo* info) const;

	static void RegisterFlattenables();

	static SkFlattenable::Type GetFlattenableType() {
	return kSkPathEffect_Type;
	}

	SkFlattenable::Type getFlattenableType() const override {
	return kSkPathEffect_Type;
	}

	static sk_sp<SkPathEffect> Deserialize(const void* data, size_t size,
	const SkDeserialProcs* procs = nullptr) {
	return sk_sp<SkPathEffect>(static_cast<SkPathEffect*>(
	SkFlattenable::Deserialize(
	kSkPathEffect_Type, data, size, procs).release()));
	}

	protected:
	SkPathEffect() {}

	virtual bool onFilterPath(SkPath, const SkPath&, SkStrokeRec, const SkRect*) const = 0;
	virtual SkRect onComputeFastBounds(const SkRect& src) const {
	return src;
	}
	virtual bool onAsPoints(PointData*, const SkPath&, const SkStrokeRec&, const SkMatrix&,
	const SkRect*) const {
	return false;
	}
	virtual DashType onAsADash(DashInfo*) const {
	return kNone_DashType;
	}

	private:
	// illegal
	SkPathEffect(const SkPathEffect&);
	SkPathEffect& operator=(const SkPathEffect&);

	typedef SkFlattenable INHERITED;
	};

	#endif