src/core/SkDeviceLooper.h - skia - Git at Google

 /*
  * Copyright 2013 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SkDeviceLooper_DEFINED
 #define SkDeviceLooper_DEFINED

 #include "SkBitmap.h"
 #include "SkMatrix.h"
 #include "SkRasterClip.h"

 /**
  *  Helper class to manage "tiling" a large coordinate space into managable
  *  chunks, where managable means areas that are <= some max critical coordinate
  *  size.
  *
  *  The constructor takes an antialiasing bool, which affects what this maximum
  *  allowable size is: If we're drawing BW, then we need coordinates to stay
  *  safely within fixed-point range (we use +- 16K, to give ourselves room to
  *  add/subtract two fixed values and still be in range. If we're drawing AA,
  *  then we reduce that size by the amount that the supersampler scan converter
  *  needs (at the moment, that is 4X, so the "safe" range is +- 4K).
  *
  *  For performance reasons, the class first checks to see if any help is needed
  *  at all, and if not (i.e. the specified bounds and base bitmap area already
  *  in the safe-zone, then the class does nothing (effectively).
  */
 class SkDeviceLooper {
 public:
     SkDeviceLooper(const SkBitmap& base, const SkRasterClip&,
                    const SkIRect& bounds, bool aa);
     ~SkDeviceLooper();

     const SkBitmap& getBitmap() const {
         SkASSERT(kDone_State != fState);
         SkASSERT(fCurrBitmap);
         return *fCurrBitmap;
     }

     const SkRasterClip& getRC() const {
         SkASSERT(kDone_State != fState);
         SkASSERT(fCurrRC);
         return *fCurrRC;
     }

     void mapRect(SkRect* dst, const SkRect& src) const;
     void mapMatrix(SkMatrix* dst, const SkMatrix& src) const;

     /**
      *  Call next to setup the looper to return a valid coordinate chunk.
      *  Each time this returns true, it is safe to call mapRect() and
      *  mapMatrix(), to convert from "global" coordinate values to ones that
      *  are local to this chunk.
      *
      *  When next() returns false, the list of chunks is done, and mapRect()
      *  and mapMatrix() should no longer be called.
      */
     bool next();

 private:
     const SkBitmap&     fBaseBitmap;
     const SkRasterClip& fBaseRC;

     enum State {
         kDone_State,    // iteration is complete, getters will assert
         kSimple_State,  // no translate/clip mods needed
         kComplex_State
     };

     // storage for our tiled versions. Perhaps could use SkTLazy
     SkBitmap            fSubsetBitmap;
     SkRasterClip        fSubsetRC;

     const SkBitmap*     fCurrBitmap;
     const SkRasterClip* fCurrRC;
     SkIRect             fClippedBounds;
     SkIPoint            fCurrOffset;
     int                 fDelta;
     State               fState;

     enum Delta {
         kBW_Delta = 1 << 14,        // 16K, gives room to spare for fixedpoint
         kAA_Delta = kBW_Delta >> 2  // supersample 4x
     };

     bool fitsInDelta(const SkIRect& r) const {
         return r.right() < fDelta && r.bottom() < fDelta;
     }

     bool computeCurrBitmapAndClip();
 };

 #endif
	/*
	* Copyright 2013 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SkDeviceLooper_DEFINED
	#define SkDeviceLooper_DEFINED

	#include "SkBitmap.h"
	#include "SkMatrix.h"
	#include "SkRasterClip.h"

	/**
	* Helper class to manage "tiling" a large coordinate space into managable
	* chunks, where managable means areas that are <= some max critical coordinate
	* size.
	*
	* The constructor takes an antialiasing bool, which affects what this maximum
	* allowable size is: If we're drawing BW, then we need coordinates to stay
	* safely within fixed-point range (we use +- 16K, to give ourselves room to
	* add/subtract two fixed values and still be in range. If we're drawing AA,
	* then we reduce that size by the amount that the supersampler scan converter
	* needs (at the moment, that is 4X, so the "safe" range is +- 4K).
	*
	* For performance reasons, the class first checks to see if any help is needed
	* at all, and if not (i.e. the specified bounds and base bitmap area already
	* in the safe-zone, then the class does nothing (effectively).
	*/
	class SkDeviceLooper {
	public:
	SkDeviceLooper(const SkBitmap& base, const SkRasterClip&,
	const SkIRect& bounds, bool aa);
	~SkDeviceLooper();

	const SkBitmap& getBitmap() const {
	SkASSERT(kDone_State != fState);
	SkASSERT(fCurrBitmap);
	return *fCurrBitmap;
	}

	const SkRasterClip& getRC() const {
	SkASSERT(kDone_State != fState);
	SkASSERT(fCurrRC);
	return *fCurrRC;
	}

	void mapRect(SkRect* dst, const SkRect& src) const;
	void mapMatrix(SkMatrix* dst, const SkMatrix& src) const;

	/**
	* Call next to setup the looper to return a valid coordinate chunk.
	* Each time this returns true, it is safe to call mapRect() and
	* mapMatrix(), to convert from "global" coordinate values to ones that
	* are local to this chunk.
	*
	* When next() returns false, the list of chunks is done, and mapRect()
	* and mapMatrix() should no longer be called.
	*/
	bool next();

	private:
	const SkBitmap& fBaseBitmap;
	const SkRasterClip& fBaseRC;

	enum State {
	kDone_State, // iteration is complete, getters will assert
	kSimple_State, // no translate/clip mods needed
	kComplex_State
	};

	// storage for our tiled versions. Perhaps could use SkTLazy
	SkBitmap fSubsetBitmap;
	SkRasterClip fSubsetRC;

	const SkBitmap* fCurrBitmap;
	const SkRasterClip* fCurrRC;
	SkIRect fClippedBounds;
	SkIPoint fCurrOffset;
	int fDelta;
	State fState;

	enum Delta {
	kBW_Delta = 1 << 14, // 16K, gives room to spare for fixedpoint
	kAA_Delta = kBW_Delta >> 2 // supersample 4x
	};

	bool fitsInDelta(const SkIRect& r) const {
	return r.right() < fDelta && r.bottom() < fDelta;
	}

	bool computeCurrBitmapAndClip();
	};

	#endif