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

 /*
  * Copyright 2014 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SkTextBlob_DEFINED
 #define SkTextBlob_DEFINED

 #include "../private/SkTemplates.h"
 #include "../private/SkAtomics.h"
 #include "SkPaint.h"
 #include "SkString.h"
 #include "SkRefCnt.h"

 class SkReadBuffer;
 class SkWriteBuffer;

 /** \class SkTextBlob

     SkTextBlob combines multiple text runs into an immutable, ref-counted structure.
 */
 class SK_API SkTextBlob final : public SkNVRefCnt<SkTextBlob> {
 public:
     /**
      *  Returns a conservative blob bounding box.
      */
     const SkRect& bounds() const { return fBounds; }

     /**
      *  Return a non-zero, unique value representing the text blob.
      */
     uint32_t uniqueID() const { return fUniqueID; }

     /**
      *  Serialize to a buffer.
      */
     void flatten(SkWriteBuffer&) const;

     /**
      *  Recreate an SkTextBlob that was serialized into a buffer.
      *
      *  @param  SkReadBuffer Serialized blob data.
      *  @return A new SkTextBlob representing the serialized data, or NULL if the buffer is
      *          invalid.
      */
     static sk_sp<SkTextBlob> MakeFromBuffer(SkReadBuffer&);

     static const SkTextBlob* CreateFromBuffer(SkReadBuffer& buffer) {
         return MakeFromBuffer(buffer).release();
     }

     enum GlyphPositioning : uint8_t {
         kDefault_Positioning      = 0, // Default glyph advances -- zero scalars per glyph.
         kHorizontal_Positioning   = 1, // Horizontal positioning -- one scalar per glyph.
         kFull_Positioning         = 2  // Point positioning -- two scalars per glyph.
     };

 private:
     friend class SkNVRefCnt<SkTextBlob>;
     class RunRecord;

     explicit SkTextBlob(const SkRect& bounds);

     ~SkTextBlob();

     // Memory for objects of this class is created with sk_malloc rather than operator new and must
     // be freed with sk_free.
     void operator delete(void* p) { sk_free(p); }
     void* operator new(size_t) {
         SkFAIL("All blobs are created by placement new.");
         return sk_malloc_throw(0);
     }
     void* operator new(size_t, void* p) { return p; }

     static unsigned ScalarsPerGlyph(GlyphPositioning pos);

     // Call when this blob is part of the key to a cache entry. This allows the cache
     // to know automatically those entries can be purged when this SkTextBlob is deleted.
     void notifyAddedToCache() const {
         fAddedToCache.store(true);
     }

     friend class GrTextBlobCache;
     friend class SkTextBlobBuilder;
     friend class SkTextBlobRunIterator;

     const SkRect           fBounds;
     const uint32_t         fUniqueID;
     mutable SkAtomic<bool> fAddedToCache;

     SkDEBUGCODE(size_t fStorageSize;)

     // The actual payload resides in externally-managed storage, following the object.
     // (see the .cpp for more details)

     typedef SkRefCnt INHERITED;
 };

 /** \class SkTextBlobBuilder

     Helper class for constructing SkTextBlobs.
  */
 class SK_API SkTextBlobBuilder {
 public:
     SkTextBlobBuilder();

     ~SkTextBlobBuilder();

     /**
      *  Returns an immutable SkTextBlob for the current runs/glyphs,
      *  or nullptr if no runs were allocated.
      *
      *  The builder is reset and can be reused.
      */
     sk_sp<SkTextBlob> make();

     /**
      *  Glyph and position buffers associated with a run.
      *
      *  A run is a sequence of glyphs sharing the same font metrics
      *  and positioning mode.
      *
      *  If textByteCount is 0, utf8text and clusters will be NULL (no
      *  character information will be associated with the glyphs).
      *
      *  utf8text will point to a buffer of size textByteCount bytes.
      *
      *  clusters (if not NULL) will point to an array of size count.
      *  For each glyph, give the byte-offset into the text for the
      *  first byte in the first character in that glyph's cluster.
      *  Each value in the array should be an integer less than
      *  textByteCount.  Values in the array should either be
      *  monotonically increasing (left-to-right text) or monotonically
      *  decreasing (right-to-left text).  This definiton is conviently
      *  the same as used by Harfbuzz's hb_glyph_info_t::cluster field,
      *  except that Harfbuzz interleaves glyphs and clusters.
      */
     struct RunBuffer {
         SkGlyphID* glyphs;
         SkScalar* pos;
         char* utf8text;
         uint32_t* clusters;
     };

     /**
      *  Allocates a new default-positioned run and returns its writable glyph buffer
      *  for direct manipulation.
      *
      *  @param font    The font to be used for this run.
      *  @param count   Number of glyphs.
      *  @param x,y     Position within the blob.
      *  @param textByteCount length of the original UTF-8 text that
      *                 corresponds to this sequence of glyphs.  If 0,
      *                 text will not be included in the textblob.
      *  @param lang    Language code, currently unimplemented.
      *  @param bounds  Optional run bounding box. If known in advance (!= NULL), it will
      *                 be used when computing the blob bounds, to avoid re-measuring.
      *
      *  @return        A writable glyph buffer, valid until the next allocRun() or
      *                 build() call. The buffer is guaranteed to hold @count@ glyphs.
      */
     const RunBuffer& allocRunText(const SkPaint& font,
                                   int count,
                                   SkScalar x,
                                   SkScalar y,
                                   int textByteCount,
                                   SkString lang,
                                   const SkRect* bounds = NULL);
     const RunBuffer& allocRun(const SkPaint& font, int count, SkScalar x, SkScalar y,
                               const SkRect* bounds = NULL) {
         return this->allocRunText(font, count, x, y, 0, SkString(), bounds);
     }

     /**
      *  Allocates a new horizontally-positioned run and returns its writable glyph and position
      *  buffers for direct manipulation.
      *
      *  @param font    The font to be used for this run.
      *  @param count   Number of glyphs.
      *  @param y       Vertical offset within the blob.
      *  @param textByteCount length of the original UTF-8 text that
      *                 corresponds to this sequence of glyphs.  If 0,
      *                 text will not be included in the textblob.
      *  @param lang    Language code, currently unimplemented.
      *  @param bounds  Optional run bounding box. If known in advance (!= NULL), it will
      *                 be used when computing the blob bounds, to avoid re-measuring.
      *
      *  @return        Writable glyph and position buffers, valid until the next allocRun()
      *                 or build() call. The buffers are guaranteed to hold @count@ elements.
      */
     const RunBuffer& allocRunTextPosH(const SkPaint& font, int count, SkScalar y,
                                       int textByteCount, SkString lang,
                                       const SkRect* bounds = NULL);
     const RunBuffer& allocRunPosH(const SkPaint& font, int count, SkScalar y,
                                   const SkRect* bounds = NULL) {
         return this->allocRunTextPosH(font, count, y, 0, SkString(), bounds);
     }

     /**
      *  Allocates a new fully-positioned run and returns its writable glyph and position
      *  buffers for direct manipulation.
      *
      *  @param font   The font to be used for this run.
      *  @param count  Number of glyphs.
      *  @param textByteCount length of the original UTF-8 text that
      *                 corresponds to this sequence of glyphs.  If 0,
      *                 text will not be included in the textblob.
      *  @param lang    Language code, currently unimplemented.
      *  @param bounds Optional run bounding box. If known in advance (!= NULL), it will
      *                be used when computing the blob bounds, to avoid re-measuring.
      *
      *  @return       Writable glyph and position buffers, valid until the next allocRun()
      *                or build() call. The glyph buffer and position buffer are
      *                guaranteed to hold @count@ and 2 * @count@ elements, respectively.
      */
     const RunBuffer& allocRunTextPos(const SkPaint& font, int count,
                                      int textByteCount, SkString lang,
                                      const SkRect* bounds = NULL);
     const RunBuffer& allocRunPos(const SkPaint& font, int count,
                                  const SkRect* bounds = NULL) {
         return this->allocRunTextPos(font, count, 0, SkString(), bounds);
     }

 private:
     void reserve(size_t size);
     void allocInternal(const SkPaint& font, SkTextBlob::GlyphPositioning positioning,
                        int count, int textBytes, SkPoint offset, const SkRect* bounds);
     bool mergeRun(const SkPaint& font, SkTextBlob::GlyphPositioning positioning,
                   int count, SkPoint offset);
     void updateDeferredBounds();

     static SkRect ConservativeRunBounds(const SkTextBlob::RunRecord&);
     static SkRect TightRunBounds(const SkTextBlob::RunRecord&);

     SkAutoTMalloc<uint8_t> fStorage;
     size_t                 fStorageSize;
     size_t                 fStorageUsed;

     SkRect                 fBounds;
     int                    fRunCount;
     bool                   fDeferredBounds;
     size_t                 fLastRun; // index into fStorage

     RunBuffer              fCurrentRunBuffer;
 };

 #endif // SkTextBlob_DEFINED
	/*
	* Copyright 2014 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SkTextBlob_DEFINED
	#define SkTextBlob_DEFINED

	#include "../private/SkTemplates.h"
	#include "../private/SkAtomics.h"
	#include "SkPaint.h"
	#include "SkString.h"
	#include "SkRefCnt.h"

	class SkReadBuffer;
	class SkWriteBuffer;

	/** \class SkTextBlob

	SkTextBlob combines multiple text runs into an immutable, ref-counted structure.
	*/
	class SK_API SkTextBlob final : public SkNVRefCnt<SkTextBlob> {
	public:
	/**
	* Returns a conservative blob bounding box.
	*/
	const SkRect& bounds() const { return fBounds; }

	/**
	* Return a non-zero, unique value representing the text blob.
	*/
	uint32_t uniqueID() const { return fUniqueID; }

	/**
	* Serialize to a buffer.
	*/
	void flatten(SkWriteBuffer&) const;

	/**
	* Recreate an SkTextBlob that was serialized into a buffer.
	*
	* @param SkReadBuffer Serialized blob data.
	* @return A new SkTextBlob representing the serialized data, or NULL if the buffer is
	* invalid.
	*/
	static sk_sp<SkTextBlob> MakeFromBuffer(SkReadBuffer&);

	static const SkTextBlob* CreateFromBuffer(SkReadBuffer& buffer) {
	return MakeFromBuffer(buffer).release();
	}

	enum GlyphPositioning : uint8_t {
	kDefault_Positioning = 0, // Default glyph advances -- zero scalars per glyph.
	kHorizontal_Positioning = 1, // Horizontal positioning -- one scalar per glyph.
	kFull_Positioning = 2 // Point positioning -- two scalars per glyph.
	};

	private:
	friend class SkNVRefCnt<SkTextBlob>;
	class RunRecord;

	explicit SkTextBlob(const SkRect& bounds);

	~SkTextBlob();

	// Memory for objects of this class is created with sk_malloc rather than operator new and must
	// be freed with sk_free.
	void operator delete(void* p) { sk_free(p); }
	void* operator new(size_t) {
	SkFAIL("All blobs are created by placement new.");
	return sk_malloc_throw(0);
	}
	void* operator new(size_t, void* p) { return p; }

	static unsigned ScalarsPerGlyph(GlyphPositioning pos);

	// Call when this blob is part of the key to a cache entry. This allows the cache
	// to know automatically those entries can be purged when this SkTextBlob is deleted.
	void notifyAddedToCache() const {
	fAddedToCache.store(true);
	}

	friend class GrTextBlobCache;
	friend class SkTextBlobBuilder;
	friend class SkTextBlobRunIterator;

	const SkRect fBounds;
	const uint32_t fUniqueID;
	mutable SkAtomic<bool> fAddedToCache;

	SkDEBUGCODE(size_t fStorageSize;)

	// The actual payload resides in externally-managed storage, following the object.
	// (see the .cpp for more details)

	typedef SkRefCnt INHERITED;
	};

	/** \class SkTextBlobBuilder

	Helper class for constructing SkTextBlobs.
	*/
	class SK_API SkTextBlobBuilder {
	public:
	SkTextBlobBuilder();

	~SkTextBlobBuilder();

	/**
	* Returns an immutable SkTextBlob for the current runs/glyphs,
	* or nullptr if no runs were allocated.
	*
	* The builder is reset and can be reused.
	*/
	sk_sp<SkTextBlob> make();

	/**
	* Glyph and position buffers associated with a run.
	*
	* A run is a sequence of glyphs sharing the same font metrics
	* and positioning mode.
	*
	* If textByteCount is 0, utf8text and clusters will be NULL (no
	* character information will be associated with the glyphs).
	*
	* utf8text will point to a buffer of size textByteCount bytes.
	*
	* clusters (if not NULL) will point to an array of size count.
	* For each glyph, give the byte-offset into the text for the
	* first byte in the first character in that glyph's cluster.
	* Each value in the array should be an integer less than
	* textByteCount. Values in the array should either be
	* monotonically increasing (left-to-right text) or monotonically
	* decreasing (right-to-left text). This definiton is conviently
	* the same as used by Harfbuzz's hb_glyph_info_t::cluster field,
	* except that Harfbuzz interleaves glyphs and clusters.
	*/
	struct RunBuffer {
	SkGlyphID* glyphs;
	SkScalar* pos;
	char* utf8text;
	uint32_t* clusters;
	};

	/**
	* Allocates a new default-positioned run and returns its writable glyph buffer
	* for direct manipulation.
	*
	* @param font The font to be used for this run.
	* @param count Number of glyphs.
	* @param x,y Position within the blob.
	* @param textByteCount length of the original UTF-8 text that
	* corresponds to this sequence of glyphs. If 0,
	* text will not be included in the textblob.
	* @param lang Language code, currently unimplemented.
	* @param bounds Optional run bounding box. If known in advance (!= NULL), it will
	* be used when computing the blob bounds, to avoid re-measuring.
	*
	* @return A writable glyph buffer, valid until the next allocRun() or
	* build() call. The buffer is guaranteed to hold @count@ glyphs.
	*/
	const RunBuffer& allocRunText(const SkPaint& font,
	int count,
	SkScalar x,
	SkScalar y,
	int textByteCount,
	SkString lang,
	const SkRect* bounds = NULL);
	const RunBuffer& allocRun(const SkPaint& font, int count, SkScalar x, SkScalar y,
	const SkRect* bounds = NULL) {
	return this->allocRunText(font, count, x, y, 0, SkString(), bounds);
	}

	/**
	* Allocates a new horizontally-positioned run and returns its writable glyph and position
	* buffers for direct manipulation.
	*
	* @param font The font to be used for this run.
	* @param count Number of glyphs.
	* @param y Vertical offset within the blob.
	* @param textByteCount length of the original UTF-8 text that
	* corresponds to this sequence of glyphs. If 0,
	* text will not be included in the textblob.
	* @param lang Language code, currently unimplemented.
	* @param bounds Optional run bounding box. If known in advance (!= NULL), it will
	* be used when computing the blob bounds, to avoid re-measuring.
	*
	* @return Writable glyph and position buffers, valid until the next allocRun()
	* or build() call. The buffers are guaranteed to hold @count@ elements.
	*/
	const RunBuffer& allocRunTextPosH(const SkPaint& font, int count, SkScalar y,
	int textByteCount, SkString lang,
	const SkRect* bounds = NULL);
	const RunBuffer& allocRunPosH(const SkPaint& font, int count, SkScalar y,
	const SkRect* bounds = NULL) {
	return this->allocRunTextPosH(font, count, y, 0, SkString(), bounds);
	}

	/**
	* Allocates a new fully-positioned run and returns its writable glyph and position
	* buffers for direct manipulation.
	*
	* @param font The font to be used for this run.
	* @param count Number of glyphs.
	* @param textByteCount length of the original UTF-8 text that
	* corresponds to this sequence of glyphs. If 0,
	* text will not be included in the textblob.
	* @param lang Language code, currently unimplemented.
	* @param bounds Optional run bounding box. If known in advance (!= NULL), it will
	* be used when computing the blob bounds, to avoid re-measuring.
	*
	* @return Writable glyph and position buffers, valid until the next allocRun()
	* or build() call. The glyph buffer and position buffer are
	* guaranteed to hold @count@ and 2 * @count@ elements, respectively.
	*/
	const RunBuffer& allocRunTextPos(const SkPaint& font, int count,
	int textByteCount, SkString lang,
	const SkRect* bounds = NULL);
	const RunBuffer& allocRunPos(const SkPaint& font, int count,
	const SkRect* bounds = NULL) {
	return this->allocRunTextPos(font, count, 0, SkString(), bounds);
	}

	private:
	void reserve(size_t size);
	void allocInternal(const SkPaint& font, SkTextBlob::GlyphPositioning positioning,
	int count, int textBytes, SkPoint offset, const SkRect* bounds);
	bool mergeRun(const SkPaint& font, SkTextBlob::GlyphPositioning positioning,
	int count, SkPoint offset);
	void updateDeferredBounds();

	static SkRect ConservativeRunBounds(const SkTextBlob::RunRecord&);
	static SkRect TightRunBounds(const SkTextBlob::RunRecord&);

	SkAutoTMalloc<uint8_t> fStorage;
	size_t fStorageSize;
	size_t fStorageUsed;

	SkRect fBounds;
	int fRunCount;
	bool fDeferredBounds;
	size_t fLastRun; // index into fStorage

	RunBuffer fCurrentRunBuffer;
	};

	#endif // SkTextBlob_DEFINED