include/core/SkWriter32.h - platform/external/skia - Git at Google


 /*
  * Copyright 2008 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 SkWriter32_DEFINED
 #define SkWriter32_DEFINED

 #include "SkTypes.h"

 #include "SkScalar.h"
 #include "SkPoint.h"
 #include "SkRect.h"

 class SkStream;
 class SkWStream;

 class SkWriter32 : SkNoncopyable {
 public:
     SkWriter32(size_t minSize)
         : fMinSize(minSize),
           fSize(0),
           fSingleBlock(NULL),
           fSingleBlockSize(0),
           fHead(NULL),
           fTail(NULL) {
     }
     ~SkWriter32();

     /**
      *  Returns the single block backing the writer, or NULL if the memory is
      *  to be dynamically allocated.
      */
     void* getSingleBlock() const { return fSingleBlock; }

     /**
      *  Specify the single block to back the writer, rathern than dynamically
      *  allocating the memory. If block == NULL, then the writer reverts to
      *  dynamic allocation (and resets).
      */
     void reset(void* block, size_t size);

     bool writeBool(bool value) {
         this->writeInt(value);
         return value;
     }

     void writeInt(int32_t value) {
         *(int32_t*)this->reserve(sizeof(value)) = value;
     }

     void write8(int32_t value) {
         *(int32_t*)this->reserve(sizeof(value)) = value & 0xFF;
     }

     void write16(int32_t value) {
         *(int32_t*)this->reserve(sizeof(value)) = value & 0xFFFF;
     }

     void write32(int32_t value) {
         *(int32_t*)this->reserve(sizeof(value)) = value;
     }

     void writeScalar(SkScalar value) {
         *(SkScalar*)this->reserve(sizeof(value)) = value;
     }

     void writePoint(const SkPoint& pt) {
         *(SkPoint*)this->reserve(sizeof(pt)) = pt;
     }

     void writeRect(const SkRect& rect) {
         *(SkRect*)this->reserve(sizeof(rect)) = rect;
     }

     // write count bytes (must be a multiple of 4)
     void writeMul4(const void* values, size_t size) {
         this->write(values, size);
     }

     /**
      *  Write size bytes from values. size must be a multiple of 4, though
      *  values need not be 4-byte aligned.
      */
     void write(const void* values, size_t size) {
         SkASSERT(SkAlign4(size) == size);
         // if we could query how much is avail in the current block, we might
         // copy that much, and then alloc the rest. That would reduce the waste
         // in the current block
         memcpy(this->reserve(size), values, size);
     }

     void writePad(const void* src, size_t size);

     /**
      *  Writes a string to the writer, which can be retrieved with
      *  SkReader32::readString().
      *  The length can be specified, or if -1 is passed, it will be computed by
      *  calling strlen(). The length must be < 0xFFFF
      */
     void writeString(const char* str, size_t len = (size_t)-1);

     /**
      *  Computes the size (aligned to multiple of 4) need to write the string
      *  in a call to writeString(). If the length is not specified, it will be
      *  computed by calling strlen().
      */
     static size_t WriteStringSize(const char* str, size_t len = (size_t)-1);

     // return the current offset (will always be a multiple of 4)
     uint32_t  size() const { return fSize; }
     void      reset();
     uint32_t* reserve(size_t size); // size MUST be multiple of 4

     // return the address of the 4byte int at the specified offset (which must
     // be a multiple of 4. This does not allocate any new space, so the returned
     // address is only valid for 1 int.
     uint32_t* peek32(size_t offset);

     // copy into a single buffer (allocated by caller). Must be at least size()
     void flatten(void* dst) const;

     // read from the stream, and write up to length bytes. Return the actual
     // number of bytes written.
     size_t readFromStream(SkStream*, size_t length);

     bool writeToStream(SkWStream*);

 private:
     size_t      fMinSize;
     uint32_t    fSize;

     char*       fSingleBlock;
     uint32_t    fSingleBlockSize;

     struct Block;
     Block*  fHead;
     Block*  fTail;

     Block* newBlock(size_t bytes);
 };

 #endif

	/*
	* Copyright 2008 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 SkWriter32_DEFINED
	#define SkWriter32_DEFINED

	#include "SkTypes.h"

	#include "SkScalar.h"
	#include "SkPoint.h"
	#include "SkRect.h"

	class SkStream;
	class SkWStream;

	class SkWriter32 : SkNoncopyable {
	public:
	SkWriter32(size_t minSize)
	: fMinSize(minSize),
	fSize(0),
	fSingleBlock(NULL),
	fSingleBlockSize(0),
	fHead(NULL),
	fTail(NULL) {
	}
	~SkWriter32();

	/**
	* Returns the single block backing the writer, or NULL if the memory is
	* to be dynamically allocated.
	*/
	void* getSingleBlock() const { return fSingleBlock; }

	/**
	* Specify the single block to back the writer, rathern than dynamically
	* allocating the memory. If block == NULL, then the writer reverts to
	* dynamic allocation (and resets).
	*/
	void reset(void* block, size_t size);

	bool writeBool(bool value) {
	this->writeInt(value);
	return value;
	}

	void writeInt(int32_t value) {
	(int32_t)this->reserve(sizeof(value)) = value;
	}

	void write8(int32_t value) {
	(int32_t)this->reserve(sizeof(value)) = value & 0xFF;
	}

	void write16(int32_t value) {
	(int32_t)this->reserve(sizeof(value)) = value & 0xFFFF;
	}

	void write32(int32_t value) {
	(int32_t)this->reserve(sizeof(value)) = value;
	}

	void writeScalar(SkScalar value) {
	(SkScalar)this->reserve(sizeof(value)) = value;
	}

	void writePoint(const SkPoint& pt) {
	(SkPoint)this->reserve(sizeof(pt)) = pt;
	}

	void writeRect(const SkRect& rect) {
	(SkRect)this->reserve(sizeof(rect)) = rect;
	}

	// write count bytes (must be a multiple of 4)
	void writeMul4(const void* values, size_t size) {
	this->write(values, size);
	}

	/**
	* Write size bytes from values. size must be a multiple of 4, though
	* values need not be 4-byte aligned.
	*/
	void write(const void* values, size_t size) {
	SkASSERT(SkAlign4(size) == size);
	// if we could query how much is avail in the current block, we might
	// copy that much, and then alloc the rest. That would reduce the waste
	// in the current block
	memcpy(this->reserve(size), values, size);
	}

	void writePad(const void* src, size_t size);

	/**
	* Writes a string to the writer, which can be retrieved with
	* SkReader32::readString().
	* The length can be specified, or if -1 is passed, it will be computed by
	* calling strlen(). The length must be < 0xFFFF
	*/
	void writeString(const char* str, size_t len = (size_t)-1);

	/**
	* Computes the size (aligned to multiple of 4) need to write the string
	* in a call to writeString(). If the length is not specified, it will be
	* computed by calling strlen().
	*/
	static size_t WriteStringSize(const char* str, size_t len = (size_t)-1);

	// return the current offset (will always be a multiple of 4)
	uint32_t size() const { return fSize; }
	void reset();
	uint32_t* reserve(size_t size); // size MUST be multiple of 4

	// return the address of the 4byte int at the specified offset (which must
	// be a multiple of 4. This does not allocate any new space, so the returned
	// address is only valid for 1 int.
	uint32_t* peek32(size_t offset);

	// copy into a single buffer (allocated by caller). Must be at least size()
	void flatten(void* dst) const;

	// read from the stream, and write up to length bytes. Return the actual
	// number of bytes written.
	size_t readFromStream(SkStream*, size_t length);

	bool writeToStream(SkWStream*);

	private:
	size_t fMinSize;
	uint32_t fSize;

	char* fSingleBlock;
	uint32_t fSingleBlockSize;

	struct Block;
	Block* fHead;
	Block* fTail;

	Block* newBlock(size_t bytes);
	};

	#endif