Chinaunix首页 | 论坛 | 博客
  • 博客访问: 8700339
  • 博文数量: 1413
  • 博客积分: 11128
  • 博客等级: 上将
  • 技术积分: 14685
  • 用 户 组: 普通用户
  • 注册时间: 2006-03-13 10:03
个人简介

follow my heart...

文章分类

全部博文(1413)

文章存档

2013年(1)

2012年(5)

2011年(45)

2010年(176)

2009年(148)

2008年(190)

2007年(293)

2006年(555)

分类: C/C++

2006-09-22 09:08:10

摘自:http://www.gamedev.net/reference/articles/article2279.asp

Part One - Compression

This Sweet Snippet will show you how easy it can be to perform compression/decompression between data buffers in memory using the zlib library. We will go the easy route to get a simple example application going which will read in the contents of a file into memory, compress that data, and then write it back out to file. In the second part we will use the output from part one to decompress the data, then write it back out to disk so we can check the results.

What you will need:
-

Zlib provides two different functions for in-memory buffer-to-buffer compression so let's have a look at them. Located in zlib.h at line 876 you will find the following declaration:

int ZEXPORT compress(Bytef* dest, uLongf *destLen, const Bytef *source,
uLong SourceLen);
    dest - Pointer to the destination buffer where the compressed data will be written to.
    destLen - After the function has returned, this value will be the size in bytes of the destination buffer.
    source - Pointer to the source buffer which contains the data to be compressed.
    sourceLen - Length of the source data in bytes.

This function is pretty simple to use - pass it pointers to two memory buffers, one containing the source data and one empty buffer for the compressed data. But what if you'd like a little more control about exactly how the data is compressed? For that you would need to use the following function instead which is at line 891 in zlib.h:

int ZEXPORT compress2(Bytef *dest, uLongf *destLen, const Bytef *source,
uLong SourceLen, int level);

The parameters are identical to compress except for the addition of a new one: level. The value of this parameter will determine how the data is compressed - allowing you to achieve a trade-off between speed and compression ratio. The possible values are:

    Z_NO_COMPRESSION - data is not compressed.
    Z_BEST_SPEED - sacrifices compression ratio for improved speed.
    Z_BEST_COMPRESSION - gain improved compression ratios but at a cost of execution speed.
    Z_DEFAULT_COMPRESSION - this is a compromise between compression ratios and speed of execution.

Both of these functions will return Z_OK on success, otherwise an error code detailing a little more information about exactly why the call failed will be returned instead.

Now that you know what functions we can use, let's go through a simple example:

//input and output files
FILE *FileIn = fopen("FileIn.bmp", "rb");
FILE *FileOut = fopen("FileOut.dat", "wb");

//get the file size of the input file
fseek(FileIn, 0, SEEK_END);
unsigned long FileInSize = ftell(FileIn);

//buffers for the raw and compressed data
void *RawDataBuff = malloc(FileInSize);
void *CompDataBuff = NULL;


//zlib states that the source buffer must be at least 0.1
//times larger than the source buffer plus 12 bytes
//to cope with the overhead of zlib data streams

uLongf CompBuffSize = (uLongf)(FileInSize + (FileInSize * 0.1) + 12);
CompDataBuff = malloc((size_t)(CompBuffSize));

//read in the contents of the file into the source buffer
fseek(FileIn, 0, SEEK_SET);
fread(RawDataBuff, FileInSize, 1, FileIn);

//now compress the data
uLongf DestBuffSize;
compress2((Bytef*)CompDataBuff, (uLongf*)&DestBuffSize,
(const Bytef*)RawDataBuff, (uLongf)FileInSize, Z_BEST_COMPRESSION);

//write the compressed data to disk
fwrite(CompDataBuff, DestBuffSize, 1, FileOut);

I've not included any error checking in the above code for reasons of clarity; this is something you would obviously want to include in your own applications.

Part Two - Decompression

Having compressed data is of no use to anyone without a way of decompressing it back to the original form. Fortunately zlib provides the following utility function to decompress a data buffer in memory:

int uncompress(Bytef *dest, uLongf *destLen, const Bytef *source, uLongf sourceLen);
    dest - Pointer to the destination buffer where the decompressed data will be written to.
    destLen - After the function has returned, this value will be the size in bytes of the decompressed data.
    source - Pointer to the source buffer which contains the data to be decompressed.
    sourceLen - Length of the compressed data buffer in bytes

Unlike its compression counterpart, there is only a single version of the decompression function since there is not much customisation you can apply to decompression - you generally want the function to operate as fast as possible. The uncompress function returns the same set of values as its compression counterparts regarding success and failures.

Now let's move onto an example of how to use the above function to decompress the data from the file in part one before writing the original contents back out to disk:

//the input file, this is the output file from part one
FILE *FileIn = fopen("FileOut.dat", "rb");

//output file
FILE *FileOut = fopen("OrigFile.bmp", "wb");

//get the file size of the input file
fseek(FileIn, 0, SEEK_END);
unsigned long FileInSize = ftell(FileIn);

//buffers for the raw and uncompressed data
void *RawDataBuff = malloc(FileInSize);
void *UnCompDataBuff = NULL;

//read in the contents of the file into the source buffer
fseek(FileIn, 0, SEEK_SET);
fread(RawDataBuff, FileInSize, 1, FileIn);
//allocate a buffer big enough to hold the uncompressed data, we can cheat here
//because we know the file size of the original

uLongf UnCompSize = 482000;
UnCompDataBuff = malloc(UnCompSize);


//all data we require is ready so compress it into the source buffer, the exact
//size will be stored in UnCompSize

uncompress((Bytef*)UnCompDataBuff, &UnCompSize, (const Bytef*)RawDataBuff, FileInSize);

//write the decompressed data to disk
fwrite(UnCompDataBuff, UnCompSize, 1, FileOut);

Again error checking has been removed for this example; we also use a fixed file size for the uncompressed data since we know how big the original file is. Ideally you would want to store the size of the original uncompressed data along with the actual data itself for use when decompressing it.

That sums up compression between buffers in memory. The code for compression/decompression is ideally suitable for being as utility functions to hide away all those details of buffer allocation/checking return values etc.

阅读(769) | 评论(0) | 转发(0) |
给主人留下些什么吧!~~