我希望改变LZW压缩器,使其能够搜索LZW编码文件中的单词,并查找该搜索词的匹配数。 例如,如果我的文件用作
Prompt:>lzw "searchterm" encoded_file.lzw
32
关于如何实现这一点的任何建议?
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define BITS 12 /* Setting the number of bits to 12, 13*/
#define HASHING_SHIFT (BITS-8) /* or 14 affects several constants. */
#define MAX_VALUE (1 << BITS) - 1 /* Note that MS-DOS machines need to */
#define MAX_CODE MAX_VALUE - 1 /* compile their code in large model if*/
/* 14 bits are selected. */
#if BITS == 16
#define TABLE_SIZE 99991
#endif
#if BITS == 14
#define TABLE_SIZE 18041 /* The string table size needs to be a */
#endif /* prime number that is somewhat larger*/
#if BITS == 13 /* than 2**BITS. */
#define TABLE_SIZE 9029
#endif
#if BITS <= 12
#define TABLE_SIZE 5021
#endif
void *malloc();
int *code_value; /* This is the code value array */
unsigned int *prefix_code; /* This array holds the prefix codes */
unsigned char *append_character; /* This array holds the appended chars */
unsigned char decode_stack[4000]; /* This array holds the decoded string */
/*
* Forward declarations
*/
void compress(FILE *input,FILE *output);
void expand(FILE *input,FILE *output);
int find_match(int hash_prefix,unsigned int hash_character);
void output_code(FILE *output,unsigned int code);
unsigned int input_code(FILE *input);
unsigned char *decode_string(unsigned char *buffer,unsigned int code);
/********************************************************************
**
** This program gets a file name from the command line. It compresses the
** file, placing its output in a file named test.lzw. It then expands
** test.lzw into test.out. Test.out should then be an exact duplicate of
** the input file.
**
*************************************************************************/
main(int argc, char *argv[])
{
FILE *input_file;
FILE *output_file;
FILE *lzw_file;
char input_file_name[81];
char command;
command=(argv==3);
/*
** The three buffers are needed for the compression phase.
*/
code_value=(int*)malloc(TABLE_SIZE*sizeof(int));
prefix_code=(unsigned int *)malloc(TABLE_SIZE*sizeof(unsigned int));
append_character=(unsigned char *)malloc(TABLE_SIZE*sizeof(unsigned char));
if (code_value==NULL || prefix_code==NULL || append_character==NULL)
{
printf("Fatal error allocating table space!\n");
exit(-1);
}
/*
** Get the file name, open it up, and open up the lzw output file.
*/
if (argc>1)
strcpy(input_file_name,argv[1]);
else
{
printf("Input file name? ");
scanf("%s",input_file_name);
}
input_file=fopen(input_file_name,"rb");
lzw_file=fopen("test.lzw","wb");
if (input_file==NULL || lzw_file==NULL)
{
printf("Fatal error opening files.\n");
exit(-1);
};
/*
** Compress the file.
*/
if(command=='r')
{
compress(input_file,lzw_file);
}
fclose(input_file);
fclose(lzw_file);
free(c-ode_value);
/*
** Now open the files for the expansion.
*/
lzw_file=fopen("test.lzw","rb");
output_file=fopen("test.out","wb");
if (lzw_file==NULL || output_file==NULL)
{
printf("Fatal error opening files.\n");
exit(-2);
};
/*
** Expand the file.
*/
expand(lzw_file,output_file);
fclose(lzw_file);
fclose(output_file);
free(prefix_code);
free(append_character);
}
/*
** This is the compression routine. The code should be a fairly close
** match to the algorithm accompanying the article.
**
*/
void compress(FILE *input,FILE *output)
{
unsigned int next_code;
unsigned int character;
unsigned int string_code;
unsigned int index;
int i;
next_code=256; /* Next code is the next available string code*/
for (i=0;i<TABLE_SIZE;i++) /* Clear out the string table before starting */
code_value[i]=-1;
i=0;
printf("Compressing...\n");
string_code=getc(input); /* Get the first code */
/*
** This is the main loop where it all happens. This loop runs util all of
** the input has been exhausted. Note that it stops adding codes to the
** table after all of the possible codes have been defined.
*/
while ((character=getc(input)) != (unsigned)EOF)
{
if (++i==1000) /* Print a * every 1000 */
{ /* input characters. This */
i=0; /* is just a pacifier. */
printf("*");
}
index=find_match(string_code,character);/* See if the string is in */
if (code_value[index] != -1) /* the table. If it is, */
string_code=code_value[index]; /* get the code value. If */
else /* the string is not in the*/
{ /* table, try to add it. */
if (next_code <= MAX_CODE)
{
code_value[index]=next_code++;
prefix_code[index]=string_code;
append_character[index]=character;
}
output_code(output,string_code); /* When a string is found */
string_code=character; /* that is not in the table*/
} /* I output the last string*/
} /* after adding the new one*/
/*
** End of the main loop.
*/
output_code(output,string_code); /* Output the last code */
output_code(output,MAX_VALUE); /* Output the end of buffer code */
output_code(output,0); /* This code flushes the output buffer*/
printf("\n");
}
/*
** This is the hashing routine. It tries to find a match for the prefix+char
** string in the string table. If it finds it, the index is returned. If
** the string is not found, the first available index in the string table is
** returned instead.
*/
int find_match(int hash_prefix,unsigned int hash_character)
{
int index;
int offset;
index = (hash_character << HASHING_SHIFT) ^ hash_prefix;
if (index == 0)
offset = 1;
else
offset = TABLE_SIZE - index;
while (1)
{
if (code_value[index] == -1)
return(index);
if (prefix_code[index] == hash_prefix &&
append_character[index] == hash_character)
return(index);
index -= offset;
if (index < 0)
index += TABLE_SIZE;
}
}
/*
** This is the expansion routine. It takes an LZW format file, and expands
** it to an output file. The code here should be a fairly close match to
** the algorithm in the accompanying article.
*/
void expand(FILE *input,FILE *output)
{
unsigned int next_code;
unsigned int new_code;
unsigned int old_code;
int character;
int counter;
unsigned char *string;
next_code=256; /* This is the next available code to define */
counter=0; /* Counter is used as a pacifier. */
printf("Expanding...\n");
old_code=input_code(input); /* Read in the first code, initialize the */
character=old_code; /* character variable, and send the first */
putc(old_code,output); /* code to the output file */
/*
** This is the main expansion loop. It reads in characters from the LZW file
** until it sees the special code used to inidicate the end of the data.
*/
while ((new_code=input_code(input)) != (MAX_VALUE))
{
if (++counter==1000) /* This section of code prints out */
{ /* an asterisk every 1000 characters */
counter=0; /* It is just a pacifier. */
printf("*");
}
/*
** This code checks for the special STRING+CHARACTER+STRING+CHARACTER+STRING
** case which generates an undefined code. It handles it by decoding
** the last code, and adding a single character to the end of the decode string.
*/
if (new_code>=next_code)
{
*decode_stack=character;
string=decode_string(decode_stack+1,old_code);
}
/*
** Otherwise we do a straight decode of the new code.
*/
else
string=decode_string(decode_stack,new_code);
/*
** Now we output the decoded string in reverse order.
*/
character=*string;
while (string >= decode_stack)
putc(*string--,output);
/*
** Finally, if possible, add a new code to the string table.
*/
if (next_code <= MAX_CODE)
{
prefix_code[next_code]=old_code;
append_character[next_code]=character;
next_code++;
}
old_code=new_code;
}
printf("\n");
}
/*
** This routine simply decodes a string from the string table, storing
** it in a buffer. The buffer can then be output in reverse order by
** the expansion program.
*/
unsigned char *decode_string(unsigned char *buffer,unsigned int code)
{
int i;
i=0;
while (code > 255)
{
*buffer++ = append_character[code];
code=prefix_code[code];
if (i++>=MAX_CODE)
{
printf("Fatal error during code expansion.\n");
exit(-3);
}
}
*buffer=code;
return(buffer);
}
/*
** The following two routines are used to output variable length
** codes. They are written strictly for clarity, and are not
** particularyl efficient.
*/
unsigned int input_code(FILE *input)
{
unsigned int return_value;
static int input_bit_count=0;
static unsigned long input_bit_buffer=0L;
while (input_bit_count <= 24)
{
input_bit_buffer |=
(unsigned long) getc(input) << (24-input_bit_count);
input_bit_count += 8;
}
return_value=input_bit_buffer >> (32-BITS);
input_bit_buffer <<= BITS;
input_bit_count -= BITS;
return(return_value);
}
void output_code(FILE *output,unsigned int code)
{
static int output_bit_count=0;
static unsigned long output_bit_buffer=0L;
output_bit_buffer |= (unsigned long) code << (32-BITS-output_bit_count);
output_bit_count += BITS;
while (output_bit_count >= 8)
{
putc(output_bit_buffer >> 24,output);
output_bit_buffer <<= 8;
output_bit_count -= 8;
}
}
答案 0 :(得分:0)
这是一个关于直接在LZW压缩字节中进行正则表达式搜索的算法的文档:
http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.9.1434&rep=rep1&type=pdf
它包含对搜索精确字符串的有效算法的引用。