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标题:编程一个程序,实现解压缩的目的
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小王00001
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编程一个程序,实现解压缩的目的
我编了一个程序,解压缩都可以运行,但是为什么把文件压缩之后,压缩包打不开,到底是哪里的问题?


#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <windows.h>


typedef struct node
{
    long    w;
    short   p,l,r;
}htnode,*htnp;

typedef struct huffman_code
{
    unsigned char len;
    unsigned char  *codestr;
}hufcode;

typedef char **huffmancode;

int initial_files(char *source_filename,FILE **inp,char *obj_filename,FILE **outp);

char *create_filename(char *source_filename,char* obj_filename);

int compress(char *source_filename,char *obj_filename);

long frequency_data(FILE *in,long fre[]);

int search_set(htnp ht,int n,int *s1, int *s2);

int create_hftree(long w[],int n,htnode ht[]);

int encode_hftree(htnp htp,int n,hufcode hc[]);

unsigned char chars_to_bits(const unsigned char chars[8]);

int write_compress_file(FILE *in,FILE *out,htnp ht,hufcode hc[],char* source_filename,long source_filesize);

int decompress(char *source_filename,char *obj_filename);

void get_mini_huffmantree(FILE* in,short mini_ht[][2]);

int write_decompress_file(FILE *in,FILE* out,short mini_ht[][2],long bits_pos,long obj_filesize);

int d_initial_files(char *source_filename,FILE **inp,char *obj_filename,FILE **outp);

main()
{
    int s;
    char filename[10];
   
   
    printf("1.压缩\n");
    printf("2.解压缩\n");
    printf("3.退出\n");
    scanf("%d",&s);
    while(s!=0)
    {
        getchar();
        switch(s)
        {
            case 1:
                puts("请输入待压缩文件路径:");
                gets(filename);
                compress(filename,NULL);
                break;
            case 2:
                puts("请输入待解压文件路径:");
                gets(filename);
                decompress(filename,NULL);
                break;
            default :
                printf("指令错误!请重新输入指令:\n");
        }
        puts(" ");
        printf("1.压缩\n");
        printf("2.解压缩\n");
        printf("3.退出\n");
        scanf("%d",&s);
    }
}


int initial_files(char *source_filename,FILE **inp,char *obj_filename,FILE **outp)
{
    if(fopen(source_filename,"rb")==NULL)
    {
        return -1;
    }

    if(obj_filename==NULL)
    {
        if((obj_filename=(char*)malloc(256*sizeof(char)))==NULL)
        {
            return -1;
        }                     
        create_filename(source_filename,obj_filename);
    }
    if(strcmp(source_filename,obj_filename)==0)
    {
        return -1;
    }
    printf("待压缩文件:%s,压缩文件:%s\n",source_filename,obj_filename);
    if((*outp=fopen(obj_filename,"wb"))==NULL)
    {
        return -1;
    }
    if((*inp=fopen(source_filename,"rb"))==NULL)
    {
        return -1;
    }
    free(obj_filename);
    return 0;
}
char *create_filename(char *source_filename,char* obj_filename)
{
    char *temp;
    if((temp=strrchr(source_filename,'.'))==NULL)
    {
        strcpy(obj_filename,source_filename);
        strcat(obj_filename,".zip");
    }
    else
    {
        strncpy(obj_filename,source_filename,temp-source_filename);
        obj_filename[temp-source_filename]='\0';
        strcat(obj_filename,".zip");
    }
    return obj_filename;
}

int compress(char *source_filename,char *obj_filename)
{
    FILE *in,*out;
    char ch;
    int error_code,i,j;
    float compress_rate;
    hufcode hc[256];
    htnode  ht[256*2-1];
    long frequency[256],source_filesize,obj_filesize=0;
    error_code=initial_files(source_filename,&in,obj_filename,&out);
    if(error_code!=0)
    {
        puts("文件打开失败!请重新输入文件路径:");
        return error_code;
    }
    source_filesize=frequency_data(in,frequency);   
    printf("文件大小 %ld 字节\n",source_filesize);
    error_code=create_hftree(frequency,256,ht);
    if(error_code!=0)
    {
        puts("建立哈夫曼树失败!");
        return error_code;
    }

    error_code=encode_hftree(ht,256,hc);
    if(error_code!=0)
    {
        puts("建立哈夫曼编码失败!");
        return error_code;
    }
    for(i=0;i<256;i++)
        obj_filesize+=frequency[i]*hc[i].len;
    obj_filesize=obj_filesize%8==0?obj_filesize/8:obj_filesize/8+1;
    for(i=0;i<256-1;i++)
        obj_filesize+=2*sizeof(short);
    obj_filesize+=strlen(source_filename)+1;
    obj_filesize+=sizeof(long);
    obj_filesize+=sizeof(unsigned int);
    compress_rate=(float)obj_filesize/source_filesize;
    printf("压缩文件大小:%ld字节,压缩比例:%.2lf%%\n",obj_filesize,compress_rate*100);
    error_code=write_compress_file(in,out,ht,hc,source_filename,source_filesize);
    if(error_code!=0)
    {
        puts("写入文件失败!");
        return error_code;
    }
    puts("压缩完成!");

    do{
        scanf("%s",&ch);
        switch(ch)
        {
            case 'Y':
                puts("以下是哈夫曼树:");
                for(i=256;i<256*2-2;i++)
                {
                    if(ht[i].w>0)
                        printf("%-10d%-10d%-10d%-10d%-10d\n",i,ht[i].w,ht[i].p,ht[i].l,ht[i].r);
                }
                puts("以下是哈夫曼编码:");   
                for(i=0;i<256;i++)
                {
                    if(frequency[i]==0)
                        i++;
                    else
                    {
                        printf("%d\t",frequency[i]);
                        for(j=0;j<hc[i].len;j++)
                            printf(" %d",hc[i].codestr[j]);
                        printf("\n");
                    }
                }
                break;
            case  'N':    break;
            default :
                printf("指令错误!请重新输入指令:\n");
        }
    }while(ch!='Y'&&ch!='N');
    fclose(in);
    fclose(out);
    for(i=0;i<256;i++)
    {
        free(hc[i].codestr);
    }
    return 0;
}

long frequency_data(FILE *in,long frequency[])
{
    int     i,read_len;
    unsigned char   buf[256];
    long    filesize;
     
    for(i=0;i<256;i++)
    {
        frequency[i]=0;
    }
    fseek(in,0L,SEEK_SET);
    read_len=256;     

    while(read_len==256)
    {
        read_len=fread(buf,1,256,in);
        for(i=0;i<read_len;i++)
        {
            frequency[*(buf+i)]++;
        }
    }
    for(i=0,filesize=0;i<256;i++)
    {
        filesize+=frequency[i];
    }

    return filesize;
}

int search_set(htnp ht,int n,int *s1, int *s2)
{
    int i,x;
    long minValue = 1000000,min = 0;
    for(x=0;x<n;x++)
    {
        if(ht[x].p==-1)  break;

    }
    for(i=0;i<n;i++)
    {
        if(ht[i].p==-1 && ht[i].w < minValue)
        {
            minValue = ht[i].w;
            min=i;
        }
    }
    *s1 = min;

    minValue = 1000000,min = 0;
    for(i=0;i<n;i++)
    {
        if(ht[i].p==-1 && ht[i].w < minValue && i != *s1)
        {
               minValue = ht[i].w;
            min=i;
        }
    }

    *s2 = min;
    return 1;
}

int create_hftree(long w[],int n,htnode ht[])
{
    int m,i,s1,s2;

    if (n<1)    return -1;
    m=2*n-1;
    if (ht==NULL)   return -1;
    for(i=0;i<n;i++)
    {
        ht[i].w=w[i];
        ht[i].p=ht[i].l=ht[i].r=-1;
    }  
    for(;i<m;i++)
    {
        ht[i].w=ht[i].p=ht[i].l=ht[i].r=-1;
    }

    for(i=n;i<m;i++)
    {
        search_set(ht,i,&s1,&s2);

        ht[s1].p = ht[s2].p = i;
        ht[i].l  = s1;
        ht[i].r = s2;
        ht[i].w  = ht[s1].w + ht[s2].w;
    }
    return 0;
}

int encode_hftree(htnp htp,int n,hufcode hc[])
{
    int i,j,p,codelen;
    unsigned char *code=(unsigned char*)malloc(n*sizeof(unsigned char));
     
    if (code==NULL) return -1;
    for(i=0;i<n;i++)
    {
        for(p=i,codelen=0;p!=2*n-2;p=htp[p].p,codelen++)
        {
            code[codelen]=(htp[htp[p].p].l==p?0:1);
        }        
        if((hc[i].codestr=(unsigned char *)malloc((codelen)*sizeof(unsigned char)))==NULL)
        {
            return -1;
        }
        hc[i].len=codelen;
        for(j=0;j<codelen;j++)
        {
            hc[i].codestr[j]=code[codelen-j-1];
        }
    }
    free(code);
    return 0;
}

unsigned char chars_to_bits(const unsigned char chars[8])
{
    int i;
    unsigned char bits=0;
    bits|=chars[0];
    for(i=1;i<8;++i)
    {
        bits<<=1;
        bits|=chars[i];      
    }
    return bits;
}

int write_compress_file(FILE *in,FILE *out,htnp ht,hufcode hc[],char* source_filename,long source_filesize)
{
    unsigned int    i,read_counter,write_counter,zip_head=0xFFFFFFFF;
    unsigned char   write_char_counter,code_char_counter,copy_char_counter,
            read_buf[256],write_buf[256],write_chars[8],filename_size=strlen(source_filename);
    hufcode *cur_hufcode;

    fseek(in,0L,SEEK_SET);
    fseek(out,0L,SEEK_SET);
    fwrite(&zip_head,sizeof(unsigned int),1,out);
    fwrite(&filename_size,sizeof(unsigned char),1,out);
    fwrite(source_filename,sizeof(char),filename_size,out);
    fwrite(&source_filesize,sizeof(long),1,out);
    for(i=256;i<256*2-1;i++)
    {
        fwrite(&(ht[i].l),sizeof(ht[i].l),1,out);
        fwrite(&(ht[i].r),sizeof(ht[i].r),1,out);
    }
    write_counter=write_char_counter=0;
    read_counter=256;
    while(read_counter==256)
    {
        read_counter=fread(read_buf,1,256,in);
        for(i=0;i<read_counter;i++)
        {
            cur_hufcode=&hc[read_buf[i]];
            code_char_counter=0;
            while(code_char_counter!=cur_hufcode->len)
            {
                copy_char_counter=  (8-write_char_counter > cur_hufcode->len-code_char_counter ?  
                                    cur_hufcode->len-code_char_counter : 8-write_char_counter);
                memcpy(write_chars+write_char_counter,cur_hufcode->codestr+code_char_counter,copy_char_counter);
                write_char_counter+=copy_char_counter;
                code_char_counter+=copy_char_counter;
                if(write_char_counter==8)
                {
                    write_char_counter=0;
                    write_buf[write_counter++]=chars_to_bits(write_chars);
                    if(write_counter==256)
                    {
                        fwrite(write_buf,1,256,out);
                        write_counter=0;
                    }
                }
            }
        }
         
    }
    fwrite(write_buf,1,write_counter,out);
    if(write_char_counter!=0)
    {
        write_char_counter=chars_to_bits(write_chars);
        fwrite(&write_char_counter,1,1,out);
    }
    return 0;
}

void get_mini_huffmantree(FILE* in,short mini_ht[][2])
{
    int i;
    for(i=0;i<256;i++)
    {
        mini_ht[i][0]=mini_ht[i][1]=-1;
    }
    fread(mini_ht[i],sizeof(short),2*(256-1),in);
}

int write_decompress_file(FILE *in,FILE* out,short mini_ht[][2],long bits_pos,long obj_filesize)
{
    long    cur_size;
    unsigned char   read_buf[256],write_buf[256],convert_bit;
    unsigned int    read_counter,write_counter,cur_pos;
     

    fseek(in,bits_pos,SEEK_SET);
    fseek(out,0L,SEEK_SET);
    read_counter=256-1;
    cur_size=write_counter=0;
    cur_pos=256*2-2;
    while(cur_size!=obj_filesize)
    {   
        if(++read_counter==256)
        {
            fread(read_buf,1,256,in);
            read_counter=0;
        }
        for(convert_bit=128;convert_bit!=0;convert_bit>>=1)
        {
            cur_pos=((read_buf[read_counter]&convert_bit)==0?mini_ht[cur_pos][0]:mini_ht[cur_pos][1]);
            if(cur_pos<256)
            {
                write_buf[write_counter]=(unsigned char)cur_pos;
                if(++write_counter==256)
                {
                    fwrite(write_buf,1,256,out);
                    write_counter=0;
                }
                cur_pos=256*2-2;
                if(++cur_size==obj_filesize)
                {
                    break;
                }
            }
        }

    }
    fwrite(write_buf,1,write_counter,out);
    return 0;
}

int decompress(char *source_filename,char *obj_filename)
{
    int     error_code;
    FILE    *in,*out;
    short   mini_ht[256*2-1][2];
    long    obj_filesize;

    error_code=d_initial_files(source_filename,&in,obj_filename,&out);
    if(error_code!=0)
    {
        puts("打开文件失败!请重新输入文件路径:");
        return error_code;
    }
    fread(&obj_filesize,sizeof(long),1,in);
    printf("解压文件大小:%ld字节\n",obj_filesize);
    get_mini_huffmantree(in,mini_ht);
    error_code=write_decompress_file(in,out,mini_ht,ftell(in),obj_filesize);
    if(error_code!=0)
    {
        puts("解压缩失败!");
        return error_code;
    }
    puts("解压缩完成!");
    fclose(in);
    fclose(out);
    return 0;
}

int d_initial_files(char *source_filename,FILE **inp,char *obj_filename,FILE **outp)
{
    unsigned int    zip_head;
    unsigned char   filename_size;     
    if ((*inp=fopen(source_filename,"rb"))==NULL)
    {
        return -1;
    }
    printf("待解压缩文件:%s,",source_filename);
    fread(&zip_head,sizeof(unsigned int),1,*inp);
    if(zip_head!=0xFFFFFFFF)
    {
        return -1;
    }
    if(obj_filename==NULL)
    {
        if((obj_filename=(char*)malloc(256*sizeof(char)))==NULL)
        {
            return -1;
        }
        fread(&filename_size,sizeof(unsigned char),1,*inp);
        fread(obj_filename,sizeof(char),filename_size,*inp);
        obj_filename[filename_size]='\0';
    }
    else
    {
        fread(&filename_size,sizeof(unsigned char),1,*inp);
        fseek(*inp,filename_size,SEEK_CUR);
    }
    printf("解压缩文件:%s\n",obj_filename);
    if((*outp=fopen(obj_filename,"wb"))==NULL)
    {
        return -1;
    }
    free(obj_filename);
    return 0;
   
}
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能弄哈夫曼树的,表示佩服!
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快速回复:编程一个程序,实现解压缩的目的
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