/** \file znzlib.c \brief Low level i/o interface to compressed and noncompressed files. Written by Mark Jenkinson, FMRIB This library provides an interface to both compressed (gzip/zlib) and uncompressed (normal) file IO. The functions are written to have the same interface as the standard file IO functions. To use this library instead of normal file IO, the following changes are required: - replace all instances of FILE* with znzFile - change the name of all function calls, replacing the initial character f with the znz (e.g. fseek becomes znzseek) one exception is rewind() -> znzrewind() - add a third parameter to all calls to znzopen (previously fopen) that specifies whether to use compression (1) or not (0) - use znz_isnull rather than any (pointer == NULL) comparisons in the code for znzfile types (normally done after a return from znzopen) NB: seeks for writable files with compression are quite restricted */ #include "znzlib.h" /* znzlib.c (zipped or non-zipped library) ***** This code is released to the public domain. ***** ***** Author: Mark Jenkinson, FMRIB Centre, University of Oxford ***** ***** Date: September 2004 ***** ***** Neither the FMRIB Centre, the University of Oxford, nor any of ***** ***** its employees imply any warranty of usefulness of this software ***** ***** for any purpose, and do not assume any liability for damages, ***** ***** incidental or otherwise, caused by any use of this document. ***** */ /* Note extra argument (use_compression) where use_compression==0 is no compression use_compression!=0 uses zlib (gzip) compression */ znzFile znzopen(const char *path, const char *mode, int use_compression) { znzFile file; file = (znzFile) calloc(1,sizeof(struct znzptr)); if( file == NULL ){ fprintf(stderr,"** ERROR: znzopen failed to alloc znzptr\n"); return NULL; } file->nzfptr = NULL; #ifdef HAVE_ZLIB file->zfptr = NULL; if (use_compression) { file->withz = 1; if((file->zfptr = gzopen(path,mode)) == NULL) { free(file); file = NULL; } } else { #endif file->withz = 0; if((file->nzfptr = fopen(path,mode)) == NULL) { free(file); file = NULL; } #ifdef HAVE_ZLIB } #endif return file; } znzFile znzdopen(int fd, const char *mode, int use_compression) { znzFile file; file = (znzFile) calloc(1,sizeof(struct znzptr)); if( file == NULL ){ fprintf(stderr,"** ERROR: znzdopen failed to alloc znzptr\n"); return NULL; } #ifdef HAVE_ZLIB if (use_compression) { file->withz = 1; file->zfptr = gzdopen(fd,mode); file->nzfptr = NULL; } else { #endif file->withz = 0; #ifdef HAVE_FDOPEN file->nzfptr = fdopen(fd,mode); #endif #ifdef HAVE_ZLIB file->zfptr = NULL; }; #endif return file; } int Xznzclose(znzFile * file) { int retval = 0; if (*file!=NULL) { #ifdef HAVE_ZLIB if ((*file)->zfptr!=NULL) { retval = gzclose((*file)->zfptr); } #endif if ((*file)->nzfptr!=NULL) { retval = fclose((*file)->nzfptr); } free(*file); *file = NULL; } return retval; } size_t znzread(void* buf, size_t size, size_t nmemb, znzFile file) { if (file==NULL) { return 0; } #ifdef HAVE_ZLIB if (file->zfptr!=NULL) return (size_t) (gzread(file->zfptr,buf,((int) size)*((int) nmemb)) / size); #endif return fread(buf,size,nmemb,file->nzfptr); } size_t znzwrite(void* buf, size_t size, size_t nmemb, znzFile file) { if (file==NULL) { return 0; } #ifdef HAVE_ZLIB if (file->zfptr!=NULL) return (size_t) ( gzwrite(file->zfptr,buf,size*nmemb) / size ); #endif return fwrite(buf,size,nmemb,file->nzfptr); } long znzseek(znzFile file, long offset, int whence) { if (file==NULL) { return 0; } #ifdef HAVE_ZLIB if (file->zfptr!=NULL) return (long) gzseek(file->zfptr,offset,whence); #endif return fseek(file->nzfptr,offset,whence); } int znzrewind(znzFile stream) { if (stream==NULL) { return 0; } #ifdef HAVE_ZLIB if (stream->zfptr!=NULL) return gzrewind(stream->zfptr); #endif rewind(stream->nzfptr); return 0; } long znztell(znzFile file) { if (file==NULL) { return 0; } #ifdef HAVE_ZLIB if (file->zfptr!=NULL) return (long) gztell(file->zfptr); #endif return ftell(file->nzfptr); } int znzputs(char* str, znzFile file) { if (file==NULL) { return 0; } #ifdef HAVE_ZLIB if (file->zfptr!=NULL) return gzputs(file->zfptr,str); #endif return fputs(str,file->nzfptr); } char * znzgets(char* str, int size, znzFile file) { if (file==NULL) { return NULL; } #ifdef HAVE_ZLIB if (file->zfptr!=NULL) return gzgets(file->zfptr,str,size); #endif return fgets(str,size,file->nzfptr); } int znzflush(znzFile file) { if (file==NULL) { return 0; } #ifdef HAVE_ZLIB if (file->zfptr!=NULL) return gzflush(file->zfptr,Z_SYNC_FLUSH); #endif return fflush(file->nzfptr); } int znzeof(znzFile file) { if (file==NULL) { return 0; } #ifdef HAVE_ZLIB if (file->zfptr!=NULL) return gzeof(file->zfptr); #endif return feof(file->nzfptr); } int znzputc(int c, znzFile file) { if (file==NULL) { return 0; } #ifdef HAVE_ZLIB if (file->zfptr!=NULL) return gzputc(file->zfptr,c); #endif return fputc(c,file->nzfptr); } int znzgetc(znzFile file) { if (file==NULL) { return 0; } #ifdef HAVE_ZLIB if (file->zfptr!=NULL) return gzgetc(file->zfptr); #endif return fgetc(file->nzfptr); } #if !defined (WIN32) int znzprintf(znzFile stream, const char *format, ...) { int retval=0; char *tmpstr; va_list va; if (stream==NULL) { return 0; } va_start(va, format); #ifdef HAVE_ZLIB if (stream->zfptr!=NULL) { int size; /* local to HAVE_ZLIB block */ size = strlen(format) + 1000000; /* overkill I hope */ tmpstr = (char *)calloc(1, size); if( tmpstr == NULL ){ fprintf(stderr,"** ERROR: znzprintf failed to alloc %d bytes\n", size); return retval; } vsprintf(tmpstr,format,va); retval=gzprintf(stream->zfptr,"%s",tmpstr); free(tmpstr); } else #endif { retval=vfprintf(stream->nzfptr,format,va); } va_end(va); return retval; } #endif