/* * Copyright (c) 1990, 2007 The Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that the above copyright notice and this paragraph are * duplicated in all such forms and that any documentation, * and/or other materials related to such * distribution and use acknowledge that the software was developed * by the University of California, Berkeley. The name of the * University may not be used to endorse or promote products derived * from this software without specific prior written permission. * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. */ /* FUNCTION <>, <>---read array elements from a file INDEX fread INDEX fread_unlocked INDEX _fread_r INDEX _fread_unlocked_r SYNOPSIS #include size_t fread(void *restrict <[buf]>, size_t <[size]>, size_t <[count]>, FILE *restrict <[fp]>); #define _BSD_SOURCE #include size_t fread_unlocked(void *restrict <[buf]>, size_t <[size]>, size_t <[count]>, FILE *restrict <[fp]>); #include size_t fread( void *restrict <[buf]>, size_t <[size]>, size_t <[count]>, FILE *restrict <[fp]>); #include size_t fread_unlocked( void *restrict <[buf]>, size_t <[size]>, size_t <[count]>, FILE *restrict <[fp]>); DESCRIPTION <> attempts to copy, from the file or stream identified by <[fp]>, <[count]> elements (each of size <[size]>) into memory, starting at <[buf]>. <> may copy fewer elements than <[count]> if an error, or end of file, intervenes. <> also advances the file position indicator (if any) for <[fp]> by the number of @emph{characters} actually read. <> is a non-thread-safe version of <>. <> may only safely be used within a scope protected by flockfile() (or ftrylockfile()) and funlockfile(). This function may safely be used in a multi-threaded program if and only if they are called while the invoking thread owns the (FILE *) object, as is the case after a successful call to the flockfile() or ftrylockfile() functions. If threads are disabled, then <> is equivalent to <>. <<_fread_r>> and <<_fread_unlocked_r>> are simply reentrant versions of the above that take an additional reentrant structure pointer argument: <[ptr]>. RETURNS The result of <> is the number of elements it succeeded in reading. PORTABILITY ANSI C requires <>. <> is a BSD extension also provided by GNU libc. Supporting OS subroutines required: <>, <>, <>, <>, <>, <>, <>. */ #define _DEFAULT_SOURCE #include <_ansi.h> #include #include #include #include "local.h" #ifdef __IMPL_UNLOCKED__ #define _fread_r _fread_unlocked_r #define fread fread_unlocked #endif #ifdef __SCLE static size_t crlf_r (struct _reent * ptr, FILE * fp, char * buf, size_t count, int eof) { int r; char *s, *d, *e; if (count == 0) return 0; e = buf + count; for (s=d=buf; s_r < 0) fp->_r = 0; total = resid; p = buf; #if !defined(PREFER_SIZE_OVER_SPEED) && !defined(__OPTIMIZE_SIZE__) /* Optimize unbuffered I/O. */ if (fp->_flags & __SNBF) { /* First copy any available characters from ungetc buffer. */ int copy_size = resid > (size_t) fp->_r ? fp->_r : (int) resid; (void) memcpy ((void *) p, (void *) fp->_p, (size_t) copy_size); fp->_p += copy_size; fp->_r -= copy_size; p += copy_size; resid -= copy_size; /* If still more data needed, free any allocated ungetc buffer. */ if (HASUB (fp) && resid > 0) FREEUB (ptr, fp); /* Finally read directly into user's buffer if needed. */ while (resid > 0) { int rc = 0; /* save fp buffering state */ void *old_base = fp->_bf._base; void * old_p = fp->_p; int old_size = fp->_bf._size; /* allow __refill to use user's buffer */ fp->_bf._base = (unsigned char *) p; fp->_bf._size = resid; fp->_p = (unsigned char *) p; rc = _srefill ( fp); /* restore fp buffering back to original state */ fp->_bf._base = old_base; fp->_bf._size = old_size; fp->_p = old_p; resid -= fp->_r; p += fp->_r; fp->_r = 0; if (rc) { #ifdef __SCLE if (fp->_flags & __SCLE) { _newlib_flockfile_exit (fp); return crlf_r (ptr, fp, buf, total-resid, 1) / size; } #endif _newlib_flockfile_exit (fp); return (total - resid) / size; } } } else #endif /* !PREFER_SIZE_OVER_SPEED && !__OPTIMIZE_SIZE__ */ { while (resid > (size_t) (r = fp->_r)) { (void) memcpy ((void *) p, (void *) fp->_p, (size_t) r); fp->_p += r; /* fp->_r = 0 ... done in __srefill */ p += r; resid -= r; if (_srefill ( fp)) { /* no more input: return partial result */ #ifdef __SCLE if (fp->_flags & __SCLE) { _newlib_flockfile_exit (fp); return crlf_r (ptr, fp, buf, total-resid, 1) / size; } #endif _newlib_flockfile_exit (fp); return (total - resid) / size; } } (void) memcpy ((void *) p, (void *) fp->_p, resid); fp->_r -= resid; fp->_p += resid; } /* Perform any CR/LF clean-up if necessary. */ #ifdef __SCLE if (fp->_flags & __SCLE) { _newlib_flockfile_exit (fp); return crlf_r(ptr, fp, buf, total, 0) / size; } #endif _newlib_flockfile_end (fp); return count; }