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1 /** @file
2   Macros, types, and functions for performing I/O.
3 
4   The following functions are declared in this file:<BR>
5 @verbatim
6     ################### Operations on files.   ####
7     int       remove          (const char *FileName);
8     int       rename          (const char *, const char *);
9     FILE     *tmpfile         (void);
10     char     *tmpnam          (char *);
11 
12     ################### File access functions.   ####
13     int       fclose          (FILE *);
14     int       fflush          (FILE *);
15     FILE     *fopen           (const char * __restrict ,
16                                const char * __restrict);
17     FILE     *freopen         (const char * __restrict,
18                                const char * __restrict, FILE * __restrict);
19     void      setbuf          (FILE * __restrict, char * __restrict);
20     int       setvbuf         (FILE * __restrict, char * __restrict,
21                                int, size_t);
22 
23     ################### Formatted Input/Output Functions.  ####
24     int       fprintf         (FILE * __restrict stream,
25                                const char * __restrict format, ...);
26     int       fscanf          (FILE * __restrict, const char * __restrict, ...);
27     int       printf          (const char * __restrict, ...);
28     int       scanf           (const char * __restrict, ...);
29     int       sprintf         (char * __restrict, const char * __restrict, ...);
30     int       sscanf          (const char * __restrict,
31                                const char * __restrict, ...);
32     int       vfprintf        (FILE * __restrict,
33                                const char * __restrict, va_list);
34     int       vprintf         (const char * __restrict, va_list);
35     int       vsprintf        (char * __restrict,
36                                const char * __restrict, va_list);
37 
38     ################### Character Input/Output Functions. ####
39     int       fgetc           (FILE *);
40     char     *fgets           (char * __restrict, int, FILE * __restrict);
41     int       fputc           (int, FILE *);
42     int       fputs           (const char * __restrict, FILE * __restrict);
43     int       getc            (FILE *);
44     int       getchar         (void);
45     char     *gets            (char *);
46     int       putc            (int, FILE *);
47     int       putchar         (int);
48     int       puts            (const char *);
49     int       ungetc          (int, FILE *);
50 
51     ################### Direct Input/Output Functions. ####
52     size_t    fread           (void * __restrict, size_t, size_t,
53                                FILE * __restrict);
54     size_t    fwrite          (const void * __restrict, size_t, size_t,
55                                FILE * __restrict);
56 
57     ################### File Positioning Functions.  ####
58     int       fgetpos         (FILE * __restrict, fpos_t * __restrict);
59     int       fseek           (FILE *, long, int);
60     int       fsetpos         (FILE *, const fpos_t *);
61     long      ftell           (FILE *);
62     void      rewind          (FILE *);
63 
64     ################### Error-handling Functions.  ####
65     void      clearerr        (FILE *);
66     int       feof            (FILE *);
67     int       ferror          (FILE *);
68     void      perror          (const char *);
69 
70     ################### Functions NOT specified by C95  ####
71 
72     FILE     *fdopen          (int, const char *);
73     void      flockfile       (FILE *);
74     int       ftrylockfile    (FILE *);
75     void      funlockfile     (FILE *);
76     int       getc_unlocked   (FILE *);
77     int       getchar_unlocked(void);
78     int       putc_unlocked   (int, FILE *);
79     int       putchar_unlocked(int);
80     int       pclose          (FILE *);
81     FILE     *popen           (const char *, const char *);
82     int       snprintf        (char * __restrict, size_t,
83                                const char * __restrict, ...);
84     int       vsnprintf       (char * __restrict, size_t,
85                                const char * __restrict, va_list);
86     char     *mkdtemp         (char *);
87     int       mkstemp         (char *);
88     char     *mktemp          (char *);
89     char     *tempnam         (const char *, const char *);
90     int       fseeko          (FILE *, off_t, int);
91     char     *fgetln          (FILE * __restrict, size_t * __restrict);
92     char     *fparseln        (FILE *, size_t *, size_t *, const char[3], int);
93     int       fpurge          (FILE *);
94     void      setbuffer       (FILE *, char *, int);
95     int       setlinebuf      (FILE *);
96     int       vasprintf       (char ** __restrict, const char * __restrict,
97                                va_list);
98     int       vscanf          (const char * __restrict, va_list);
99     int       vsscanf         (const char * __restrict,
100                              const char * __restrict, va_list);
101 @endverbatim
102 
103   @note   To fit things in six character monocase externals, the stdio
104           code uses the prefix `__s' for stdio objects, typically followed
105           by a three-character attempt at a mnemonic.
106 
107 
108   Copyright (c) 2010 - 2012, Intel Corporation. All rights reserved.<BR>
109   This program and the accompanying materials are licensed and made available under
110   the terms and conditions of the BSD License that accompanies this distribution.
111   The full text of the license may be found at
112   http://opensource.org/licenses/bsd-license.
113 
114   THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
115   WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
116 
117  * Copyright (c) 1990, 1993
118  *  The Regents of the University of California.  All rights reserved.
119  *
120  * This code is derived from software contributed to Berkeley by
121  * Chris Torek.
122  *
123  * Redistribution and use in source and binary forms, with or without
124  * modification, are permitted provided that the following conditions
125  * are met:
126  * 1. Redistributions of source code must retain the above copyright
127  *    notice, this list of conditions and the following disclaimer.
128  * 2. Redistributions in binary form must reproduce the above copyright
129  *    notice, this list of conditions and the following disclaimer in the
130  *    documentation and/or other materials provided with the distribution.
131  * 3. Neither the name of the University nor the names of its contributors
132  *    may be used to endorse or promote products derived from this software
133  *    without specific prior written permission.
134  *
135  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
136  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
137  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
138  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
139  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
140  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
141  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
142  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
143  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
144  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
145  * SUCH DAMAGE.
146  *
147  *  @(#)stdio.h 8.5 (Berkeley) 4/29/95
148     NetBSD: stdio.h,v 1.66.2.3 2007/08/24 20:07:38 liamjfoy Exp
149  */
150 #ifndef _STDIO_H_
151 #define _STDIO_H_
152 
153 #include  <stdarg.h>
154 #include  <limits.h>
155 #include  <sys/ansi.h>
156 #include  <machine/ansi.h>
157 
158 #ifdef _EFI_SIZE_T_
159   /** size_t is the unsigned integer type of the result of the sizeof operator. **/
160   typedef _EFI_SIZE_T_  size_t;
161   #undef _EFI_SIZE_T_
162   #undef _BSD_SIZE_T_
163 #endif
164 
165 /** @{
166     An object type capable of holding all information necessary to specify any
167     position within a file.
168 
169     Each wide-oriented stream has an associated mbstate_t object that stores the
170     current parse state of the stream.  A successful call to fgetpos stores a
171     representation of the value of this mbstate_t object as part of the value
172     of the fpos_t object.  A later successful call to fsetpos using the same
173     stored fpos_t value restores the value of the associated mbstate_t object
174     as well as the position within the controlled stream.
175 
176     This is fairly grotesque, but pure ANSI code must not inspect the
177     innards of an fpos_t anyway.  The library internally uses off_t,
178     which we assume is exactly as big as eight chars.
179 **/
180 #if (!defined(_ANSI_SOURCE) && !defined(__STRICT_ANSI__)) || defined(_LIBC)
181 typedef __off_t fpos_t;
182 #else
183 typedef struct __sfpos {
184   __off_t _pos;
185 } fpos_t;
186 #endif
187 /*@}*/
188 
189 /* stdio buffers */
190 struct __sbuf {
191   unsigned char *_base;
192   int _size;
193 };
194 
195 /** Structure which holds all the information needed to control a stream or file.
196  *
197  * The following always hold:<BR>
198  *
199  *  - if (_flags&(__SLBF|__SWR)) == (__SLBF|__SWR),
200  *    - _lbfsize is -_bf._size, else _lbfsize is 0
201  *  - if _flags&__SRD, _w is 0
202  *  - if _flags&__SWR, _r is 0
203  *
204  * This ensures that the getc and putc macros (or inline functions) never
205  * try to write or read from a file that is in `read' or `write' mode.
206  * (Moreover, they can, and do, automatically switch from read mode to
207  * write mode, and back, on "r+" and "w+" files.)
208  *
209  * _lbfsize is used only to make the inline line-buffered output stream
210  * code as compact as possible.
211  *
212  * _ub, _up, and _ur are used when ungetc() pushes back more characters
213  * than fit in the current _bf, or when ungetc() pushes back a character
214  * that does not match the previous one in _bf.  When this happens,
215  * _ub._base becomes non-nil (i.e., a stream has ungetc() data iff
216  * _ub._base!=NULL) and _up and _ur save the current values of _p and _r.
217  *
218  */
219 typedef struct __sFILE {
220   unsigned char  *_p;         /**< current position in (some) buffer */
221   int             _r;         /**< read space left for getc() */
222   int             _w;         /**< write space left for putc() */
223   unsigned short  _flags;     /**< flags, below; this FILE is free if 0 */
224   short           _file;      /**< fileno, if Unix descriptor, else -1 */
225   struct  __sbuf  _bf;        /**< the buffer (at least 1 byte, if !NULL) */
226   int             _lbfsize;   /**< 0 or -_bf._size, for inline putc */
227 
228   /* operations */
229   void           *_cookie;    /**< cookie passed to io functions */
230   int           (*_close)(void *);
231   int           (*_read) (void *, char *, int);
232   fpos_t        (*_seek) (void *, fpos_t, int);
233   int           (*_write)(void *, const char *, int);
234 
235   /** file extension */
236   struct  __sbuf  _ext;
237 
238   /** @{
239       Separate buffer for long sequences of ungetc().
240   **/
241   unsigned char  *_up;        /**< saved _p when _p is doing ungetc data */
242   int             _ur;        /**< saved _r when _r is counting ungetc data */
243   /*@}*/
244 
245   /* tricks to meet minimum requirements even when malloc() fails */
246   unsigned char   _ubuf[3 * MB_LEN_MAX];   /**< guarantee an ungetc() buffer */
247   unsigned char   _nbuf[1 * MB_LEN_MAX];   /**< guarantee a getc() buffer */
248 
249   /** separate buffer for fgetln() when line crosses buffer boundary */
250   struct  __sbuf  _lb;        /* buffer for fgetln() */
251 
252   /* Unix stdio files get aligned to block boundaries on fseek() */
253   int             _blksize;   /**< stat.st_blksize (may be != _bf._size) */
254   fpos_t          _offset;    /**< current lseek offset */
255 } FILE;
256 
257 __BEGIN_DECLS
258 extern FILE   __sF[];
259 __END_DECLS
260 
261 #define __SLBF  0x0001    /**< line buffered */
262 #define __SNBF  0x0002    /**< unbuffered */
263 #define __SRD   0x0004    /**< OK to read */
264 #define __SWR   0x0008    /**< OK to write */
265   /* RD and WR are never simultaneously asserted */
266 #define __SRW   0x0010    /**< open for reading & writing */
267 #define __SEOF  0x0020    /**< found EOF */
268 #define __SERR  0x0040    /**< found error */
269 #define __SMBF  0x0080    /**< _buf is from malloc */
270 #define __SAPP  0x0100    /**< fdopen()ed in append mode */
271 #define __SSTR  0x0200    /**< this is an sprintf/snprintf string */
272 #define __SOPT  0x0400    /**< do fseek() optimization */
273 #define __SNPT  0x0800    /**< do not do fseek() optimization */
274 #define __SOFF  0x1000    /**< set iff _offset is in fact correct */
275 #define __SMOD  0x2000    /**< true => fgetln modified _p text */
276 #define __SALC  0x4000    /**< allocate string space dynamically */
277 
278 /*  The following three definitions are for ANSI C, which took them
279     from System V, which brilliantly took internal interface macros and
280     made them official arguments to setvbuf(), without renaming them.
281     Hence, these ugly _IOxxx names are *supposed* to appear in user code.
282 
283     Although numbered as their counterparts above, the implementation
284     does not rely on this.
285  */
286 #define _IOFBF  0   /**< setvbuf should set fully buffered */
287 #define _IOLBF  1   /**< setvbuf should set line buffered */
288 #define _IONBF  2   /**< setvbuf should set unbuffered */
289 
290 #define BUFSIZ  1024    /**< size of buffer used by setbuf */
291 #define EOF     (-1)    /**< A constant integer expression indicating end-of-file. */
292 
293 /** FOPEN_MAX is a minimum maximum, and is the number of streams that
294     stdio can provide without attempting to allocate further resources
295     (which could fail).  Do not use this for anything.
296  */
297 #define FOPEN_MAX     OPEN_MAX    /* must be <= OPEN_MAX <sys/syslimits.h> */
298 
299 /** Size needed for an array of char large enough to hold the longest file name string. */
300 #define FILENAME_MAX  PATH_MAX    /* must be <= PATH_MAX <sys/syslimits.h> */
301 
302 /** Size needed for an array of char large enough to hold the file name string
303     generated by the tmpname() function.
304 **/
305 #define L_tmpnam      PATH_MAX    /* must be == PATH_MAX */
306 
307 #ifndef TMP_MAX
308 #define TMP_MAX     308915776     /**< The maximum number of unique file names
309                                        that can be generated by tmpnam(). **/
310 #endif
311 
312 /* Always ensure that these are consistent with <fcntl.h>! */
313 #ifndef SEEK_SET
314 #define SEEK_SET  0 /**< set file offset to offset */
315 #endif
316 #ifndef SEEK_CUR
317 #define SEEK_CUR  1 /**< set file offset to current plus offset */
318 #endif
319 #ifndef SEEK_END
320 #define SEEK_END  2 /**< set file offset to EOF plus offset */
321 #endif
322 
323 #define stdin   (&__sF[0])    /**< FILE reference for the STanDard INput stream. */
324 #define stdout  (&__sF[1])    /**< FILE reference for the STanDard OUTput stream. */
325 #define stderr  (&__sF[2])    /**< FILE reference for the STanDard ERRor stream. */
326 
327 __BEGIN_DECLS
328 /* Functions defined in C95 standard. ###################################### */
329 
330 /* ################ Operations on files.   */
331 
332 /** Remove (delete) a file.
333 
334     @param[in]    FileName    The path to the file to be removed.
335 
336     @retval   Zero      The operation succeeded.
337     @retval   Non-zero  The operation failed.
338 **/
339 int       remove  (const char *FileName);
340 
341 /** Rename the file named OldName to NewName.
342 
343     @param[in]  OldName   The name of the existing file to be renamed.
344     @param[in]  NewName   The new name of the file.
345 
346     @retval   Zero      The operation succeeded.
347     @retval   Non-zero  The operation failed.  OldName still exists and has been unmodified.
348                         If OldName does not exist, or a file named NewName already exists,
349                         rename() will fail are return a non-zero value.
350 **/
351 int       rename  (const char *OldName, const char *NewName);
352 
353 /** Create a guaranteed unique temporary file.
354     A binary file is created in the _PATH_TMP directory that is guaranteed to
355     have a unique name.  The file will be open for update with mode "wb+" and
356     its FILE pointer returned upon successfull completion.  When the file is
357     closed, or when the creating program terminates, the file will be removed.
358 
359     @retval   NULL      The temporary file could not be created.
360     @retval   non-NULL  The returned value is a pointer to the FILE object
361                         associated with the newly created and open temporary file.
362 **/
363 FILE     *tmpfile (void);
364 
365 /** Generate a string that is a valid file name, in the _PATH_TMP directory, that
366     is not the same as the name of an existing file.  The function can potentially
367     generate up to TMP_MAX different strings.
368 
369     @param[out]   Buffer    A pointer to an array of at least L_tmpnam char elements.
370                             or NULL.  If non-NULL, the tmpnam function writes its
371                             result into that array and returns the argument
372                             as its value.
373 
374     @return       If no suitable string can be generated a NULL pointer is returned.
375                   Otherwise, if Buffer is NULL, the result is produced in an internal
376                   static object and a pointer to that object is returned.  If Buffer
377                   is non-null, the results are written into the array pointed to by
378                   Buffer and Buffer is returned.
379 **/
380 char     *tmpnam  (char *Buffer);
381 
382 /* ################ File access functions.   */
383 
384 /** Close the open stream, specified by fp, and de-associate it from any file or device.
385 
386     @param[in]    fp    Pointer to a stream object, of type FILE, associated with a
387                         file or device.
388 
389     @retval   Zero      The stream was successfully closed.
390     @retval   Non-zero  There was an error closing the stream.
391 **/
392 int       fclose  (FILE *fp);
393 
394 /** Empties any buffers associated with the stream specified by fp.
395 
396     @param[in]    fp    Pointer to a stream object, of type FILE, associated with a
397                         file or device.
398 
399     @retval   Zero      The stream's buffers were successfully emptied.
400     @retval   EOF       There was an error writing to the stream.
401 **/
402 int       fflush  (FILE *fp);
403 
404 /** Associates a file, named by Path, with a stream and prepares it for subsequent
405     operations.
406 
407     The parameter Mode points to a string specifying behavior characteristics for
408     the opened file.  The recognized Mode strings are:
409       - r     Open text file for reading.
410       - w     Truncate file to zero length or create text file for writing.
411       - a     Open or create a text file for writing at end-of-file (append).
412       - rb    Open binary file for reading.
413       - wb    Truncate file to zero length or create binary file for writing.
414       - ab    Open or create a binary file for writing at end-of-file (append).
415       - r+    Open text file for update (reading and writing).
416       - w+    Truncate file to zero length or create text file for update.
417       - a+    Open or create a text file for update, writing at end-of-file.
418       - r+b or rb+  Open binary file for update (reading and writing).
419       - w+b or wb+  Truncate file to zero length or create binary file for update.
420       - a+b or ab+  Open or create a binary file for update, writing at end-of-file.
421 
422       Opening a file with read mode fails if the file does not exist.
423 
424       Opening a file with append mode causes all writes to the file to be forced to
425       the current end-of-file, regardless of any intervening calls to fseek.
426 
427     @param[in]    Path    The path or name of the file or device to open.
428     @param[in]    Mode    The mode in which the file is to be opened.
429 
430     @return     A pointer to a FILE object associated with the opened file is returned
431                 if the file was opened successfully.  Otherwise, NULL is returned.
432 **/
433 FILE     *fopen   (const char * __restrict Path, const char * __restrict Mode);
434 
435 /** Closes the file associated with Ofp then opens the file specified by Path and associates it with
436     stream Ofp.
437 
438     Any errors that occur when closing Ofp are ignored.  The file specified by Path is opened with mode Mode
439     and associated with stream Ofp instead of producing a new stream object.
440 
441     If Path is NULL, the mode of the file associated with Ofp is changed to Mode.
442 
443     @param[in]    Path    The path or name of the file or device to open.
444     @param[in]    Mode    The mode in which the file is to be opened.
445     @param[in]    Ofp     Pointer to the FILE object to be closed and associated with the new file.
446 
447     @return       If Path was not able to be opened, or the mode changed, NULL is returned;
448                   otherwise Ofp is returned.
449 **/
450 FILE     *freopen (const char * __restrict Path, const char * __restrict Mode, FILE * __restrict Ofp);
451 
452 /** Establishes Fully Buffered or Non-buffered mode for a stream, fp, using Buff as the buffer.
453 
454     The file associated with fp must have been successfully opened with no operations, other than
455     possibly an unsuccessful call to setvbuf, performed prior to the call to setbuf.
456 
457     If Buff is non-NULL, the stream associated with fp is set to Fully Buffered mode using the
458     array pointed to by Buff as the buffer.  The buffer is assumed to be BUFSIZ char long.
459     This is equivalent to calling setvbuf(fp, Buff, _IOFBF, BUFSIZ);
460 
461     If Buff is NULL, stream fp is set to Non-buffered mode.
462     This is equivalent to calling setvbuf(fp, NULL, _IONBF, 0);
463 
464     @param[in]  fp      Pointer to the FILE object which will have its buffer set.
465     @param[in]  Buff    The buffer to use for fp, or NULL.
466 **/
467 void      setbuf  (FILE * __restrict fp, char * __restrict Buff);
468 
469 /** Establishes a buffering mode and buffer for use by operations performed on the file associated with fp.
470 
471     The file associated with fp must have been successfully opened with no operations, other than
472     possibly an unsuccessful call to setvbuf, performed prior to the call to setbuf.
473 
474     Parameter BufMode determines how stream fp will be buffered:
475       - _IOFBF causes I/O to be fully buffered.
476       - _IOLBF causes I/O to be line buffered.
477       - _IONBF causes I/O to be unbuffered.
478 
479     If Buff is not NULL, it points to an array to be used as an I/O buffer for stream fp.  The
480     buffer is set to BufSize char in length.  Otherwise, an array of BufSize char is allocated
481     by the setvbuf function if BufMode is not _IONBF.
482 
483     It is an error for BufSize to be zero unless BufMode is _IONBF, in which case BufSize is ignored.
484 
485     @param[in]  fp        Pointer to the FILE object which will have its buffer set.
486     @param[in]  Buff      The buffer to use for fp, or NULL.
487     @param[in]  BufMode   The buffering mode to use.
488     @param[in]  BufSize   The size of the buffer to use, specified in char.
489 
490     @retval   Zero      The buffer and mode were established successfully.
491     @retval   Non-zero  The request can not be honored, or an invalid value for BufMode was given.
492 **/
493 int       setvbuf (FILE * __restrict fp, char * __restrict Buff, int BufMode, size_t BufSize);
494 
495 /* ################ Formatted Input/Output Functions.  */
496 
497 /** The fprintf function writes output to the stream pointed to by stream,
498     under control of the string pointed to by format that specifies how
499     subsequent arguments are converted for output. If there are insufficient
500     arguments for the format, the behavior is indeterminate. If the format is
501     exhausted while arguments remain, the excess arguments are evaluated
502     (as always) but are otherwise ignored. The fprintf function returns when
503     the end of the format string is encountered.
504 
505     The format is interpreted as a multibyte character sequence, beginning and ending
506     in its initial shift state. The format is composed of zero or more directives:
507     ordinary multibyte characters (not %), which are copied unchanged to the
508     output stream; and conversion specifications, each of which results in
509     fetching zero or more subsequent arguments, converting them, if applicable,
510     according to the corresponding conversion specifier, and then writing the
511     result to the output stream.
512 
513     Each conversion specification is introduced by the character %. After
514     the %, the following appear in sequence:
515       - Zero or more flags (in any order) that modify the meaning of the
516         conversion specification.
517       - An optional minimum field width. If the converted value has fewer
518         characters than the field width, it is padded with spaces (by default)
519         on the left (or right, if the left adjustment flag, described later,
520         has been given) to the field width. The field width takes the form of
521         an asterisk * (described later) or a nonnegative decimal integer.
522       - An optional precision that gives the minimum number of digits to appear
523         for the d, i, o, u, x, and X conversions, the number of digits to
524         appear after the decimal-point character for e, E, f, and F
525         conversions, the maximum number of significant digits for the g and G
526         conversions, or the maximum number of bytes to be written for s
527         conversions. The precision takes the form of a period (.) followed
528         either by an asterisk * (described later) or by an optional decimal
529         integer; if only the period is specified, the precision is taken as
530         zero. If a precision appears with any other conversion specifier, it
531         is ignored.
532       - An optional length modifier that specifies the size of the argument.
533       - A conversion specifier character that specifies the type of conversion
534         to be applied.
535 
536     As noted above, a field width, or precision, or both, may be indicated by
537     an asterisk. In this case, an int argument supplies the field width or
538     precision. The arguments specifying field width, or precision, or both, shall
539     appear (in that order) before the argument (if any) to be converted. A negative
540     field width argument is taken as a - flag followed by a positive field width.
541     A negative precision argument is interpreted as if the precision were omitted.
542 
543     The flag characters and their meanings are:
544       -     The result of the conversion is left-justified within the field.
545             (It is right-justified if this flag is not specified.)
546       +     The result of a signed conversion always begins with a plus or
547             minus sign. (It begins with a sign only when a negative value is
548             converted if this flag is not specified.)
549       space If the first character of a signed conversion is not a sign, or
550             if a signed conversion results in no characters, a space is
551             prefixed to the result. If the space and + flags both appear, the
552             space flag is ignored.
553       #     The result is converted to an "alternative form".
554               - For o conversion, it increases the precision, if and only if necessary,
555                 to force the first digit of the result to be a zero (if the value
556                 and precision are both 0, a single 0 is printed).
557               - For x (or X) conversion, a nonzero result has 0x (or 0X) prefixed to it.
558               - For e, E, f, F, g, and G conversions, the result of converting a
559                 floating-point number always contains a decimal-point character,
560                 even if no digits follow it. (Normally, a decimal-point character
561                 appears in the result of these conversions only if a digit follows
562                 it.)
563               - For g and G conversions, trailing zeros are not removed from
564                 the result. For other conversions, it is ignored.
565       0     For d, i, o, u, x, X, e, E, f, F, g, and G conversions, leading
566             zeros (following any indication of sign or base) are used to pad to
567             the field width rather than performing space padding, except when
568             converting an infinity or NaN. If the 0 and - flags both appear,
569             the 0 flag is ignored. For d, i, o, u, x, and X conversions, if a
570             precision is specified, the 0 flag is ignored.
571 
572     The length modifiers and their meanings are:
573       hh    Specifies that a following d, i, o, u, x, or X conversion specifier
574             applies to a signed char or unsigned char argument (the argument
575             will have been promoted according to the integer promotions, but
576             its value shall be converted to signed char or unsigned char before
577             printing); or that a following n conversion specifier applies to a
578             pointer to a signed char argument.
579       h     Specifies that a following d, i, o, u, x, or X conversion specifier
580             applies to a short int or unsigned short int argument (the argument
581             will have been promoted according to the integer promotions, but
582             its value shall be converted to short int or unsigned short int
583             before printing); or that a following n conversion specifier
584             applies to a pointer to a short int argument.
585       l (ell)   Specifies that a following d, i, o, u, x, or X conversion
586             specifier applies to a long int or unsigned long int argument; that
587             a following n conversion specifier applies to a pointer to a long
588             int argument; that a following c conversion specifier applies to a
589             wint_t argument; that a following s conversion specifier applies to
590             a pointer to a wchar_t argument; or has no effect on a following e,
591             E, f, F, g, or G conversion specifier.
592       ll (ell-ell)  Specifies that a following d, i, o, u, x, or X conversion
593             specifier applies to a long long int or unsigned long long int
594             argument; or that a following n conversion specifier applies to a
595             pointer to a long long int argument.
596       j     Specifies that a following d, i, o, u, x, or X conversion specifier
597             applies to an intmax_t or uintmax_t argument; or that a following n
598             conversion specifier applies to a pointer to an intmax_t argument.
599       z     Specifies that a following d, i, o, u, x, or X conversion specifier
600             applies to a size_t or the corresponding signed integer type
601             argument; or that a following n conversion specifier applies to a
602             pointer to a signed integer type corresponding to size_t argument.
603       t     Specifies that a following d, i, o, u, x, or X conversion specifier
604             applies to a ptrdiff_t or the corresponding unsigned integer type
605             argument; or that a following n conversion specifier applies to a
606             pointer to a ptrdiff_t argument.
607       L     Specifies that a following e, E, f, F, g, or G conversion specifier
608             applies to a long double argument.
609 
610     If a length modifier appears with any conversion specifier other than as
611     specified above, it is ignored.
612 
613     The conversion specifiers and their meanings are:
614       d,i       The int argument is converted to signed decimal in the style
615             [-]dddd. The precision specifies the minimum number of digits to
616             appear; if the value being converted can be represented in fewer
617             digits, it is expanded with leading zeros. The default precision
618             is 1. The result of converting a zero value with a precision of
619             zero is no characters.
620       o,u,x,X   The unsigned int argument is converted to unsigned octal (o),
621             unsigned decimal (u), or unsigned hexadecimal notation (x or X) in
622             the style dddd; the letters abcdef are used for x conversion and
623             the letters ABCDEF for X conversion. The precision specifies the
624             minimum number of digits to appear; if the value being converted
625             can be represented in fewer digits, it is expanded with leading
626             zeros. The default precision is 1. The result of converting a zero
627             value with a precision of zero is no characters.
628       f,F       A double argument representing a floating-point number is
629             converted to decimal notation in the style [-]ddd.ddd, where the
630             number of digits after the decimal-point character is equal to the
631             precision specification. If the precision is missing, it is taken
632             as 6; if the precision is zero and the # flag is not specified, no
633             decimal-point character appears. If a decimal-point character
634             appears, at least one digit appears before it. The value is rounded
635             to the appropriate number of digits.
636                 A double argument representing an infinity is converted in
637             the style [-]inf. A double argument representing a NaN is
638             converted in the style [-]nan. The F conversion specifier produces INF,
639             INFINITY, or NAN instead of inf, infinity, or nan, respectively.
640       e,E       A double argument representing a floating-point number is
641             converted in the style [-]d.ddd e[+-]dd, where there is one digit
642             (which is nonzero if the argument is nonzero) before the
643             decimal-point character and the number of digits after it is equal
644             to the precision; if the precision is missing, it is taken as 6; if
645             the precision is zero and the # flag is not specified, no
646             decimal-point character appears. The value is rounded to the
647             appropriate number of digits. The E conversion specifier produces a
648             number with E instead of e introducing the exponent. The exponent
649             always contains at least two digits, and only as many more digits
650             as necessary to represent the exponent. If the value is zero, the
651             exponent is zero.
652                 A double argument representing an infinity or NaN is converted
653             in the style of an f or F conversion specifier.
654       g,G       A double argument representing a floating-point number is
655             converted in style f or e (or in style F or E in the case of a G
656             conversion specifier), depending on the value converted and the
657             precision. Let P equal the precision if nonzero, 6 if the precision
658             is omitted, or 1 if the precision is zero. Then, if a conversion
659             with style E would have an exponent of X:
660               - if P > X = -4, the conversion is with style f (or F) and
661                 precision P - (X + 1).
662               - otherwise, the conversion is with style e (or E) and
663                 precision P - 1.
664 
665             Finally, unless the # flag is used, any trailing zeros are removed
666             from the fractional portion of the result and the decimal-point
667             character is removed if there is no fractional portion remaining.
668             A double argument representing an infinity or NaN is converted in
669             the style of an f or F conversion specifier.
670       c         If no l length modifier is present, the int argument is
671             converted to an unsigned char, and the resulting character is
672             written. If an l length modifier is present, the wint_t argument is
673             converted as if by an ls conversion specification with no precision
674             and an argument that points to the initial element of a two-element
675             array of wchar_t, the first element containing the wint_t argument
676             to the lc conversion specification and the second a null wide
677             character.
678       s         If no l length modifier is present, the argument is a pointer
679             to the initial element of an array of character type. Characters
680             from the array are written up to (but not including) the
681             terminating null character. If the precision is specified, no more
682             than that many bytes are written. If the precision is not specified
683             or is greater than the size of the array, the array shall contain a
684             null character.
685                 If an l length modifier is present, the argument shall be a
686             pointer to the initial element of an array of wchar_t type. Wide
687             characters from the array are converted to multibyte characters
688             (each as if by a call to the wcrtomb function, with the conversion
689             state described by an mbstate_t object initialized to zero before
690             the first wide character is converted) up to and including a
691             terminating null wide character. The resulting multibyte characters
692             are written up to (but not including) the terminating null
693             character (byte). If no precision is specified, the array shall
694             contain a null wide character. If a precision is specified, no more
695             than that many bytes are written (including shift sequences, if
696             any), and the array shall contain a null wide character if, to
697             equal the multibyte character sequence length given by the
698             precision, the function would need to access a wide character one
699             past the end of the array. In no case is a partial multibyte
700             character written.
701       p         The argument shall be a pointer to void. The value of the
702             pointer is converted to a sequence of printing characters.
703       n         The argument shall be a pointer to signed integer into which is
704             written the number of characters written to the output stream so
705             far by this call to fprintf. No argument is converted, but one is
706             consumed. If the conversion specification includes any flags, a
707             field width, or a precision, they will be ignored.
708       %         A % character is written. No argument is converted. The
709             complete conversion specification shall be %%.
710 
711     In no case does a nonexistent or small field width cause truncation of a
712     field; if the result of a conversion is wider than the field width, the
713     field is expanded to contain the conversion result.
714 
715     @param[in]  stream    An open File specifier to which the output is sent.
716     @param[in]  format    A multi-byte character sequence containing characters
717                           to be copied unchanged, and conversion specifiers
718                           which convert their associated arguments.
719     @param      ...       Variable number of parameters as required by format.
720 
721     @return     The fprintf function returns the number of characters
722                 transmitted, or a negative value if an output or encoding
723                 error occurred.
724 **/
725 int       fprintf (FILE * __restrict stream, const char * __restrict format, ...);
726 
727 /** Reads characters from stream, under control of format, storing the converted values
728     in variables pointed to by the variable-length parameter list.
729 
730     The format is interpreted as a multibyte character sequence, beginning and ending
731     in its initial shift state. The format is composed of zero or more directives:
732     one or more white-space characters, an ordinary multibyte character
733     (neither % nor a white-space character), or a conversion specification.
734 
735     Each conversion specification is introduced by the character %. After
736     the %, the following appear in sequence:
737       - An optional assignment-suppressing character, *.
738       - An optional decimal integer, greater than zero, that specifies the
739         maximum field width (in characters).
740       - An optional length modifier that specifies the size of the receiving object.
741       - A conversion specifier character that specifies the type of conversion
742         to be applied.
743 
744     The fscanf function executes each directive of the format in turn. If a directive fails, as
745     detailed below, the function returns. Failures are described as input failures (due to the
746     occurrence of an encoding error or the unavailability of input characters), or matching
747     failures (due to inappropriate input).
748 
749     A directive composed of white-space character(s) is executed by reading input up to the
750     first non-white-space character (which remains unread), or until no more characters can
751     be read.
752 
753     A directive that is an ordinary multibyte character is executed by reading the next
754     characters of the stream. If any of those characters differ from the ones composing the
755     directive, the directive fails and the differing and subsequent characters remain unread.
756     Similarly, if end-of-file, an encoding error, or a read error prevents a character from being
757     read, the directive fails.
758 
759     The length modifiers and their meanings are:
760       - hh            Specifies that a following d, i, o, u, x, X, or n conversion
761                       specifier applies to an argument with type pointer to signed
762                       char or unsigned char.
763       - h             Specifies that a following d, i, o, u, x, X, or n conversion
764                       specifier applies to an argument with type pointer to short
765                       int or unsigned short int.
766       - l (ell)       Specifies that a following d, i, o, u, x, X, or n conversion
767                       specifier applies to an argument with type pointer to
768                       long int or unsigned long int; that a following a, A, e,
769                       E, f, F, g, or G conversion specifier applies to an
770                       argument with type pointer to double; or that a following
771                       c, s, or [ conversion specifier applies to an argument
772                       with type pointer to wchar_t.
773       - ll (ell-ell)  Specifies that a following d, i, o, u, x, X, or n conversion
774                       specifier applies to an argument with type pointer to
775                       long long int or unsigned long long int.
776       - j             Specifies that a following d, i, o, u, x, X, or n conversion
777                       specifier applies to an argument with type pointer to
778                       intmax_t or uintmax_t.
779       - z             Specifies that a following d, i, o, u, x, X, or n conversion
780                       specifier applies to an argument with type pointer to
781                       size_t or the corresponding signed integer type.
782       - t             Specifies that a following d, i, o, u, x, X, or n conversion
783                       specifier applies to an argument with type pointer to
784                       ptrdiff_t or the corresponding unsigned integer type.
785       - L             Specifies that a following e, E, f, F, g, or G
786                       conversion specifier applies to an argument with type
787                       pointer to long double.
788 
789     If a length modifier appears with any conversion specifier other than as specified above,
790     it will be ignored.
791 
792     The conversion specifiers and their meanings are:
793       - d       Matches an optionally signed decimal integer, whose format is
794                 the same as expected for the subject sequence of the strtol
795                 function with the value 10 for the base argument. The
796                 corresponding argument shall be a pointer to signed integer.
797       - i       Matches an optionally signed integer, whose format is the same
798                 as expected for the subject sequence of the strtol function
799                 with the value 0 for the base argument. The corresponding
800                 argument shall be a pointer to signed integer.
801       - o       Matches an optionally signed octal integer, whose format is the
802                 same as expected for the subject sequence of the strtoul
803                 function with the value 8 for the base argument. The
804                 corresponding argument shall be a pointer to unsigned integer.
805       - u       Matches an optionally signed decimal integer, whose format is
806                 the same as expected for the subject sequence of the strtoul
807                 function with the value 10 for the base argument. The
808                 corresponding argument shall be a pointer to unsigned integer.
809       - x       Matches an optionally signed hexadecimal integer, whose format
810                 is the same as expected for the subject sequence of the strtoul
811                 function with the value 16 for the base argument. The
812                 corresponding argument shall be a pointer to unsigned integer.
813       - e,f,g   Matches an optionally signed floating-point number, infinity,
814                 or NaN, whose format is the same as expected for the subject
815                 sequence of the strtod function. The corresponding argument
816                 shall be a pointer to floating.
817       - c       Matches a sequence of characters of exactly the number
818                 specified by the field width (1 if no field width is present
819                 in the directive).  If no l length modifier is present, the
820                 corresponding argument shall be a pointer to the initial
821                 element of a character array large enough to accept the
822                 sequence. No null character is added.<BR><BR>
823                 If an l length modifier is present, the input shall be a
824                 sequence of multibyte characters that begins in the initial
825                 shift state. Each multibyte character in the sequence is
826                 converted to a wide character as if by a call to the mbrtowc
827                 function, with the conversion state described by an mbstate_t
828                 object initialized to zero before the first multibyte character
829                 is converted. The corresponding argument shall be a pointer to
830                 the initial element of an array of wchar_t large enough to
831                 accept the resulting sequence of wide characters.  No null wide
832                 character is added.
833       - s       Matches a sequence of non-white-space characters.
834                 If no l length modifier is present, the corresponding argument
835                 shall be a pointer to the initial element of a character array
836                 large enough to accept the sequence and a terminating null
837                 character, which will be added automatically.  If an l length
838                 modifier is present, the input shall be a sequence of multibyte
839                 characters that begins in the initial shift state. Each
840                 multibyte character is converted to a wide character as if by a
841                 call to the mbrtowc function, with the conversion state
842                 described by an mbstate_t object initialized to zero before the
843                 first multibyte character is converted. The corresponding
844                 argument shall be a pointer to the initial element of an array
845                 of wchar_t large enough to accept the sequence and the
846                 terminating null wide character, which will be added automatically.
847       - [       Matches a nonempty sequence of characters from a set of
848                 expected characters (the scanset).<BR><BR>
849                 If no l length modifier is present, the corresponding argument
850                 shall be a pointer to the initial element of a character array
851                 large enough to accept the sequence and a terminating null
852                 character, which will be added automatically.  If an l length
853                 modifier is present, the input shall be a sequence of multibyte
854                 characters that begins in the initial shift state. Each
855                 multibyte character is converted to a wide character as if by a
856                 call to the mbrtowc function, with the conversion state
857                 described by an mbstate_t object initialized to zero before the
858                 first multibyte character is converted. The corresponding
859                 argument shall be a pointer to the initial element of an array
860                 of wchar_t large enough to accept the sequence and the
861                 terminating null wide character, which will be added
862                 automatically.<BR><BR>
863                 The conversion specifier includes all subsequent characters in
864                 the format string, up to and including the matching right
865                 bracket (]). The characters between the brackets (the scanlist)
866                 compose the scanset, unless the character after the left
867                 bracket is a circumflex (^), in which case the scanset contains
868                 all characters that do not appear in the scanlist between the
869                 circumflex and the right bracket. If the conversion specifier
870                 begins with [] or [^], the right bracket character is in the
871                 scanlist and the next following right bracket character is the
872                 matching right bracket that ends the specification; otherwise
873                 the first following right bracket character is the one that
874                 ends the specification. If a - character is in the scanlist and
875                 is not the first, nor the second where the first character is
876                 a ^, nor the last character, it will be treated as a regular character.
877       - p       Matches a set of sequences, which are the same as the set of
878                 sequences that are produced by the %p conversion of the fprintf
879                 function. The corresponding argument must be a pointer to a
880                 pointer to void. The input item is converted to a pointer value.
881                 If the input item is a value converted earlier during the same
882                 program execution, the pointer that results will compare equal
883                 to that value; otherwise the behavior of the %p conversion is
884                 indeterminate.
885       - n       No input is consumed. The corresponding argument shall be a
886                 pointer to signed integer into which is to be written the
887                 number of characters read from the input stream so far by this
888                 call to the fscanf function. Execution of a %n directive does
889                 not increment the assignment count returned at the completion
890                 of execution of the fscanf function. No argument is converted,
891                 but one is consumed. If the conversion specification includes
892                 an assignment suppressing character the conversion specification
893                 is ignored.  If the conversion specification contains a
894                 field width, the field width will be ignored.
895       - %       Matches a single % character; no conversion or assignment occurs.
896 
897     @param[in]  stream    An open File specifier from which the input is read.
898     @param[in]  format    A multi-byte character sequence containing characters
899                           to be matched against, and conversion specifiers
900                           which convert their associated arguments.  Converted
901                           items are stored according to their associated arguments.
902     @param      ...       Variable number of parameters, as required by format,
903                           specifying the objects to receive the converted input.
904 
905     @return     The fscanf function returns EOF if an input failure occurs before
906                 any conversion.  Otherwise the number of input items assigned
907                 is returned; which can be fewer than provided for, or even zero
908                 in the event of an early matching failure.
909 **/
910 int       fscanf  (FILE * __restrict stream, const char * __restrict format, ...);
911 
912 /** Formatted print to stdout.
913 
914     The printf function is equivalent to fprintf with stdout used as the output stream.
915 
916     @param[in]  format    A multi-byte character sequence containing characters
917                           to be copied unchanged, and conversion specifiers
918                           which convert their associated arguments.  Copied and
919                           converted characters are sent to the output stream.
920     @param      ...       Variable number of parameters as required by format.
921 
922     @return     The printf function returns the number of characters
923                 transmitted, or a negative value if an output or encoding
924                 error occurred.
925 **/
926 int       printf  (const char * __restrict format, ...);
927 
928 /** Formatted input from stdin.
929 
930     The scanf function is equivalent to fscanf with stdin used as the input stream.
931 
932     @param[in]  format    A multi-byte character sequence containing characters
933                           to be matched against, and conversion specifiers
934                           which convert their associated arguments.  Converted
935                           items are stored according to their associated arguments.
936     @param[out] ...       Variable number of parameters, as required by format,
937                           specifying the objects to receive the converted input.
938 
939     @return     The scanf function returns EOF if an input failure occurs before
940                 any conversion.  Otherwise the number of input items assigned
941                 is returned; which can be fewer than provided for, or even zero
942                 in the event of an early matching failure.
943 **/
944 int       scanf   (const char * __restrict format, ...);
945 
946 /** Formatted output to a buffer.
947 
948     The sprintf function is equivalent to fprintf, except that the output is
949     written into array Buff instead of to a stream.  A null character is written
950     at the end of the characters written; it is not counted as part of the
951     returned value.
952 
953     @param[out]   Buff      A pointer to the array to receive the formatted output.
954     @param[in]    Format    A multi-byte character sequence containing characters
955                             to be copied unchanged, and conversion specifiers
956                             which convert their associated arguments.  Copied and
957                             converted characters are written to the array pointed
958                             to by Buff.
959     @param        ...       Variable number of parameters as required by format.
960 
961     @return   The sprintf function returns the number of characters written in
962               the array, not counting the terminating null character, or a
963               negative value if an encoding error occurred.
964 **/
965 int       sprintf (char * __restrict Buff, const char * __restrict Format, ...);
966 
967 /** Formatted input from a string.
968 
969     The sscanf function is equivalent to fscanf, except that input is obtained
970     from a string rather than from a stream.  Reaching the end of the string
971     is equivalent to encountering end-of-file for the fscanf function.
972 
973     @param[in]  Buff      Pointer to the string from which to obtain input.
974     @param[in]  Format    A multi-byte character sequence containing characters
975                           to be matched against, and conversion specifiers
976                           which convert their associated arguments.  Converted
977                           items are stored according to their associated arguments.
978     @param[out] ...       Variable number of parameters, as required by format,
979                           specifying the objects to receive the converted input.
980 
981     @return     The scanf function returns EOF if an input failure occurs before
982                 any conversion.  Otherwise the number of input items assigned
983                 is returned; which can be fewer than provided for, or even zero
984                 in the event of an early matching failure.
985 **/
986 int       sscanf  (const char * __restrict Buff, const char * __restrict Format, ...);
987 
988 /** Print formatted values from an argument list.
989 
990     The vfprintf function is equivalent to fprintf, with the variable argument
991     list replaced by Args, which must have been initialized by the va_start macro.
992     The vfprintf function does not invoke the va_end macro.
993 
994     @param[in]  Stream    The output stream to receive the formatted output.
995     @param[in]  Format    A multi-byte character sequence containing characters
996                           to be matched against, and conversion specifiers
997                           which convert their associated arguments.  Converted
998                           items are stored according to their associated arguments.
999     @param[in]  Args      A list of arguments, initialized by the va_start macro
1000                           and accessed using the va_arg macro, used to satisfy
1001                           the directives in the Format string.
1002 
1003     @return   The vfprintf function returns the number of characters transmitted,
1004               or a negative value if an output or encoding error occurred.
1005 **/
1006 int       vfprintf(FILE * __restrict Stream, const char * __restrict Format, va_list Args);
1007 
1008 /** Formatted print, to stdout, from an argument list.
1009 
1010     The vprintf function is equivalent to printf, with the variable argument
1011     list replaced by Args, which must have been initialized by the va_start
1012     macro (and possibly subsequent va_arg calls). The vprintf function does
1013     not invoke the va_end macro.
1014 
1015     @param[in]  Format    A multi-byte character sequence containing characters
1016                           to be matched against, and conversion specifiers
1017                           which convert their associated arguments.  Converted
1018                           items are stored according to their associated arguments.
1019     @param[in]  Args      A list of arguments, initialized by the va_start macro
1020                           and accessed using the va_arg macro, used to satisfy
1021                           the directives in the Format string.
1022 
1023     @return   The vprintf function returns the number of characters transmitted,
1024               or a negative value if an output or encoding error occurred.
1025 **/
1026 int       vprintf (const char * __restrict Format, va_list Args);
1027 
1028 /** Formatted print, to a buffer, from an argument list.
1029 
1030     The vsprintf function is equivalent to sprintf, with the variable argument
1031     list replaced by Args, which must have been initialized by the va_start
1032     macro. The vsprintf function does not invoke the va_end macro.
1033 
1034     @param[out]   Buff      A pointer to the array to receive the formatted output.
1035     @param[in]    Format    A multi-byte character sequence containing characters
1036                             to be copied unchanged, and conversion specifiers
1037                             which convert their associated arguments.  Copied and
1038                             converted characters are written to the array pointed
1039                             to by Buff.
1040     @param[in]    Args      A list of arguments, initialized by the va_start macro
1041                             and accessed using the va_arg macro, used to satisfy
1042                             the directives in the Format string.
1043 
1044     @return   The vsprintf function returns the number of characters written in
1045               the array, not counting the terminating null character, or a
1046               negative value if an encoding error occurred.
1047 **/
1048 int       vsprintf(char * __restrict Buff, const char * __restrict Format, va_list Args);
1049 
1050 /* ################ Character Input/Output Functions. */
1051 
1052 /** Get a character from an input Stream.
1053 
1054     If the end-of-file indicator for the input stream pointed to by Stream is
1055     not set, and a next character is present, the fgetc function obtains that
1056     character as an unsigned char converted to an int and advances the
1057     associated file position indicator for the stream.
1058 
1059     @param[in]  Stream    An input stream from which to obtain a character.
1060 
1061     @return   If the end-of-file indicator for the stream is set, or if the
1062               stream is at end-of-file, the end-of-file indicator for the
1063               stream is set and the fgetc function returns EOF.  Otherwise,
1064               the fgetc function returns the next character from the input
1065               stream pointed to by Stream.  If a read error occurs, the
1066               error indicator for the stream is set and the fgetc function
1067               returns EOF.
1068 **/
1069 int       fgetc   (FILE *Stream);
1070 
1071 /** Read a string from an input stream into a buffer.
1072 
1073     The fgets function reads at most one less than the number of characters
1074     specified by Limit from the stream pointed to by Stream into the array
1075     pointed to by Buff.  No additional characters are read after a
1076     new-line character (which is retained) or after end-of-file.  A null
1077     character is written immediately after the last character read into the array.
1078 
1079     @param[out] Buff      A pointer to the array to receive the input string.
1080     @param[in]  Limit     The maximum number of characters to put into Buff,
1081                           including the terminating null character.
1082     @param[in]  Stream    An input stream from which to obtain a character.
1083 
1084     @return   The fgets function returns Buff if successful. If end-of-file is
1085               encountered and no characters have been read into the array, the
1086               contents of the array remain unchanged and a null pointer is
1087               returned. If a read error occurs during the operation, the array
1088               contents are indeterminate and a null pointer is returned.
1089 **/
1090 char     *fgets   (char * __restrict Buff, int Limit, FILE * __restrict Stream);
1091 
1092 /** Write a character to an output stream.
1093 
1094     The fputc function writes the character specified by C (converted to an
1095     unsigned char) to the output stream pointed to by Stream, at the position
1096     indicated by the associated file position indicator for the stream
1097     (if defined), and advances the indicator appropriately. If the file cannot
1098     support positioning requests, or if the stream was opened with append mode,
1099     the character is appended to the output stream.
1100 
1101     @param[in]  C       The character to be written to Stream.
1102     @param[in]  Stream  The output stream that C is to be written to.
1103 
1104     @return   The fputc function returns the character written. If a write
1105               error occurs, the error indicator for the stream is set and
1106               fputc returns EOF.
1107 **/
1108 int       fputc   (int C, FILE *Stream);
1109 
1110 /** Write a string to an output stream.
1111 
1112     The fputs function writes String to the stream pointed to by Stream.  The
1113     terminating null character is not written.
1114 
1115     @param[in]  String  The character string to be written to Stream.
1116     @param[in]  Stream  The output stream that String is to be written to.
1117 
1118     @return   The fputs function returns EOF if a write error occurs; otherwise
1119               it returns a non-negative value.
1120 **/
1121 int       fputs   (const char * __restrict String, FILE * __restrict Stream);
1122 
1123 /** Get a character from an input stream.
1124 
1125     The getc function is equivalent to fgetc, except that if it is implemented
1126     as a macro, it may evaluate stream more than once, so the argument should
1127     never be an expression with side effects.
1128 
1129     @param[in]  Stream    An input stream from which to obtain a character.
1130 
1131     @return   If the end-of-file indicator for the stream is set, or if the
1132               stream is at end-of-file, the end-of-file indicator for the
1133               stream is set and getc returns EOF.  Otherwise, getc returns
1134               the next character from the input stream pointed to by Stream.
1135               If a read error occurs, the error indicator for the stream is set
1136               and getc returns EOF.
1137 **/
1138 int       getc    (FILE *);
1139 
1140 /** Get a character from stdin.
1141 
1142     The getchar function is equivalent to getc with the argument stdin.
1143 
1144     @return   If the end-of-file indicator for stdin is set, or if stdin
1145               is at end-of-file, the end-of-file indicator is set and getchar
1146               returns EOF.  Otherwise, getchar returns the next character from
1147               stdin.  If a read error occurs, the error indicator for stdin is
1148               set and getchar returns EOF.
1149 **/
1150 int       getchar (void);
1151 
1152 /** Read a string from stdin into a buffer.
1153 
1154     The gets function reads characters from the input stream pointed to by
1155     stdin, into the array pointed to by Buff, until end-of-file is encountered
1156     or a new-line character is read.  Any new-line character is discarded, and
1157     a null character is written immediately after the last character read into
1158     the array.
1159 
1160     @param[out] Buff      A pointer to the array to receive the input string.
1161 
1162     @return   The gets function returns Buff if successful.  If end-of-file is
1163               encountered and no characters have been read into the array, the
1164               contents of the array remain unchanged and a null pointer is
1165               returned. If a read error occurs during the operation, the array
1166               contents are indeterminate and a null pointer is returned.
1167 **/
1168 char     *gets    (char *Buff);
1169 
1170 /** Write a character to an output stream.
1171 
1172     The putc function is equivalent to fputc, except that if it is implemented
1173     as a macro, it may evaluate Stream more than once, so that argument should
1174     never be an expression with side effects.
1175 
1176     @param[in]  C       The character to be written to Stream.
1177     @param[in]  Stream  The output stream that C is to be written to.
1178 
1179     @return   The putc function returns the character written. If a write
1180               error occurs, the error indicator for the stream is set and
1181               putc returns EOF.
1182 **/
1183 int       putc    (int C, FILE *Stream);
1184 
1185 /** Write a character to stdout.
1186 
1187     The putchar function is equivalent to putc with stdout as the Stream argument.
1188 
1189     @param[in]    C   The character to be written to stdout.
1190 
1191     @return   The putchar function returns the character written. If a write
1192               error occurs, the error indicator for stdout is set and putchar
1193               returns EOF.
1194 **/
1195 int       putchar (int C);
1196 
1197 /** Write String to stdout.
1198 
1199     The puts function writes the string pointed to by String to the stream
1200     pointed to by stdout, and appends a new-line character to the output. The
1201     terminating null character is not written.
1202 
1203     @param[in]  String    A pointer to the character string to write to stdout.
1204 
1205     @return   The puts function returns EOF if a write error occurs; otherwise
1206               it returns a non-negative value.
1207 **/
1208 int       puts    (const char *String);
1209 
1210 /** Return a character to the input Stream as if it had not been read.
1211 
1212     The ungetc function pushes the character specified by C (converted to an
1213     unsigned char) back onto the input stream pointed to by Stream. Pushed-back
1214     characters will be returned by subsequent reads on that stream in the
1215     reverse order of their being pushed.  A successful intervening call
1216     (with the stream pointed to by Stream) to a file positioning function
1217     (fseek, fsetpos, or rewind) discards any pushed-back characters for the
1218     stream. The external storage corresponding to the stream is unchanged.
1219 
1220     One character of pushback is guaranteed. If the ungetc function is called
1221     too many times on the same stream without an intervening read or file
1222     positioning operation on that stream, the operation will fail.
1223 
1224     If the value of C equals that of the macro EOF, the operation fails and the
1225     input stream is unchanged.
1226 
1227     A successful call to the ungetc function clears the end-of-file indicator
1228     for the stream.  The value of the file position indicator for the stream
1229     after reading or discarding all pushed-back characters is the same as it
1230     was before the characters were pushed back.  For a binary stream, its
1231     file position indicator is decremented by each successful call to the
1232     ungetc function; if its value was zero before a call, it will remain zero
1233     after the call.
1234 
1235     @param[in]  C       The character to push back onto the Stream.
1236     @param[in]  Stream  The output stream that C is to be pushed back onto.
1237 
1238     @return   The ungetc function returns the character pushed back,
1239               or EOF if the operation fails.
1240 **/
1241 int       ungetc  (int C, FILE *Stream);
1242 
1243 /* ################ Direct Input/Output Functions. */
1244 
1245 /** Read Num elements of size Size from a Stream into a Buffer.
1246 
1247     The fread function reads, into the array pointed to by Buffer, up to Num
1248     elements, whose size is specified by Size, from the stream pointed to by
1249     Stream.  For each object, Size calls are made to the fgetc function and the
1250     results stored, in the order read, in an array of unsigned char exactly
1251     overlaying the Buffer object.  The file position indicator for the stream
1252     (if defined) is advanced by the number of characters successfully read. If
1253     an error occurs, the resulting value of the file position indicator for the
1254     stream is indeterminate.
1255 
1256     @param[out]   Buffer    Pointer to an object to receive the read data.
1257     @param[in]    Size      Size of each element to be read.
1258     @param[in]    Num       Number of elements to read.
1259     @param[in]    Stream    Input stream to read the data from.
1260 
1261     @return   The fread function returns the number of elements successfully
1262               read, which may be less than Num if a read error or end-of-file
1263               is encountered.  If Size or Num is zero, fread returns zero and
1264               the contents of the array and the state of the stream remain
1265               unchanged.
1266 **/
1267 size_t    fread   (void   * __restrict  Buffer,
1268                    size_t               Size,
1269                    size_t               Num,
1270                    FILE   * __restrict  Stream
1271                   );
1272 
1273 /** Write Num elements of size Size from Buffer to Stream.
1274 
1275     The fwrite function writes, from the array pointed to by Buffer, up to Num
1276     elements whose size is specified by Size, to the stream pointed to by
1277     Stream.  For each object, Size calls are made to the fputc function, taking
1278     the values (in order) from an array of unsigned char exactly overlaying the
1279     Buffer object.  The file position indicator for the stream (if defined) is
1280     advanced by the number of characters successfully written.  If an error
1281     occurs, the resulting value of the file position indicator for the stream is
1282     indeterminate.
1283 
1284     @param[out]   Buffer    Pointer to an object containing the data to be written.
1285     @param[in]    Size      Size of each element to be written.
1286     @param[in]    Num       Number of elements to write.
1287     @param[in]    Stream    Output stream to write the data to.
1288 
1289     @return   The fwrite function returns the number of elements successfully
1290               written, which will be less than Num only if a write error is
1291               encountered.  If Size or Num is zero, fwrite returns zero and
1292               the state of the stream remains unchanged.
1293 **/
1294 size_t    fwrite  (const void   * __restrict  Buffer,
1295                    size_t                     Size,
1296                    size_t                     Num,
1297                    FILE         * __restrict  Stream
1298                   );
1299 
1300 /* ################ File Positioning Functions.  */
1301 
1302 /** Get a stream's position and parse state.
1303 
1304     The fgetpos function stores the current values of the parse state (if any)
1305     and file position indicator for the stream pointed to by Stream in the
1306     object pointed to by Pos.  The values stored contain unspecified
1307     information usable by the fsetpos function for repositioning the stream
1308     to its position at the time of the call to the fgetpos function.
1309 
1310     @param[in]    Stream    Stream to get current position of.
1311     @param[out]   Pos       Object to receive the stream's state and position information.
1312 
1313     @return   If successful, the fgetpos function returns zero; if either
1314               parameter is NULL, the fgetpos function returns nonzero and
1315               stores EINVAL in errno.
1316 **/
1317 int       fgetpos (FILE * __restrict Stream, fpos_t * __restrict Pos);
1318 
1319 /** Set the file position for a stream.
1320 
1321     The fseek function sets the file position indicator for the stream pointed
1322     to by Stream.  If a read or write error occurs, the error indicator for the
1323     stream is set and fseek fails.
1324 
1325     For a binary stream, the new position, measured in characters from the
1326     beginning of the file, is obtained by adding Offset to the position
1327     specified by Whence. The specified position is the beginning of the file if
1328     Whence is SEEK_SET, the current value of the file position indicator if
1329     SEEK_CUR, or end-of-file if SEEK_END.
1330 
1331     For a text stream, Offset must either be zero or a value returned by an
1332     earlier successful call to the ftell function, on a stream associated with
1333     the same file, and Whence must be SEEK_SET.
1334 
1335     After determining the new position, a successful call to the fseek function
1336     undoes any effects of the ungetc function on the stream, clears the
1337     end-of-file indicator for the stream, and then establishes the new position.
1338     After a successful fseek call, the next operation on an update stream may
1339     be either input or output.
1340 
1341     @param[in]  Stream  The I/O stream to set the position of.
1342     @param[in]  Offset  The position, interpreted depending upon the value of
1343                         Whence, that the stream is to be positioned to.
1344     @param[in]  Whence  A value indicating how Offset is to be interpreted:
1345                           - SEEK_SET indicates Offset is an absolute position.
1346                           - SEEK_END indicates Offset is relative to the end of the file.
1347                           - SEEK_CUR indicates Offset is relative to the current position.
1348 
1349 @return   The fseek function returns nonzero only for a request that cannot be satisfied.
1350 **/
1351 int       fseek   (FILE *Stream, long Offset, int Whence);
1352 
1353 /** Set a stream's position and parse state.
1354 
1355     The fsetpos function sets the mbstate_t object (if any) and file position
1356     indicator for the stream pointed to by Stream according to the value of the
1357     object pointed to by Pos, which is a value that was obtained from an
1358     earlier successful call to the fgetpos function on a stream associated with
1359     the same file. If a read or write error occurs, the error indicator for the
1360     stream is set and fsetpos fails.
1361 
1362     A successful call to the fsetpos function undoes any effects of the ungetc
1363     function on the stream, clears the end-of-file indicator for the stream,
1364     and then establishes the new parse state and position. After a successful
1365     fsetpos call, the next operation on an update stream may be either input or output.
1366 
1367     @param[in]    Stream    Stream to set current position of.
1368     @param[in]    Pos       Object containing the state and position information.
1369 
1370     @return   If successful, the fsetpos function returns zero; on failure, the
1371               fsetpos function returns nonzero and stores EINVAL, or ESPIPE,
1372               in errno; depending upon whether the error was because of an invalid
1373               parameter, or because Stream is not seekable.
1374 **/
1375 int       fsetpos (FILE *Stream, const fpos_t *Pos);
1376 
1377 /** Get Stream's current position.
1378 
1379     The ftell function obtains the current value of the file position indicator
1380     for the stream pointed to by Stream. For a binary stream, the value is the
1381     number of characters from the beginning of the file. For a text stream, its
1382     file position indicator contains unspecified information, usable by the
1383     fseek function for returning the file position indicator for the stream to
1384     its position at the time of the ftell call; the difference between two such
1385     return values is not necessarily a meaningful measure of the number of
1386     characters written or read.
1387 
1388     @param[in]  Stream    Pointer to the FILE object to get the current position of.
1389 
1390     @return   If successful, the ftell function returns the current value of
1391               the file position indicator for the stream.  On failure, the
1392               ftell function returns -1L and stores ESPIPE in errno indicating
1393               that the stream is not seekable.
1394 **/
1395 long      ftell   (FILE *Stream);
1396 
1397 /** Restore a Stream's file position to the beginning of the file.
1398 
1399     The rewind function sets the file position indicator for the stream pointed
1400     to by Stream to the beginning of the file and clears the stream's error indicator.
1401 
1402     @param[in]  Stream    Pointer to the stream to be positioned to its beginning.
1403 **/
1404 void      rewind  (FILE *Stream);
1405 
1406 /* ################ Error-handling Functions.  */
1407 
1408 /** Clear a Stream's error and end-of-file indicators.
1409 
1410     @param[in]  Stream    Pointer to the stream to be cleared of errors.
1411 **/
1412 void      clearerr(FILE *Stream);
1413 
1414 /** Test the end-of-file indicator for Stream.
1415 
1416     @param[in]  Stream    Pointer to the FILE object to be tested for EOF.
1417 
1418     @return   The feof function returns non-zero if, and only if, the end-of-file
1419               indicator is set for Stream.
1420 **/
1421 int       feof    (FILE *Stream);
1422 
1423 /** Test the error indicator for Stream.
1424 
1425     @param[in]  Stream    Pointer to the stream to be tested for error.
1426 
1427     @return   The ferror function returns non-zero if, and only if, the error
1428               indicator is set for Stream.
1429 **/
1430 int       ferror  (FILE *Stream);
1431 
1432 /** Print an error message to stderr based upon the value of errno and String.
1433 
1434     The perror function maps the error number in the integer expression errno
1435     to an error message.  It writes a sequence of characters to the standard
1436     error stream thus: first (if String is not a null pointer and the character
1437     pointed to by String is not the null character), the string pointed to by
1438     String followed by a colon (:) and a space; then an appropriate error
1439     message string followed by a new-line character. The contents of the error
1440     message strings are the same as those returned by the strerror function
1441     with argument errno.
1442 
1443     @param[in]  String    A text string to prefix the output error message with.
1444 
1445     @sa strerror in <string.h>
1446 **/
1447 void      perror  (const char *String);
1448 
1449 __END_DECLS
1450 
1451 /*
1452  * IEEE Std 1003.1-90
1453  */
1454 __BEGIN_DECLS
1455 FILE  *fdopen(int, const char *);
1456 __END_DECLS
1457 
1458 /*
1459  * IEEE Std 1003.1c-95, also adopted by X/Open CAE Spec Issue 5 Version 2
1460  */
1461 __BEGIN_DECLS
1462 void    flockfile       (FILE *);
1463 int     ftrylockfile    (FILE *);
1464 void    funlockfile     (FILE *);
1465 int     getc_unlocked   (FILE *);
1466 int     getchar_unlocked(void);
1467 int     putc_unlocked   (int, FILE *);
1468 int     putchar_unlocked(int);
1469 __END_DECLS
1470 
1471 /*
1472  * Functions defined in POSIX 1003.2 and XPG2 or later.
1473  */
1474 __BEGIN_DECLS
1475   int     pclose  (FILE *);
1476   FILE   *popen   (const char *, const char *);
1477 __END_DECLS
1478 
1479 /*
1480  * Functions defined in ISO XPG4.2, ISO C99, POSIX 1003.1-2001 or later.
1481  */
1482 __BEGIN_DECLS
1483   int     snprintf (char * __restrict, size_t, const char * __restrict, ...)
1484           __attribute__((__format__(__printf__, 3, 4)));
1485   int     vsnprintf(char * __restrict, size_t, const char * __restrict, va_list)
1486           __attribute__((__format__(__printf__, 3, 0)));
1487 __END_DECLS
1488 
1489 /*
1490  * Functions defined in XPG4.2.
1491  */
1492 __BEGIN_DECLS
1493   //int   getw(FILE *);
1494   //int   putw(int, FILE *);
1495   char *mkdtemp(char *);
1496   int   mkstemp(char *);
1497   char *mktemp(char *);
1498 
1499   char *tempnam(const char *, const char *);
1500 __END_DECLS
1501 
1502 /*
1503  * X/Open CAE Specification Issue 5 Version 2
1504  */
1505 #ifndef off_t
1506   typedef __off_t   off_t;
1507   #define off_t   __off_t
1508 #endif /* off_t */
1509 
1510 __BEGIN_DECLS
1511 int     fseeko(FILE *, off_t, int);
1512 off_t   ftello(FILE *);
1513 __END_DECLS
1514 
1515 /*
1516  * Routines that are purely local.
1517  */
1518 #define FPARSELN_UNESCESC   0x01
1519 #define FPARSELN_UNESCCONT  0x02
1520 #define FPARSELN_UNESCCOMM  0x04
1521 #define FPARSELN_UNESCREST  0x08
1522 #define FPARSELN_UNESCALL   0x0f
1523 
1524 __BEGIN_DECLS
1525   //int     asprintf(char ** __restrict, const char * __restrict, ...)
1526   //      __attribute__((__format__(__printf__, 2, 3)));
1527   char   *fgetln(FILE * __restrict, size_t * __restrict);
1528   char   *fparseln(FILE *, size_t *, size_t *, const char[3], int);
1529   int     fpurge(FILE *);
1530   void    setbuffer(FILE *, char *, int);
1531   int     setlinebuf(FILE *);
1532   int     vasprintf(char ** __restrict, const char * __restrict,
1533         va_list)
1534         __attribute__((__format__(__printf__, 2, 0)));
1535   int     vscanf(const char * __restrict, va_list)
1536         __attribute__((__format__(__scanf__, 1, 0)));
1537   //int     vfscanf(FILE * __restrict, const char * __restrict,
1538   //      va_list)
1539   //      __attribute__((__format__(__scanf__, 2, 0)));
1540   int     vsscanf(const char * __restrict, const char * __restrict,
1541         va_list)
1542         __attribute__((__format__(__scanf__, 2, 0)));
1543   //const char *fmtcheck(const char *, const char *)
1544   //      __attribute__((__format_arg__(2)));
1545 __END_DECLS
1546 
1547   /*
1548    * Stdio function-access interface.
1549    */
1550 __BEGIN_DECLS
1551   FILE  *funopen(const void *,
1552       int (*)(void *, char *, int),
1553       int (*)(void *, const char *, int),
1554       fpos_t (*)(void *, fpos_t, int),
1555       int (*)(void *));
1556 __END_DECLS
1557   //#define fropen(cookie, fn) funopen(cookie, fn, 0, 0, 0)
1558   //#define fwopen(cookie, fn) funopen(cookie, 0, fn, 0, 0)
1559 
1560 /*
1561  * Functions internal to the implementation.
1562  */
1563 __BEGIN_DECLS
1564 int __srget(FILE *);
1565 int __swbuf(int, FILE *);
1566 __END_DECLS
1567 
1568 /*
1569  * The __sfoo macros are here so that we can
1570  * define function versions in the C library.
1571  */
1572 #define __sgetc(p) (--(p)->_r < 0 ? __srget(p) : (int)(*(p)->_p++))
1573 
1574 #if defined(__GNUC__) && defined(__STDC__)
__sputc(int _c,FILE * _p)1575   static __inline int __sputc(int _c, FILE *_p) {
1576     if (--_p->_w >= 0 || (_p->_w >= _p->_lbfsize && (char)_c != '\n'))
1577       return (*_p->_p++ = _c);
1578     else
1579       return (__swbuf(_c, _p));
1580   }
1581 #else
1582   /*
1583    * This has been tuned to generate reasonable code on the vax using pcc.
1584    */
1585   #define __sputc(c, p) \
1586     (--(p)->_w < 0 ? \
1587       (p)->_w >= (p)->_lbfsize ? \
1588         (*(p)->_p = (unsigned char)(c)), *(p)->_p != '\n' ? \
1589           (int)*(p)->_p++ : \
1590           __swbuf('\n', p) : \
1591         __swbuf((int)(c), p) : \
1592       (*(p)->_p = (unsigned char)(c), (int)*(p)->_p++))
1593 #endif
1594 
1595 #define __sfeof(p)      (((p)->_flags & __SEOF) != 0)
1596 #define __sferror(p)    (((p)->_flags & __SERR) != 0)
1597 #define __sclearerr(p)  ((void)((p)->_flags &= ~(__SERR|__SEOF)))
1598 #define __sfileno(p)    ((p)->_file)
1599 
1600 #ifndef __lint__
1601     #define feof(p)     __sfeof(p)
1602     #define ferror(p)   __sferror(p)
1603     #define clearerr(p) __sclearerr(p)
1604 
1605     #define getc(fp)    __sgetc(fp)
1606     #define putc(x, fp) __sputc(x, fp)
1607 #endif /* __lint__ */
1608 
1609 #define getchar()   getc(stdin)
1610 #define putchar(x)  putc(x, stdout)
1611 
1612 #define fileno(p) __sfileno(p)
1613 
1614 #define getc_unlocked(fp) __sgetc(fp)
1615 #define putc_unlocked(x, fp)  __sputc(x, fp)
1616 
1617 #define getchar_unlocked()  getc_unlocked(stdin)
1618 #define putchar_unlocked(x) putc_unlocked(x, stdout)
1619 
1620 #endif /* _STDIO_H_ */
1621