- Unison Kernel
- Pthread Cancellation
- Message Queues
- Conditional Variables
- Memory Allocation
- Directory Services
- Unison I/O Library
- Unison STDIO Library
- STDIO Library Calls
- Do-nothing Stubs
- STDIO Library Calls
- Unison LIBC Library
- Unison I/O Servers
- Graphics, Camera, Video, Audio
- Network Protocols
- TCP and UDP Server - tcpd
- DHCP Client Service - dhcp client
- DHCP Server - dhcpd
- Telnet Server - telnetd
- Tiny FTP Server - tftpd
- Point to Point - pppd
- Network Translation - NAT with PAT
- Tiny HTTP Server - thttpd
- Tiny HTTP Server with TLS
- POP3 Server
- Simple Mail Transfer Protocol Services (SMTP)
- Bootp Protocol
- File Transfer Protocol Server (FTP)
- File Transfer Client Services
- RPC / XDR
- DNS Client
- HTTP/HTTPS Client
- REST Client
- AutoIP Service - autoip client
- mDNS server - mdnsd
- SNTP Client
- SNMP Agent - Snmpd server
- SSL/TLS library
- SSH server
- IP security
- Power Control
- Serial I/O
- System Services
- Universal Serial Bus (USB)
- Remedy Tools for Unison
scanf, fscanf, sscanf – convert formatted input
- int scanf( const char *format , …);
- int fscanf( FILE *strm , const char *format , …);
- int sscanf(const char *s , const char *format , …);
scanf() reads from the standard input stream, stdin.
fscanf() reads from the stream strm.
sscanf() reads from the character string s.
Each function reads characters, interprets them according to a format, and stores the results in its arguments. Each expects, as arguments, a control string, format, described below and a set of pointer arguments indicating where the converted input should be stored. If there are insufficient arguments for the format, the behavior is undefined. If the format is exhausted while arguments remain, the excess arguments are simply ignored.
The control string usually contains conversion specifications, which are used to direct interpretation of input sequences. The control string may contain:
- White-space characters (blanks, tabs, new-lines, or form-feeds) that, except in two cases described below, cause input to be read up to the next non-white-space character.
- An ordinary character (not %) that must match the next character of the input stream.
- Conversion specifications consisting of the character % or the character sequence %digits$, an optional assignment suppression character *, a decimal digit string that specifies an optional numerical maximum field width, an optional letter l (ell), L, or h indicating the size of the receiving object, and a conversion code: % or digit, *, decimal digit string, h or l or L, conversion code The following defines which size indicators can used with which conversion codes, and the size they indicate.
Conversion Code Size Indicator Size d, i, n none int h short int l long int o, u, x none unsigned int h unsigned short int l unsigned long int e, f, g none float l double L long double
The h, l, or L modifier is ignored with any other conversion codes.
A conversion specification directs the conversion of the next input field; the result is placed in the variable pointed to by the corresponding argument unless assignment suppression was indicated by the character *. The suppression of assignment provides a way of describing an input field that is to be skipped. An input field is defined as a string of non-space characters; it extends to the next inappropriate character or until the maximum field width, if one is specified, is exhausted. For all descriptors except the character [ and the character c, white space leading an input field is ignored.
Conversions can be applied to the nth argument in the argument list, rather than to the next unused argument. In this case, the conversion character % (see above) is replaced by the sequence %digits$ where digits is a decimal integer n, giving the position of the argument in the argument list. The first such argument, %1$, immediately follows format. The control string can contain either form of a conversion specification, that is, % or %digits$, although the two forms cannot be mixed within a single control string.
The conversion code indicates the interpretation of the input field; the corresponding pointer argument must usually be of a restricted type. For a suppressed field, no pointer argument is given. The following conversion codes are valid:
- % A single % is expected in the input at this point; no assignment is done.
- d Matches an optionally signed decimal integer, whose format is the same as expected for the subject sequence of the strtol() function with the value 10 for the base argument. The corresponding argument should be a pointer to integer.
- u Matches an optionally signed decimal integer, whose format is the same as expected for the subject sequence of the strtol() function (see strtol()) with the value 10 for the base argument. The corresponding argument should be a pointer to unsigned integer.
- o Matches an optionally signed octal integer, whose format is the same as expected for the subject sequence of the strtoul() function with the value 8 for the base argument. The corresponding argument should be a pointer to unsigned integer.
- x Matches an optionally signed hexadecimal integer, whose format is the same as expected for the subject sequence of the strtoul() function with the value 16 for the base argument. The corresponding argument should be a pointer to unsigned integer.
- i Matches an optionally signed integer, whose format is the same as expected for the subject sequence of the strtol() function with the value 0 for the base argument. The corresponding argument should be a pointer to integer.
- n No input is consumed. The corresponding argument should be a pointer to integer into which is to be written the number of characters read from the input stream so far by the call to the function. Execution of a %n directive does not increment the assignment count returned at the completion of execution of the function.
- e,f,g Matches an optionally signed floating point number, whose format is the same as expected for the subject string of the strtod function. The corresponding argument should be a pointer to floating.
- s A character string is expected; the corresponding argument should be a character pointer pointing to an array of characters large enough to accept the string and a terminating \0, which will be added automatically. The input field is terminated by a white-space character.
- ws A wide character string is expected; the corresponding argument should be a wide character pointer pointing to an array of wide characters large enough to accept the wide character string and a terminating \0, which will be added automatically. The input field is terminated by a white-space character.
- c Matches a sequence of characters of the number specified by the field width (1 if no field width is present in the directive). The corresponding argument should be a pointer to the initial character of an array large enough to accept the sequence. No null character is added. The normal skip over white space is suppressed.
- wc Matches a sequence of wide characters of the number specified by the field width (1 if no field width is present in the directive). The corresponding argument should be a pointer to the initial character of an array large enough to accept the sequence. No null character is added. The normal skip over white space is suppressed.
- [ Matches a nonempty sequence of characters from a set of expected characters (the scanset). The corresponding argument should be a pointer to the initial character of an array large enough to accept the sequence and a terminating null character, which will be added automatically. The conversion specifier includes all subsequent characters in the format string, up to and including the matching right bracket (]). The characters between the brackets (the scanlist) comprise the scanset, unless the character after the left bracket is a circumflex (^), in which case the scanset contains all characters that do not appear in the scanlist between the circumflex and the right bracket. If the conversion specifier begins with  or [^], the right bracket character is in the scanlist and the next right bracket character is the matching right bracket that ends the specification; otherwise the first right bracket character is the one that ends the specification. A range of characters in the scanset may be represented by the construct first – last; thus  may be expressed [0-9]. Using this convention, first must be lexically less than or equal to last, or else the dash will stand for itself. The character – will also stand for itself whenever it is the first or the last character in the scanlist. To include the right bracket as an element of the scanset, it must appear as the first character (possibly preceded by a circumflex) of the scanlist and in this case it will not be syntactically interpreted as the closing bracket. At least one character must match for this conversion to be considered successful.
- p Matches the set of implementation-defined sequences produced as output by the %p conversion of the printf() function. The corresponding argument should be a pointer to void. If the input item is a value converted earlier during the same program execution, the pointer that results compares equal to that value; otherwise, the behavior of the %p conversion is undefined.
If an invalid conversion character follows the %, the results of the operation may not be predictable.
The scanf() conversion terminates at end of file, at the end of the control string, or when an input character conflicts with the control string.
If end-of-file is encountered during input, conversion is terminated. If end-of-file occurs before any characters matching the current directive have been read (other than leading white space, where permitted), execution of the current directive terminates with an input failure; otherwise, unless execution of the current directive is terminated with a matching failure, execution of the following directive (if any) is terminated with an input failure.
If conversion terminates on a conflicting input character, the offending input character is left unread in the input stream. Trailing white space (including new-line characters) is left unread unless matched by a directive. The success of literal matches and suppressed assignments is not directly determinable other than via the %n directive.
These routines return the number of successfully matched and assigned input items; this number can be zero in the event of an early matching failure between an input character and the control string. If the input ends before the first matching failure or conversion, EOF is returned.
If a read error occurs, the error indicator for the stream is set, EOF shall be returned, and errno shall be set to indicate the error.
For the conditions under which these functions fail, refer to fgetc().
In addition, they may fail if:
- There are insufficient arguments.
The call to the function scanf() : :
int i, n; float x; char name; n = scanf ("%d%f%s", &i, &x, name);
with the input line:
25 54.32E-1 thompson
will assign to n the value 3, to i the value 25, to x the value 5.432, and name will contain thompson\0.
The call to the function scanf() : :
int i; float x; char name; (void) scanf ("%2d%f%(**d %[0-9]", &i, &x, name);
with the input line:
56789 0123 56a72
will assign 56 to i, 789.0 to x, skip 0123, and place the characters 56\0 in name. The next character read from stdin will be a.