SSCANF(3) NEWLIB SSCANF(3)NAME
4.61 `sscanf', `fscanf', `scanf'--scan and format input
SYNOPSIS
#include <stdio.h>
int scanf(const char *FORMAT, ...);
int fscanf(FILE *FD, const char *FORMAT, ...);
int sscanf(const char *STR, const char *FORMAT, ...);
int _scanf_r(struct _reent *PTR, const char *FORMAT, ...);
int _fscanf_r(struct _reent *PTR, FILE *FD,
const char *FORMAT, ...);
int _sscanf_r(struct _reent *PTR, const char *STR,
const char *FORMAT, ...);
DESCRIPTION
`scanf' scans a series of input fields from standard input, one charac‐
ter at a time. Each field is interpreted according to a format speci‐
fier passed to `scanf' in the format string at `*FORMAT'. `scanf'
stores the interpreted input from each field at the address passed to
it as the corresponding argument following FORMAT. You must supply the
same number of format specifiers and address arguments as there are
input fields.
There must be sufficient address arguments for the given format
specifiers; if not the results are unpredictable and likely disaster‐
ous. Excess address arguments are merely ignored.
`scanf' often produces unexpected results if the input diverges from
an expected pattern. Since the combination of `gets' or `fgets' fol‐
lowed by `sscanf' is safe and easy, that is the preferred way to be
certain that a program is synchronized with input at the end of a line.
`fscanf' and `sscanf' are identical to `scanf', other than the
source of input: `fscanf' reads from a file, and `sscanf' from a
string.
The routines `_scanf_r', `_fscanf_r', and `_sscanf_r' are reentrant
versions of `scanf', `fscanf', and `sscanf' that take an additional
first argument pointing to a reentrancy structure.
The string at `*FORMAT' is a character sequence composed of zero or
more directives. Directives are composed of one or more whitespace
characters, non-whitespace characters, and format specifications.
Whitespace characters are blank (` '), tab (`'), or newline (`0).
When `scanf' encounters a whitespace character in the format string it
will read (but not store) all consecutive whitespace characters up to
the next non-whitespace character in the input.
Non-whitespace characters are all other ASCII characters except the
percent sign (`%'). When `scanf' encounters a non-whitespace character
in the format string it will read, but not store a matching non-white‐
space character.
Format specifications tell `scanf' to read and convert characters
from the input field into specific types of values, and store then in
the locations specified by the address arguments.
Trailing whitespace is left unread unless explicitly matched in the
format string.
The format specifiers must begin with a percent sign (`%') and have
the following form:
%[*][WIDTH][SIZE]TYPE
Each format specification begins with the percent character (`%').
The other fields are: `*'
an optional marker; if present, it suppresses interpretation and
assignment of this input field.
`WIDTH'
an optional maximum field width: a decimal integer, which controls
the maximum number of characters that will be read before
converting the current input field. If the input field has fewer
than WIDTH characters, `scanf' reads all the characters in the
field, and then proceeds with the next field and its format
specification.
If a whitespace or a non-convertable character occurs before WIDTH
character are read, the characters up to that character are read,
converted, and stored. Then `scanf' proceeds to the next format
specification.
`size'
`h', `j', `l', `L', `t', and `z' are optional size characters
which override the default way that `scanf' interprets the data
type of the corresponding argument.
Modifier Type(s)
hh d, i, o, u, x, n convert input to char,
store in char object
h d, i, o, u, x, n convert input to short,
store in short object
h D, I, O, U, X no effect
e, f, c, s, p
j d, i, o, u, x, n convert input to intmax_t,
store in intmax_t object
j all others no effect
l d, i, o, u, x, n convert input to long,
store in long object
l e, f, g convert input to double
store in a double object
l D, I, O, U, X no effect
c, s, p
ll d, i, o, u, x, n convert to long long,
store in long long
L d, i, o, u, x, n convert to long long,
store in long long
L e, f, g, E, G convert to long double,
store in long double
L all others no effect
t d, i, o, u, x, n convert input to ptrdiff_t,
store in ptrdiff_t object
t all others no effect
z d, i, o, u, x, n convert input to size_t,
store in size_t object
z all others no effect
`TYPE'
A character to specify what kind of conversion `scanf' performs.
Here is a table of the conversion characters:
`%'
No conversion is done; the percent character (`%') is stored.
`c'
Scans one character. Corresponding ARG: `(char *arg)'.
`s'
Reads a character string into the array supplied.
Corresponding ARG: `(char arg[])'.
`[PATTERN]'
Reads a non-empty character string into memory starting at
ARG. This area must be large enough to accept the sequence
and a terminating null character which will be added
automatically. (PATTERN is discussed in the paragraph
following this table). Corresponding ARG: `(char *arg)'.
`d'
Reads a decimal integer into the corresponding ARG: `(int
*arg)'.
`D'
Reads a decimal integer into the corresponding ARG: `(long
*arg)'.
`o'
Reads an octal integer into the corresponding ARG: `(int
*arg)'.
`O'
Reads an octal integer into the corresponding ARG: `(long
*arg)'.
`u'
Reads an unsigned decimal integer into the corresponding ARG:
`(unsigned int *arg)'.
`U'
Reads an unsigned decimal integer into the corresponding ARG:
`(unsigned long *arg)'.
`x,X'
Read a hexadecimal integer into the corresponding ARG: `(int
*arg)'.
`e, f, g'
Read a floating-point number into the corresponding ARG:
`(float *arg)'.
`E, F, G'
Read a floating-point number into the corresponding ARG:
`(double *arg)'.
`i'
Reads a decimal, octal or hexadecimal integer into the
corresponding ARG: `(int *arg)'.
`I'
Reads a decimal, octal or hexadecimal integer into the
corresponding ARG: `(long *arg)'.
`n'
Stores the number of characters read in the corresponding
ARG: `(int *arg)'.
`p'
Stores a scanned pointer. ANSI C leaves the details to each
implementation; this implementation treats `%p' exactly the
same as `%U'. Corresponding ARG: `(void **arg)'.
A PATTERN of characters surrounded by square brackets can be used
instead of the `s' type character. PATTERN is a set of characters
which define a search set of possible characters making up the
`scanf' input field. If the first character in the brackets is a
caret (`^'), the search set is inverted to include all ASCII
characters except those between the brackets. There is also a
range facility which you can use as a shortcut. `%[0-9] ' matches
all decimal digits. The hyphen must not be the first or last
character in the set. The character prior to the hyphen must be
lexically less than the character after it.
Here are some PATTERN examples:
`%[abcd]'
matches strings containing only `a', `b', `c', and `d'.
`%[^abcd]'
matches strings containing any characters except `a', `b',
`c', or `d'
`%[A-DW-Z]'
matches strings containing `A', `B', `C', `D', `W', `X', `Y',
`Z'
`%[z-a]'
matches the characters `z', `-', and `a'
Floating point numbers (for field types `e', `f', `g', `E', `F',
`G') must correspond to the following general form:
[+/-] ddddd[.]ddd [E|e[+|-]ddd]
where objects inclosed in square brackets are optional, and `ddd'
represents decimal, octal, or hexadecimal digits.
RETURNS
`scanf' returns the number of input fields successfully scanned, con‐
verted and stored; the return value does not include scanned fields
which were not stored.
If `scanf' attempts to read at end-of-file, the return value is
`EOF'.
If no fields were stored, the return value is `0'.
`scanf' might stop scanning a particular field before reaching the
normal field end character, or may terminate entirely.
`scanf' stops scanning and storing the current field and moves to
the next input field (if any) in any of the following situations:
* The assignment suppressing character (`*') appears after the `%'
in the format specification; the current input field is scanned
but not stored.
* WIDTH characters have been read (WIDTH is a width specification, a
positive decimal integer).
* The next character read cannot be converted under the the current
format (for example, if a `Z' is read when the format is decimal).
* The next character in the input field does not appear in the
search set (or does appear in the inverted search set).
When `scanf' stops scanning the current input field for one of these
reasons, the next character is considered unread and used as the first
character of the following input field, or the first character in a
subsequent read operation on the input.
`scanf' will terminate under the following circumstances:
* The next character in the input field conflicts with a
corresponding non-whitespace character in the format string.
* The next character in the input field is `EOF'.
* The format string has been exhausted.
When the format string contains a character sequence that is not
part of a format specification, the same character sequence must appear
in the input; `scanf' will scan but not store the matched characters.
If a conflict occurs, the first conflicting character remains in the
input as if it had never been read.
PORTABILITY
`scanf' is ANSI C.
Supporting OS subroutines required: `close', `fstat', `isatty',
`lseek', `read', `sbrk', `write'.
SEE ALSOsscanf is part of the library. The full documentation for is main‐
tained as a Texinfo manual. If info and are properly installed at your
site, the command
info
will give you access to the complete manual.
NEWLIB April 2010 SSCANF(3)