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This section describes the options for the ‘%d’, ‘%i’, ‘%o’, ‘%u’, ‘%x’, and ‘%X’ conversion specifications. These conversions print integers in various formats.
The ‘%d’ and ‘%i’ conversion specifications both print an
int
argument as a signed decimal number; while ‘%o’,
‘%u’, and ‘%x’ print the argument as an unsigned octal,
decimal, or hexadecimal number (respectively). The ‘%X’ conversion
specification is just like ‘%x’ except that it uses the characters
‘ABCDEF’ as digits instead of ‘abcdef’.
The following flags are meaningful:
Left-justify the result in the field (instead of the normal right-justification).
For the signed ‘%d’ and ‘%i’ conversions, print a plus sign if the value is positive.
For the signed ‘%d’ and ‘%i’ conversions, if the result doesn’t start with a plus or minus sign, prefix it with a space character instead. Since the ‘+’ flag ensures that the result includes a sign, this flag is ignored if you supply both of them.
For the ‘%o’ conversion, this forces the leading digit to be
‘0’, as if by increasing the precision. For ‘%x’ or
‘%X’, this prefixes a leading ‘0x’ or ‘0X’ (respectively)
to the result. This doesn’t do anything useful for the ‘%d’,
‘%i’, or ‘%u’ conversions. Using this flag produces output
which can be parsed by the strtoul
function (see Parsing of Integers) and scanf
with the ‘%i’ conversion
(see Numeric Input Conversions).
Separate the digits into groups as specified by the locale specified for
the LC_NUMERIC
category; see General Numeric. This flag is a
GNU extension.
Pad the field with zeros instead of spaces. The zeros are placed after any indication of sign or base. This flag is ignored if the ‘-’ flag is also specified, or if a precision is specified.
If a precision is supplied, it specifies the minimum number of digits to appear; leading zeros are produced if necessary. If you don’t specify a precision, the number is printed with as many digits as it needs. If you convert a value of zero with an explicit precision of zero, then no characters at all are produced.
Without a type modifier, the corresponding argument is treated as an
int
(for the signed conversions ‘%i’ and ‘%d’) or
unsigned int
(for the unsigned conversions ‘%o’, ‘%u’,
‘%x’, and ‘%X’). Recall that since printf
and friends
are variadic, any char
and short
arguments are
automatically converted to int
by the default argument
promotions. For arguments of other integer types, you can use these
modifiers:
Specifies that the argument is a signed char
or unsigned
char
, as appropriate. A char
argument is converted to an
int
or unsigned int
by the default argument promotions
anyway, but the ‘h’ modifier says to convert it back to a
char
again.
This modifier was introduced in ISO C99.
Specifies that the argument is a short int
or unsigned
short int
, as appropriate. A short
argument is converted to an
int
or unsigned int
by the default argument promotions
anyway, but the ‘h’ modifier says to convert it back to a
short
again.
Specifies that the argument is a intmax_t
or uintmax_t
, as
appropriate.
This modifier was introduced in ISO C99.
Specifies that the argument is a long int
or unsigned long
int
, as appropriate. Two ‘l’ characters is like the ‘L’
modifier, below.
If used with ‘%c’ or ‘%s’ the corresponding parameter is considered as a wide character or wide character string respectively. This use of ‘l’ was introduced in Amendment 1 to ISO C90.
Specifies that the argument is a long long int
. (This type is
an extension supported by the GNU C compiler. On systems that don’t
support extra-long integers, this is the same as long int
.)
The ‘q’ modifier is another name for the same thing, which comes
from 4.4 BSD; a long long int
is sometimes called a “quad”
int
.
Specifies that the argument is a ptrdiff_t
.
This modifier was introduced in ISO C99.
Specifies that the argument is a size_t
.
‘z’ was introduced in ISO C99. ‘Z’ is a GNU extension predating this addition and should not be used in new code.
Here is an example. Using the template string:
"|%5d|%-5d|%+5d|%+-5d|% 5d|%05d|%5.0d|%5.2d|%d|\n"
to print numbers using the different options for the ‘%d’ conversion gives results like:
| 0|0 | +0|+0 | 0|00000| | 00|0| | 1|1 | +1|+1 | 1|00001| 1| 01|1| | -1|-1 | -1|-1 | -1|-0001| -1| -01|-1| |100000|100000|+100000|+100000| 100000|100000|100000|100000|100000|
In particular, notice what happens in the last case where the number is too large to fit in the minimum field width specified.
Here are some more examples showing how unsigned integers print under various format options, using the template string:
"|%5u|%5o|%5x|%5X|%#5o|%#5x|%#5X|%#10.8x|\n"
| 0| 0| 0| 0| 0| 0| 0| 00000000| | 1| 1| 1| 1| 01| 0x1| 0X1|0x00000001| |100000|303240|186a0|186A0|0303240|0x186a0|0X186A0|0x000186a0|
Next: Floating-Point Conversions, Previous: Table of Output Conversions, Up: Formatted Output [Contents][Index]