xref: /freebsd/usr.bin/printf/printf.1 (revision 0b57cec536236d46e3dba9bd041533462f33dbb7)
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31.\"	@(#)printf.1	8.1 (Berkeley) 6/6/93
32.\" $FreeBSD$
33.\"
34.Dd July 29, 2019
35.Dt PRINTF 1
36.Os
37.Sh NAME
38.Nm printf
39.Nd formatted output
40.Sh SYNOPSIS
41.Nm
42.Ar format Op Ar arguments ...
43.Sh DESCRIPTION
44The
45.Nm
46utility formats and prints its arguments, after the first, under control
47of the
48.Ar format .
49The
50.Ar format
51is a character string which contains three types of objects: plain characters,
52which are simply copied to standard output, character escape sequences which
53are converted and copied to the standard output, and format specifications,
54each of which causes printing of the next successive
55.Ar argument .
56.Pp
57The
58.Ar arguments
59after the first are treated as strings if the corresponding format is
60either
61.Cm c , b
62or
63.Cm s ;
64otherwise it is evaluated as a C constant, with the following extensions:
65.Pp
66.Bl -bullet -offset indent -compact
67.It
68A leading plus or minus sign is allowed.
69.It
70If the leading character is a single or double quote, the value is the
71character code of the next character.
72.El
73.Pp
74The format string is reused as often as necessary to satisfy the
75.Ar arguments .
76Any extra format specifications are evaluated with zero or the null
77string.
78.Pp
79Character escape sequences are in backslash notation as defined in the
80.St -ansiC ,
81with extensions.
82The characters and their meanings
83are as follows:
84.Pp
85.Bl -tag -width Ds -offset indent -compact
86.It Cm \ea
87Write a <bell> character.
88.It Cm \eb
89Write a <backspace> character.
90.It Cm \ef
91Write a <form-feed> character.
92.It Cm \en
93Write a <new-line> character.
94.It Cm \er
95Write a <carriage return> character.
96.It Cm \et
97Write a <tab> character.
98.It Cm \ev
99Write a <vertical tab> character.
100.It Cm \e\'
101Write a <single quote> character.
102.It Cm \e\e
103Write a backslash character.
104.It Cm \e Ns Ar num
105Write a byte whose
106value is the 1-, 2-, or 3-digit
107octal number
108.Ar num .
109Multibyte characters can be constructed using multiple
110.Cm \e Ns Ar num
111sequences.
112.El
113.Pp
114Each format specification is introduced by the percent character
115(``%'').
116The remainder of the format specification includes,
117in the following order:
118.Bl -tag -width Ds
119.It "Zero or more of the following flags:"
120.Bl -tag -width Ds
121.It Cm #
122A `#' character
123specifying that the value should be printed in an ``alternate form''.
124For
125.Cm b , c , d , s
126and
127.Cm u
128formats, this option has no effect.
129For the
130.Cm o
131formats the precision of the number is increased to force the first
132character of the output string to a zero.
133For the
134.Cm x
135.Pq Cm X
136format, a non-zero result has the string
137.Li 0x
138.Pq Li 0X
139prepended to it.
140For
141.Cm a , A , e , E , f , F , g
142and
143.Cm G
144formats, the result will always contain a decimal point, even if no
145digits follow the point (normally, a decimal point only appears in the
146results of those formats if a digit follows the decimal point).
147For
148.Cm g
149and
150.Cm G
151formats, trailing zeros are not removed from the result as they
152would otherwise be;
153.It Cm \&\-
154A minus sign `\-' which specifies
155.Em left adjustment
156of the output in the indicated field;
157.It Cm \&+
158A `+' character specifying that there should always be
159a sign placed before the number when using signed formats.
160.It Sq \&\ \&
161A space specifying that a blank should be left before a positive number
162for a signed format.
163A `+' overrides a space if both are used;
164.It Cm \&0
165A zero `0' character indicating that zero-padding should be used
166rather than blank-padding.
167A `\-' overrides a `0' if both are used;
168.El
169.It "Field Width:"
170An optional digit string specifying a
171.Em field width ;
172if the output string has fewer bytes than the field width it will
173be blank-padded on the left (or right, if the left-adjustment indicator
174has been given) to make up the field width (note that a leading zero
175is a flag, but an embedded zero is part of a field width);
176.It Precision:
177An optional period,
178.Sq Cm \&.\& ,
179followed by an optional digit string giving a
180.Em precision
181which specifies the number of digits to appear after the decimal point,
182for
183.Cm e
184and
185.Cm f
186formats, or the maximum number of bytes to be printed
187from a string; if the digit string is missing, the precision is treated
188as zero;
189.It Format:
190A character which indicates the type of format to use (one of
191.Cm diouxXfFeEgGaAcsb ) .
192The uppercase formats differ from their lowercase counterparts only in
193that the output of the former is entirely in uppercase.
194The floating-point format specifiers
195.Pq Cm fFeEgGaA
196may be prefixed by an
197.Cm L
198to request that additional precision be used, if available.
199.El
200.Pp
201A field width or precision may be
202.Sq Cm \&*
203instead of a digit string.
204In this case an
205.Ar argument
206supplies the field width or precision.
207.Pp
208The format characters and their meanings are:
209.Bl -tag -width Fl
210.It Cm diouXx
211The
212.Ar argument
213is printed as a signed decimal (d or i), unsigned octal, unsigned decimal,
214or unsigned hexadecimal (X or x), respectively.
215.It Cm fF
216The
217.Ar argument
218is printed in the style `[\-]ddd.ddd' where the number of d's
219after the decimal point is equal to the precision specification for
220the argument.
221If the precision is missing, 6 digits are given; if the precision
222is explicitly 0, no digits and no decimal point are printed.
223The values \*[If] and \*[Na] are printed as
224.Ql inf
225and
226.Ql nan ,
227respectively.
228.It Cm eE
229The
230.Ar argument
231is printed in the style
232.Cm e
233.Sm off
234.Sq Op - Ar d.ddd No \(+- Ar dd
235.Sm on
236where there
237is one digit before the decimal point and the number after is equal to
238the precision specification for the argument; when the precision is
239missing, 6 digits are produced.
240The values \*[If] and \*[Na] are printed as
241.Ql inf
242and
243.Ql nan ,
244respectively.
245.It Cm gG
246The
247.Ar argument
248is printed in style
249.Cm f
250.Pq Cm F
251or in style
252.Cm e
253.Pq Cm E
254whichever gives full precision in minimum space.
255.It Cm aA
256The
257.Ar argument
258is printed in style
259.Sm off
260.Sq Op - Ar h.hhh No \(+- Li p Ar d
261.Sm on
262where there is one digit before the hexadecimal point and the number
263after is equal to the precision specification for the argument;
264when the precision is missing, enough digits are produced to convey
265the argument's exact double-precision floating-point representation.
266The values \*[If] and \*[Na] are printed as
267.Ql inf
268and
269.Ql nan ,
270respectively.
271.It Cm c
272The first byte of
273.Ar argument
274is printed.
275.It Cm s
276Bytes from the string
277.Ar argument
278are printed until the end is reached or until the number of bytes
279indicated by the precision specification is reached; however if the
280precision is 0 or missing, the string is printed entirely.
281.It Cm b
282As for
283.Cm s ,
284but interpret character escapes in backslash notation in the string
285.Ar argument .
286The permitted escape sequences are slightly different in that
287octal escapes are
288.Cm \e0 Ns Ar num
289instead of
290.Cm \e Ns Ar num
291and that an additional escape sequence
292.Cm \ec
293stops further output from this
294.Nm
295invocation.
296.It Cm n$
297Allows reordering of the output according to
298.Ar argument .
299.It Cm \&%
300Print a `%'; no argument is used.
301.El
302.Pp
303The decimal point
304character is defined in the program's locale (category
305.Dv LC_NUMERIC ) .
306.Pp
307In no case does a non-existent or small field width cause truncation of
308a field; padding takes place only if the specified field width exceeds
309the actual width.
310.Pp
311Some shells may provide a builtin
312.Nm
313command which is similar or identical to this utility.
314Consult the
315.Xr builtin 1
316manual page.
317.Sh EXIT STATUS
318.Ex -std
319.Sh COMPATIBILITY
320The traditional
321.Bx
322behavior of converting arguments of numeric formats not beginning
323with a digit to the
324.Tn ASCII
325code of the first character is not supported.
326.Sh SEE ALSO
327.Xr builtin 1 ,
328.Xr echo 1 ,
329.Xr sh 1 ,
330.Xr printf 3
331.Sh STANDARDS
332The
333.Nm
334command is expected to be compatible with the
335.St -p1003.2
336specification.
337.Sh HISTORY
338The
339.Nm
340command appeared in
341.Bx 4.3 Reno .
342It is modeled
343after the standard library function,
344.Xr printf 3 .
345.Sh CAVEATS
346.Tn ANSI
347hexadecimal character constants were deliberately not provided.
348.Pp
349Trying to print a dash ("-") as the first character causes
350.Nm
351to interpret the dash as a program argument.
352.Nm --
353must be used before
354.Ar format .
355.Pp
356If the locale contains multibyte characters
357(such as UTF-8),
358the
359.Cm c
360format and
361.Cm b
362and
363.Cm s
364formats with a precision
365may not operate as expected.
366.Sh BUGS
367Since the floating point numbers are translated from
368.Tn ASCII
369to floating-point and
370then back again, floating-point precision may be lost.
371(By default, the number is translated to an IEEE-754 double-precision
372value before being printed.
373The
374.Cm L
375modifier may produce additional precision, depending on the hardware platform.)
376.Pp
377The escape sequence \e000 is the string terminator.
378When present in the argument for the
379.Cm b
380format, the argument will be truncated at the \e000 character.
381.Pp
382Multibyte characters are not recognized in format strings (this is only
383a problem if
384.Ql %
385can appear inside a multibyte character).
386