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printf is a C standard library function that formats text and writes it to standard output.
The name, printf is short for print formatted where print refers to output to a printer although the functions are not limited to printer output.
The standard library provides many other similar functions that form a family of printf-like functions. These functions accept a format string parameter and a variable number of value parameters that the function serializes per the format string and writes to an output stream or a string buffer.
The format string is encoded as a template language consisting of verbatim text and format specifiers that each specify how to serialize a value. As the format string is processed left-to-right, a subsequent value is used for each format specifier found. A format specifier starts with a %
character and has one or more following characters that specify how to serialize a value.
The format string syntax and semantics is the same for all of the functions in the printf-like family.
Mismatch between the format specifiers and count and type of values can cause a crash or vulnerability.
The printf format string is complementary to the scanf format string, which provides formatted input (lexing a.k.a. parsing). Both format strings provide relatively simple functionality compared to other template engines, lexers and parsers.
The formatting design has been copied in other programming languages.
History
edit1950s: Fortran
editEarly programming languages like Fortran used special statements with different syntax from other calculations to build formatting descriptions.[1] In this example, the format is specified on line 601, and the PRINT[a] command refers to it by line number:
PRINT 601, IA, IB, AREA
601 FORMAT (4H A= ,I5,5H B= ,I5,8H AREA= ,F10.2, 13H SQUARE UNITS)
Hereby:
4H
indicates a string of 4 characters" A= "
(H
means Hollerith Field);I5
indicates an integer field of width 5;F10.2
indicates a floating-point field of width 10 with 2 digits after the decimal point.
An output with input arguments 100, 200, and 1500.25 might look like this:
A= 100 B= 200 AREA= 1500.25 SQUARE UNITS
1960s: BCPL and ALGOL 68
editIn 1967, BCPL appeared.[2] Its library included the writef
routine.[3] An example application looks like this:
WRITEF("%I2-QUEENS PROBLEM HAS %I5 SOLUTIONS*N", NUMQUEENS, COUNT)
Hereby:
%I2
indicates an integer of width 2 (the order of the format specification's field width and type is reversed compared to C'sprintf
);%I5
indicates an integer of width 5;*N
is a BCPL language escape sequence representing a newline character (for which C uses the escape sequence\n
).
In 1968, ALGOL 68 had a more function-like API, but still used special syntax (the $
delimiters surround special formatting syntax):
printf(($"Color "g", number1 "6d,", number2 "4zd,", hex "16r2d,", float "-d.2d,", unsigned value"-3d"."l$,
"red", 123456, 89, BIN 255, 3.14, 250));
In contrast to Fortran, using normal function calls and data types simplifies the language and compiler, and allows the implementation of the input/output to be written in the same language.
These advantages were thought to outweigh the disadvantages (such as a complete lack of type safety in many instances) up until the 2000s, and in most newer languages of that era I/O is not part of the syntax.
People have since learned the hard way [4] that this belief is false, resulting in plethora undesired consequences, ranging from security exploits to hardware failures (e.g., phone's networking capabilities being permanently disabled after trying to connect to an access point named "%p%s%s%s%s%n". [5]).
Modern languages, such as C 20 and later, are therefore taking steps to reverse this mistake, and do include format specifications as a part of the language syntax,[6] which restore type safety in formatting to an extent, and allow the compiler to detect some invalid combinations of format specifiers and data types at compile time.
1970s: C
editIn 1973, printf
is included as a C routine as part of Version 4 Unix.[7]
1990s: Shell command
editIn 1990, a printf
shell command is attested as part of 4.3BSD-Reno. It is modeled after the standard library function.[8]
In 1991, a printf
command is bundled with GNU shellutils (now part of GNU Core Utilities).
2000s: -Wformat safety
editThe need to do something about the range of problems resulting from lack of type safety has prompted attempts to make the C compiler printf
-aware.
The -Wformat
option of GCC allows compile-time checks to printf
calls, enabling the compiler to detect a subset of invalid calls (and issue either a warning or an error, stopping the compilation altogether, depending on other flags).[9]
Since the compiler is inspecting printf
format specifiers, enabling this options effectively extends the C syntax by making formatting a part of it.
2020s: C 20 Format Specifiers and C 23 print
editAs said above, numerous issues[10] with printf()
's lack of type safety resulted in the revision[11] of approach to formatting, and C 20 an onwards include format specifications in the language[12] to enable type-safe formatting.
The approach (and syntax) of C 20 std::format
resulted from effectively incorporating Victor Zverovich's libfmt
[13] API into the language specification [14] (Zverovich wrote[15] the first draft of the new format proposal); consequently, libfmt
is an implementation of the C 20 format specification.
The formatting function has been combined with output in C 23, which provides [16] the std::print
command as a replacement for printf()
.
As the format specification has become a part of the language syntax, C compiler is able to prevent invalid combinations of types and format specifiers in many cases. Unlike the -Wformat
option, this is not an optional feature.
The format specification of libfmt
and std::format
is, in itself, an extensible "mini-language" (referred to as such in the specification,[17] an example of a Domain-specific language.
Incorporation of a separate, domain specific mini-language specifically for formatting into the C language syntax for std::print
, therefore, completes the historical cycle, bringing the state-of-the-art (as of 2024) back to what it was in the case of FORTRAN's first PRINT
implementation in the 1950s discussed in the beginning of this section.
Format specifier
editFormatting a value is specified as markup in the format string. For example, the following outputs "Your age is " and then the value of variable age
in decimal format.
printf("Your age is %d", age);
Syntax
editThe syntax for a format specifier is:
%[parameter][flags][width][.precision][length]type
Parameter field
editThe parameter field is optional. If included, then matching specifiers to values is not sequential. The numeric value, n, selects the nth value parameter.
Character | Description |
---|---|
n$ | n is the index of the value parameter to serialize using this format specifier |
This is a POSIX extension; not C99.
This field allows for using the same value multiple times in a format string instead of having to pass the value multiple times. If a specifier includes this field, then subsequent specifiers must also.
For example,
printf("%2$d %2$#x; %1$d %1$#x",16,17)
outputs: 17 0x11; 16 0x10
.
This field is particularly useful for localizing messages to different natural languages that often use different word order.
In Microsoft Windows, support for this feature is via a different function, printf_p
.
Flags field
editThe flags field can be zero or more of (in any order):
Character | Description |
---|---|
- (minus) |
Left-align the output of this placeholder. (The default is to right-align the output.) |
(plus) |
Prepends a plus for positive signed-numeric types. positive = , negative = - .(The default does not prepend anything in front of positive numbers.) |
(space) |
Prepends a space for positive signed-numeric types. positive = , negative = - . This flag is ignored if the flag exists.(The default does not prepend anything in front of positive numbers.) |
0 (zero) |
When the 'width' option is specified, prepends zeros for numeric types. (The default prepends spaces.) For example, printf("%4X",3) produces 3 , while printf("X",3) produces 0003 .
|
' (apostrophe) |
The integer or exponent of a decimal has the thousands grouping separator applied. |
# (hash) |
Alternate form: For g and G types, trailing zeros are not removed. For f, F, e, E, g, G types, the output always contains a decimal point. For o, x, X types, the text 0, 0x, 0X, respectively, is prepended to non-zero numbers. |
Width field
editThe width field specifies the minimum number of characters to output. If the value can be represented in fewer characters, then the value is left-padded with spaces so that output is the number of characters specified. If the value requires more characters, then the output is longer than the specified width. A value is never truncated.
For example, printf("=", 12)
specifies a width of 3 and outputs 12
with a space on the left to output 3 characters. The call printf("=", 1234)
outputs 1234
which is 4 characters long since that is the minimum width for that value even though the width specified is 3.
If the width field is omitted, the output is the minimum number of characters for the value.
If the field is specified as *
, then the width value is read from the list of values in the call.[18] For example, printf("%*d", 3, 10)
outputs 10
where the second parameter, 3, is the width (matches with *) and 10 is the value to serialize (matches with d).
Though not part of the width field, a leading zero is interpreted as the zero-padding flag mentioned above, and a negative value is treated as the positive value in conjunction with the left-alignment -
flag also mentioned above.
The width field can be used to format values as a table (tabulated output). But, columns do not align if any value is larger than fits in the width specified. For example, notice that the last line value (1234) does not fit in the first column of width 3 and therefore the column is not aligned.
1 1
12 12
123 123
1234 123
Precision field
editThe precision field usually specifies a maximum limit of the output, depending on the particular formatting type. For floating-point numeric types, it specifies the number of digits to the right of the decimal point that the output should be rounded. For the string type, it limits the number of characters that should be output, after which the string is truncated.
The precision field may be omitted, or a numeric integer value, or a dynamic value when passed as another argument when indicated by an asterisk *
. For example, printf("%.*s", 3, "abcdef")
outputs abc.
Length field
editThe length field can be omitted or be any of:
Character | Description |
---|---|
hh | For integer types, causes printf to expect an int-sized integer argument which was promoted from a char. |
h | For integer types, causes printf to expect an int-sized integer argument which was promoted from a short. |
l | For integer types, causes printf to expect a long-sized integer argument.
For floating-point types, this is ignored. float arguments are always promoted to double when used in a varargs call.[19] |
ll | For integer types, causes printf to expect a long long-sized integer argument. |
L | For floating-point types, causes printf to expect a long double argument. |
z | For integer types, causes printf to expect a size_t-sized integer argument. |
j | For integer types, causes printf to expect a intmax_t-sized integer argument. |
t | For integer types, causes printf to expect a ptrdiff_t-sized integer argument. |
Platform-specific length options came to exist prior to widespread use of the ISO C99 extensions, including:
Characters | Description | Commonly found platforms |
---|---|---|
I | For signed integer types, causes printf to expect ptrdiff_t-sized integer argument; for unsigned integer types, causes printf to expect size_t-sized integer argument. | Win32/Win64 |
I32 | For integer types, causes printf to expect a 32-bit (double word) integer argument. | Win32/Win64 |
I64 | For integer types, causes printf to expect a 64-bit (quad word) integer argument. | Win32/Win64 |
q | For integer types, causes printf to expect a 64-bit (quad word) integer argument. | BSD |
ISO C99 includes the inttypes.h
header file that includes a number of macros for platform-independent printf
coding. For example: printf("%" PRId64, t);
specifies decimal format for a 64-bit signed integer. Since the macros evaluate to a string literal, and the compiler concatenates adjacent string literals, the expression "%" PRId64
compiles to a single string.
Macros include:
Macro | Description |
---|---|
PRId32 | Typically equivalent to I32d (Win32/Win64) or d |
PRId64 | Typically equivalent to I64d (Win32/Win64), lld (32-bit platforms) or ld (64-bit platforms) |
PRIi32 | Typically equivalent to I32i (Win32/Win64) or i |
PRIi64 | Typically equivalent to I64i (Win32/Win64), lli (32-bit platforms) or li (64-bit platforms) |
PRIu32 | Typically equivalent to I32u (Win32/Win64) or u |
PRIu64 | Typically equivalent to I64u (Win32/Win64), llu (32-bit platforms) or lu (64-bit platforms) |
PRIx32 | Typically equivalent to I32x (Win32/Win64) or x |
PRIx64 | Typically equivalent to I64x (Win32/Win64), llx (32-bit platforms) or lx (64-bit platforms) |
Type field
editThe type field can be any of:
Character | Description |
---|---|
% | Prints a literal % character (this type does not accept any flags, width, precision, length fields). |
d, i | int as a signed integer. %d and %i are synonymous for output, but are different when used with scanf for input (where using %i will interpret a number as hexadecimal if it's preceded by 0x, and octal if it's preceded by 0.)
|
u | Print decimal unsigned int. |
f, F | double in normal (fixed-point) notation. f and F only differs in how the strings for an infinite number or NaN are printed (inf, infinity and nan for f; INF, INFINITY and NAN for F). |
e, E | double value in standard form (d.ddde±dd). An E conversion uses the letter E (rather than e) to introduce the exponent. The exponent always contains at least two digits; if the value is zero, the exponent is 00. In Windows, the exponent contains three digits by default, e.g. 1.5e002, but this can be altered by Microsoft-specific _set_output_format function.
|
g, G | double in either normal or exponential notation, whichever is more appropriate for its magnitude. g uses lower-case letters, G uses upper-case letters. This type differs slightly from fixed-point notation in that insignificant zeroes to the right of the decimal point are not included. Also, the decimal point is not included on whole numbers. |
x, X | unsigned int as a hexadecimal number. x uses lower-case letters and X uses upper-case. |
o | unsigned int in octal. |
s | null-terminated string. |
c | char (character). |
p | void* (pointer to void) in an implementation-defined format. |
a, A | double in hexadecimal notation, starting with 0x or 0X. a uses lower-case letters, A uses upper-case letters.[20][21] (C 11 iostreams have a hexfloat that works the same). |
n | Print nothing, but writes the number of characters written so far into an integer pointer parameter. In Java this prints a newline.[22] |
Custom data type formatting
editA common way to handle formatting with a custom data type is to format the custom data type value into a string, then use the %s
specifier to include the serialized value in a larger message.
Some printf-like functions allow extensions to the escape-character-based mini-language, thus allowing the programmer to use a specific formatting function for non-builtin types. One is the (now deprecated) glibc's register_printf_function()
. However, it is rarely used due to the fact that it conflicts with static format string checking. Another is Vstr custom formatters, which allows adding multi-character format names.
Some applications (like the Apache HTTP Server) include their own printf-like function, and embed extensions into it. However these all tend to have the same problems that register_printf_function()
has.
The Linux kernel printk
function supports a number of ways to display kernel structures using the generic %p
specification, by appending additional format characters.[23] For example, %pI4
prints an IPv4 address in dotted-decimal form. This allows static format string checking (of the %p
portion) at the expense of full compatibility with normal printf.
Family
editVariants of printf
provide the formatting features but with additional or slightly different behavior.
fprintf
outputs to a system file object which allows output to other than standard output.
sprintf
writes to a string buffer instead of standard output.
snprintf
provides a level of safety over sprintf
since the caller provides a length (n) parameter that specifies the maximum number or chars to write to the buffer.
For most printf-family functions, there is a variant that accepts va_list
rather than a variable length parameter list. For example, there is a vfprintf
, vsprintf
, vsnprintf
.
Vulnerabilities
editFormat string attack
editExtra value parameters are ignored, but if the format string has more format specifiers than value parameters passed the behavior is undefined. For some C compilers, an extra format specifier results in consuming a value even though there isn't one. This can allow the format string attack. Generally, for C, arguments are passed on the stack. If too few arguments are passed, then printf can read past the end of the stackframe, thus allowing an attacker to read the stack.
Some compilers, like the GNU Compiler Collection, will statically check the format strings of printf-like functions and warn about problems (when using the flags -Wall
or -Wformat
). GCC will also warn about user-defined printf-style functions if the non-standard "format" __attribute__
is applied to the function.
Uncontrolled format string exploit
editThe format string is often a string literal, which allows static analysis of the function call. However, the format string can be the value of a variable, which allows for dynamic formatting but also a security vulnerability known as an uncontrolled format string exploit.
Memory write
editAlthough an outputting function on the surface, printf
allows writing to a memory location specified by an argument via %n
. This functionality is occasionally used as a part of more elaborate format-string attacks.[24]
The %n
functionality also makes printf
accidentally Turing-complete even with a well-formed set of arguments. A game of tic-tac-toe written in the format string is a winner of the 27th IOCCC.[25]
Programming languages with printf
editNotable programming languages that include printf or printf-like functionality.
Excluded are languages that use format strings that deviate from the style in this article (such as AMPL and Elixir), languages that inherit their implementation from the JVM or other environment (such as Clojure and Scala), and languages that do not have a standard native printf implementation but have external libraries which emulate printf behavior (such as JavaScript).
- awk[26]
- C
- C
- D
- F#
- G (LabVIEW)
- GNU MathProg
- GNU Octave
- Go
- Haskell
- J
- Java (since version 1.5) and JVM languages
- Julia (via Printf standard library[27])
- Lua (string.format)
- Maple
- MATLAB
- Max (via the sprintf object)
- Mythryl
- Objective-C
- OCaml (via the Printf module)
- PARI/GP
- Perl
- PHP
- Python (via
%
operator)[28] - R
- Raku (via
printf
,sprintf
, andfmt
) - Red/System
- Ruby
- Tcl (via format command)
- Transact-SQL (via xp_sprintf)
- Vala (via
print()
andFileStream.printf()
)
See also
editNotes
editReferences
edit- ^ a b Backus, John Warner; Beeber, R. J.; Best, Sheldon F.; Goldberg, Richard; Herrick, Harlan L.; Hughes, R. A.; Mitchell, L. B.; Nelson, Robert A.; Nutt, Roy; Sayre, David; Sheridan, Peter B.; Stern, Harold; Ziller, Irving (15 October 1956). Sayre, David (ed.). The FORTRAN Automatic Coding System for the IBM 704 EDPM: Programmer's Reference Manual (PDF). New York, USA: Applied Science Division and Programming Research Department, International Business Machines Corporation. pp. 26–30. Archived (PDF) from the original on 4 July 2022. Retrieved 4 July 2022. (2 51 1 pages)
- ^ "BCPL". cl.cam.ac.uk. Retrieved 19 March 2018.
- ^ Richards, Martin; Whitby-Strevens, Colin (1979). BCPL - the language and its compiler. Cambridge University Press. p. 50.
- ^ "Format String Attack".
- ^ "iPhone Bug Breaks WiFi When You Join Hotspot With Unusual Name".
- ^ "C 20 Standard format specification".
- ^ McIlroy, M. D. (1987). A Research Unix reader: annotated excerpts from the Programmer's Manual, 1971–1986 (PDF) (Technical report). CSTR. Bell Labs. 139.
- ^ "printf (4.3 Reno BSD)". man.freebsd.org. Retrieved 1 April 2024.
- ^ "-Wformat option of gcc compiler".
- ^ "How Not to Code: Beware of printf". 10 August 2016.
- ^ "C 20 Format improvements proposal to enable compile-time checks".
- ^ "C 20 std::format".
- ^ "libfmt: a modern formatting library".
- ^ "C 20 Text Formatting: An Introduction".
- ^ "C Format Proposal History".
- ^ "C print".
- ^ "Format Specification Mini-Language".
- ^ "printf". cplusplus.com. Retrieved 10 June 2020.
- ^ ISO/IEC (1999). ISO/IEC 9899:1999(E): Programming Languages – C §7.19.6.1 para 7.
- ^ ""The GNU C Library Reference Manual", "12.12.3 Table of Output Conversions"". Gnu.org. Retrieved 17 March 2014.
- ^ "printf" (%a added in C99)
- ^ "Formatting Numeric Print Output". The Java Tutorials. Oracle Inc. Retrieved 19 March 2018.
- ^ "Linux kernel Documentation/printk-formats.txt". Git.kernel.org. Archived from the original on 29 April 2015. Retrieved 17 March 2014.
- ^ https://www.exploit-db.com/docs/english/28476-linux-format-string-exploitation.pdf [bare URL PDF]
- ^ "Best of show – abuse of libc". Ioccc.org. Retrieved 5 May 2022.
- ^ ""The Open Group Base Specifications Issue 7, 2018 edition", "POSIX awk", "Output Statements"". pubs.opengroup.org. Retrieved 29 May 2022.
- ^ "Printf Standard Library". The Julia Language Manual. Retrieved 22 February 2021.
- ^ "Built-in Types:
printf
-style String Formatting", The Python Standard Library, Python Software Foundation, retrieved 24 February 2021
External links
edit- C reference for
std::fprintf
- gcc printf format specifications quick reference
- The Single UNIX Specification, Version 4 from The Open Group : print formatted output – System Interfaces Reference,
- The
Formatter
specification in Java 1.5 - GNU Bash
printf(1)
builtin