Escape sequences
Escape sequences are used to represent certain special characters within string literals and character constants.
The following escape sequences are available. ISO C requires a diagnostic if the backslash is followed by any character not listed here:
Escape sequence |
Description | Representation |
---|---|---|
Simple escape sequences | ||
\'
|
single quote | byte 0x27 in ASCII encoding
|
\"
|
double quote | byte 0x22 in ASCII encoding
|
\?
|
question mark | byte 0x3f in ASCII encoding
|
\\
|
backslash | byte 0x5c in ASCII encoding
|
\a
|
audible bell | byte 0x07 in ASCII encoding
|
\b
|
backspace | byte 0x08 in ASCII encoding
|
\f
|
form feed - new page | byte 0x0c in ASCII encoding
|
\n
|
line feed - new line | byte 0x0a in ASCII encoding
|
\r
|
carriage return | byte 0x0d in ASCII encoding
|
\t
|
horizontal tab | byte 0x09 in ASCII encoding
|
\v
|
vertical tab | byte 0x0b in ASCII encoding
|
Numeric escape sequences | ||
\nnn
|
arbitrary octal value | code unit nnn
|
\xn...
|
arbitrary hexadecimal value | code unit n... (arbitrary number of hexadecimal digits)
|
Universal character names | ||
\unnnn (since C99)
|
Unicode value in allowed range; may result in several code units |
code point U+nnnn
|
\Unnnnnnnn (since C99)
|
Unicode value in allowed range; may result in several code units |
code point U+nnnnnnnn
|
Range of universal character namesIf a universal character name corresponds to a code point that is not |
(since C99) |
Notes
\0 is the most commonly used octal escape sequence, because it represents the terminating null character in null-terminated strings.
The new-line character \n has special meaning when used in text mode I/O: it is converted to the OS-specific newline byte or byte sequence.
Octal escape sequences have a length limit of three octal digits but terminate at the first character that is not a valid octal digit if encountered sooner.
Hexadecimal escape sequences have no length limit and terminate at the first character that is not a valid hexadecimal digit. If the value represented by a single hexadecimal escape sequence does not fit the range of values represented by the character type used in this string literal or character constant (char, char8_t (since C23), char16_t, char32_t (since C11), or wchar_t), the result is unspecified.
A universal character name in a narrow string literal or a 16-bit string literal (since C11) may map to more than one code unit, e.g. \U0001f34c is 4 char code units in UTF-8 (\xF0\x9F\x8D\x8C) and 2 char16_t code units in UTF-16 (\xD83C\xDF4C) (since C11). |
(since C99) |
A universal character name corresponding to a code pointer greater than |
(since C99) (until C23) |
The question mark escape sequence \? is used to prevent trigraphs from being interpreted inside string literals: a string such as "??/" is compiled as "\", but if the second question mark is escaped, as in "?\?/", it becomes "??/"
Example
#include <stdio.h> int main(void) { printf("This\nis\na\ntest\n\nShe said, \"How are you?\"\n"); }
Output:
This is a test She said, "How are you?"
References
- C17 standard (ISO/IEC 9899:2018):
- 5.2.2 Character display semantics (p: 18-19)
- 6.4.3 Universal Character names (p: 44)
- 6.4.4.4 Character constants (p: 48-50)
- C11 standard (ISO/IEC 9899:2011):
- 5.2.2 Character display semantics (p: 24-25)
- 6.4.3 Universal Character names (p: 61)
- 6.4.4.4 Character constants (p: 67-70)
- C99 standard (ISO/IEC 9899:1999):
- 5.2.2 Character display semantics (p: 19-20)
- 6.4.3 Universal Character names (p: 53)
- 6.4.4.4 Character constants (p: 59-61)
- C89/C90 standard (ISO/IEC 9899:1990):
- 2.2.2 Character display semantics
- 3.1.3.4 Character constants