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Allows integer, floating-point, character, and string literals to produce objects of user-defined type by defining a user-defined suffix.
Contents |
A user-defined literal is an expression of any of the following forms
| decimal-literalud-suffix | (1) | ||||||||
| octal-literalud-suffix | (2) | ||||||||
| hex-literalud-suffix | (3) | ||||||||
| binary-literalud-suffix | (4) | ||||||||
| fractional-constantexponent-part (optional)ud-suffix | (5) | ||||||||
| digit-sequenceexponent-partud-suffix | (6) | ||||||||
| character-literalud-suffix | (7) | ||||||||
| string-literalud-suffix | (8) | ||||||||
| decimal-literal | - | same as ininteger literal, a non-zero decimal digit followed by zero or more decimal digits |
| octal-literal | - | same as ininteger literal, a zero followed by zero or more octal digits |
| hex-literal | - | same as ininteger literal,0x or0X followed by one or more hexadecimal digits |
| binary-literal | - | same as ininteger literal,0b or0B followed by one or more binary digits |
| digit-sequence | - | same as infloating literal, a sequence of decimal digits |
| fractional-constant | - | same as infloating literal, either adigit-sequence followed by a dot (123.) or an optionaldigit-sequence followed by a dot and anotherdigit-sequence (1.0 or.12) |
| exponent-part | - | same as infloating literal, the lettere or the letterE followed by optional sign, followed bydigit-sequence |
| character-literal | - | same as incharacter literal |
| string-literal | - | same as instring literal, including raw string literals |
| ud-suffix | - | an identifier, introduced by aliteral operator or aliteral operator template declaration (seebelow) |
In theinteger andfloating-point digit sequences, optional separators | (since C++14) |
If a token matches a user-defined literal syntax and a regular literal syntax, it is assumed to be a regular literal (that is, it's impossible to overloadLL in123LL).
When the compiler encounters a user-defined literal withud-suffixX, it performsunqualified name lookup, looking for a function with the nameoperator""X. If the lookup does not find a declaration, the program is ill-formed. Otherwise,
a) If the overload set includes a string literal operator template with a constant template parameter for whichstr is a well-formed template argument, then the user-defined literal expression is treated as a function calloperator""X<str>(); | (since C++20) |
longdouble operator""_w(longdouble);std::string operator""_w(constchar16_t*, size_t);unsigned operator""_w(constchar*); int main(){1.2_w;// calls operator ""_w(1.2L) u"one"_w;// calls operator ""_w(u"one", 3)12_w;// calls operator ""_w("12")"two"_w;// error: no applicable literal operator}
When string literal concatenation takes place intranslation phase 6, user-defined string literals are concatenated as well, and theirud-suffixes are ignored for the purpose of concatenation, except that only one suffix may appear on all concatenated literals:
int main(){ L"A""B""C"_x;// OK: same as L"ABC"_x"P"_x"Q""R"_y;// error: two different ud-suffixes (_x and _y)}
The function called by a user-defined literal is known asliteral operator (or, if it's a template,literal operator template). It is declared just like any otherfunction orfunction template at namespace scope (it may also be a friend function, an explicit instantiation or specialization of a function template, or introduced by a using-declaration), except for the following restrictions:
The name of this function can have one of the two forms:
operator ""identifier | (1) | (deprecated) | |||||||
operatoruser-defined-string-literal | (2) | ||||||||
| identifier | - | theidentifier to use as theud-suffix for the user-defined literals that will call this function |
| user-defined-string-literal | - | the character sequence"" followed, without a space, by the character sequence that becomes theud-suffix |
ud-suffix must begin with the underscore_: the suffixes that do not begin with the underscore are reserved for the literal operators provided by the standard library. It cannot contain double underscores__ as well: such suffixes are also reserved.
If the literal operator is a template, it must have an empty parameter list and can have only one template parameter, which must be a constant template parameter pack with element typechar (in which case it is known as anumeric literal operator template):
template<char...>double operator""_x();
or a constant template parameter of class type (in which case it is known as astring literal operator template): struct A{constexpr A(constchar*);}; template<A a>A operator""_a(); | (since C++20) |
Only the following parameter lists are allowed on literal operators:
(constchar*) | (1) | ||||||||
(unsignedlonglongint) | (2) | ||||||||
(longdouble) | (3) | ||||||||
(char) | (4) | ||||||||
(wchar_t) | (5) | ||||||||
(char8_t) | (6) | (since C++20) | |||||||
(char16_t) | (7) | ||||||||
(char32_t) | (8) | ||||||||
(constchar*,std::size_t) | (9) | ||||||||
(constwchar_t*,std::size_t) | (10) | ||||||||
(const char8_t*,std::size_t) | (11) | (since C++20) | |||||||
(constchar16_t*,std::size_t) | (12) | ||||||||
(constchar32_t*,std::size_t) | (13) | ||||||||
Default arguments are not allowed.
Clanguage linkage is not allowed.
Other than the restrictions above, literal operators and literal operator templates are normal functions (and function templates), they can be declared inline or constexpr, they may have internal or external linkage, they can be called explicitly, their addresses can be taken, etc.
#include <string> void operator""_km(longdouble);// OK, will be called for 1.0_kmvoid operator"" _km(longdouble);// same as above, deprecatedstd::string operator""_i18n(constchar*,std::size_t);// OK template<char...>double operator""_pi();// OKfloat operator""_e(constchar*);// OK // error: suffix must begin with underscorefloat operator""Z(constchar*); // error: all names that begin with underscore followed by uppercase// letter are reserved (NOTE: a space between "" and _).double operator"" _Z(longdouble); // OK. NOTE: no space between "" and _.double operator""_Z(longdouble); // OK: literal operators can be overloadeddouble operator""_Z(constchar* args); int main(){}
Since the introduction of user-defined literals, the code that usesformat macro constants for fixed-width integer types with no space after the preceding string literal became invalid:std::printf("%"PRId64"\n",INT64_MIN); has to be replaced bystd::printf("%"PRId64"\n",INT64_MIN);.
Due tomaximal munch, user-defined integer and floating point literals ending inp,P,(since C++17)e andE, when followed by the operators+ or-, must be separated from the operator with whitespace or parentheses in the source:
longdouble operator""_E(longdouble);longdouble operator""_a(longdouble);int operator""_p(unsignedlonglong); auto x=1.0_E+2.0;// errorauto y=1.0_a+2.0;// OKauto z=1.0_E+2.0;// OKauto q=(1.0_E)+2.0;// OKauto w=1_p+2;// errorauto u=1_p+2;// OK
Same applies to dot operator following an integer or floating-point user-defined literal:
#include <chrono> usingnamespace std::literals; auto a= 4s.count();// Errorauto b= 4s .count();// OKauto c=(4s).count();// OK
Otherwise, a single invalid preprocessing number token (e.g.,1.0_E+2.0 or4s.count) is formed, which causes compilation to fail.
| Feature-test macro | Value | Std | Feature |
|---|---|---|---|
__cpp_user_defined_literals | 200809L | (C++11) | User-defined literals |
#include <algorithm>#include <cstddef>#include <iostream>#include <numbers>#include <string> // used as conversion from degrees (input param) to radians (returned output)constexprlongdouble operator""_deg_to_rad(longdouble deg){longdouble radians= deg*std::numbers::pi_v<longdouble>/180;return radians;} // used with custom typestruct mytype{unsignedlonglong m;}; constexpr mytype operator""_mytype(unsignedlonglong n){return mytype{n};} // used for side-effectsvoid operator""_print(constchar* str){std::cout<< str<<'\n';} #if __cpp_nontype_template_args < 201911 std::string operator""_x2(constchar* str,std::size_t){returnstd::string{str}+ str;} #else // C++20 string literal operator template template<std::size_t N>struct DoubleString{char p[N+ N-1]{}; constexpr DoubleString(charconst(&pp)[N]){ std::ranges::copy(pp, p); std::ranges::copy(pp, p+ N-1);}}; template<DoubleString A>constexprauto operator""_x2(){return A.p;} #endif // C++20 int main(){double x_rad=90.0_deg_to_rad;std::cout<<std::fixed<< x_rad<<'\n'; mytype y=123_mytype;std::cout<< y.m<<'\n'; 0x123ABC_print;std::cout<<"abc"_x2<<'\n';}
Output:
1.5707961230x123ABCabcabc
The following literal operators are defined in the standard library:
Defined in inline namespace std::literals::complex_literals | |
| astd::complex literal representing purely imaginary number (function)[edit] | |
Defined in inline namespace std::literals::chrono_literals | |
(C++14) | astd::chrono::duration literal representing hours (function)[edit] |
(C++14) | astd::chrono::duration literal representing minutes (function)[edit] |
(C++14) | astd::chrono::duration literal representing seconds (function)[edit] |
(C++14) | astd::chrono::duration literal representing milliseconds (function)[edit] |
(C++14) | astd::chrono::duration literal representing microseconds (function)[edit] |
(C++14) | astd::chrono::duration literal representing nanoseconds (function)[edit] |
(C++20) | astd::chrono::year literal representing a particular year (function)[edit] |
(C++20) | astd::chrono::day literal representing a day of a month (function)[edit] |
Defined in inline namespace std::literals::string_literals | |
(C++14) | converts a character array literal tobasic_string(function)[edit] |
Defined in inline namespace std::literals::string_view_literals | |
(C++17) | creates a string view of a character array literal (function)[edit] |
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
| DR | Applied to | Behavior as published | Correct behavior |
|---|---|---|---|
| CWG 1473 | C++11 | whitespace between"" andud-suffix was required in the declaration of literal operators | made optional |
| CWG 1479 | C++11 | literal operators could have default arguments | prohibited |
| CWG 2521 | C++11 | operator"" _Bq was ill-formed (no diagnostic required) because it uses the reserved identifier _Bq | deprecated the literal operator syntax with whitespace between"" andud-suffix |
