Templates
A template is a C++ entity that defines one of the following:
- a family of classes (class template), which may be nested classes
- a family of functions (function template), which may be member functions
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(since C++11) |
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(since C++14) |
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(since C++20) |
Templates are parameterized by one or more template parameters, of three kinds: type template parameters, non-type template parameters, and template template parameters.
When template arguments are provided, or, for function and class(since C++17) templates only, deduced, they are substituted for the template parameters to obtain a specialization of the template, that is, a specific type or a specific function lvalue.
Specializations may also be provided explicitly: full specializations are allowed for class, variable(since C++14) and function templates, partial specializations are only allowed for class templates and variable templates(since C++14).
When a class template specialization is referenced in context that requires a complete object type, or when a function template specialization is referenced in context that requires a function definition to exist, the template is instantiated (the code for it is actually compiled), unless the template was already explicitly specialized or explicitly instantiated. Instantiation of a class template does not instantiate any of its member functions unless they are also used. At link time, identical instantiations generated by different translation units are merged.
The definition of a class template must be visible at the point of implicit instantiation, which is why template libraries typically provide all template definitions in the headers (e.g. most boost libraries are header-only).
Syntax
template < parameter-list > requires-clause (optional) declaration
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(1) | ||||||||
export template < parameter-list > declaration
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(2) | (until C++11) | |||||||
template < parameter-list > concept concept-name = constraint-expression ;
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(3) | (since C++20) | |||||||
parameter-list | - | a non-empty comma-separated list of the template parameters, each of which is either non-type parameter, a type parameter, a template parameter, or a parameter pack of any of those(since C++11). |
requires-clause | - | (since C++20) a requires-clause that specifies the constraints on the template arguments. |
declaration | - | declaration of a class (including struct and union), a member class or member enumeration type, a function or member function, a static data member at namespace scope, a variable or static data member at class scope(since C++14), or an alias template(since C++11). It may also define a template specialization. |
concept-name constraint-expression |
- | see constraints and concepts |
export was an optional modifier which declared the template as exported (when used with a class template, it declared all of its members exported as well). Files that instantiated exported templates did not need to include their definitions: the declaration was sufficient. Implementations of export were rare and disagreed with each other on details. |
(until C++11) |
This section is incomplete Reason: core syntax, template parameters, and instantiations, take content common between class_template and function_template |
Template identifiers
A template identifier has one of the following syntaxes:
template-name < template-argument-list (optional)>
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(1) | ||||||||
operator op < template-argument-list (optional)>
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(2) | ||||||||
operator "" identifier < template-argument-list (optional)>
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(3) | (since C++11) (deprecated) | |||||||
operator user-defined-string-literal < template-argument-list (optional)>
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(4) | (since C++11) | |||||||
template-name | - | an identifier that names a template |
op | - | an overloadable operator |
identifier | - | an identifier |
user-defined-string-literal | - | "" followed by an identifier |
A simple template identifier that names a class template specialization names a class.
A template identifier that names an alias template specialization names a type.
A template identifier that names a function template specialization names a function.
If all following conditions are satisfied, a template identifier is valid :
- There are at most as many arguments as there are parameters or a parameter is a template parameter pack(since C++11).
- There is an argument for each non-deducible non-pack(since C++11) parameter that does not have a default template argument.
- Each template argument matches the corresponding template parameter.
- Substitution of each template argument into the following template parameters (if any) succeeds.
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(since C++20) |
An invalid simple template id is a compile-time error, unless it names a function template specialization (in which case SFINAE may apply).
template<class T, T::type n = 0> class X; struct S { using type = int; }; using T1 = X<S, int, int>; // error: too many arguments using T2 = X<>; // error: no default argument for first template parameter using T3 = X<1>; // error: value 1 does not match type-parameter using T4 = X<int>; // error: substitution failure for second template parameter using T5 = X<S>; // OK
When the template-name of a simple template id names a constrained non-function template or a constrained template template parameter, but not a member template that is a member of an unknown specialization, and all template arguments in the simple template id are non-dependent, the associated constraints of the constrained template must be satisfied: template<typename T> concept C1 = sizeof(T) != sizeof(int); template<C1 T> struct S1 {}; template<C1 T> using Ptr = T*; S1<int>* p; // error: constraints not satisfied Ptr<int> p; // error: constraints not satisfied template<typename T> struct S2 { Ptr<int> x; }; // error, no diagnostic required template<typename T> struct S3 { Ptr<T> x; }; // OK, satisfaction is not required S3<int> x; // error: constraints not satisfied template<template<C1 T> class X> struct S4 { X<int> x; // error, no diagnostic required }; template<typename T> concept C2 = sizeof(T) == 1; template<C2 T> struct S {}; template struct S<char[2]>; // error: constraints not satisfied template<> struct S<char[2]> {}; // error: constraints not satisfied |
(since C++20) |
If all following conditions are satisfied, two template identifiers are same :
- Their template-name s or operators refer to the same template.
- Their corresponding type template arguments are the same type.
- The template parameter values determined by their corresponding non-type template arguments are template-argument-equivalent.
- Their corresponding template template arguments refer to the same template.
Two template identifier that are the same refer to the same variable,(since C++14) class, or function.
Templated entity
A templated entity (or, in some sources, "temploid") is any entity that is defined (or, for a lambda expression, created)(since C++11) within a template definition. All of the following are templated entities:
- a class/function/variable(since C++14) template
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(since C++20) |
- a member of a templated entity (such as a non-template member function of a class template)
- an enumerator of an enumeration that is a templated entity
- any entity defined or created within a templated entity: a local class, a local variable, a friend function, etc
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(since C++11) |
For example, in
template<typename T> struct A { void f() {} };
the function A::f
is not a function template, but is still considered to be templated.
A templated function is a function template or a function that is templated.
A templated class is a class template or a class that is templated.
A templated variable is a variable template or a variable that is templated. |
(since C++14) |
Keywords
Defect reports
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
DR | Applied to | Behavior as published | Correct behavior |
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CWG 2293 | C++98 | the rules of determining whether a template identifier is valid were not provided |
provided |
CWG 2682 | C++98 C++14 |
the definitions of templated function/template class (C++98)/templated variable (C++14) were missing |
added |
P2308R1 | C++98 | two template identifiers were different if their corresponding non-type template arguments are not template-argument-equivalent |
they are different if their corresponding non-type template parameter values are not template-argument-equivalent |
See also
C documentation for Generic selection
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