C++ named requirements: CharTraits

CharTraits is a traits class that abstracts basic character and string operations for a given character type. Most standard library string and input/output classes require a CharTraits template type parameter alongside a corresponding character template type parameter.

Requirements

No operation listed below on CharTraits may throw an exception.

Given

CharT, a character type
X, a CharTraits type for type CharT
c, d, values of type CharT
p, q, values of type const CharT*
s, a value of type CharT*
n, i, j, values of type std::size_t
e, f, values of type X::int_type
pos, a value of type X::pos_type
state, a value of type X::state_type
r, an lvalue of type CharT

expression	return type	semantics	complexity
`X::char_type`	`CharT`	Used to refer to the character type	Compile-time
`X::int_type`		A type that can hold all valid values of `X::char_type` plus X::eof()	Compile-time
`X::off_type`		Invokes implementation-defined behavior if not std::streamoff when `X` is used as the traits template parameter in input/output classes.	Compile-time
`X::pos_type`		Functions in input/output classes returning this type use X::pos_type(X::off_type(-1)) as an invalid value to signal an error Use of this invalid value as an argument to any std::istream, std::ostream or std::streambuf member taking a value of this type is undefined behavior Invokes implementation-defined behavior if this type is not std::streampos when `X` is used as the traits template parameter in input/output classes	Compile-time
`X::state_type`		Destructible, CopyAssignable, CopyConstructible, DefaultConstructible	Compile-time
X::eq(c, d)	bool	Returns: whether c is to be treated as equal to d	Constant
X::lt(c, d)	bool	Returns: whether c is to be treated as less than d	Constant
X::compare(p, q, n)	int	Returns: 0 if for each i in `[`0`,` n`)`, X::eq(p[i], q[i]) is true Else, a negative value if For some j in `[`0`,` n`)`, X::lt(p[j], q[j]) is true and For each i in `[`0`,` j`)`, X::eq(p[i], q[i]) is true Else a positive value	Linear
X::length(p)	std::size_t	Returns: the smallest i such that X::eq(p[i], CharT()) is true	Linear
X::find(p, n, c)	const X::char_type*	Returns: The smallest q in `[`p`,` p + n`)` such that X::eq(*q, c) is true 0 otherwise	Linear
X::move(s, p, n)	`X::char_type*`	For each i in `[`0`,` n`)`, performs X::assign(s[i], p[i]) Copies correctly even where the ranges `[`p`,` p + n`)` and `[`s`,` s + n`)` overlap Returns: s	Linear
X::copy(s, p, n)	`X::char_type*`	Requires: `[`p`,` p + n`)` and `[`s`,` s + n`)` do not overlap Returns: s For each i in `[`0`,` n`)`, performs X::assign(s[i], p[i])	Linear
X::assign(r, d)	(Not used)	Assigns r = d	Constant
X::assign(s, n, c)	`X::char_type*`	For each i in `[`0`,` n`)`, performs X::assign(s[i], c). Returns: s	Linear
X::not_eof(e)	`X::int_type`	Returns: e if X::eq_int_type(e, X::eof()) is false Otherwise a value f such that X::eq_int_type(f, X::eof()) is false	Constant
X::to_char_type(e)	`X::char_type`	Returns: If for some c, X::eq_int_type(e, X::to_int_type(c)) is true, c Else some unspecified value	Constant
X::to_int_type(c)	`X::int_type`	Returns: some value e, constrained by the definitions of `X::to_char_type` and `X::eq_int_type`	Constant
X::eq_int_type(e, f)	bool	For all c and d, X::eq(c, d) is equal to X::eq_int_type(X::to_int_type(c), X::to_int_type(d)) Returns: Yields X::eq(c, d) if for some c and d, e == X::to_int_type(c) and f == X::to_int_type(d) Otherwise, yields true if e and f are both copies of X::eof() Otherwise, yields false if one of e and f is a copy of X::eof() and the other is not Otherwise the value is unspecified	Constant
X::eof()	`X::int_type`	Returns: a value e such that X::eq_int_type(e, X::to_int_type(c)) is false for all values c	Constant

Standard library

CharTraits is required by the following standard library class templates as a template type parameter:

Strings
basic_string	stores and manipulates sequences of characters (class template)
basic_string_view (C++17)	read-only string view (class template)
Streams
basic_ios	manages an arbitrary stream buffer (class template)
basic_istream	wraps a given abstract device (std::basic_streambuf) and provides high-level input interface (class template)
basic_ifstream	implements high-level file stream input operations (class template)
basic_istringstream	implements high-level string stream input operations (class template)
basic_ispanstream (C++23)	implements fixed character buffer input operations (class template)
basic_ostream	wraps a given abstract device (std::basic_streambuf) and provides high-level output interface (class template)
basic_ofstream	implements high-level file stream output operations (class template)
basic_ostringstream	implements high-level string stream output operations (class template)
basic_osyncstream (C++20)	synchronized output stream wrapper (class template)
basic_ospanstream (C++23)	implements fixed character buffer output operations (class template)
basic_iostream	wraps a given abstract device (std::basic_streambuf) and provides high-level input/output interface (class template)
basic_fstream	implements high-level file stream input/output operations (class template)
basic_stringstream	implements high-level string stream input/output operations (class template)
basic_spanstream (C++23)	implements fixed character buffer input/output operations (class template)
Stream iterators
istream_iterator	input iterator that reads from std::basic_istream (class template)
ostream_iterator	output iterator that writes to std::basic_ostream (class template)
Stream buffers
basic_streambuf	abstracts a raw device (class template)
basic_filebuf	implements raw file device (class template)
basic_stringbuf	implements raw string device (class template)
basic_syncbuf (C++20)	synchronized output device wrapper (class template)
basic_spanbuf (C++23)	implements raw fixed character buffer device (class template)
Stream buffer iterators
istreambuf_iterator	input iterator that reads from std::basic_streambuf (class template)
ostreambuf_iterator	output iterator that writes to std::basic_streambuf (class template)

CharTraits is satisfied by the following standard library classes:

template<> class char_traits<char>; template<> class char_traits<wchar_t>; template<> class char_traits<char8_t>; template<> class char_traits<char16_t>; template<> class char_traits<char32_t>;		(since C++20) (since C++11) (since C++11)

Defect reports

The following behavior-changing defect reports were applied retroactively to previously published C++ standards.

DR	Applied to	Behavior as published	Correct behavior
LWG 335	C++98	the requirements on the binary overload of `assign` did not prevent assignments to rvalues	its first argument can only be an lvalue
LWG 352	C++98	`X::state_type` was only required to be CopyConstructible	it is also required to be CopyAssignable and DefaultConstructible
LWG 3085	C++98	`X::copy` only required p not in `[`s`,` s + n`)`, which is too weak^[1]	requires `[`p`,` p + n`)` and `[`s`,` s + n`)` not to overlap

↑ [p, p + n) and [s, s + n) can overlap, using std::memcpy to implement X::copy results in undefined behavior in this case.

[1] [p, p + n) and [s, s + n) can overlap, using std::memcpy to implement X::copy results in undefined behavior in this case.

[1]

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C++ named requirements: CharTraits

Requirements

Standard library

Strings

Streams

Stream iterators

Stream buffers

Stream buffer iterators

Defect reports

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