std::complex<T>::complex

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std::complex
Member functions
complex::complex
Non-member functions
Exponential functions
Power functions
Trigonometric functions
(C++11)
(C++11)
(C++11)
Hyperbolic functions
(C++11)
(C++11)
(C++11)
 
Primary template (std::complex<T>)
(1)
complex( const T& re = T(), const T& im = T() );
(until C++14)
constexpr complex( const T& re = T(), const T& im = T() );
(since C++14)
(2)
complex( const complex& other );
(until C++14)
constexpr complex( const complex& other );
(since C++14)
(until C++23)
constexpr complex( const complex& other ) = default;
(since C++23)
(3)
template< class X >
complex( const complex<X>& other );
(until C++14)
template< class X >
constexpr complex( const complex<X>& other );
(since C++14)
(until C++23)
template< class X >
constexpr explicit(/* see below */) complex( const complex<X>& other );
(since C++23)
Standard explicit specialization std::complex<float> (until C++23)
(1)
complex( float re = 0.0f, float im = 0.0f );
(until C++11)
constexpr complex( float re = 0.0f, float im = 0.0f );
(since C++11)
constexpr complex( const complex<float>& other ) = default;
(2) (since C++20)
(3)
explicit complex( const complex<double>& other );
explicit complex( const complex<long double>& other );
(until C++11)
constexpr explicit complex( const complex<double>& other );
constexpr explicit complex( const complex<long double>& other );
(since C++11)
Standard explicit specialization std::complex<double> (until C++23)
(1)
complex( double re = 0.0, double im = 0.0 );
(until C++11)
constexpr complex( double re = 0.0, double im = 0.0 );
(since C++11)
constexpr complex( const complex<double>& other ) = default;
(2) (since C++20)
(3)
complex( const complex<float>& other );
explicit complex( const complex<long double>& other );
(until C++11)
constexpr complex( const complex<float>& other );
constexpr explicit complex( const complex<long double>& other );
(since C++11)
Standard explicit specialization std::complex<long double> (until C++23)
(1)
complex( long double re = 0.0L, long double im = 0.0L );
(until C++11)
constexpr complex( long double re = 0.0L, long double im = 0.0L );
(since C++11)
constexpr complex( const complex<long double>& other ) = default;
(2) (since C++20)
(3)
complex( const complex<float>& other );
complex( const complex<double>& other );
(until C++11)
constexpr complex( const complex<float>& other );
constexpr complex( const complex<double>& other );
(since C++11)

Constructs the std::complex object. The standard explicit specializations (std::complex<float>, std::complex<double> and std::complex<long double>) have different constructor declarations from the main template. (until C++23)

1) Constructs the complex number from real part re and imaginary part im.
2) Copy constructor. Constructs the object with the copy of the contents of other. The copy constructors are implicitly declared in the standard explicit specializations. (until C++20)
3) Converting constructor. Constructs the object from a complex number of a different type.

The main template provides a converting constructor template, while each standard explicit specialization provides two non-template constructors for the two other standard explicit specializations.

The non-template constructors are converting constructors (i.e. non-explicit) if and only if the conversions of the real and imaginary parts are not narrowing.

(until C++23)

For the main template, the expression inside explicit evaluates to false if and only if the floating-point conversion rank of T is greater than or equal to the floating-point conversion rank of X.

(since C++23)

Parameters

re - the real part
im - the imaginary part
other - another complex number to use as source

Notes

Since C++23, the copy constructor is required to be trivial in order to satisfy the TriviallyCopyable requirement, but implementations generally make it trivial in all modes.

See also

assigns the contents
(public member function)
a std::complex literal representing purely imaginary number
(function)