std::imag(std::complex) - cppreference.com
From cppreference.com
| Defined in header |
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template< class T > T imag( const std::complex<T>& z ); |
(1) | (until C++14) |
template< class T > constexpr T imag( const std::complex<T>& z ); |
(since C++14) | |
| Additional overloads (since C++11) |
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| Defined in header |
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float imag( float f ); double imag( double f ); long double imag( long double f ); |
(A) | (until C++14) |
constexpr float imag( float f ); constexpr double imag( double f ); constexpr long double imag( long double f ); |
(since C++14) (until C++23) |
|
template< class FloatingPoint > FloatingPoint imag( FloatingPoint f ); |
(since C++23) | |
template< class Integer > double imag( Integer i ); |
(B) | (until C++14) |
template< class Integer > constexpr double imag( Integer i ); |
(since C++14) | |
1) Returns the imaginary part of the complex number z, i.e. z.imag().
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A,B) Additional overloads are provided for all integer and floating-point types, which are treated as complex numbers with zero imaginary part. |
(since C++11) |
Parameters
| z | - | complex value |
| f | - | floating-point value |
| i | - | integer value |
Return value
1) The imaginary part of z.
A) decltype(f){} (zero).
B) 0.0.
Notes
The additional overloads are not required to be provided exactly as (A,B). They only need to be sufficient to ensure that for their argument num:
- If
numhas a standard(until C++23) floating-point typeT, thenstd::imag(num)has the same effect asstd::imag(std::complex<T>(num)). - Otherwise, if
numhas an integer type, thenstd::imag(num)has the same effect asstd::imag(std::complex<double>(num)).