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      std::conj(std::complex)

      From cppreference.com
      <cpp‎ |numeric‎ |complex
       
       
       
       
      Defined in header<complex>
      (1)
      template<class T>
      std::complex<T> conj(conststd::complex<T>& z);
      		(until C++20)
      template<class T>
      constexprstd::complex<T> conj(conststd::complex<T>& z);
      		(since C++20)
      Defined in header<complex>
      (A)
      std::complex<float>       conj(float f);

      std::complex<double>      conj(double f);

      std::complex<longdouble> conj(longdouble f);
      		(until C++20)
      constexprstd::complex<float>       conj(float f);

      constexprstd::complex<double>      conj(double f);

      constexprstd::complex<longdouble> conj(longdouble f);
      		(since C++20)
      (until C++23)
      template<class FloatingPoint>
      constexprstd::complex<FloatingPoint> conj( FloatingPoint f);
      		(since C++23)
      (B)
      template<class Integer>
      constexprstd::complex<double> conj( Integer i);
      		(until C++20)
      template<class Integer>
      constexprstd::complex<double> conj( Integer i);
      		(since C++20)
      1) Computes thecomplex conjugate ofz by reversing the sign of the imaginary part.
      A,B) Additional overloads are provided for all integer and floating-point types, which are treated as complex numbers with zero imaginary component.
      		(since C++11)

      Contents

      [edit]Parameters

      z - complex value
      f - floating-point value
      i - integer value

      [edit]Return value

      1) The complex conjugate ofz.
      A)std::complex(f).
      B)std::complex<double>(i).

      [edit]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 argumentnum:

      • Ifnum has astandard(until C++23) floating-point typeT, thenstd::conj(num) has the same effect asstd::conj(std::complex<T>(num)).
      • Otherwise, ifnum has an integer type, thenstd::conj(num) has the same effect asstd::conj(std::complex<double>(num)).

      [edit]Example

      Run this code
      #include <complex>#include <iostream> int main(){std::complex<double> z(1.0,2.0);std::cout<<"The conjugate of "<< z<<" is "<< std::conj(z)<<'\n'<<"Their product is "<< z* std::conj(z)<<'\n';}

      Output:

      The conjugate of (1,2) is (1,-2)Their product is (5,0)

      [edit]See also

      returns the magnitude of a complex number
      (function template)[edit]
      returns the squared magnitude
      (function template)[edit]
      constructs a complex number from magnitude and phase angle
      (function template)[edit]
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