GNU Octave  6.2.0
A high-level interpreted language, primarily intended for numerical computations, mostly compatible with Matlab
Faddeeva.hh
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22 
23 /* Available at: http://ab-initio.mit.edu/Faddeeva
24 
25  Header file for Faddeeva.cc; see that file for more information. */
26 
27 #ifndef FADDEEVA_HH
28 #define FADDEEVA_HH 1
29 
30 #include <complex>
31 
32 namespace Faddeeva {
33 
34 // compute w(z) = exp(-z^2) erfc(-iz) [ Faddeeva / scaled complex error func ]
35 extern std::complex<double> w(std::complex<double> z,double relerr=0);
36 extern double w_im(double x); // special-case code for Im[w(x)] of real x
37 
38 // Various functions that we can compute with the help of w(z)
39 
40 // compute erfcx(z) = exp(z^2) erfc(z)
41 extern std::complex<double> erfcx(std::complex<double> z, double relerr=0);
42 extern double erfcx(double x); // special case for real x
43 
44 // compute erf(z), the error function of complex arguments
45 extern std::complex<double> erf(std::complex<double> z, double relerr=0);
46 extern double erf(double x); // special case for real x
47 
48 // compute erfi(z) = -i erf(iz), the imaginary error function
49 extern std::complex<double> erfi(std::complex<double> z, double relerr=0);
50 extern double erfi(double x); // special case for real x
51 
52 // compute erfc(z) = 1 - erf(z), the complementary error function
53 extern std::complex<double> erfc(std::complex<double> z, double relerr=0);
54 extern double erfc(double x); // special case for real x
55 
56 // compute Dawson(z) = sqrt(pi)/2 * exp(-z^2) * erfi(z)
57 extern std::complex<double> Dawson(std::complex<double> z, double relerr=0);
58 extern double Dawson(double x); // special case for real x
59 
60 } // namespace Faddeeva
61 
62 #endif // FADDEEVA_HH
F77_RET_T const F77_DBLE * x
std::complex< double > w(std::complex< double > z, double relerr=0)
std::complex< double > erfc(std::complex< double > z, double relerr=0)
std::complex< double > erfcx(std::complex< double > z, double relerr=0)
std::complex< double > erfi(std::complex< double > z, double relerr=0)
std::complex< double > erf(std::complex< double > z, double relerr=0)
std::complex< double > Dawson(std::complex< double > z, double relerr=0)
double w_im(double x)