Provided by: libmath-gsl-perl_0.43-4build1_amd64
NAME
Math::GSL::Complex - Complex Numbers
SYNOPSIS
use Math::GSL::Complex qw/:all/; my $complex = Math::GSL::Complex->new([3,2]); # creates a complex number 3+2*i my $real = $complex->real; # returns the real part my $imag = $complex->imag; # returns the imaginary part $complex->gsl_set_real(5); # changes the real part to 5 $complex->gsl_set_imag(4); # changes the imaginary part to 4 $complex->gsl_set_complex(7,6); # changes it to 7 + 6*i ($real, $imag) = $complex->parts; # get both at once
DESCRIPTION
Here is a list of all the functions included in this module : "gsl_complex_arg($z)" Return the argument of the complex number $z "gsl_complex_abs($z)" Return |$z|, the magnitude of the complex number $z "gsl_complex_rect($x,$y)" Create a complex number in cartesian form $x + $y*i "gsl_complex_polar($r,$theta)" Create a complex number in polar form $r*exp(i*$theta) "gsl_complex_abs2($z)" Return |$z|^2, the squared magnitude of the complex number $z "gsl_complex_logabs($z)" Return log(|$z|), the natural logarithm of the magnitude of the complex number $z "gsl_complex_add($c1, $c2)" Return a complex number which is the sum of the complex numbers $c1 and $c2 "gsl_complex_sub($c1, $c2)" Return a complex number which is the difference between $c1 and $c2 ($c1 - $c2) "gsl_complex_mul($c1, $c2)" Return a complex number which is the product of the complex numbers $c1 and $c2 "gsl_complex_div($c1, $c2)" Return a complex number which is the quotient of the complex numbers $c1 and $c2 ($c1 / $c2) "gsl_complex_add_real($c, $x)" Return the sum of the complex number $c and the real number $x "gsl_complex_sub_real($c, $x)" Return the difference of the complex number $c and the real number $x "gsl_complex_mul_real($c, $x)" Return the product of the complex number $c and the real number $x "gsl_complex_div_real($c, $x)" Return the quotient of the complex number $c and the real number $x "gsl_complex_add_imag($c, $y)" Return sum of the complex number $c and the imaginary number i*$x "gsl_complex_sub_imag($c, $y)" Return the diffrence of the complex number $c and the imaginary number i*$x "gsl_complex_mul_imag($c, $y)" Return the product of the complex number $c and the imaginary number i*$x "gsl_complex_div_imag($c, $y)" Return the quotient of the complex number $c and the imaginary number i*$x "gsl_complex_conjugate($c)" Return the conjugate of the of the complex number $c (x - i*y) "gsl_complex_inverse($c)" Return the inverse, or reciprocal of the complex number $c (1/$c) "gsl_complex_negative($c)" Return the negative of the complex number $c (-x -i*y) "gsl_complex_sqrt($c)" Return the square root of the complex number $c "gsl_complex_sqrt_real($x)" Return the complex square root of the real number $x, where $x may be negative "gsl_complex_pow($c1, $c2)" Return the complex number $c1 raised to the complex power $c2 "gsl_complex_pow_real($c, $x)" Return the complex number raised to the real power $x "gsl_complex_exp($c)" Return the complex exponential of the complex number $c "gsl_complex_log($c)" Return the complex natural logarithm (base e) of the complex number $c "gsl_complex_log10($c)" Return the complex base-10 logarithm of the complex number $c "gsl_complex_log_b($c, $b)" Return the complex base-$b of the complex number $c "gsl_complex_sin($c)" Return the complex sine of the complex number $c "gsl_complex_cos($c)" Return the complex cosine of the complex number $c "gsl_complex_sec($c)" Return the complex secant of the complex number $c "gsl_complex_csc($c)" Return the complex cosecant of the complex number $c "gsl_complex_tan($c)" Return the complex tangent of the complex number $c "gsl_complex_cot($c)" Return the complex cotangent of the complex number $c "gsl_complex_arcsin($c)" Return the complex arcsine of the complex number $c "gsl_complex_arcsin_real($x)" Return the complex arcsine of the real number $x "gsl_complex_arccos($c)" Return the complex arccosine of the complex number $c "gsl_complex_arccos_real($x)" Return the complex arccosine of the real number $x "gsl_complex_arcsec($c)" Return the complex arcsecant of the complex number $c "gsl_complex_arcsec_real($x)" Return the complex arcsecant of the real number $x "gsl_complex_arccsc($c)" Return the complex arccosecant of the complex number $c "gsl_complex_arccsc_real($x)" Return the complex arccosecant of the real number $x "gsl_complex_arctan($c)" Return the complex arctangent of the complex number $c "gsl_complex_arccot($c)" Return the complex arccotangent of the complex number $c "gsl_complex_sinh($c)" Return the complex hyperbolic sine of the complex number $c "gsl_complex_cosh($c)" Return the complex hyperbolic cosine of the complex number $cy "gsl_complex_sech($c)" Return the complex hyperbolic secant of the complex number $c "gsl_complex_csch($c)" Return the complex hyperbolic cosecant of the complex number $c "gsl_complex_tanh($c)" Return the complex hyperbolic tangent of the complex number $c "gsl_complex_coth($c)" Return the complex hyperbolic cotangent of the complex number $c "gsl_complex_arcsinh($c)" Return the complex hyperbolic arcsine of the complex number $c "gsl_complex_arccosh($c)" Return the complex hyperbolic arccosine of the complex number $c "gsl_complex_arccosh_real($x)" Return the complex hyperbolic arccosine of the real number $x "gsl_complex_arcsech($c)" Return the complex hyperbolic arcsecant of the complex number $c "gsl_complex_arccsch($c)" Return the complex hyperbolic arccosecant of the complex number $c "gsl_complex_arctanh($c)" Return the complex hyperbolic arctangent of the complex number $c "gsl_complex_arctanh_real($x)" Return the complex hyperbolic arctangent of the real number $x "gsl_complex_arccoth($c)" Return the complex hyperbolic arccotangent of the complex number $c "gsl_real($z)" Return the real part of $z "gsl_imag($z)" Return the imaginary part of $z "gsl_parts($z)" Return a list of the real and imaginary parts of $z "gsl_set_real($z, $x)" Sets the real part of $z to $x "gsl_set_imag($z, $y)" Sets the imaginary part of $z to $y "gsl_set_complex($z, $x, $h)" Sets the real part of $z to $x and the imaginary part to $y
EXAMPLES
This code defines $z as 6 + 4*i, takes the complex conjugate of that number, then prints it out. my $z = gsl_complex_rect(6,4); my $y = gsl_complex_conjugate($z); my ($real, $imag) = gsl_parts($y); print "z = $real + $imag*i\n"; This code defines $z as 5 + 3*i, multiplies it by 2 and then prints it out. my $x = gsl_complex_rect(5,3); my $z = gsl_complex_mul_real($x, 2); my $real = gsl_real($z); my $imag = gsl_imag($z); print "Re(\$z) = $real\n";
AUTHORS
Jonathan "Duke" Leto <jonathan@leto.net> and Thierry Moisan <thierry.moisan@gmail.com>
COPYRIGHT AND LICENSE
Copyright (C) 2008-2021 Jonathan "Duke" Leto and Thierry Moisan This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself.