This function returns the modulus of its argument.
fcomplex Cadd(fcomplex, fcomplex)
This function returns the sum of its arguments.
This function returns the complex cosine of its argument.
fcomplex Cdiv(fcomplex, fcomplex);
This function returns the quotient of the first argument by the second.
This function returns the complex exponential of its argument.
This function returns the inverse of its argument.
This function returns the complex logarithm of its argument.
This function returns the complex logarithm of its argument.
fcomplex Cmul(fcomplex, fcomplex);
This function returns the product of its arguments.
This function returns the opposite of its argument.
fcomplex Complex(float, float);
This function returns the complex number whose real and imaginary parts are respectively the first and the second argument.
This function returns the conjugate of its argument.
This function returns its argument in polar coordinates.
This function returns its argument in usual coordinates.
fcomplex Cpuis(fcomplex, float);
This function returns the power of the first argument to the second.
This function returns the principal square root of its argument.
This function returns the complex sine of its argument.
fcomplex Csub(fcomplex, fcomplex);
This function returns the difference of its arguments (1st - 2nd).
This function returns the modulus of its argument.
dcomplex dCadd(dcomplex, dcomplex);
This function returns the sum of its arguments.
This function returns the complex cosine of its argument.
dcomplex dCdiv(dcomplex, dcomplex);
This function returns the quotient of the first argument by the second.
This function returns the complex exponential of its argument.
This function returns the complex logarithm of its argument.
This function returns the complex logarithm of its argument.
dcomplex dCmul(dcomplex, dcomplex);
This function returns the product of its arguments.
This function returns the opposite of its argument.
dcomplex dComplex(double, double);
This function returns the complex number whose real and imaginary parts are respectively the first and the second argument.
This function returns the conjugate of its argument.
This function returns its argument in polar coordinates.
This function returns its argument in usual coordinates.
dcomplex dCpuis(dcomplex, double);
This function returns the power of the first argument to the second.
This function returns the complex sine of its argument.
dcomplex dCsub(dcomplex, dcomplex);
This function returns the difference of its arguments (1st - 2nd).
dpolaire dPadd(dpolaire, dpolaire);
This function returns the sum of its arguments.
This function returns the conjugate of its argument.
dpolaire dPdiv(dpolaire, dpolaire);
This function returns the quotient of its arguments.
This function returns the complex exponential of its argument.
This function returns the complex exponential of its argument.
This function returns the inverse of its argument.
This function returns the complex logarithm of its argument.
dpolaire dPmul(dpolaire, dpolaire);
This function returns the product of its arguments.
dpolaire dPolaire(double, double);
This function returns the complex number whose polar coordinates are the arguments.
dpolaire dPpuis(dpolaire, double);
This function returns the power of the first argument to the second.
This function returns the principal square root of its argument.
dpolaire dPsub(dpolaire, dpolaire);
This function returns the difference of its arguments (1st - 2nd).
dcomplex dRCdiv(dcomplex, double);
This function returns the quotient of the first argument by the second.
dcomplex dRCmul(double, dcomplex);
This function returns the product of the two arguments.
dpolaire dRPdiv(dpolaire, double);
This function returns the quotient of the first argument by the second.
dpolaire dRPmul(double, dpolaire);
This function returns the product of the two arguments.
fpolaire Padd(fpolaire, fpolaire);
This function returns the sum of its arguments.
This function returns the conjugate of its argument.
fpolaire Pdiv(fpolaire, fpolaire);
This function returns the quotient of the first argument by the second.
This function returns the complex exponential of its argument.
This function returns the complex exponential of its argument.
This function returns the inverse of its argument.
This function returns the complex logarithm of its argument.
fpolaire Pmul(fpolaire, fpolaire);
This function returns the product of its arguments.
fpolaire Polaire(float, float);
This function returns the complex number whose polar coordinates are the arguments.
fpolaire Ppuis(fpolaire, float);
This function returns the power of the first argument to the second.
This function returns the principal square root of its argument.
fpolaire Psub(fpolaire, fpolaire);
This function returns the difference of its arguments (1st - 2nd).
fcomplex RCdiv(fcomplex, float);
This function returns the quotient of the first argument by the second.
fcomplex RCmul(float, fcomplex);
This function returns the product of the two arguments.
fpolaire RPdiv(fpolaire, float);
This function returns the quotient of the first argument by the second.
fpolaire RPmul(float, fpolaire);
This function returns the product of the two arguments.
This function returns the inverse of its argument.
This function returns the principal square root of its argument.