Iterable Packages

Create an iterator which computes the complete elliptic integral of the first kind for each iterated value.

Create an iterator which evaluates the error function for each iterated value.

Create an iterator which evaluates the complementary error function for each iterated value.

Create an iterator which evaluates the inverse complementary error function for each iterated value.

Create an iterator which evaluates the inverse error function for each iterated value.

Create an iterator which evaluates the natural exponential function for each iterated value.

Create an iterator which evaluates the base 10 exponential function for each iterated value.

Create an iterator which evaluates the base 2 exponential function for each iterated value.

Create an iterator which evaluates the standard logistic function for each iterated value.

Create an iterator which computes `exp(x) - 1` for each iterated value.

Create an iterator which evaluates the relative error exponential for each iterated value.

Create an iterator which evaluates the factorial function for each iterated value.

Create an iterator which evaluates the natural logarithm of the factorial function for each iterated value.

Create an iterator which rounds each iterated value toward negative infinity.

Create an iterator which rounds each iterated value to the nearest power of 10 toward negative infinity.

Create an iterator which rounds each iterated value to the nearest power of two toward negative infinity.

Create an iterator which computes the Fresnel integral C(x) for each iterated value.

Create an iterator which computes the Fresnel integral S(x) for each iterated value.

Create an iterator which evaluates the gamma function for each iterated value.

Create an iterator which computes `gamma(x+1) - 1` for each iterated value.