This module provides a number of objects (mostly functions) useful for dealing with HermiteE series, including a HermiteE class that encapsulates the usual arithmetic operations. (General information on how this module represents and works with such polynomials is in the docstring for its ?parent? sub-package, numpy.polynomial).
HermiteE Class
HermiteE(coef[, domain, window]) | An HermiteE series class. |
Basics
hermeval(x, c[, tensor]) | Evaluate an HermiteE series at points x. |
hermeval2d(x, y, c) | Evaluate a 2-D HermiteE series at points (x, y). |
hermeval3d(x, y, z, c) | Evaluate a 3-D Hermite_e series at points (x, y, z). |
hermegrid2d(x, y, c) | Evaluate a 2-D HermiteE series on the Cartesian product of x and y. |
hermegrid3d(x, y, z, c) | Evaluate a 3-D HermiteE series on the Cartesian product of x, y, and z. |
hermeroots(c) | Compute the roots of a HermiteE series. |
hermefromroots(roots) | Generate a HermiteE series with given roots. |
Fitting
hermefit(x, y, deg[, rcond, full, w]) | Least squares fit of Hermite series to data. |
hermevander(x, deg) | Pseudo-Vandermonde matrix of given degree. |
hermevander2d(x, y, deg) | Pseudo-Vandermonde matrix of given degrees. |
hermevander3d(x, y, z, deg) | Pseudo-Vandermonde matrix of given degrees. |
Calculus
hermeder(c[, m, scl, axis]) | Differentiate a Hermite_e series. |
hermeint(c[, m, k, lbnd, scl, axis]) | Integrate a Hermite_e series. |
Algebra
hermeadd(c1, c2) | Add one Hermite series to another. |
hermesub(c1, c2) | Subtract one Hermite series from another. |
hermemul(c1, c2) | Multiply one Hermite series by another. |
hermemulx(c) | Multiply a Hermite series by x. |
hermediv(c1, c2) | Divide one Hermite series by another. |
hermepow(c, pow[, maxpower]) | Raise a Hermite series to a power. |
Quadrature
Miscellaneous
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