class numpy.polynomial.chebyshev.Chebyshev(coef, domain=None, window=None)[source]

A Chebyshev series class.

The Chebyshev class provides the standard Python numerical methods ‘+’, ‘-‘, ‘*’, ‘//’, ‘%’, ‘divmod’, ‘**’, and ‘()’ as well as the methods listed below.

coef : array_like

Chebyshev coefficients in order of increasing degree, i.e., (1, 2, 3) gives 1*T_0(x) + 2*T_1(x) + 3*T_2(x).

domain : (2,) array_like, optional

Domain to use. The interval [domain[0], domain[1]] is mapped to the interval [window[0], window[1]] by shifting and scaling. The default value is [-1, 1].

window : (2,) array_like, optional

Window, see domain for its use. The default value is [-1, 1].

New in version 1.6.0.


__call__(self, arg) Call self as a function.
basis(deg[, domain, window]) Series basis polynomial of degree deg.
cast(series[, domain, window]) Convert series to series of this class.
convert(self[, domain, kind, window]) Convert series to a different kind and/or domain and/or window.
copy(self) Return a copy.
cutdeg(self, deg) Truncate series to the given degree.
degree(self) The degree of the series.
deriv(self[, m]) Differentiate.
fit(x, y, deg[, domain, rcond, full, w, window]) Least squares fit to data.
fromroots(roots[, domain, window]) Return series instance that has the specified roots.
has_samecoef(self, other) Check if coefficients match.
has_samedomain(self, other) Check if domains match.
has_sametype(self, other) Check if types match.
has_samewindow(self, other) Check if windows match.
identity([domain, window]) Identity function.
integ(self[, m, k, lbnd]) Integrate.
interpolate(func, deg[, domain, args]) Interpolate a function at the Chebyshev points of the first kind.
linspace(self[, n, domain]) Return x, y values at equally spaced points in domain.
mapparms(self) Return the mapping parameters.
roots(self) Return the roots of the series polynomial.
trim(self[, tol]) Remove trailing coefficients
truncate(self, size) Truncate series to length size.

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