scipy.interpolate.splint#

scipy.interpolate.splint(a, b, tck, full_output=0)[source]#

Evaluate the definite integral of a B-spline between two given points.

Parameters
a, bfloat

The end-points of the integration interval.

tcktuple or a BSpline instance

If a tuple, then it should be a sequence of length 3, containing the vector of knots, the B-spline coefficients, and the degree of the spline (see splev).

full_outputint, optional

Non-zero to return optional output.

Returns
integralfloat

The resulting integral.

wrkndarray

An array containing the integrals of the normalized B-splines defined on the set of knots. (Only returned if full_output is non-zero)

Notes

splint silently assumes that the spline function is zero outside the data interval (a, b).

Manipulating the tck-tuples directly is not recommended. In new code, prefer using the BSpline objects.

References

1

P.W. Gaffney, The calculation of indefinite integrals of b-splines”, J. Inst. Maths Applics, 17, p.37-41, 1976.

2

P. Dierckx, “Curve and surface fitting with splines”, Monographs on Numerical Analysis, Oxford University Press, 1993.

Examples

Examples are given in the tutorial.