Different intervals for Gauss-Legendre quadrature in numpy
To change the interval, translate the x values from [-1, 1] to [a, b] using, say,
t = 0.5*(x + 1)*(b - a) + a
and then scale the quadrature formula by (b - a)/2:
gauss = sum(w * f(t)) * 0.5*(b - a)
Here's a modified version of your example:
import numpy as np
from scipy import integrate
# Define function and interval
a = 0.0
b = np.pi/2
f = lambda x: np.cos(x)
# Gauss-Legendre (default interval is [-1, 1])
deg = 6
x, w = np.polynomial.legendre.leggauss(deg)
# Translate x values from the interval [-1, 1] to [a, b]
t = 0.5*(x + 1)*(b - a) + a
gauss = sum(w * f(t)) * 0.5*(b - a)
# For comparison
quad, quad_err = integrate.quad(f, a, b)
print 'The QUADPACK solution: {0:.12} with error: {1:.12}'.format(quad, quad_err)
print 'Gauss-Legendre solution: {0:.12}'.format(gauss)
print 'Difference between QUADPACK and Gauss-Legendre: ', abs(gauss - quad)
It prints:
The QUADPACK solution: 1.0 with error: 1.11022302463e-14 Gauss-Legendre solution: 1.0 Difference between QUADPACK and Gauss-Legendre: 4.62963001269e-14