cc_project_test
cc_project_test,
an Octave code which
calls cc_project(), which
extends a Clenshaw-Curtis-like quadrature
scheme to semi-infinite and infinite intervals, and to integrands
with a specified density function.
Licensing:
The information on this web page is distributed under the MIT license.
Related Data and Programs:
cc_project,
an Octave code which
extends a Clenshaw-Curtis quadrature rules
for semi-infinite and infinite intervals, by John Boyd.
Source Code:
-
cardinal_cos_test.m,
plots a cardinal cosine interpolant basis function.
-
cardinal_cos.png,
a plot of a cardinal cosine interpolant basis function.
-
cardinal_sin_test.m,
plots a cardinal sine interpolant basis function.
-
cardinal_sin.png,
a plot of a cardinal sine interpolant basis function.
-
cardinal_test.m,
checks the Lagrange property for the cardinal cosine and sine
families.
-
ccff_asymptotic_test.m,
tests ccff_asymptotic() for a specific integrand.
-
ccff_exactness_test.m
-
ccff_tabulate_test.m,
tabulates CCFF quadrature rules for the Legendre integral.
-
ccfi_0_asymptotic_test.m,
-
ccfi_0_exactness_test.m
-
ccfi_0_tabulate_test.m,
tabulates CCFI_0 quadrature rules for the Laguerre integral
with density exp(-x).
-
ccfi_1_asymptotic_test.m,
-
ccfi_1_exactness_test.m
-
ccfi_1_tabulate_test.m,
tabulates CCFI_1 quadrature rules for the Laguerre integral
with density 1.
-
ccii_0_tabulate_test.m,
tabulates CCII_0 quadrature rules for the Hermite integral
with density exp(-x^2).
-
ccii_1_tabulate_test.m,
tabulates CCII_1 quadrature rules for the Hermite integral
with density 1.
-
ccii_asymptotic_test.m,
-
compare_ff_test.m,
prints out the order 5 version of Boyd's Clenshaw-Curtis type
rule for the Legendre integral, comparing it with several other
rules.
-
laguerre_exactness.m,
tests a quadrature rule for exactness on the Laguerre integral.
-
legendre_exactness.m,
tests a quadrature rule for exactness on the Legendre integral.
Last modified on 17 September 2024.
