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PATTERSON_RULE\ Gauss-Patterson Quadrature Rules {#patterson_rule-gauss-patterson-quadrature-rules align=”center”} ================================

PATTERSON_RULE is a C++ program which generates a specific Gauss-Patterson quadrature rule, based on user input.

The rule is written to three files for easy use as input to other programs.

The Gauss-Patterson quadrature is a nested family which begins with the Gauss-Legendre rules of orders 1 and 3, and then succesively inserts one new abscissa in each subinterval. Thus, after the second rule, the Gauss-Patterson rules do not have the super-high precision of the Gauss-Legendre rules. They trade this precision in exchange for the advantages of nestedness. This means that Gauss-Patterson rules are only available for orders of 1, 3, 7, 15, 31, 63, 127, 255 or 511.

The standard Gauss-Patterson quadrature rule is used as follows:

        Integral ( A <= x <= B ) f(x) dx

is to be approximated by

        Sum ( 1 <= i <= order ) w(i) * f(x(i))

The polynomial precision of a Gauss-Patterson rule can be checked numerically by the INT_EXACTNESS_LEGENDRE program. We should expect

Index Order Free+Fixed Expected Precision Actual Precision ——- ——- ———— ——————– —————— 0 1 1 + 0 2*1+0-1=1 1 1 3 3 + 0 2*3+0-1=5 5 2 7 4 + 3 2*4+3-1=10 10 + 1 = 11 3 15 8 + 7 2*8+7-1=22 22 + 1 = 23 4 31 16 + 15 2*16+15-1=46 46 + 1 = 47 5 63 32 + 31 2*32+31-1=94 94 + 1 = 95 6 127 64 + 63 2*64+63-1=190 190 + 1 = 191 7 255 128 + 127 2*128+127-1=382 382 + 1 = 383 8 511 256 + 255 2*256+255-1=766 766 + 1 = 767

where the extra 1 degree of precision comes about because the rules are symmetric, and can integrate any odd monomial exactly. Thus, after the first rule, the precision is 3*2\^index - 1.

Usage: {#usage align=”center”}

patterson_rule order a b filename

where

• order is the number of points in the quadrature rule. Acceptable values are 1, 3, 7, 15, 31, 63, 127, 255 or 511.
• a is the left endpoint;
• b is the right endpoint;
• filename specifies the output filenames: filename_w.txt, filename_x.txt, and filename_r.txt, containing the weights, abscissas, and interval limits.

Licensing: {#licensing align=”center”}

The computer code and data files described and made available on this web page are distributed under the GNU LGPL license.

Languages: {#languages align=”center”}

PATTERSON_RULE is available in a C version and a C++ version and a FORTRAN77 version and a FORTRAN90 version and a MATLAB version.

Related Data and Programs: {#related-data-and-programs align=”center”}

CCN_RULE, a C++ program which defines a nested Clenshaw Curtis quadrature rule.

CHEBYSHEV1_RULE, a C++ program which can compute and print a Gauss-Chebyshev type 1 quadrature rule.

CHEBYSHEV2_RULE, a C++ program which can compute and print a Gauss-Chebyshev type 2 quadrature rule.

CLENSHAW_CURTIS_RULE, a C++ program which defines a Clenshaw Curtis quadrature rule.

GEGENBAUER_RULE, a C++ program which can compute and print a Gauss-Gegenbauer quadrature rule.

GEN_HERMITE_RULE, a C++ program which can compute and print a generalized Gauss-Hermite quadrature rule.

GEN_LAGUERRE_RULE, a C++ program which can compute and print a generalized Gauss-Laguerre quadrature rule.

HERMITE_RULE, a C++ program which can compute and print a Gauss-Hermite quadrature rule.

INT_EXACTNESS_LEGENDRE, a C++ program which checks the polynomial exactness of a Gauss-Legendre quadrature rule.

JACOBI_RULE, a C++ program which can compute and print a Gauss-Jacobi quadrature rule.

KRONROD, a C++ library which can compute a Gauss and Gauss-Kronrod pair of quadrature rules of arbitrary order, by Robert Piessens, Maria Branders.

LAGUERRE_RULE, a C++ program which can compute and print a Gauss-Laguerre quadrature rule.

LATTICE_RULE, a C++ library which approximates M-dimensional integrals using lattice rules.

LEGENDRE_RULE, a C++ program which can compute and print a Gauss-Legendre quadrature rule.

LINE_FELIPPA_RULE, a C++ library which returns the points and weights of a Felippa quadrature rule over the interior of a line segment in 1D.

LINE_NCC_RULE, a C++ library which computes a Newton Cotes Closed (NCC) quadrature rule for the line, that is, for an interval of the form [A,B], using equally spaced points which include the endpoints.

LINE_NCO_RULE, a C++ library which computes a Newton Cotes Open (NCO) quadrature rule, using equally spaced points, over the interior of a line segment in 1D.

QUADRULE, a C++ library which defines 1-dimensional quadrature rules.

TOMS699, a FORTRAN77 library which implements a new representation of Patterson’s quadrature formula;\ this is ACM TOMS algorithm 699.

TRUNCATED_NORMAL_RULE, a C++ program which computes a quadrature rule for a normal probability density function (PDF), also called a Gaussian distribution, that has been truncated to [A,+oo), (-oo,B] or [A,B].

Reference: {#reference align=”center”}

1. Milton Abramowitz, Irene Stegun,\ Handbook of Mathematical Functions,\ National Bureau of Standards, 1964,\ ISBN: 0-486-61272-4,\ LC: QA47.A34.
2. Philip Davis, Philip Rabinowitz,\ Methods of Numerical Integration,\ Second Edition,\ Dover, 2007,\ ISBN: 0486453391,\ LC: QA299.3.D28.
3. Arthur Stroud, Don Secrest,\ Gaussian Quadrature Formulas,\ Prentice Hall, 1966,\ LC: QA299.4G3S7.

Source Code: {#source-code align=”center”}

• patterson_rule.cpp, the source code.

Examples and Tests: {#examples-and-tests align=”center”}

• gp_o15_r.txt, the region file created by the command

              patterson_rule 15 gp_o15
  

• gp_o15_w.txt, the weight file created by the command

              patterson_rule 15 gp_o15
  

• gp_o15_x.txt, the abscissa file created by the command

              patterson_rule 15 gp_o15
  

List of Routines: {#list-of-routines align=”center”}

• MAIN is the main program for PATTERSON_RULE.
• ORDER_CHECK checks the value of ORDER.
• PATTERSON_HANDLE computes the requested Gauss-Patterson rule and outputs it.
• PATTERSON_SET sets abscissas and weights for Gauss-Patterson quadrature.
• R8MAT_WRITE writes an R8MAT file with no header.
• RESCALE rescales a Legendre quadrature rule from [-1,+1] to [A,B].
• TIMESTAMP prints the current YMDHMS date as a time stamp.

You can go up one level to the C++ source codes.

Last revised on 16 February 2010.