function [ n_data, n, x, fx ] = w_polynomial_values ( n_data ) %*****************************************************************************80 % %% W_POLYNOMIAL_VALUES returns values of Chebyshev polynomials W(n,x). % % Discussion: % % In Mathematica, the function can be evaluated by: % % u = Sqrt[(x+1)/2], % ChebyshevU[2*n,u] % % Licensing: % % This code is distributed under the GNU LGPL license. % % Modified: % % 23 April 2012 % % Author: % % John Burkardt % % Reference: % % Milton Abramowitz and Irene Stegun, % Handbook of Mathematical Functions, % US Department of Commerce, 1964. % % Stephen Wolfram, % The Mathematica Book, % Fourth Edition, % Wolfram Media / Cambridge University Press, 1999. % % Parameters: % % Input/output, integer N_DATA. The user sets N_DATA to 0 before the % first call. On each call, the routine increments N_DATA by 1, and % returns the corresponding data; when there is no more data, the % output value of N_DATA will be 0 again. % % Output, integer N, the order of the function. % % Output, real X, the point where the function is evaluated. % % Output, real FX, the value of the function. % n_max = 13; fx_vec = [ ... 1.000000000000000E+00, ... 2.600000000000000E+00, ... 3.160000000000000E+00, ... 2.456000000000000E+00, ... 0.769600000000000E+00, ... -1.224640000000000E+00, ... -2.729024000000000E+00, ... -3.141798400000000E+00, ... -2.297853440000000E+00, ... -0.534767104000000E+00, ... 1.442226073600000E+00, ... 2.842328821760000E+00, ... 3.105500041216000E+00 ]; n_vec = [ ... 0, 1, 2, ... 3, 4, 5, ... 6, 7, 8, ... 9, 10, 11, ... 12 ]; x_vec = [ ... 0.8E+00, ... 0.8E+00, ... 0.8E+00, ... 0.8E+00, ... 0.8E+00, ... 0.8E+00, ... 0.8E+00, ... 0.8E+00, ... 0.8E+00, ... 0.8E+00, ... 0.8E+00, ... 0.8E+00, ... 0.8E+00 ]; if ( n_data < 0 ) n_data = 0; end n_data = n_data + 1; if ( n_max < n_data ) n_data = 0; n = 0; x = 0.0; fx = 0.0; else n = n_vec(n_data); x = x_vec(n_data); fx = fx_vec(n_data); end return end