function triangle_sample_test ( ) %*****************************************************************************80 % %% TRIANGLE_SAMPLE_TEST tests TRIANGLE_SAMPLE. % % Licensing: % % This code is distributed under the GNU LGPL license. % % Modified: % % 31 March 2016 % % Author: % % John Burkardt % nsample = 1000; seed = 123456789; fprintf ( 1, '\n' ); fprintf ( 1, 'TRIANGLE_SAMPLE_TEST\n' ); fprintf ( 1, ' TRIANGLE_MEAN returns the Triangle mean;\n' ); fprintf ( 1, ' TRIANGLE_SAMPLE samples the Triangle distribution;\n' ); fprintf ( 1, ' TRIANGLE_VARIANCE returns the Triangle variance;\n' ); a = 1.0; b = 3.0; c = 10.0; check = triangle_check ( a, b, c ); if ( ~ check ); fprintf ( 1, '\n' ); fprintf ( 1, 'TRIANGLE_SAMPLE_TEST - Fatal error!\n' ); fprintf ( 1, ' The parameters are not legal.\n' ); return end fprintf ( 1, '\n' ); fprintf ( 1, ' PDF parameter A = %14g\n', a ); fprintf ( 1, ' PDF parameter B = %14g\n', b ); fprintf ( 1, ' PDF parameter C = %14g\n', c ); mean = triangle_mean ( a, b, c ); variance = triangle_variance ( a, b, c ); fprintf ( 1, '\n' ); fprintf ( 1, ' PDF parameter MEAN = %14g\n', mean ); fprintf ( 1, ' PDF parameter VARIANCE = %14g\n', variance ); for i = 1 : nsample [ x(i), seed ] = triangle_sample ( a, b, c, seed ); end mean = r8vec_mean ( nsample, x ); variance = r8vec_variance ( nsample, x ); xmax = max ( x(1:nsample) ); xmin = min ( x(1:nsample) ); fprintf ( 1, '\n' ); fprintf ( 1, ' Sample size = %6d\n', nsample ); fprintf ( 1, ' Sample mean = %14g\n', mean ); fprintf ( 1, ' Sample variance = %14g\n', variance ); fprintf ( 1, ' Sample maximum = %14g\n', xmax ); fprintf ( 1, ' Sample minimum = %14g\n', xmin ); return end