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Diffstat (limited to 'gsl-1.9/poly/test.c')
| -rw-r--r-- | gsl-1.9/poly/test.c | 508 |
1 files changed, 508 insertions, 0 deletions
diff --git a/gsl-1.9/poly/test.c b/gsl-1.9/poly/test.c new file mode 100644 index 0000000..bd0e141 --- /dev/null +++ b/gsl-1.9/poly/test.c @@ -0,0 +1,508 @@ +/* poly/test.c + * + * Copyright (C) 1996, 1997, 1998, 1999, 2000 Brian Gough + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or (at + * your option) any later version. + * + * This program is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + +#include <config.h> +#include <stdlib.h> +#include <gsl/gsl_math.h> +#include <gsl/gsl_test.h> +#include <gsl/gsl_ieee_utils.h> +#include <gsl/gsl_poly.h> + +int +main (void) +{ + const double eps = 100.0 * GSL_DBL_EPSILON; + + gsl_ieee_env_setup (); + + { + double x, y; + double c[3] = { 1.0, 0.5, 0.3 }; + x = 0.5; + y = gsl_poly_eval (c, 3, x); + gsl_test_rel (y, 1 + 0.5 * x + 0.3 * x * x, eps, + "gsl_poly_eval({1, 0.5, 0.3}, 0.5)"); + } + + { + double x, y; + double d[11] = { 1, -1, 1, -1, 1, -1, 1, -1, 1, -1, 1 }; + x = 1.0; + y = gsl_poly_eval (d, 11, x); + gsl_test_rel (y, 1.0, eps, + "gsl_poly_eval({1,-1, 1, -1, 1, -1, 1, -1, 1, -1, 1}, 1.0)"); + + } + + /* Quadratic */ + + { + double x0, x1; + + int n = gsl_poly_solve_quadratic (4.0, -20.0, 26.0, &x0, &x1); + + gsl_test (n != 0, "gsl_poly_solve_quadratic, no roots, (2x - 5)^2 = -1"); + } + + { + double x0, x1; + + int n = gsl_poly_solve_quadratic (4.0, -20.0, 25.0, &x0, &x1); + + gsl_test (n != 2, "gsl_poly_solve_quadratic, one root, (2x - 5)^2 = 0"); + gsl_test_rel (x0, 2.5, 1e-9, "x0, (2x - 5)^2 = 0"); + gsl_test_rel (x1, 2.5, 1e-9, "x1, (2x - 5)^2 = 0"); + gsl_test (x0 != x1, "x0 == x1, (2x - 5)^2 = 0"); + } + + { + double x0, x1; + + int n = gsl_poly_solve_quadratic (4.0, -20.0, 21.0, &x0, &x1); + + gsl_test (n != 2, "gsl_poly_solve_quadratic, two roots, (2x - 5)^2 = 4"); + gsl_test_rel (x0, 1.5, 1e-9, "x0, (2x - 5)^2 = 4"); + gsl_test_rel (x1, 3.5, 1e-9, "x1, (2x - 5)^2 = 4"); + } + + { + double x0, x1; + + int n = gsl_poly_solve_quadratic (4.0, 7.0, 0.0, &x0, &x1); + + gsl_test (n != 2, "gsl_poly_solve_quadratic, two roots, x(4x + 7) = 0"); + gsl_test_rel (x0, -1.75, 1e-9, "x0, x(4x + 7) = 0"); + gsl_test_rel (x1, 0.0, 1e-9, "x1, x(4x + 7) = 0"); + } + + { + double x0, x1; + + int n = gsl_poly_solve_quadratic (5.0, 0.0, -20.0, &x0, &x1); + + gsl_test (n != 2, + "gsl_poly_solve_quadratic, two roots b = 0, 5 x^2 = 20"); + gsl_test_rel (x0, -2.0, 1e-9, "x0, 5 x^2 = 20"); + gsl_test_rel (x1, 2.0, 1e-9, "x1, 5 x^2 = 20"); + } + + + { + double x0, x1; + + int n = gsl_poly_solve_quadratic (0.0, 3.0, -21.0, &x0, &x1); + + gsl_test (n != 1, + "gsl_poly_solve_quadratic, one root (linear) 3 x - 21 = 0"); + gsl_test_rel (x0, 7.0, 1e-9, "x0, 3x - 21 = 0"); + } + + + { + double x0, x1; + int n = gsl_poly_solve_quadratic (0.0, 0.0, 1.0, &x0, &x1); + + gsl_test (n != 0, + "gsl_poly_solve_quadratic, no roots 1 = 0"); + } + + + /* Cubic */ + + { + double x0, x1, x2; + + int n = gsl_poly_solve_cubic (0.0, 0.0, -27.0, &x0, &x1, &x2); + + gsl_test (n != 1, "gsl_poly_solve_cubic, one root, x^3 = 27"); + gsl_test_rel (x0, 3.0, 1e-9, "x0, x^3 = 27"); + } + + { + double x0, x1, x2; + + int n = gsl_poly_solve_cubic (-51.0, 867.0, -4913.0, &x0, &x1, &x2); + + gsl_test (n != 3, "gsl_poly_solve_cubic, three roots, (x-17)^3=0"); + gsl_test_rel (x0, 17.0, 1e-9, "x0, (x-17)^3=0"); + gsl_test_rel (x1, 17.0, 1e-9, "x1, (x-17)^3=0"); + gsl_test_rel (x2, 17.0, 1e-9, "x2, (x-17)^3=0"); + } + + { + double x0, x1, x2; + + int n = gsl_poly_solve_cubic (-57.0, 1071.0, -6647.0, &x0, &x1, &x2); + + gsl_test (n != 3, + "gsl_poly_solve_cubic, three roots, (x-17)(x-17)(x-23)=0"); + gsl_test_rel (x0, 17.0, 1e-9, "x0, (x-17)(x-17)(x-23)=0"); + gsl_test_rel (x1, 17.0, 1e-9, "x1, (x-17)(x-17)(x-23)=0"); + gsl_test_rel (x2, 23.0, 1e-9, "x2, (x-17)(x-17)(x-23)=0"); + } + + { + double x0, x1, x2; + + int n = gsl_poly_solve_cubic (-11.0, -493.0, +6647.0, &x0, &x1, &x2); + + gsl_test (n != 3, + "gsl_poly_solve_cubic, three roots, (x+23)(x-17)(x-17)=0"); + gsl_test_rel (x0, -23.0, 1e-9, "x0, (x+23)(x-17)(x-17)=0"); + gsl_test_rel (x1, 17.0, 1e-9, "x1, (x+23)(x-17)(x-17)=0"); + gsl_test_rel (x2, 17.0, 1e-9, "x2, (x+23)(x-17)(x-17)=0"); + } + + { + double x0, x1, x2; + + int n = gsl_poly_solve_cubic (-143.0, 5087.0, -50065.0, &x0, &x1, &x2); + + gsl_test (n != 3, + "gsl_poly_solve_cubic, three roots, (x-17)(x-31)(x-95)=0"); + gsl_test_rel (x0, 17.0, 1e-9, "x0, (x-17)(x-31)(x-95)=0"); + gsl_test_rel (x1, 31.0, 1e-9, "x1, (x-17)(x-31)(x-95)=0"); + gsl_test_rel (x2, 95.0, 1e-9, "x2, (x-17)(x-31)(x-95)=0"); + } + + { + double x0, x1, x2; + + int n = gsl_poly_solve_cubic (-109.0, 803.0, 50065.0, &x0, &x1, &x2); + + gsl_test (n != 3, + "gsl_poly_solve_cubic, three roots, (x+17)(x-31)(x-95)=0"); + gsl_test_rel (x0, -17.0, 1e-9, "x0, (x+17)(x-31)(x-95)=0"); + gsl_test_rel (x1, 31.0, 1e-9, "x1, (x+17)(x-31)(x-95)=0"); + gsl_test_rel (x2, 95.0, 1e-9, "x2, (x+17)(x-31)(x-95)=0"); + } + + /* Quadratic with complex roots */ + + { + gsl_complex z0, z1; + + int n = gsl_poly_complex_solve_quadratic (4.0, -20.0, 26.0, &z0, &z1); + + gsl_test (n != 2, + "gsl_poly_complex_solve_quadratic, 2 roots (2x - 5)^2 = -1"); + gsl_test_rel (GSL_REAL (z0), 2.5, 1e-9, "z0.real, (2x - 5)^2 = -1"); + gsl_test_rel (GSL_IMAG (z0), -0.5, 1e-9, "z0.imag, (2x - 5)^2 = -1"); + + gsl_test_rel (GSL_REAL (z1), 2.5, 1e-9, "z1.real, (2x - 5)^2 = -1"); + gsl_test_rel (GSL_IMAG (z1), 0.5, 1e-9, "z1.imag, (2x - 5)^2 = -1"); + } + + { + gsl_complex z0, z1; + + int n = gsl_poly_complex_solve_quadratic (4.0, -20.0, 25.0, &z0, &z1); + + gsl_test (n != 2, + "gsl_poly_complex_solve_quadratic, one root, (2x - 5)^2 = 0"); + gsl_test_rel (GSL_REAL (z0), 2.5, 1e-9, "z0.real, (2x - 5)^2 = 0"); + gsl_test_rel (GSL_IMAG (z0), 0.0, 1e-9, "z0.imag (2x - 5)^2 = 0"); + gsl_test_rel (GSL_REAL (z1), 2.5, 1e-9, "z1.real, (2x - 5)^2 = 0"); + gsl_test_rel (GSL_IMAG (z1), 0.0, 1e-9, "z1.imag (2x - 5)^2 = 0"); + gsl_test (GSL_REAL (z0) != GSL_REAL (z1), + "z0.real == z1.real, (2x - 5)^2 = 0"); + gsl_test (GSL_IMAG (z0) != GSL_IMAG (z1), + "z0.imag == z1.imag, (2x - 5)^2 = 0"); + } + + { + gsl_complex z0, z1; + + int n = gsl_poly_complex_solve_quadratic (4.0, -20.0, 21.0, &z0, &z1); + + gsl_test (n != 2, + "gsl_poly_complex_solve_quadratic, two roots, (2x - 5)^2 = 4"); + gsl_test_rel (GSL_REAL (z0), 1.5, 1e-9, "z0.real, (2x - 5)^2 = 4"); + gsl_test_rel (GSL_IMAG (z0), 0.0, 1e-9, "z0.imag, (2x - 5)^2 = 4"); + gsl_test_rel (GSL_REAL (z1), 3.5, 1e-9, "z1.real, (2x - 5)^2 = 4"); + gsl_test_rel (GSL_IMAG (z1), 0.0, 1e-9, "z1.imag, (2x - 5)^2 = 4"); + } + + { + gsl_complex z0, z1; + + int n = gsl_poly_complex_solve_quadratic (4.0, 7.0, 0.0, &z0, &z1); + + gsl_test (n != 2, + "gsl_poly_complex_solve_quadratic, two roots, x(4x + 7) = 0"); + gsl_test_rel (GSL_REAL (z0), -1.75, 1e-9, "z0.real, x(4x + 7) = 0"); + gsl_test_rel (GSL_IMAG (z0), 0.0, 1e-9, "z0.imag, x(4x + 7) = 0"); + gsl_test_rel (GSL_REAL (z1), 0.0, 1e-9, "z1.real, x(4x + 7) = 0"); + gsl_test_rel (GSL_IMAG (z1), 0.0, 1e-9, "z1.imag, x(4x + 7) = 0"); + } + + { + gsl_complex z0, z1; + + int n = gsl_poly_complex_solve_quadratic (5.0, 0.0, -20.0, &z0, &z1); + + gsl_test (n != 2, + "gsl_poly_complex_solve_quadratic, two roots b = 0, 5 x^2 = 20"); + gsl_test_rel (GSL_REAL (z0), -2.0, 1e-9, "z0.real, 5 x^2 = 20"); + gsl_test_rel (GSL_IMAG (z0), 0.0, 1e-9, "z0.imag, 5 x^2 = 20"); + gsl_test_rel (GSL_REAL (z1), 2.0, 1e-9, "z1.real, 5 x^2 = 20"); + gsl_test_rel (GSL_IMAG (z1), 0.0, 1e-9, "z1.imag, 5 x^2 = 20"); + } + + { + gsl_complex z0, z1; + + int n = gsl_poly_complex_solve_quadratic (5.0, 0.0, 20.0, &z0, &z1); + + gsl_test (n != 2, + "gsl_poly_complex_solve_quadratic, two roots b = 0, 5 x^2 = -20"); + gsl_test_rel (GSL_REAL (z0), 0.0, 1e-9, "z0.real, 5 x^2 = -20"); + gsl_test_rel (GSL_IMAG (z0), -2.0, 1e-9, "z0.imag, 5 x^2 = -20"); + gsl_test_rel (GSL_REAL (z1), 0.0, 1e-9, "z1.real, 5 x^2 = -20"); + gsl_test_rel (GSL_IMAG (z1), 2.0, 1e-9, "z1.imag, 5 x^2 = -20"); + } + + + { + gsl_complex z0, z1; + + int n = gsl_poly_complex_solve_quadratic (0.0, 3.0, -21.0, &z0, &z1); + + gsl_test (n != 1, + "gsl_poly_complex_solve_quadratic, one root (linear) 3 x - 21 = 0"); + + gsl_test_rel (GSL_REAL (z0), 7.0, 1e-9, "z0.real, 3x - 21 = 0"); + gsl_test_rel (GSL_IMAG (z0), 0.0, 1e-9, "z0.imag, 3x - 21 = 0"); + } + + + { + gsl_complex z0, z1; + + int n = gsl_poly_complex_solve_quadratic (0.0, 0.0, 1.0, &z0, &z1); + gsl_test (n != 0, + "gsl_poly_complex_solve_quadratic, no roots 1 = 0"); + } + + + + /* Cubic with complex roots */ + + { + gsl_complex z0, z1, z2; + + int n = gsl_poly_complex_solve_cubic (0.0, 0.0, -27.0, &z0, &z1, &z2); + + gsl_test (n != 3, "gsl_poly_complex_solve_cubic, three root, x^3 = 27"); + gsl_test_rel (GSL_REAL (z0), -1.5, 1e-9, "z0.real, x^3 = 27"); + gsl_test_rel (GSL_IMAG (z0), -1.5 * sqrt (3.0), 1e-9, + "z0.imag, x^3 = 27"); + gsl_test_rel (GSL_REAL (z1), -1.5, 1e-9, "z1.real, x^3 = 27"); + gsl_test_rel (GSL_IMAG (z1), 1.5 * sqrt (3.0), 1e-9, "z1.imag, x^3 = 27"); + gsl_test_rel (GSL_REAL (z2), 3.0, 1e-9, "z2.real, x^3 = 27"); + gsl_test_rel (GSL_IMAG (z2), 0.0, 1e-9, "z2.imag, x^3 = 27"); + } + + { + gsl_complex z0, z1, z2; + + int n = gsl_poly_complex_solve_cubic (-1.0, 1.0, 39.0, &z0, &z1, &z2); + + gsl_test (n != 3, + "gsl_poly_complex_solve_cubic, three root, (x+3)(x^2-4x+13) = 0"); + gsl_test_rel (GSL_REAL (z0), -3.0, 1e-9, "z0.real, (x+3)(x^2+1) = 0"); + gsl_test_rel (GSL_IMAG (z0), 0.0, 1e-9, "z0.imag, (x+3)(x^2+1) = 0"); + gsl_test_rel (GSL_REAL (z1), 2.0, 1e-9, "z1.real, (x+3)(x^2+1) = 0"); + gsl_test_rel (GSL_IMAG (z1), -3.0, 1e-9, "z1.imag, (x+3)(x^2+1) = 0"); + gsl_test_rel (GSL_REAL (z2), 2.0, 1e-9, "z2.real, (x+3)(x^2+1) = 0"); + gsl_test_rel (GSL_IMAG (z2), 3.0, 1e-9, "z2.imag, (x+3)(x^2+1) = 0"); + } + + { + gsl_complex z0, z1, z2; + + int n = + gsl_poly_complex_solve_cubic (-51.0, 867.0, -4913.0, &z0, &z1, &z2); + + gsl_test (n != 3, + "gsl_poly_complex_solve_cubic, three roots, (x-17)^3=0"); + gsl_test_rel (GSL_REAL (z0), 17.0, 1e-9, "z0.real, (x-17)^3=0"); + gsl_test_rel (GSL_IMAG (z0), 0.0, 1e-9, "z0.imag, (x-17)^3=0"); + gsl_test_rel (GSL_REAL (z1), 17.0, 1e-9, "z1.real, (x-17)^3=0"); + gsl_test_rel (GSL_IMAG (z1), 0.0, 1e-9, "z1.imag, (x-17)^3=0"); + gsl_test_rel (GSL_REAL (z2), 17.0, 1e-9, "z2.real, (x-17)^3=0"); + gsl_test_rel (GSL_IMAG (z2), 0.0, 1e-9, "z2.imag, (x-17)^3=0"); + } + + { + gsl_complex z0, z1, z2; + + int n = + gsl_poly_complex_solve_cubic (-57.0, 1071.0, -6647.0, &z0, &z1, &z2); + + gsl_test (n != 3, + "gsl_poly_complex_solve_cubic, three roots, (x-17)(x-17)(x-23)=0"); + gsl_test_rel (GSL_REAL (z0), 17.0, 1e-9, "z0.real, (x-17)(x-17)(x-23)=0"); + gsl_test_rel (GSL_IMAG (z0), 0.0, 1e-9, "z0.imag, (x-17)(x-17)(x-23)=0"); + gsl_test_rel (GSL_REAL (z1), 17.0, 1e-9, "z1.real, (x-17)(x-17)(x-23)=0"); + gsl_test_rel (GSL_IMAG (z1), 0.0, 1e-9, "z1.imag, (x-17)(x-17)(x-23)=0"); + gsl_test_rel (GSL_REAL (z2), 23.0, 1e-9, "z2.real, (x-17)(x-17)(x-23)=0"); + gsl_test_rel (GSL_IMAG (z2), 0.0, 1e-9, "z2.imag, (x-17)(x-17)(x-23)=0"); + } + + { + gsl_complex z0, z1, z2; + + int n = + gsl_poly_complex_solve_cubic (-11.0, -493.0, +6647.0, &z0, &z1, &z2); + + gsl_test (n != 3, + "gsl_poly_complex_solve_cubic, three roots, (x+23)(x-17)(x-17)=0"); + gsl_test_rel (GSL_REAL (z0), -23.0, 1e-9, + "z0.real, (x+23)(x-17)(x-17)=0"); + gsl_test_rel (GSL_IMAG (z0), 0.0, 1e-9, "z0.imag, (x+23)(x-17)(x-17)=0"); + gsl_test_rel (GSL_REAL (z1), 17.0, 1e-9, "z1.real, (x+23)(x-17)(x-17)=0"); + gsl_test_rel (GSL_IMAG (z1), 0.0, 1e-9, "z1.imag, (x+23)(x-17)(x-17)=0"); + gsl_test_rel (GSL_REAL (z2), 17.0, 1e-9, "z2.real, (x+23)(x-17)(x-17)=0"); + gsl_test_rel (GSL_IMAG (z2), 0.0, 1e-9, "z2.imag, (x+23)(x-17)(x-17)=0"); + } + + + { + gsl_complex z0, z1, z2; + + int n = + gsl_poly_complex_solve_cubic (-143.0, 5087.0, -50065.0, &z0, &z1, &z2); + + gsl_test (n != 3, + "gsl_poly_complex_solve_cubic, three roots, (x-17)(x-31)(x-95)=0"); + gsl_test_rel (GSL_REAL (z0), 17.0, 1e-9, "z0.real, (x-17)(x-31)(x-95)=0"); + gsl_test_rel (GSL_IMAG (z0), 0.0, 1e-9, "z0.imag, (x-17)(x-31)(x-95)=0"); + gsl_test_rel (GSL_REAL (z1), 31.0, 1e-9, "z1.real, (x-17)(x-31)(x-95)=0"); + gsl_test_rel (GSL_IMAG (z1), 0.0, 1e-9, "z1.imag, (x-17)(x-31)(x-95)=0"); + gsl_test_rel (GSL_REAL (z2), 95.0, 1e-9, "z2.real, (x-17)(x-31)(x-95)=0"); + gsl_test_rel (GSL_IMAG (z2), 0.0, 1e-9, "z2.imag, (x-17)(x-31)(x-95)=0"); + } + + + { + /* Wilkinson polynomial: y = (x-1)(x-2)(x-3)(x-4)(x-5) */ + + double a[6] = { -120, 274, -225, 85, -15, 1 }; + double z[6*2]; + + gsl_poly_complex_workspace *w = gsl_poly_complex_workspace_alloc (6); + + int status = gsl_poly_complex_solve (a, 6, w, z); + + gsl_poly_complex_workspace_free (w); + + gsl_test (status, + "gsl_poly_complex_solve, 5th-order Wilkinson polynomial"); + gsl_test_rel (z[0], 1.0, 1e-9, "z0.real, 5th-order polynomial"); + gsl_test_rel (z[1], 0.0, 1e-9, "z0.imag, 5th-order polynomial"); + gsl_test_rel (z[2], 2.0, 1e-9, "z1.real, 5th-order polynomial"); + gsl_test_rel (z[3], 0.0, 1e-9, "z1.imag, 5th-order polynomial"); + gsl_test_rel (z[4], 3.0, 1e-9, "z2.real, 5th-order polynomial"); + gsl_test_rel (z[5], 0.0, 1e-9, "z2.imag, 5th-order polynomial"); + gsl_test_rel (z[6], 4.0, 1e-9, "z3.real, 5th-order polynomial"); + gsl_test_rel (z[7], 0.0, 1e-9, "z3.imag, 5th-order polynomial"); + gsl_test_rel (z[8], 5.0, 1e-9, "z4.real, 5th-order polynomial"); + gsl_test_rel (z[9], 0.0, 1e-9, "z4.imag, 5th-order polynomial"); + } + + { + /* : 8-th order polynomial y = x^8 + x^4 + 1 */ + + double a[9] = { 1, 0, 0, 0, 1, 0, 0, 0, 1 }; + double z[8*2]; + + double C = 0.5; + double S = sqrt (3.0) / 2.0; + + gsl_poly_complex_workspace *w = gsl_poly_complex_workspace_alloc (9); + + int status = gsl_poly_complex_solve (a, 9, w, z); + + gsl_poly_complex_workspace_free (w); + + gsl_test (status, "gsl_poly_complex_solve, 8th-order polynomial"); + + gsl_test_rel (z[0], -S, 1e-9, "z0.real, 8th-order polynomial"); + gsl_test_rel (z[1], C, 1e-9, "z0.imag, 8th-order polynomial"); + gsl_test_rel (z[2], -S, 1e-9, "z1.real, 8th-order polynomial"); + gsl_test_rel (z[3], -C, 1e-9, "z1.imag, 8th-order polynomial"); + gsl_test_rel (z[4], -C, 1e-9, "z2.real, 8th-order polynomial"); + gsl_test_rel (z[5], S, 1e-9, "z2.imag, 8th-order polynomial"); + gsl_test_rel (z[6], -C, 1e-9, "z3.real, 8th-order polynomial"); + gsl_test_rel (z[7], -S, 1e-9, "z3.imag, 8th-order polynomial"); + gsl_test_rel (z[8], C, 1e-9, "z4.real, 8th-order polynomial"); + gsl_test_rel (z[9], S, 1e-9, "z4.imag, 8th-order polynomial"); + gsl_test_rel (z[10], C, 1e-9, "z5.real, 8th-order polynomial"); + gsl_test_rel (z[11], -S, 1e-9, "z5.imag, 8th-order polynomial"); + gsl_test_rel (z[12], S, 1e-9, "z6.real, 8th-order polynomial"); + gsl_test_rel (z[13], C, 1e-9, "z6.imag, 8th-order polynomial"); + gsl_test_rel (z[14], S, 1e-9, "z7.real, 8th-order polynomial"); + gsl_test_rel (z[15], -C, 1e-9, "z7.imag, 8th-order polynomial"); + + } + + { + int i; + + double xa[7] = {0.16, 0.97, 1.94, 2.74, 3.58, 3.73, 4.70 }; + double ya[7] = {0.73, 1.11, 1.49, 1.84, 2.30, 2.41, 3.07 }; + + double dd_expected[7] = { 7.30000000000000e-01, + 4.69135802469136e-01, + -4.34737219941284e-02, + 2.68681098870099e-02, + -3.22937056934996e-03, + 6.12763259971375e-03, + -6.45402453527083e-03 }; + + double dd[7], coeff[7], work[7]; + + gsl_poly_dd_init (dd, xa, ya, 7); + + for (i = 0; i < 7; i++) + { + gsl_test_rel (dd[i], dd_expected[i], 1e-10, "divided difference dd[%d]", i); + } + + for (i = 0; i < 7; i++) + { + double y = gsl_poly_dd_eval(dd, xa, 7, xa[i]); + gsl_test_rel (y, ya[i], 1e-10, "divided difference y[%d]", i); + } + + gsl_poly_dd_taylor (coeff, 1.5, dd, xa, 7, work); + + for (i = 0; i < 7; i++) + { + double y = gsl_poly_eval(coeff, 7, xa[i] - 1.5); + gsl_test_rel (y, ya[i], 1e-10, "taylor expansion about 1.5 y[%d]", i); + } + } + + + /* now summarize the results */ + + exit (gsl_test_summary ()); +} |