diff options
| author | Elizabeth Alexander Hunt <me@liz.coffee> | 2026-07-02 11:55:17 -0700 |
|---|---|---|
| committer | Elizabeth Alexander Hunt <me@liz.coffee> | 2026-07-02 11:55:17 -0700 |
| commit | 6bf4b90c90f15f4ab60833bddf5b5756d1a6b1f6 (patch) | |
| tree | ed97e39ec77c5231ffd2c394493e68d00ddac5a4 /Homework/math4610/src/roots.c | |
| download | misc-undergrad-main.tar.gz misc-undergrad-main.zip | |
Diffstat (limited to 'Homework/math4610/src/roots.c')
| -rw-r--r-- | Homework/math4610/src/roots.c | 127 |
1 files changed, 127 insertions, 0 deletions
diff --git a/Homework/math4610/src/roots.c b/Homework/math4610/src/roots.c new file mode 100644 index 0000000..d6b22af --- /dev/null +++ b/Homework/math4610/src/roots.c @@ -0,0 +1,127 @@ +#include "lizfcm.h" +#include <assert.h> +#include <math.h> + +// f is well defined at start_x + delta*n for all n on the integer range [0, +// max_iterations] +Array_double *find_ivt_range(double (*f)(double), double start_x, double delta, + size_t max_iterations) { + double a = start_x; + + while (f(a) * f(a + delta) >= 0 && max_iterations > 0) { + max_iterations--; + a += delta; + } + + double end = a + delta; + double begin = a - delta; + + if (max_iterations == 0 && f(begin) * f(end) >= 0) + return NULL; + return InitArray(double, {begin, end}); +} + +// f is continuous on [a, b] +Array_double *bisect_find_root(double (*f)(double), double a, double b, + double tolerance, size_t max_iterations) { + assert(a <= b); + // guarantee there's a root somewhere between a and b by IVT + assert(f(a) * f(b) < 0); + + double c = (1.0 / 2) * (a + b); + if (b - a < tolerance || max_iterations == 0) + return InitArray(double, {a, b, c}); + + if (f(a) * f(c) < 0) + return bisect_find_root(f, a, c, tolerance, max_iterations - 1); + return bisect_find_root(f, c, b, tolerance, max_iterations - 1); +} + +double bisect_find_root_with_error_assumption(double (*f)(double), double a, + double b, double tolerance) { + assert(a <= b); + + uint64_t max_iterations = + (uint64_t)ceil((log(tolerance) - log(b - a)) / log(1 / 2.0)); + + Array_double *a_b_root = bisect_find_root(f, a, b, tolerance, max_iterations); + double root = a_b_root->data[2]; + free_vector(a_b_root); + + return root; +} + +double fixed_point_iteration_method(double (*f)(double), double (*g)(double), + double x_0, double tolerance, + size_t max_iterations) { + if (max_iterations <= 0) + return x_0; + + double root = g(x_0); + if (tolerance >= fabs(f(root))) + return root; + + return fixed_point_iteration_method(f, g, root, tolerance, + max_iterations - 1); +} + +double fixed_point_newton_method(double (*f)(double), double (*fprime)(double), + double x_0, double tolerance, + size_t max_iterations) { + if (max_iterations <= 0) + return x_0; + + double root = x_0 - f(x_0) / fprime(x_0); + if (tolerance >= fabs(f(root))) + return root; + + return fixed_point_newton_method(f, fprime, root, tolerance, + max_iterations - 1); +} + +double fixed_point_secant_method(double (*f)(double), double x_0, double x_1, + double tolerance, size_t max_iterations) { + if (max_iterations == 0) + return x_1; + + double root = x_1 - f(x_1) * ((x_1 - x_0) / (f(x_1) - f(x_0))); + + if (tolerance >= fabs(f(root))) + return root; + + return fixed_point_secant_method(f, x_1, root, tolerance, max_iterations - 1); +} + +double fixed_point_secant_bisection_method(double (*f)(double), double x_0, + double x_1, double tolerance, + size_t max_iterations) { + double begin = x_0; + double end = x_1; + double root = x_0; + + while (tolerance < fabs(f(root)) && max_iterations > 0) { + max_iterations--; + + double secant_root = fixed_point_secant_method(f, begin, end, tolerance, 1); + + if (secant_root < begin || secant_root > end) { + Array_double *range_root = bisect_find_root(f, begin, end, tolerance, 1); + + begin = range_root->data[0]; + end = range_root->data[1]; + root = range_root->data[2]; + + free_vector(range_root); + continue; + } + + root = secant_root; + + if (f(root) * f(begin) < 0) + end = secant_root; // the root exists in [begin, secant_root] + else + begin = secant_root; + } + + return root; +} |
