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Diffstat (limited to 'src/oracles.c')
| -rw-r--r-- | src/oracles.c | 141 |
1 files changed, 141 insertions, 0 deletions
diff --git a/src/oracles.c b/src/oracles.c new file mode 100644 index 0000000..80f401f --- /dev/null +++ b/src/oracles.c @@ -0,0 +1,141 @@ +#include <math.h> +#include <gsl/gsl_math.h> +#include <gsl/gsl_randist.h> +#include "oracles.h" +#include "utils.h" + +double bernoulli_extent_generator +(const gsl_rng* r, double p, double r0, double r1) +{ + return gsl_ran_bernoulli(r, p) ? r1 : r0; +} + +double bernoulli_true_volume (double p, double r0, double r1, unsigned int dimension) +{ + return volume_of_ball(dimension) + * (p * gsl_pow_uint(r1, dimension) + + (1 - p) * gsl_pow_uint(r0, dimension)); +} + +double uniform_extent_generator (const gsl_rng* r, double a, double b) +{ + return gsl_ran_flat(r, a, b); +} + +// TODO: Verify the accuracy of this function for non-trivial a, b +double uniform_true_volume (double a, double b, unsigned int dimension) +{ + return exp(ln_volume_of_ball(dimension) + dimension*log(b) - log(dimension + 1)) + - exp(ln_volume_of_ball(dimension) + dimension*log(a) - log(dimension + 1)); +} + +double beta_extent_generator +(const gsl_rng* r, double alpha, double beta) +{ + return gsl_ran_beta(r, alpha, beta); +} + +double beta_true_volume (double alpha, double beta, unsigned int dimension) +{ + double vol = volume_of_ball(dimension); + for (unsigned int r=0; r<dimension; r++) + vol *= (alpha + r) / (alpha + beta + r); + return vol; +} + +double symmetric_spiral_extent_oracle (const gsl_vector* x) +{ + double angle = atan2(gsl_vector_get(x, 1), gsl_vector_get(x, 0)); + return fabs(angle); +} + +double right_triangle_extent_oracle (const gsl_vector* x, double base, double height) +{ + double max_angle = atan(height / base); + double angle = atan2(gsl_vector_get(x, 1), gsl_vector_get(x, 0)); + return (angle > 0) && (angle < max_angle) ? base / cos(angle) : 0; +} + +double right_triangle_true_volume (double base, double height) +{ + return 0.5 * base * height; +} + +double sphere_extent_oracle (const gsl_vector* x, double radius) +{ + return radius; +} + +double sphere_maximum_extent (double radius) +{ + return radius; +} + +double plane_extent_oracle (const gsl_vector* x, double displacement) +{ + return displacement / fabs(gsl_vector_get(x, 0)); +} + +double infinity_norm (const gsl_vector* x) +{ + double max = fabs(gsl_vector_get(x, 0)); + for (int i=1; i<x->size; i++) + max = GSL_MAX(max, fabs(gsl_vector_get(x, i))); + return max; +} + +double cube_extent_oracle (const gsl_vector* x, double edge) +{ + return edge / 2 / infinity_norm(x); +} + +double cube_extent_oracle_with_center +(const gsl_vector* x, const gsl_vector* center, double edge) +{ + double min = (0.5*edge - GSL_SIGN(gsl_vector_get(x, 0))*gsl_vector_get(center, 0)) + / fabs(gsl_vector_get(x, 0)); + for (int i=1; i<center->size; i++) + min = GSL_MIN(min, (0.5*edge - GSL_SIGN(gsl_vector_get(x, i))*gsl_vector_get(center, i)) + / fabs(gsl_vector_get(x, i))); + return min; +} + +double cube_true_volume (double edge, unsigned int dimension) +{ + return gsl_pow_uint(edge, dimension); +} + +double cube_maximum_extent (double edge, unsigned int dimension) +{ + return edge * sqrt(dimension) / 2; +} + +double ellipsoid_extent_oracle (const gsl_vector* x, const gsl_vector* axes) +{ + double k = 0; + for (int i=0; i<axes->size; i++) + k += gsl_pow_2(gsl_vector_get(x, i) / gsl_vector_get(axes, i)); + return 1/sqrt(k); +} + +double ellipsoid_true_volume (const gsl_vector* axes) +{ + unsigned int dimension = axes->size; + double vol = volume_of_ball(dimension); + for (int i=0; i<dimension; i++) + vol *= gsl_vector_get(axes, i); + return vol; +} + +double spheroid_extent_oracle (const gsl_vector* x, double eccentricity) +{ + unsigned int dimension = x->size; + gsl_vector_const_view xsub = gsl_vector_const_subvector(x, 1, dimension - 1); + return 1/sqrt(gsl_pow_2(gsl_blas_dnrm2(&xsub.vector)) + + gsl_pow_2(gsl_vector_get(x, 0) / eccentricity)); +} + +double spheroid_true_volume (double eccentricity, unsigned int dimension) +{ + return volume_of_ball(dimension) * eccentricity; +} |