www.pudn.com > libsvm-weight-2.81.zip > svmc.i
%module svmc
%{
#include "svm.h"
%}
enum { C_SVC, NU_SVC, ONE_CLASS, EPSILON_SVR, NU_SVR }; /* svm_type */
enum { LINEAR, POLY, RBF, SIGMOID }; /* kernel_type */
%pragma make_default
struct svm_parameter
{
int svm_type;
int kernel_type;
double degree; // for poly
double gamma; // for poly/rbf/sigmoid
double coef0; // for poly/sigmoid
// these are for training only
double cache_size; // in MB
double eps; // stopping criteria
double C; // for C_SVC, EPSILON_SVR and NU_SVR
int nr_weight; // for C_SVC
int *weight_label; // for C_SVC
double* weight; // for C_SVC
double nu; // for NU_SVC, ONE_CLASS, and NU_SVR
double p; // for EPSILON_SVR
int shrinking; // use the shrinking heuristics
int probability;
};
struct svm_problem
{
int l;
double *y;
struct svm_node **x;
double *W;
};
%pragma no_default
struct svm_model *svm_train(const struct svm_problem *prob, const struct svm_parameter *param);
void svm_cross_validation(const struct svm_problem *prob, const struct svm_parameter *param, int nr_fold, double *target);
int svm_save_model(const char *model_file_name, const struct svm_model *model);
struct svm_model *svm_load_model(const char *model_file_name);
int svm_get_svm_type(const struct svm_model *model);
int svm_get_nr_class(const struct svm_model *model);
void svm_get_labels(const struct svm_model *model, int *label);
double svm_get_svr_probability(const struct svm_model *model);
void svm_predict_values(const struct svm_model *model, const struct svm_node *x, double* decvalue);
double svm_predict(const struct svm_model *model, const struct svm_node *x);
double svm_predict_probability(const struct svm_model *model, const struct svm_node *x, double* prob_estimates);
void svm_destroy_model(struct svm_model *model);
/* Not necessary: the weight vector is (de)allocated at python-part
void svm_destroy_param(struct svm_parameter *param); */
const char *svm_check_parameter(const struct svm_problem *prob, const struct svm_parameter *param);
int svm_check_probability_model(const struct svm_model *model);
%include carrays.i
%array_functions(int,int)
%array_functions(double,double)
%inline %{
struct svm_node *svm_node_array(int size)
{
return (struct svm_node *)malloc(sizeof(struct svm_node)*size);
}
void svm_node_array_set(struct svm_node *array, int i, int index, double value)
{
array[i].index = index;
array[i].value = value;
}
void svm_node_array_destroy(struct svm_node *array)
{
free(array);
}
struct svm_node **svm_node_matrix(int size)
{
return (struct svm_node **)malloc(sizeof(struct svm_node *)*size);
}
void svm_node_matrix_set(struct svm_node **matrix, int i, struct svm_node* array)
{
matrix[i] = array;
}
void svm_node_matrix_destroy(struct svm_node **matrix)
{
free(matrix);
}
%}