#include #include #include #include #include #include "linear.h" struct feature_node *x; int max_nr_attr = 64; struct model* model_; int flag_predict_probability=0; void exit_input_error(int line_num) { fprintf(stderr,"Wrong input format at line %d\n", line_num); exit(1); } static char *line = NULL; static int max_line_len; static char* readline(FILE *input) { int len; if(fgets(line,max_line_len,input) == NULL) return NULL; while(strrchr(line,'\n') == NULL) { max_line_len *= 2; line = (char *) realloc(line,max_line_len); len = (int) strlen(line); if(fgets(line+len,max_line_len-len,input) == NULL) break; } return line; } void do_predict(FILE *input, FILE *output, struct model* model_) { int correct = 0; int total = 0; int nr_class=get_nr_class(model_); double *prob_estimates=NULL; int j, n; int nr_feature=get_nr_feature(model_); if(model_->bias>=0) n=nr_feature+1; else n=nr_feature; if(flag_predict_probability) { int *labels; if(!check_probability_model(model_)) { fprintf(stderr, "probability output is only supported for logistic regression\n"); exit(1); } labels=(int *) malloc(nr_class*sizeof(int)); get_labels(model_,labels); prob_estimates = (double *) malloc(nr_class*sizeof(double)); fprintf(output,"labels"); for(j=0;j=max_nr_attr-2) // need one more for index = -1 { max_nr_attr *= 2; x = (struct feature_node *) realloc(x,max_nr_attr*sizeof(struct feature_node)); } idx = strtok(NULL,":"); val = strtok(NULL," \t"); if(val == NULL) break; errno = 0; x[i].index = (int) strtol(idx,&endptr,10); if(endptr == idx || errno != 0 || *endptr != '\0' || x[i].index <= inst_max_index) exit_input_error(total+1); else inst_max_index = x[i].index; errno = 0; x[i].value = strtod(val,&endptr); if(endptr == val || errno != 0 || (*endptr != '\0' && !isspace(*endptr))) exit_input_error(total+1); // feature indices larger than those in training are not used if(x[i].index <= nr_feature) ++i; } if(model_->bias>=0) { x[i].index = n; x[i].value = model_->bias; i++; } x[i].index = -1; if(flag_predict_probability) { int j; predict_label = predict_probability(model_,x,prob_estimates); fprintf(output,"%d",predict_label); for(j=0;jnr_class;j++) fprintf(output," %g",prob_estimates[j]); fprintf(output,"\n"); } else { predict_label = predict(model_,x); fprintf(output,"%d\n",predict_label); } if(predict_label == target_label) ++correct; ++total; } printf("Accuracy = %g%% (%d/%d)\n",(double) correct/total*100,correct,total); if(flag_predict_probability) free(prob_estimates); } void exit_with_help() { printf( "Usage: predict [options] test_file model_file output_file\n" "options:\n" "-b probability_estimates: whether to output probability estimates, 0 or 1 (default 0)\n" ); exit(1); } int main(int argc, char **argv) { FILE *input, *output; int i; // parse options for(i=1;i=argc) exit_with_help(); input = fopen(argv[i],"r"); if(input == NULL) { fprintf(stderr,"can't open input file %s\n",argv[i]); exit(1); } output = fopen(argv[i+2],"w"); if(output == NULL) { fprintf(stderr,"can't open output file %s\n",argv[i+2]); exit(1); } if((model_=load_model(argv[i+1]))==0) { fprintf(stderr,"can't open model file %s\n",argv[i+1]); exit(1); } x = (struct feature_node *) malloc(max_nr_attr*sizeof(struct feature_node)); do_predict(input, output, model_); free_and_destroy_model(&model_); free(line); free(x); fclose(input); fclose(output); return 0; }