blame | history | patch | commit | commitdiff | ignore whitespace
Joseph Redmon
2014-02-19 2c6d4ba1d5cffd26c5c9527175d565a81226e18d 
 src/tests.c


@@ -366,20 +366,21 @@




void train_VOC()


{


    network net = parse_network_cfg("cfg/voc_backup_ramp_80.cfg");


    network net = parse_network_cfg("cfg/voc_start.cfg");


    srand(2222222);


    int i = 0;


    int i = 20;


    char *labels[] = {"aeroplane","bicycle","bird","boat","bottle","bus","car","cat","chair","cow","diningtable","dog","horse","motorbike","person","pottedplant","sheep","sofa","train","tvmonitor"};


    float lr = .00001;


    float momentum = .9;


    float decay = 0.01;


    while(i++ < 1000 || 1){


        visualize_network(net);


        cvWaitKey(100);


        data train = load_data_image_pathfile_random("images/VOC2012/train_paths.txt", 1000, labels, 20, 300, 400);


        data train = load_data_image_pathfile_random("images/VOC2012/val_paths.txt", 1000, labels, 20, 300, 400);




        image im = float_to_image(300, 400, 3,train.X.vals[0]);


        show_image(im, "input");


        visualize_network(net);


        cvWaitKey(100);




        normalize_data_rows(train);


        clock_t start = clock(), end;


        float loss = train_network_sgd(net, train, 1000, lr, momentum, decay);


@@ -388,14 +389,175 @@


        free_data(train);


        if(i%10==0){


            char buff[256];


            sprintf(buff, "cfg/voc_backup_ramp_%d.cfg", i);


            sprintf(buff, "cfg/voc_clean_ramp_%d.cfg", i);


            save_network(net, buff);


        }


        //lr *= .99;


    }


}




int main()


int voc_size(int x)


{


    x = x-1+3;


    x = x-1+3;


    x = (x-1)*2+1;


    x = x-1+5;


    x = (x-1)*2+1;


    x = (x-1)*4+11;


    return x;


}




image features_output_size(network net, IplImage *src, int outh, int outw)


{


    int h = voc_size(outh);


    int w = voc_size(outw);




    IplImage *sized = cvCreateImage(cvSize(w,h), src->depth, src->nChannels);


    cvResize(src, sized, CV_INTER_LINEAR);


    image im = ipl_to_image(sized);


    reset_network_size(net, im.h, im.w, im.c);


    forward_network(net, im.data);


    image out = get_network_image_layer(net, 5);


    //printf("%d %d\n%d %d\n", outh, out.h, outw, out.w);


    free_image(im);


    cvReleaseImage(&sized);


    return copy_image(out);


}




void features_VOC(int part, int total)


{


    int i,j, count = 0;


    network net = parse_network_cfg("cfg/voc_features.cfg");


    char *path_file = "images/VOC2012/all_paths.txt";


    char *out_dir = "voc_features/";


    list *paths = get_paths(path_file);


    node *n = paths->front;


    int size = paths->size;


    for(count = 0; count < part*size/total; ++count) n = n->next;


    while(n && count++ < (part+1)*size/total){


        char *path = (char *)n->val;


        char buff[1024];


        sprintf(buff, "%s%s.txt",out_dir, path);


        printf("%s\n", path);


        FILE *fp = fopen(buff, "w");


        if(fp == 0) file_error(buff);




        IplImage* src = 0;


        if( (src = cvLoadImage(path,-1)) == 0 )


        {


            printf("Cannot load file image %s\n", path);


            exit(0);


        }


        int w = src->width;


        int h = src->height;


        int sbin = 8;


        int interval = 10;


        double scale = pow(2., 1./interval);


        int m = (w<h)?w:h;


        int max_scale = 1+floor((double)log((double)m/(5.*sbin))/log(scale));


        image *ims = calloc(max_scale+interval, sizeof(image));




        for(i = 0; i < interval; ++i){


            double factor = 1./pow(scale, i);


            double ih =  round(h*factor);


            double iw =  round(w*factor);


            int ex_h = round(ih/4.) - 2;


            int ex_w = round(iw/4.) - 2;


            ims[i] = features_output_size(net, src, ex_h, ex_w);




            ih =  round(h*factor);


            iw =  round(w*factor);


            ex_h = round(ih/8.) - 2;


            ex_w = round(iw/8.) - 2;


            ims[i+interval] = features_output_size(net, src, ex_h, ex_w);


            for(j = i+interval; j < max_scale; j += interval){


                factor /= 2.;


                ih =  round(h*factor);


                iw =  round(w*factor);


                ex_h = round(ih/8.) - 2;


                ex_w = round(iw/8.) - 2;


                ims[j+interval] = features_output_size(net, src, ex_h, ex_w);


            }


        }


        for(i = 0; i < max_scale+interval; ++i){


            image out = ims[i];


            //printf("%d, %d\n", out.h, out.w);


            fprintf(fp, "%d, %d, %d\n",out.c, out.h, out.w);


            for(j = 0; j < out.c*out.h*out.w; ++j){


                if(j != 0)fprintf(fp, ",");


                fprintf(fp, "%g", out.data[j]);


            }


            fprintf(fp, "\n");


            free_image(out);


        }


        free(ims);


        fclose(fp);


        cvReleaseImage(&src);


        n = n->next;


    }


}




void features_VOC_image(char *image_file, char *image_dir, char *out_dir)


{


    int i,j;


    network net = parse_network_cfg("cfg/voc_features.cfg");


    char image_path[1024];


    sprintf(image_path, "%s%s",image_dir, image_file);


    char out_path[1024];


    sprintf(out_path, "%s%s.txt",out_dir, image_file);


    printf("%s\n", image_file);


    FILE *fp = fopen(out_path, "w");


    if(fp == 0) file_error(out_path);




    IplImage* src = 0;


    if( (src = cvLoadImage(image_path,-1)) == 0 ) file_error(image_path);


    int w = src->width;


    int h = src->height;


    int sbin = 8;


    int interval = 10;


    double scale = pow(2., 1./interval);


    int m = (w<h)?w:h;


    int max_scale = 1+floor((double)log((double)m/(5.*sbin))/log(scale));


    image *ims = calloc(max_scale+interval, sizeof(image));




    for(i = 0; i < interval; ++i){


        double factor = 1./pow(scale, i);


        double ih =  round(h*factor);


        double iw =  round(w*factor);


        int ex_h = round(ih/4.) - 2;


        int ex_w = round(iw/4.) - 2;


        ims[i] = features_output_size(net, src, ex_h, ex_w);




        ih =  round(h*factor);


        iw =  round(w*factor);


        ex_h = round(ih/8.) - 2;


        ex_w = round(iw/8.) - 2;


        ims[i+interval] = features_output_size(net, src, ex_h, ex_w);


        for(j = i+interval; j < max_scale; j += interval){


            factor /= 2.;


            ih =  round(h*factor);


            iw =  round(w*factor);


            ex_h = round(ih/8.) - 2;


            ex_w = round(iw/8.) - 2;


            ims[j+interval] = features_output_size(net, src, ex_h, ex_w);


        }


    }


    for(i = 0; i < max_scale+interval; ++i){


        image out = ims[i];


        fprintf(fp, "%d, %d, %d\n",out.c, out.h, out.w);


        for(j = 0; j < out.c*out.h*out.w; ++j){


            if(j != 0)fprintf(fp, ",");


            fprintf(fp, "%g", out.data[j]);


        }


        fprintf(fp, "\n");


        free_image(out);


    }


    free(ims);


    fclose(fp);


    cvReleaseImage(&src);


}




int main(int argc, char *argv[])


{


    //feenableexcept(FE_DIVBYZERO | FE_INVALID | FE_OVERFLOW);




@@ -406,7 +568,9 @@


    //test_ensemble();


    //test_nist();


    //test_full();


    train_VOC();


    //train_VOC();


    features_VOC_image(argv[1], argv[2], argv[3]);


    printf("Success!\n");


    //test_random_preprocess();


    //test_random_classify();


    //test_parser();