예제 #1
0
파일: main.cpp 프로젝트: FaceAR/dlib
int tile_dataset(const command_line_parser& parser)
{
    if (parser.number_of_arguments() != 1)
    {
        cerr << "The --tile option requires you to give one XML file on the command line." << endl;
        return EXIT_FAILURE;
    }

    string out_image = parser.option("tile").argument();
    string ext = right_substr(out_image,".");
    if (ext != "png" && ext != "jpg")
    {
        cerr << "The output image file must have either .png or .jpg extension." << endl;
        return EXIT_FAILURE;
    }

    const unsigned long chip_size = get_option(parser, "size", 8000);

    dlib::image_dataset_metadata::dataset data;
    load_image_dataset_metadata(data, parser[0]);
    locally_change_current_dir chdir(get_parent_directory(file(parser[0])));
    dlib::array<array2d<rgb_pixel> > images;
    console_progress_indicator pbar(data.images.size());
    for (unsigned long i = 0; i < data.images.size(); ++i)
    {
        // don't even bother loading images that don't have objects.
        if (data.images[i].boxes.size() == 0)
            continue;

        pbar.print_status(i);
        array2d<rgb_pixel> img;
        load_image(img, data.images[i].filename);

        // figure out what chips we want to take from this image
        std::vector<chip_details> dets;
        for (unsigned long j = 0; j < data.images[i].boxes.size(); ++j)
        {
            if (data.images[i].boxes[j].ignore)
                continue;

            rectangle rect = data.images[i].boxes[j].rect;
            dets.push_back(chip_details(rect, chip_size));
        }
        // Now grab all those chips at once.
        dlib::array<array2d<rgb_pixel> > chips;
        extract_image_chips(img, dets, chips);
        // and put the chips into the output.
        for (unsigned long j = 0; j < chips.size(); ++j)
            images.push_back(chips[j]);
    }

    chdir.revert();

    if (ext == "png")
        save_png(tile_images(images), out_image);
    else
        save_jpeg(tile_images(images), out_image);

    return EXIT_SUCCESS;
}
예제 #2
0
파일: main.cpp 프로젝트: 20337112/dlib
int make_train_test_splits (
    const command_line_parser& parser
)
{
    if (parser.number_of_arguments() != 1)
    {
        cerr << "The --split-train-test option requires you to give one XML file on the command line." << endl;
        return EXIT_FAILURE;
    }

    const double train_frac = get_option(parser, "split-train-test", 0.5);

    dlib::image_dataset_metadata::dataset data, data_train, data_test;
    load_image_dataset_metadata(data, parser[0]);

    data_train.name = data.name;
    data_train.comment = data.comment;
    data_test.name = data.name;
    data_test.comment = data.comment;

    const unsigned long num_train_images = static_cast<unsigned long>(std::round(train_frac*data.images.size()));

    for (unsigned long i = 0; i < data.images.size(); ++i)
    {
        if (i < num_train_images)
            data_train.images.push_back(data.images[i]);
        else
            data_test.images.push_back(data.images[i]);
    }

    save_image_dataset_metadata(data_train, left_substr(parser[0],".") + "_train.xml");
    save_image_dataset_metadata(data_test, left_substr(parser[0],".") + "_test.xml");

    return EXIT_SUCCESS;
}
예제 #3
0
void convert_idl(
    const command_line_parser& parser
)
{
    cout << "Convert from IDL annotation format..." << endl;

    dlib::image_dataset_metadata::dataset dataset;

    for (unsigned long i = 0; i < parser.number_of_arguments(); ++i)
    {
        parse_annotation_file(parser[i], dataset);
    }

    const std::string filename = parser.option("c").argument();
    save_image_dataset_metadata(dataset, filename);
}
예제 #4
0
파일: main.cpp 프로젝트: 20337112/dlib
int split_dataset (
    const command_line_parser& parser
)
{
    if (parser.number_of_arguments() != 1)
    {
        cerr << "The --split option requires you to give one XML file on the command line." << endl;
        return EXIT_FAILURE;
    }

    const std::string label = parser.option("split").argument();

    dlib::image_dataset_metadata::dataset data, data_with, data_without;
    load_image_dataset_metadata(data, parser[0]);

    data_with.name = data.name;
    data_with.comment = data.comment;
    data_without.name = data.name;
    data_without.comment = data.comment;

    for (unsigned long i = 0; i < data.images.size(); ++i)
    {
        auto&& temp = data.images[i];

        bool has_the_label = false;
        // check for the label we are looking for
        for (unsigned long j = 0; j < temp.boxes.size(); ++j)
        {
            if (temp.boxes[j].label == label)
            {
                has_the_label = true;
                break;
            }
        }

        if (has_the_label)
            data_with.images.push_back(temp);
        else
            data_without.images.push_back(temp);
    }


    save_image_dataset_metadata(data_with, left_substr(parser[0],".") + "_with_"+label + ".xml");
    save_image_dataset_metadata(data_without, left_substr(parser[0],".") + "_without_"+label + ".xml");

    return EXIT_SUCCESS;
}
예제 #5
0
void create_new_dataset (
    const command_line_parser& parser
)
{
    using namespace dlib::image_dataset_metadata;

    const std::string filename = parser.option("c").argument();
    // make sure the file exists so we can use the get_parent_directory() command to
    // figure out it's parent directory.
    make_empty_file(filename);
    const std::string parent_dir = get_parent_directory(file(filename));

    unsigned long depth = 0;
    if (parser.option("r"))
        depth = 30;

    dataset meta;
    meta.name = "imglab dataset";
    meta.comment = "Created by imglab tool.";
    for (unsigned long i = 0; i < parser.number_of_arguments(); ++i)
    {
        try
        {
            const string temp = strip_path(file(parser[i]), parent_dir);
            meta.images.push_back(image(temp));
        }
        catch (dlib::file::file_not_found&)
        {
            // then parser[i] should be a directory

            std::vector<file> files = get_files_in_directory_tree(parser[i],
                                      match_endings(".png .PNG .jpeg .JPEG .jpg .JPG .bmp .BMP .dng .DNG"),
                                      depth);
            sort(files.begin(), files.end());

            for (unsigned long j = 0; j < files.size(); ++j)
            {
                meta.images.push_back(image(strip_path(files[j], parent_dir)));
            }
        }
    }

    save_image_dataset_metadata(meta, filename);
}
void convert_pascal_xml(
    const command_line_parser& parser
)
{
    cout << "Convert from PASCAL XML annotation format..." << endl;

    dlib::image_dataset_metadata::dataset dataset;

    std::string name;
    dlib::image_dataset_metadata::image img;

    const std::string filename = parser.option("c").argument();
    // make sure the file exists so we can use the get_parent_directory() command to
    // figure out it's parent directory.
    make_empty_file(filename);
    const std::string parent_dir = get_parent_directory(file(filename)).full_name();

    for (unsigned long i = 0; i < parser.number_of_arguments(); ++i)
    {
        try
        {
            parse_annotation_file(parser[i], img, name);
            const string root = get_parent_directory(get_parent_directory(file(parser[i]))).full_name();
            const string img_path = root + directory::get_separator() + "JPEGImages" + directory::get_separator();

            dataset.name = name;
            img.filename = strip_path(img_path + img.filename,  parent_dir);
            dataset.images.push_back(img);

        }
        catch (exception& e)
        {
            cout << "Error while processing file " << parser[i] << endl << endl;
            throw;
        }
    }

    save_image_dataset_metadata(dataset, filename);
}
예제 #7
0
파일: main.cpp 프로젝트: FaceAR/dlib
int resample_dataset(const command_line_parser& parser)
{
    if (parser.number_of_arguments() != 1)
    {
        cerr << "The --resample option requires you to give one XML file on the command line." << endl;
        return EXIT_FAILURE;
    }

    const size_t obj_size = get_option(parser,"resample",100*100); 
    const double margin_scale = 2.5; // cropped image will be this times wider than the object.
    const size_t image_size = obj_size*margin_scale*margin_scale;

    dlib::image_dataset_metadata::dataset data, resampled_data;
    resampled_data.comment = data.comment;
    resampled_data.name = data.name + " RESAMPLED";

    load_image_dataset_metadata(data, parser[0]);
    locally_change_current_dir chdir(get_parent_directory(file(parser[0])));

    console_progress_indicator pbar(data.images.size());
    for (unsigned long i = 0; i < data.images.size(); ++i)
    {
        // don't even bother loading images that don't have objects.
        if (data.images[i].boxes.size() == 0)
            continue;

        pbar.print_status(i);
        array2d<rgb_pixel> img, chip;
        load_image(img, data.images[i].filename);


        // figure out what chips we want to take from this image
        for (unsigned long j = 0; j < data.images[i].boxes.size(); ++j)
        {
            const rectangle rect = data.images[i].boxes[j].rect;
            if (data.images[i].boxes[j].ignore || !get_rect(img).contains(rect))
                continue;

            const rectangle crop_rect = centered_rect(rect, rect.width()*margin_scale, rect.height()*margin_scale);

            // skip crops that have a lot of border pixels
            if (get_rect(img).intersect(crop_rect).area() < crop_rect.area()*0.8)
                continue;

            const rectangle_transform tform = get_mapping_to_chip(chip_details(crop_rect, image_size));
            extract_image_chip(img, chip_details(crop_rect, image_size), chip);

            image_dataset_metadata::image dimg;
            // Now transform the boxes to the crop and also mark them as ignored if they
            // have already been cropped out or are outside the crop.
            for (size_t k = 0; k < data.images[i].boxes.size(); ++k)
            {
                image_dataset_metadata::box box = data.images[i].boxes[k];
                // ignore boxes outside the cropped image
                if (crop_rect.intersect(box.rect).area() == 0)
                    continue;

                // mark boxes we include in the crop as ignored.  Also mark boxes that
                // aren't totally within the crop as ignored.
                if (crop_rect.contains(grow_rect(box.rect,10)))
                    data.images[i].boxes[k].ignore = true;
                else
                    box.ignore = true;

                box.rect = tform(box.rect);
                for (auto&& p : box.parts)
                    p.second = tform.get_tform()(p.second);
                dimg.boxes.push_back(box);
            }
            dimg.filename = data.images[i].filename + "RESAMPLED"+cast_to_string(j)+".jpg";

            save_jpeg(chip,dimg.filename, 98);
            resampled_data.images.push_back(dimg);
        }
    }

    save_image_dataset_metadata(resampled_data, parser[0] + ".RESAMPLED.xml");

    return EXIT_SUCCESS;
}
예제 #8
0
파일: main.cpp 프로젝트: FaceAR/dlib
int extract_chips (const command_line_parser& parser)
{
    if (parser.number_of_arguments() != 1)
    {
        cerr << "The --extract-chips option requires you to give one XML file on the command line." << endl;
        return EXIT_FAILURE;
    }

    const size_t obj_size = get_option(parser,"extract-chips",100*100); 

    dlib::image_dataset_metadata::dataset data;

    load_image_dataset_metadata(data, parser[0]);
    // figure out the average box size so we can make all the chips have the same exact
    // dimensions
    running_stats<double> rs;
    for (auto&& img : data.images)
    {
        for (auto&& box : img.boxes)
        {
            if (box.rect.height() != 0)
                rs.add(box.rect.width()/(double)box.rect.height());
        }
    }
    if (rs.current_n() == 0)
    {
        cerr << "Dataset doesn't contain any non-empty and non-ignored boxes!" << endl;
        return EXIT_FAILURE;
    }
    const double dobj_nr = std::sqrt(obj_size/rs.mean());
    const double dobj_nc = obj_size/dobj_nr;
    const chip_dims cdims(std::round(dobj_nr), std::round(dobj_nc));
    
    locally_change_current_dir chdir(get_parent_directory(file(parser[0])));

    cout << "Writing image chips to image_chips.dat.  It is a file containing serialized images" << endl;
    cout << "Written like this: " << endl;
    cout << "   ofstream fout(\"image_chips.dat\", ios::bianry); " << endl;
    cout << "   bool is_not_background; " << endl;
    cout << "   array2d<rgb_pixel> the_image_chip; " << endl;
    cout << "   while(more images) { " << endl;
    cout << "       ... load chip ... " << endl;
    cout << "       serialize(is_not_background,  fout);" << endl;
    cout << "       serialize(the_image_chip,  fout);" << endl;
    cout << "   }" << endl;
    cout << endl;

    ofstream fout("image_chips.dat", ios::binary);

    dlib::rand rnd;
    unsigned long count = 0;

    console_progress_indicator pbar(data.images.size());
    for (unsigned long i = 0; i < data.images.size(); ++i)
    {
        // don't even bother loading images that don't have objects.
        if (data.images[i].boxes.size() == 0)
            continue;

        pbar.print_status(i);
        array2d<rgb_pixel> img, chip;
        load_image(img, data.images[i].filename);

        std::vector<chip_details> chips;
        std::vector<rectangle> used_rects;

        for (unsigned long j = 0; j < data.images[i].boxes.size(); ++j)
        {
            const rectangle rect = data.images[i].boxes[j].rect;
            used_rects.push_back(rect);

            if (data.images[i].boxes[j].ignore)
                continue;

            chips.push_back(chip_details(rect, cdims));
        }

        const auto num_good_chps = chips.size();
        // Now grab some bad chips, being careful not to grab things that overlap with
        // annotated boxes in the dataset.
        for (unsigned long j = 0; j < num_good_chps*5; ++j)
        {
            // pick two random points that make a box of the correct aspect ratio
            // pick a point so that our rectangle will fit within the 
            point p1(rnd.get_random_32bit_number()%img.nc(), rnd.get_random_32bit_number()%img.nr());
            // make the random box between 0.5 and 1.5 times the size of the truth boxes.
            double box_size = rnd.get_random_double() + 0.5;
            point p2 = p1 + point(dobj_nc*box_size, dobj_nr*box_size);

            rectangle rect(p1,p2);
            if (overlaps_any_box(used_rects, rect) || !get_rect(img).contains(rect))
                continue;

            used_rects.push_back(rect);
            chips.push_back(chip_details(rect, cdims));
        }

        // now save these chips to disk.
        dlib::array<array2d<rgb_pixel>> image_chips;
        extract_image_chips(img, chips, image_chips);
        bool is_not_background = true;
        unsigned long j;
        for (j = 0; j < num_good_chps; ++j)
        {
            serialize(is_not_background, fout);
            serialize(image_chips[j], fout);
        }
        is_not_background = false;
        for (; j < image_chips.size(); ++j)
        {
            serialize(is_not_background, fout);
            serialize(image_chips[j], fout);
        }

        count += image_chips.size();
    }
    cout << "\nSaved " << count << " chips." << endl;
    return EXIT_SUCCESS;
}
예제 #9
0
파일: main.cpp 프로젝트: 20337112/dlib
int resample_dataset(const command_line_parser& parser)
{
    if (parser.number_of_arguments() != 1)
    {
        cerr << "The --resample option requires you to give one XML file on the command line." << endl;
        return EXIT_FAILURE;
    }

    const size_t obj_size = get_option(parser,"cropped-object-size",100*100); 
    const double margin_scale =  get_option(parser,"crop-size",2.5); // cropped image will be this times wider than the object.
    const unsigned long min_object_size = get_option(parser,"min-object-size",1);
    const bool one_object_per_image = parser.option("one-object-per-image");

    dlib::image_dataset_metadata::dataset data, resampled_data;
    std::ostringstream sout;
    sout << "\nThe --resample parameters which generated this dataset were:" << endl;
    sout << "   cropped-object-size: "<< obj_size << endl;
    sout << "   crop-size: "<< margin_scale << endl;
    sout << "   min-object-size: "<< min_object_size << endl;
    if (one_object_per_image)
        sout << "   one_object_per_image: true" << endl;
    resampled_data.comment = data.comment + sout.str();
    resampled_data.name = data.name + " RESAMPLED";

    load_image_dataset_metadata(data, parser[0]);
    locally_change_current_dir chdir(get_parent_directory(file(parser[0])));
    dlib::rand rnd;

    const size_t image_size = std::round(std::sqrt(obj_size*margin_scale*margin_scale));
    const chip_dims cdims(image_size, image_size);

    console_progress_indicator pbar(data.images.size());
    for (unsigned long i = 0; i < data.images.size(); ++i)
    {
        // don't even bother loading images that don't have objects.
        if (data.images[i].boxes.size() == 0)
            continue;

        pbar.print_status(i);
        array2d<rgb_pixel> img, chip;
        load_image(img, data.images[i].filename);


        // figure out what chips we want to take from this image
        for (unsigned long j = 0; j < data.images[i].boxes.size(); ++j)
        {
            const rectangle rect = data.images[i].boxes[j].rect;
            if (data.images[i].boxes[j].ignore || rect.area() < min_object_size)
                continue;

            const auto max_dim = std::max(rect.width(), rect.height());

            const double rand_scale_perturb = 1 - 0.3*(rnd.get_random_double()-0.5);
            const rectangle crop_rect = centered_rect(rect, max_dim*margin_scale*rand_scale_perturb, max_dim*margin_scale*rand_scale_perturb);

            const rectangle_transform tform = get_mapping_to_chip(chip_details(crop_rect, cdims));
            extract_image_chip(img, chip_details(crop_rect, cdims), chip);

            image_dataset_metadata::image dimg;
            // Now transform the boxes to the crop and also mark them as ignored if they
            // have already been cropped out or are outside the crop.
            for (size_t k = 0; k < data.images[i].boxes.size(); ++k)
            {
                image_dataset_metadata::box box = data.images[i].boxes[k];
                // ignore boxes outside the cropped image
                if (crop_rect.intersect(box.rect).area() == 0)
                    continue;

                // mark boxes we include in the crop as ignored.  Also mark boxes that
                // aren't totally within the crop as ignored.
                if (crop_rect.contains(grow_rect(box.rect,10)) && (!one_object_per_image || k==j))
                    data.images[i].boxes[k].ignore = true;
                else
                    box.ignore = true;

                if (box.rect.area() < min_object_size)
                    box.ignore = true;

                box.rect = tform(box.rect);
                for (auto&& p : box.parts)
                    p.second = tform.get_tform()(p.second);
                dimg.boxes.push_back(box);
            }
            // Put a 64bit hash of the image data into the name to make sure there are no
            // file name conflicts.
            std::ostringstream sout;
            sout << hex << murmur_hash3_128bit(&chip[0][0], chip.size()*sizeof(chip[0][0])).second;
            dimg.filename = data.images[i].filename + "_RESAMPLED_"+sout.str()+".png";

            if (parser.option("jpg"))
            {
                dimg.filename = to_jpg_name(dimg.filename);
                save_jpeg(chip,dimg.filename, JPEG_QUALITY);
            }
            else
            {
                save_png(chip,dimg.filename);
            }
            resampled_data.images.push_back(dimg);
        }
    }

    save_image_dataset_metadata(resampled_data, parser[0] + ".RESAMPLED.xml");

    return EXIT_SUCCESS;
}