Exemplo n.º 1
0
    def test_pb(self, frozen_graph_path, test_dir):

        graph = self.load_graph(frozen_graph_path)
        print("we are testing ====>>>>", frozen_graph_path)

        img = graph.get_tensor_by_name("input_img:0")
        dets = graph.get_tensor_by_name("DetResults:0")

        with tf.Session(graph=graph) as sess:
            for img_path in os.listdir(test_dir):
                print(img_path)
                a_img = cv2.imread(os.path.join(test_dir, img_path))[:, :, ::-1]

                raw_h, raw_w = a_img.shape[0], a_img.shape[1]

                short_size, max_len = self.cfgs.IMG_SHORT_SIDE_LEN, cfgs.IMG_MAX_LENGTH
                if raw_h < raw_w:
                    new_h, new_w = short_size, min(int(short_size * float(raw_w) / raw_h), max_len)
                else:
                    new_h, new_w = min(int(short_size * float(raw_h) / raw_w), max_len), short_size
                img_resize = cv2.resize(a_img, (new_w, new_h))
                dets_val = sess.run(dets, feed_dict={img: img_resize[:, :, ::-1]})

                bbox_pred, cls_prob, proposal = dets_val[:, :5], dets_val[:, 5:(5+self.cfgs.CLASS_NUM)], \
                                                dets_val[:, (5+self.cfgs.CLASS_NUM):]

                detected_boxes, detected_scores, detected_categories = self.postprocess_detctions(bbox_pred, cls_prob, proposal)

                if True:
                    # detected_indices = det_scores_r_ >= self.cfgs.VIS_SCORE
                    # detected_scores = det_scores_r_[detected_indices]
                    # detected_boxes = det_boxes_r_[detected_indices]
                    # detected_categories = det_category_r_[detected_indices]

                    drawer = DrawBox(self.cfgs)

                    det_detections_r = drawer.draw_boxes_with_label_and_scores(img_resize[:, :, ::-1],
                                                                               boxes=detected_boxes,
                                                                               labels=detected_categories,
                                                                               scores=detected_scores,
                                                                               method=1,
                                                                               in_graph=True)

                    save_dir = os.path.join('test_pb', self.cfgs.VERSION, 'pb_img_vis')
                    tools.makedirs(save_dir)

                    cv2.imwrite(save_dir + '/{}'.format(img_path),
                                det_detections_r[:, :, ::-1])
    def test_dota(self, det_net, real_test_img_list, txt_name):

        save_path = os.path.join('./test_dota', self.cfgs.VERSION)

        nr_records = len(real_test_img_list)
        pbar = tqdm(total=nr_records)
        gpu_num = len(self.args.gpus.strip().split(','))

        nr_image = math.ceil(nr_records / gpu_num)
        result_queue = Queue(500)
        procs = []

        for i, gpu_id in enumerate(self.args.gpus.strip().split(',')):
            start = i * nr_image
            end = min(start + nr_image, nr_records)
            split_records = real_test_img_list[start:end]
            proc = Process(target=self.worker,
                           args=(int(gpu_id), split_records, det_net,
                                 result_queue))
            print('process:%d, start:%d, end:%d' % (i, start, end))
            proc.start()
            procs.append(proc)

        for i in range(nr_records):
            res = result_queue.get()

            if self.args.show_box:

                nake_name = res['image_id'].split('/')[-1]
                tools.makedirs(os.path.join(save_path, 'dota_img_vis'))
                draw_path = os.path.join(save_path, 'dota_img_vis', nake_name)

                draw_img = np.array(cv2.imread(res['image_id']), np.float32)
                detected_boxes = backward_convert(res['boxes'],
                                                  with_label=False)

                detected_indices = res['scores'] >= self.cfgs.VIS_SCORE
                detected_scores = res['scores'][detected_indices]
                detected_boxes = detected_boxes[detected_indices]
                detected_categories = res['labels'][detected_indices]

                drawer = DrawBox(self.cfgs)

                final_detections = drawer.draw_boxes_with_label_and_scores(
                    draw_img,
                    boxes=detected_boxes,
                    labels=detected_categories,
                    scores=detected_scores,
                    method=1,
                    is_csl=True,
                    in_graph=False)
                cv2.imwrite(draw_path, final_detections)

            else:
                CLASS_DOTA = self.name_label_map.keys()
                write_handle = {}

                tools.makedirs(os.path.join(save_path, 'dota_res'))
                for sub_class in CLASS_DOTA:
                    if sub_class == 'back_ground':
                        continue
                    write_handle[sub_class] = open(
                        os.path.join(save_path, 'dota_res',
                                     'Task1_%s.txt' % sub_class), 'a+')

                for i, rbox in enumerate(res['boxes']):
                    command = '%s %.3f %.1f %.1f %.1f %.1f %.1f %.1f %.1f %.1f\n' % (
                        res['image_id'].split('/')[-1].split('.')[0],
                        res['scores'][i],
                        rbox[0],
                        rbox[1],
                        rbox[2],
                        rbox[3],
                        rbox[4],
                        rbox[5],
                        rbox[6],
                        rbox[7],
                    )
                    write_handle[self.label_name_map[res['labels'][i]]].write(
                        command)

                for sub_class in CLASS_DOTA:
                    if sub_class == 'back_ground':
                        continue
                    write_handle[sub_class].close()

                fw = open(txt_name, 'a+')
                fw.write('{}\n'.format(res['image_id'].split('/')[-1]))
                fw.close()

            pbar.set_description("Test image %s" %
                                 res['image_id'].split('/')[-1])

            pbar.update(1)

        for p in procs:
            p.join()
    def eval_with_plac(self, img_dir, det_net, image_ext):

        os.environ["CUDA_VISIBLE_DEVICES"] = self.args.gpu
        # 1. preprocess img
        img_plac = tf.placeholder(dtype=tf.uint8, shape=[None, None,
                                                         3])  # is RGB. not BGR
        img_batch = tf.cast(img_plac, tf.float32)

        pretrain_zoo = PretrainModelZoo()
        if self.cfgs.NET_NAME in pretrain_zoo.pth_zoo or self.cfgs.NET_NAME in pretrain_zoo.mxnet_zoo:
            img_batch = (img_batch / 255 - tf.constant(
                self.cfgs.PIXEL_MEAN_)) / tf.constant(self.cfgs.PIXEL_STD)
        else:
            img_batch = img_batch - tf.constant(self.cfgs.PIXEL_MEAN)

        img_batch = tf.expand_dims(img_batch, axis=0)

        detection_boxes, detection_scores, detection_category = det_net.build_whole_detection_network(
            input_img_batch=img_batch)

        init_op = tf.group(tf.global_variables_initializer(),
                           tf.local_variables_initializer())

        restorer, restore_ckpt = det_net.get_restorer()

        config = tf.ConfigProto()
        config.gpu_options.allow_growth = True

        with tf.Session(config=config) as sess:
            sess.run(init_op)
            if not restorer is None:
                restorer.restore(sess, restore_ckpt)
                print('restore model')

            all_boxes_r = []
            imgs = os.listdir(img_dir)
            pbar = tqdm(imgs)
            for a_img_name in pbar:
                a_img_name = a_img_name.split(image_ext)[0]

                raw_img = cv2.imread(
                    os.path.join(img_dir, a_img_name + image_ext))
                raw_h, raw_w = raw_img.shape[0], raw_img.shape[1]

                det_boxes_r_all, det_scores_r_all, det_category_r_all = [], [], []

                img_short_side_len_list = self.cfgs.IMG_SHORT_SIDE_LEN if isinstance(
                    self.cfgs.IMG_SHORT_SIDE_LEN,
                    list) else [self.cfgs.IMG_SHORT_SIDE_LEN]
                img_short_side_len_list = [
                    img_short_side_len_list[0]
                ] if not self.args.multi_scale else img_short_side_len_list

                for short_size in img_short_side_len_list:
                    max_len = self.cfgs.IMG_MAX_LENGTH
                    if raw_h < raw_w:
                        new_h, new_w = short_size, min(
                            int(short_size * float(raw_w) / raw_h), max_len)
                    else:
                        new_h, new_w = min(
                            int(short_size * float(raw_h) / raw_w),
                            max_len), short_size
                    img_resize = cv2.resize(raw_img, (new_w, new_h))

                    resized_img, detected_boxes, detected_scores, detected_categories = \
                        sess.run(
                            [img_batch, detection_boxes, detection_scores, detection_category],
                            feed_dict={img_plac: img_resize[:, :, ::-1]}
                        )

                    if detected_boxes.shape[0] == 0:
                        continue
                    resized_h, resized_w = resized_img.shape[
                        1], resized_img.shape[2]
                    detected_boxes = forward_convert(detected_boxes, False)
                    detected_boxes[:, 0::2] *= (raw_w / resized_w)
                    detected_boxes[:, 1::2] *= (raw_h / resized_h)

                    det_boxes_r_all.extend(detected_boxes)
                    det_scores_r_all.extend(detected_scores)
                    det_category_r_all.extend(detected_categories)
                det_boxes_r_all = np.array(det_boxes_r_all)
                det_scores_r_all = np.array(det_scores_r_all)
                det_category_r_all = np.array(det_category_r_all)

                box_res_rotate_ = []
                label_res_rotate_ = []
                score_res_rotate_ = []

                if det_scores_r_all.shape[0] != 0:
                    for sub_class in range(1, self.cfgs.CLASS_NUM + 1):
                        index = np.where(det_category_r_all == sub_class)[0]
                        if len(index) == 0:
                            continue
                        tmp_boxes_r = det_boxes_r_all[index]
                        tmp_label_r = det_category_r_all[index]
                        tmp_score_r = det_scores_r_all[index]

                        if self.args.multi_scale:
                            tmp_boxes_r_ = backward_convert(tmp_boxes_r, False)

                            # try:
                            #     inx = nms_rotate.nms_rotate_cpu(boxes=np.array(tmp_boxes_r_),
                            #                                     scores=np.array(tmp_score_r),
                            #                                     iou_threshold=self.cfgs.NMS_IOU_THRESHOLD,
                            #                                     max_output_size=5000)
                            # except:
                            tmp_boxes_r_ = np.array(tmp_boxes_r_)
                            tmp = np.zeros([
                                tmp_boxes_r_.shape[0],
                                tmp_boxes_r_.shape[1] + 1
                            ])
                            tmp[:, 0:-1] = tmp_boxes_r_
                            tmp[:, -1] = np.array(tmp_score_r)
                            # Note: the IoU of two same rectangles is 0, which is calculated by rotate_gpu_nms
                            jitter = np.zeros([
                                tmp_boxes_r_.shape[0],
                                tmp_boxes_r_.shape[1] + 1
                            ])
                            jitter[:, 0] += np.random.rand(
                                tmp_boxes_r_.shape[0], ) / 1000
                            inx = rotate_gpu_nms(
                                np.array(tmp, np.float32) +
                                np.array(jitter, np.float32),
                                float(self.cfgs.NMS_IOU_THRESHOLD), 0)
                        else:
                            inx = np.arange(0, tmp_score_r.shape[0])

                        box_res_rotate_.extend(np.array(tmp_boxes_r)[inx])
                        score_res_rotate_.extend(np.array(tmp_score_r)[inx])
                        label_res_rotate_.extend(np.array(tmp_label_r)[inx])

                if len(box_res_rotate_) == 0:
                    all_boxes_r.append(np.array([]))
                    continue

                det_boxes_r_ = np.array(box_res_rotate_)
                det_scores_r_ = np.array(score_res_rotate_)
                det_category_r_ = np.array(label_res_rotate_)

                if self.args.draw_imgs:
                    detected_indices = det_scores_r_ >= self.cfgs.VIS_SCORE
                    detected_scores = det_scores_r_[detected_indices]
                    detected_boxes = det_boxes_r_[detected_indices]
                    detected_categories = det_category_r_[detected_indices]

                    detected_boxes = backward_convert(detected_boxes, False)

                    drawer = DrawBox(self.cfgs)

                    det_detections_r = drawer.draw_boxes_with_label_and_scores(
                        raw_img[:, :, ::-1],
                        boxes=detected_boxes,
                        labels=detected_categories,
                        scores=detected_scores,
                        method=1,
                        in_graph=True)

                    save_dir = os.path.join('test_hrsc', self.cfgs.VERSION,
                                            'hrsc2016_img_vis')
                    tools.makedirs(save_dir)

                    cv2.imwrite(save_dir + '/{}.jpg'.format(a_img_name),
                                det_detections_r[:, :, ::-1])

                det_boxes_r_ = backward_convert(det_boxes_r_, False)

                x_c, y_c, w, h, theta = det_boxes_r_[:, 0], det_boxes_r_[:, 1], det_boxes_r_[:, 2], \
                                        det_boxes_r_[:, 3], det_boxes_r_[:, 4]

                boxes_r = np.transpose(np.stack([x_c, y_c, w, h, theta]))
                dets_r = np.hstack((det_category_r_.reshape(-1, 1),
                                    det_scores_r_.reshape(-1, 1), boxes_r))
                all_boxes_r.append(dets_r)

                pbar.set_description("Eval image %s" % a_img_name)

            # fw1 = open(cfgs.VERSION + '_detections_r.pkl', 'wb')
            # pickle.dump(all_boxes_r, fw1)
            return all_boxes_r
    def test_icdar2015(self, det_net, real_test_img_list, txt_name):

        save_path = os.path.join('./test_icdar2015', self.cfgs.VERSION)
        tools.makedirs(save_path)

        nr_records = len(real_test_img_list)
        pbar = tqdm(total=nr_records)
        gpu_num = len(self.args.gpus.strip().split(','))

        nr_image = math.ceil(nr_records / gpu_num)
        result_queue = Queue(500)
        procs = []

        for i, gpu_id in enumerate(self.args.gpus.strip().split(',')):
            start = i * nr_image
            end = min(start + nr_image, nr_records)
            split_records = real_test_img_list[start:end]
            proc = Process(target=self.worker, args=(int(gpu_id), split_records, det_net, result_queue))
            print('process:%d, start:%d, end:%d' % (i, start, end))
            proc.start()
            procs.append(proc)

        for i in range(nr_records):
            res = result_queue.get()
            tools.makedirs(os.path.join(save_path, 'icdar2015_res'))
            if res['boxes'].shape[0] == 0:
                fw_txt_dt = open(os.path.join(save_path, 'icdar2015_res', 'res_{}.txt'.format(res['image_id'].split('/')[-1].split('.')[0])),
                                 'w')
                fw_txt_dt.close()
                pbar.update(1)

                fw = open(txt_name, 'a+')
                fw.write('{}\n'.format(res['image_id'].split('/')[-1]))
                fw.close()
                continue
            x1, y1, x2, y2, x3, y3, x4, y4 = res['boxes'][:, 0], res['boxes'][:, 1], res['boxes'][:, 2], res['boxes'][:, 3],\
                                             res['boxes'][:, 4], res['boxes'][:, 5], res['boxes'][:, 6], res['boxes'][:, 7]

            x1, y1 = x1 * res['scales'][0], y1 * res['scales'][1]
            x2, y2 = x2 * res['scales'][0], y2 * res['scales'][1]
            x3, y3 = x3 * res['scales'][0], y3 * res['scales'][1]
            x4, y4 = x4 * res['scales'][0], y4 * res['scales'][1]

            boxes = np.transpose(np.stack([x1, y1, x2, y2, x3, y3, x4, y4]))

            if self.args.show_box:
                boxes = backward_convert(boxes, False)
                nake_name = res['image_id'].split('/')[-1]
                tools.makedirs(os.path.join(save_path, 'icdar2015_img_vis'))
                draw_path = os.path.join(save_path, 'icdar2015_img_vis', nake_name)
                draw_img = np.array(cv2.imread(res['image_id']), np.float32)

                drawer = DrawBox(self.cfgs)

                final_detections = drawer.draw_boxes_with_label_and_scores(draw_img,
                                                                           boxes=boxes,
                                                                           labels=res['labels'],
                                                                           scores=res['scores'],
                                                                           method=1,
                                                                           in_graph=False)
                cv2.imwrite(draw_path, final_detections)

            else:
                fw_txt_dt = open(os.path.join(save_path, 'icdar2015_res', 'res_{}.txt'.format(res['image_id'].split('/')[-1].split('.')[0])), 'w')

                for box in boxes:
                    line = '%d,%d,%d,%d,%d,%d,%d,%d\n' % (box[0], box[1], box[2], box[3],
                                                          box[4], box[5], box[6], box[7])
                    fw_txt_dt.write(line)
                fw_txt_dt.close()

                fw = open(txt_name, 'a+')
                fw.write('{}\n'.format(res['image_id'].split('/')[-1]))
                fw.close()

            pbar.set_description("Test image %s" % res['image_id'].split('/')[-1])

            pbar.update(1)

        for p in procs:
            p.join()
 def __init__(self, cfgs):
     self.cfgs = cfgs
     self.drawer = DrawBox(cfgs)
Exemplo n.º 6
0
    def test_pb(self, frozen_graph_path, test_dir):

        graph = self.load_graph(frozen_graph_path)
        print("we are testing ====>>>>", frozen_graph_path)

        img = graph.get_tensor_by_name("input_img:0")
        dets = graph.get_tensor_by_name("DetResults:0")

        with tf.Session(graph=graph) as sess:
            for img_path in os.listdir(test_dir):
                print(img_path)
                a_img = cv2.imread(os.path.join(test_dir,
                                                img_path))[:, :, ::-1]

                raw_h, raw_w = a_img.shape[0], a_img.shape[1]

                short_size, max_len = self.cfgs.IMG_SHORT_SIDE_LEN, cfgs.IMG_MAX_LENGTH
                if raw_h < raw_w:
                    new_h, new_w = short_size, min(
                        int(short_size * float(raw_w) / raw_h), max_len)
                else:
                    new_h, new_w = min(int(short_size * float(raw_h) / raw_w),
                                       max_len), short_size
                img_resize = cv2.resize(a_img, (new_w, new_h))
                dets_val = sess.run(dets,
                                    feed_dict={img: img_resize[:, :, ::-1]})

                bbox_pred, cls_prob = dets_val[:, :5], dets_val[:, 5:(
                    5 + self.cfgs.CLASS_NUM)]
                anchor = GenerateAnchors(self.cfgs, 'H')

                h1, w1 = math.ceil(new_h / 2), math.ceil(new_w / 2)
                h2, w2 = math.ceil(h1 / 2), math.ceil(w1 / 2)
                h3, w3 = math.ceil(h2 / 2), math.ceil(w2 / 2)
                h4, w4 = math.ceil(h3 / 2), math.ceil(w3 / 2)
                h5, w5 = math.ceil(h4 / 2), math.ceil(w4 / 2)
                h6, w6 = math.ceil(h5 / 2), math.ceil(w5 / 2)
                h7, w7 = math.ceil(h6 / 2), math.ceil(w6 / 2)

                h_dict = {'P3': h3, 'P4': h4, 'P5': h5, 'P6': h6, 'P7': h7}
                w_dict = {'P3': w3, 'P4': w4, 'P5': w5, 'P6': w6, 'P7': w7}
                anchors = anchor.generate_all_anchor_pb(h_dict, w_dict)
                anchors = np.concatenate(anchors, axis=0)

                x_c = (anchors[:, 2] + anchors[:, 0]) / 2
                y_c = (anchors[:, 3] + anchors[:, 1]) / 2
                h = anchors[:, 2] - anchors[:, 0] + 1
                w = anchors[:, 3] - anchors[:, 1] + 1
                theta = -90 * np.ones_like(x_c)
                anchors = np.transpose(np.stack([x_c, y_c, w, h, theta]))

                detected_boxes, detected_scores, detected_categories = self.postprocess_detctions(
                    bbox_pred, cls_prob, anchors)

                if True:
                    # detected_indices = det_scores_r_ >= self.cfgs.VIS_SCORE
                    # detected_scores = det_scores_r_[detected_indices]
                    # detected_boxes = det_boxes_r_[detected_indices]
                    # detected_categories = det_category_r_[detected_indices]

                    drawer = DrawBox(self.cfgs)

                    det_detections_r = drawer.draw_boxes_with_label_and_scores(
                        img_resize[:, :, ::-1],
                        boxes=detected_boxes,
                        labels=detected_categories,
                        scores=detected_scores,
                        method=1,
                        in_graph=True)

                    save_dir = os.path.join('test_pb', self.cfgs.VERSION,
                                            'pb_img_vis')
                    tools.makedirs(save_dir)

                    cv2.imwrite(save_dir + '/{}'.format(img_path),
                                det_detections_r[:, :, ::-1])
Exemplo n.º 7
0
    def test(self, frozen_graph_path, test_dir):

        graph = self.load_graph(frozen_graph_path)
        print("we are testing ====>>>>", frozen_graph_path)

        img = graph.get_tensor_by_name("input_img:0")
        dets = graph.get_tensor_by_name("DetResults:0")

        with tf.Session(graph=graph) as sess:
            for img_path in os.listdir(test_dir):
                print(img_path)
                a_img = cv2.imread(os.path.join(test_dir,
                                                img_path))[:, :, ::-1]

                raw_h, raw_w = a_img.shape[0], a_img.shape[1]

                short_size, max_len = self.cfgs.IMG_SHORT_SIDE_LEN, cfgs.IMG_MAX_LENGTH
                if raw_h < raw_w:
                    new_h, new_w = short_size, min(
                        int(short_size * float(raw_w) / raw_h), max_len)
                else:
                    new_h, new_w = min(int(short_size * float(raw_h) / raw_w),
                                       max_len), short_size
                img_resize = cv2.resize(a_img, (new_w, new_h))

                dets_val = sess.run(dets,
                                    feed_dict={img: img_resize[:, :, ::-1]})

                box_res_rotate_ = []
                label_res_rotate_ = []
                score_res_rotate_ = []

                if dets_val.shape[0] != 0:
                    for sub_class in range(1, self.cfgs.CLASS_NUM + 1):
                        index = np.where(dets_val[:, 0] == sub_class)[0]
                        if len(index) == 0:
                            continue
                        tmp_boxes_r = dets_val[:, 2:][index]
                        tmp_label_r = dets_val[:, 0][index]
                        tmp_score_r = dets_val[:, 1][index]

                        # try:
                        inx = nms_rotate_cpu(
                            boxes=np.array(tmp_boxes_r),
                            scores=np.array(tmp_score_r),
                            iou_threshold=self.cfgs.NMS_IOU_THRESHOLD,
                            max_output_size=20)
                        # except:
                        #     tmp_boxes_r_ = np.array(tmp_boxes_r)
                        #     tmp = np.zeros([tmp_boxes_r_.shape[0], tmp_boxes_r_.shape[1] + 1])
                        #     tmp[:, 0:-1] = tmp_boxes_r_
                        #     tmp[:, -1] = np.array(tmp_score_r)
                        #     # Note: the IoU of two same rectangles is 0, which is calculated by rotate_gpu_nms
                        #     jitter = np.zeros([tmp_boxes_r_.shape[0], tmp_boxes_r_.shape[1] + 1])
                        #     jitter[:, 0] += np.random.rand(tmp_boxes_r_.shape[0], ) / 1000
                        #     inx = rotate_gpu_nms(np.array(tmp, np.float32) + np.array(jitter, np.float32),
                        #                          float(self.cfgs.NMS_IOU_THRESHOLD), 0)

                        box_res_rotate_.extend(np.array(tmp_boxes_r)[inx])
                        score_res_rotate_.extend(np.array(tmp_score_r)[inx])
                        label_res_rotate_.extend(np.array(tmp_label_r)[inx])

                det_boxes_r_ = np.array(box_res_rotate_)
                det_scores_r_ = np.array(score_res_rotate_)
                det_category_r_ = np.array(label_res_rotate_)

                if True:
                    detected_indices = det_scores_r_ >= self.cfgs.VIS_SCORE
                    detected_scores = det_scores_r_[detected_indices]
                    detected_boxes = det_boxes_r_[detected_indices]
                    detected_categories = det_category_r_[detected_indices]

                    drawer = DrawBox(self.cfgs)

                    det_detections_r = drawer.draw_boxes_with_label_and_scores(
                        img_resize[:, :, ::-1],
                        boxes=detected_boxes,
                        labels=detected_categories,
                        scores=detected_scores,
                        method=1,
                        in_graph=True)

                    save_dir = os.path.join('test_pb', self.cfgs.VERSION,
                                            'pb_img_vis')
                    tools.makedirs(save_dir)

                    cv2.imwrite(save_dir + '/{}'.format(img_path),
                                det_detections_r[:, :, ::-1])