Exemplo n.º 1
0
                        image=args.debug)

        if args.useCats:
            ret_masks, ret_scores, ret_cats = ret
        else:
            ret_masks, ret_scores = ret

        printProgress(i,
                      len(ds),
                      prefix='Progress: ',
                      suffix='Complete',
                      barLength=50)
        for _ in range(len(ret_masks)):
            cat = 1
            if args.useCats:
                cat = spider.dataset.getCatIds()[int(ret_cats[_].argmax())]
                score = float(ret_cats[_].max())
            else:
                score = float(ret_scores[_])
            objn = float(ret_scores[_])
            results.append({
                'image_id': image_id,
                'category_id': cat,
                'segmentation': encode(ret_masks[_]),
                'score': score,
                'objn': objn
            })

    with open('results/%s.json' % args.model, "wb") as f:
        f.write(cjson.encode(results))
Exemplo n.º 2
0
    oh, ow = image.shape[:2]
    im_scale = config.TEST_SCALE * 1.0 / max(oh, ow)
    input_blob = image - config.RGB_MEAN
    input_blob = input_blob.transpose((2, 0, 1))
    ih, iw = int(oh * im_scale), int(ow * im_scale)
    ih, iw = ih - ih % 4, iw - iw % 4
    input_blob = resize_blob(input_blob, dest_shape=(ih, iw))
    input_blob = input_blob[np.newaxis, ...]

    ret_masks, ret_scores = gen_masks(net,
                                      input_blob,
                                      config,
                                      dest_shape=(oh, ow))

    # nms
    encoded_masks = encode(ret_masks)
    reserved = np.ones((len(ret_masks)))
    for i in range(len(reserved)):
        if ret_scores[i] < args.threshold:
            reserved[i] = 0
            continue
        if reserved[i]:
            for j in range(i + 1, len(reserved)):
                if reserved[j] and iou(encoded_masks[i], encoded_masks[j],
                                       [False]) > 0.5:
                    reserved[j] = 0

    max_result = -999
    for _ in range(len(ret_masks)):
        if ret_scores[_] > args.threshold and reserved[_]:
    def handle_fast_mask_segmentation(self, req):

        if self.net == None:
            try:
                self.net = caffe.Net(self.model_path, self.weight_path,
                                     caffe.TEST)
            except:
                rospy.logerr("Error, cannot load fm net to the GPU")
                self.net = None
                self.service_queue = -1
                return FastMaskSegmentationResponse()

        try:
            image = self.br.imgmsg_to_cv2(req.rgb_img, desired_encoding="bgr8")
            image = image.astype(np.float64)

            if self.gpu_id >= 0:
                caffe.set_mode_gpu()
                caffe.set_device(self.gpu_id)
            else:
                caffe.set_mode_cpu()

            oh, ow = image.shape[:2]
            im_scale = config.TEST_SCALE * 1.0 / max(oh, ow)
            input_blob = image - config.RGB_MEAN
            input_blob = input_blob.transpose((2, 0, 1))
            ih, iw = int(oh * im_scale), int(ow * im_scale)
            ih, iw = ih - ih % 4, iw - iw % 4
            input_blob = resize_blob(input_blob, dest_shape=(ih, iw))
            input_blob = input_blob[np.newaxis, ...]

            ret_masks, ret_scores = gen_masks(self.net,
                                              input_blob,
                                              config,
                                              dest_shape=(oh, ow))

            encoded_masks = encode(ret_masks)
            reserved = np.ones((len(ret_masks)))

            for i in range(len(reserved)):
                if ret_scores[i] < self.threshold:
                    reserved[i] = 0
                    continue
                if reserved[i]:
                    for j in range(i + 1, len(reserved)):
                        if reserved[j] and iou(encoded_masks[i],
                                               encoded_masks[j],
                                               [False]) > 0.5:
                            reserved[j] = 0

            temp_image = image.copy()
            fastmask_bbox_arr = FastMaskBB2DArray()

            for _ in range(len(ret_masks)):
                if ret_scores[_] > self.threshold and reserved[_]:

                    mask = ret_masks[_].copy()
                    bbox = toBbox(mask)
                    x, y, w, h = bbox

                    fastmask_bbox = FastMaskBB2D()

                    fastmask_bbox.bbox.x = x
                    fastmask_bbox.bbox.y = y
                    fastmask_bbox.bbox.w = w
                    fastmask_bbox.bbox.h = h

                    fastmask_bbox.score = ret_scores[_]
                    fastmask_bbox_arr.fm_bbox_arr.append(fastmask_bbox)

                    if self.save_and_display:
                        bbox = [int(x) for x in bbox]
                        mask[mask == 1] = 0.3
                        mask[mask == 0] = 1
                        color = COLORS[_ % len(COLORS)]
                        _color = color & 0xff
                        for k in range(3):
                            image[:, :, k] = image[:, :, k] * mask
                        mask[mask == 1] = 0
                        mask[mask > 0] = 0.7
                        for k in range(3):
                            image[:, :, k] += mask * (color & 0xff)
                            color >>= 8
                        cv2.rectangle(temp_image, (bbox[0], bbox[1]),
                                      (bbox[0] + bbox[2], bbox[1] + bbox[3]),
                                      (_color, _color, _color), 1)

            if self.save_and_display:
                image = image.astype(np.uint8)
                temp_image = temp_image.astype(np.uint8)
                cv2.imwrite(fast_mask_root + "/images/mask_result.jpg", image)
                cv2.imwrite(fast_mask_root + "/images/boundingbox_result.jpg",
                            temp_image)

            self.net = None
            return FastMaskSegmentationResponse(
                segmentation_bbox_arr=fastmask_bbox_arr)

        except cv_bridge.CvBridgeError as e:
            rospy.logerr("CvBridge exception %s", e)
            return FastMaskSegmentationResponse()