コード例 #1
0
def main():
    cfg = load_config(FLAGS.config)

    merge_config(FLAGS.opt)
    check_config(cfg)
    # check if set use_gpu=True in paddlepaddle cpu version
    check_gpu(cfg.use_gpu)
    # check if paddlepaddle version is satisfied
    check_version()

    main_arch = cfg.architecture

    dataset = cfg.TestReader['dataset']

    test_images = get_test_images(FLAGS.infer_dir, FLAGS.infer_img)
    dataset.set_images(test_images)

    place = fluid.CUDAPlace(0) if cfg.use_gpu else fluid.CPUPlace()
    exe = fluid.Executor(place)

    model = create(main_arch)

    startup_prog = fluid.Program()
    infer_prog = fluid.Program()
    with fluid.program_guard(infer_prog, startup_prog):
        with fluid.unique_name.guard():
            inputs_def = cfg['TestReader']['inputs_def']
            inputs_def['iterable'] = True
            feed_vars, loader = model.build_inputs(**inputs_def)
            test_fetches = model.test(feed_vars)
    infer_prog = infer_prog.clone(True)

    reader = create_reader(cfg.TestReader, devices_num=1)
    loader.set_sample_list_generator(reader, place)

    exe.run(startup_prog)
    if cfg.weights:
        checkpoint.load_params(exe, infer_prog, cfg.weights)

    # parse infer fetches
    assert cfg.metric in ['COCO', 'VOC', 'OID', 'WIDERFACE'], \
            "unknown metric type {}".format(cfg.metric)
    extra_keys = []
    if cfg['metric'] in ['COCO', 'OID']:
        extra_keys = ['im_info', 'im_id', 'im_shape']
    if cfg['metric'] == 'VOC' or cfg['metric'] == 'WIDERFACE':
        extra_keys = ['im_id', 'im_shape']
    keys, values, _ = parse_fetches(test_fetches, infer_prog, extra_keys)

    # parse dataset category
    if cfg.metric == 'COCO':
        from ppdet.utils.coco_eval import bbox2out, mask2out, segm2out, get_category_info
    if cfg.metric == 'OID':
        from ppdet.utils.oid_eval import bbox2out, get_category_info
    if cfg.metric == "VOC":
        from ppdet.utils.voc_eval import bbox2out, get_category_info
    if cfg.metric == "WIDERFACE":
        from ppdet.utils.widerface_eval_utils import bbox2out, lmk2out, get_category_info

    anno_file = dataset.get_anno()
    with_background = dataset.with_background
    use_default_label = dataset.use_default_label

    clsid2catid, catid2name = get_category_info(anno_file, with_background,
                                                use_default_label)

    # whether output bbox is normalized in model output layer
    is_bbox_normalized = False
    if hasattr(model, 'is_bbox_normalized') and \
            callable(model.is_bbox_normalized):
        is_bbox_normalized = model.is_bbox_normalized()

    # use VisualDL to log image
    if FLAGS.use_vdl:
        assert six.PY3, "VisualDL requires Python >= 3.5"
        from visualdl import LogWriter
        vdl_writer = LogWriter(FLAGS.vdl_log_dir)
        vdl_image_step = 0
        vdl_image_frame = 0  # each frame can display ten pictures at most.

    imid2path = dataset.get_imid2path()
    resultBBox = []
    for iter_id, data in enumerate(loader()):
        outs = exe.run(infer_prog,
                       feed=data,
                       fetch_list=values,
                       return_numpy=False)
        res = {
            k: (np.array(v), v.recursive_sequence_lengths())
            for k, v in zip(keys, outs)
        }
        logger.info('Infer iter {}'.format(iter_id))
        if 'TTFNet' in cfg.architecture:
            res['bbox'][1].append([len(res['bbox'][0])])
        if 'CornerNet' in cfg.architecture:
            from ppdet.utils.post_process import corner_post_process
            post_config = getattr(cfg, 'PostProcess', None)
            corner_post_process(res, post_config, cfg.num_classes)

        bbox_results = None
        mask_results = None
        segm_results = None
        lmk_results = None
        if 'bbox' in res:
            bbox_results = bbox2out([res], clsid2catid, is_bbox_normalized)
        if 'mask' in res:
            mask_results = mask2out([res], clsid2catid,
                                    model.mask_head.resolution)
        if 'segm' in res:
            segm_results = segm2out([res], clsid2catid)
        if 'landmark' in res:
            lmk_results = lmk2out([res], is_bbox_normalized)

        # bbox 四个值:左上角坐标 + 宽度 + 高度
        # {'image_id': 0, 'category_id': 0, 'bbox': [695.04443359375, 723.8153686523438, 128.288818359375, 61.5987548828125], 'score': 0.9990022778511047}
        im_ids = res['im_id'][0]
        image_path = imid2path[int(im_ids[0])]
        prefix = image_path.split('/')[-1]
        imageName = prefix.split('.')[0]
        for i, result in enumerate(bbox_results):
            score = result["score"]
            bbox = result["bbox"]
            x1 = str(int(bbox[0]))
            y1 = str(int(bbox[1]))
            x2 = str(int(bbox[2] + bbox[0]))
            y2 = str(int(bbox[3] + bbox[1]))
            if (score > 0.01):
                resStr = imageName + ' ' + str(round(
                    score,
                    3)) + ' ' + x1 + ' ' + y1 + ' ' + x2 + ' ' + y2 + '\n'
                resultBBox.append(resStr)

        # visualize result
        for im_id in im_ids:
            image_path = imid2path[int(im_id)]
            image = Image.open(image_path).convert('RGB')
            image = ImageOps.exif_transpose(image)

            # use VisualDL to log original image
            if FLAGS.use_vdl:
                original_image_np = np.array(image)
                vdl_writer.add_image(
                    "original/frame_{}".format(vdl_image_frame),
                    original_image_np, vdl_image_step)

            image = visualize_results(image, int(im_id), catid2name,
                                      FLAGS.draw_threshold, bbox_results,
                                      mask_results, segm_results, lmk_results)

            # use VisualDL to log image with bbox
            if FLAGS.use_vdl:
                infer_image_np = np.array(image)
                vdl_writer.add_image("bbox/frame_{}".format(vdl_image_frame),
                                     infer_image_np, vdl_image_step)
                vdl_image_step += 1
                if vdl_image_step % 10 == 0:
                    vdl_image_step = 0
                    vdl_image_frame += 1

            save_name = get_save_image_name(FLAGS.output_dir, image_path)
            logger.info("Detection bbox results save in {}".format(save_name))
            image.save(save_name, quality=95)
    resulttxtPath = "/home/aistudio/work/PaddleDetection-release-2.0-beta/output/test_result.txt"
    f = open(resulttxtPath, 'w+', encoding='utf-8')
    for i, p in enumerate(resultBBox):
        f.write(p)
    f.close()
コード例 #2
0
def main():
    cfg = load_config(FLAGS.config)

    merge_config(FLAGS.opt)
    check_config(cfg)
    # check if set use_gpu=True in paddlepaddle cpu version
    check_gpu(cfg.use_gpu)
    # disable npu in config by default and check use_npu
    if 'use_npu' not in cfg:
        cfg.use_npu = False
    check_npu(cfg.use_npu)
    # disable xpu in config by default and check use_xpu
    if 'use_xpu' not in cfg:
        cfg.use_xpu = False
    check_xpu(cfg.use_xpu)
    # check if paddlepaddle version is satisfied
    check_version()

    main_arch = cfg.architecture

    dataset = cfg.TestReader['dataset']

    test_images = get_test_images(FLAGS.infer_dir, FLAGS.infer_img)
    dataset.set_images(test_images)

    if cfg.use_gpu:
        place = fluid.CUDAPlace(0)
    elif cfg.use_npu:
        place = fluid.NPUPlace(0)
    elif cfg.use_xpu:
        place = fluid.XPUPlace(0)
    else:
        place = fluid.CPUPlace()
    exe = fluid.Executor(place)

    model = create(main_arch)

    startup_prog = fluid.Program()
    infer_prog = fluid.Program()
    with fluid.program_guard(infer_prog, startup_prog):
        with fluid.unique_name.guard():
            inputs_def = cfg['TestReader']['inputs_def']
            inputs_def['iterable'] = True
            feed_vars, loader = model.build_inputs(**inputs_def)
            test_fetches = model.test(feed_vars)
    infer_prog = infer_prog.clone(True)

    reader = create_reader(cfg.TestReader, devices_num=1)
    loader.set_sample_list_generator(reader, place)

    exe.run(startup_prog)
    if cfg.weights:
        checkpoint.load_params(exe, infer_prog, cfg.weights)

    # parse infer fetches
    assert cfg.metric in ['COCO', 'VOC', 'OID', 'WIDERFACE'], \
            "unknown metric type {}".format(cfg.metric)
    extra_keys = []
    if cfg['metric'] in ['COCO', 'OID']:
        extra_keys = ['im_info', 'im_id', 'im_shape']
    if cfg['metric'] == 'VOC' or cfg['metric'] == 'WIDERFACE':
        extra_keys = ['im_id', 'im_shape']
    keys, values, _ = parse_fetches(test_fetches, infer_prog, extra_keys)

    # parse dataset category
    if cfg.metric == 'COCO':
        from ppdet.utils.coco_eval import bbox2out, mask2out, segm2out, get_category_info
    if cfg.metric == 'OID':
        from ppdet.utils.oid_eval import bbox2out, get_category_info
    if cfg.metric == "VOC":
        from ppdet.utils.voc_eval import bbox2out, get_category_info
    if cfg.metric == "WIDERFACE":
        from ppdet.utils.widerface_eval_utils import bbox2out, lmk2out, get_category_info

    anno_file = dataset.get_anno()
    with_background = dataset.with_background
    use_default_label = dataset.use_default_label

    clsid2catid, catid2name = get_category_info(anno_file, with_background,
                                                use_default_label)

    # whether output bbox is normalized in model output layer
    is_bbox_normalized = False
    if hasattr(model, 'is_bbox_normalized') and \
            callable(model.is_bbox_normalized):
        is_bbox_normalized = model.is_bbox_normalized()

    # use VisualDL to log image
    if FLAGS.use_vdl:
        assert six.PY3, "VisualDL requires Python >= 3.5"
        from visualdl import LogWriter
        vdl_writer = LogWriter(FLAGS.vdl_log_dir)
        vdl_image_step = 0
        vdl_image_frame = 0  # each frame can display ten pictures at most.

    imid2path = dataset.get_imid2path()
    for iter_id, data in enumerate(loader()):
        outs = exe.run(infer_prog,
                       feed=data,
                       fetch_list=values,
                       return_numpy=False)
        res = {
            k: (np.array(v), v.recursive_sequence_lengths())
            for k, v in zip(keys, outs)
        }
        logger.info('Infer iter {}'.format(iter_id))
        if 'TTFNet' in cfg.architecture:
            res['bbox'][1].append([len(res['bbox'][0])])
        if 'CornerNet' in cfg.architecture:
            from ppdet.utils.post_process import corner_post_process
            post_config = getattr(cfg, 'PostProcess', None)
            corner_post_process(res, post_config, cfg.num_classes)

        bbox_results = None
        mask_results = None
        segm_results = None
        lmk_results = None
        if 'bbox' in res:
            bbox_results = bbox2out([res], clsid2catid, is_bbox_normalized)
        if 'mask' in res:
            mask_results = mask2out([res], clsid2catid,
                                    model.mask_head.resolution)
        if 'segm' in res:
            segm_results = segm2out([res], clsid2catid)
        if 'landmark' in res:
            lmk_results = lmk2out([res], is_bbox_normalized)

        # visualize result
        im_ids = res['im_id'][0]
        for im_id in im_ids:
            image_path = imid2path[int(im_id)]
            image = Image.open(image_path).convert('RGB')
            image = ImageOps.exif_transpose(image)

            # use VisualDL to log original image
            if FLAGS.use_vdl:
                original_image_np = np.array(image)
                vdl_writer.add_image(
                    "original/frame_{}".format(vdl_image_frame),
                    original_image_np, vdl_image_step)

            image = visualize_results(image, int(im_id), catid2name,
                                      FLAGS.draw_threshold, bbox_results,
                                      mask_results, segm_results, lmk_results)

            # use VisualDL to log image with bbox
            if FLAGS.use_vdl:
                infer_image_np = np.array(image)
                vdl_writer.add_image("bbox/frame_{}".format(vdl_image_frame),
                                     infer_image_np, vdl_image_step)
                vdl_image_step += 1
                if vdl_image_step % 10 == 0:
                    vdl_image_step = 0
                    vdl_image_frame += 1

            save_name = get_save_image_name(FLAGS.output_dir, image_path)
            logger.info("Detection bbox results save in {}".format(save_name))
            image.save(save_name, quality=95)