!13159 delete image_meta in ctpn eval process

From: @qujianwei
Reviewed-by: @wuxuejian,@c_34
Signed-off-by: @c_34

model_zoo/official/cv/ctpn/eval.py

@@ -65,7 +65,7 @@ def ctpn_infer_test(dataset_path='', ckpt_path='', img_dir=''):
 
         start = time.time()
         # run net
-        output = net(img_data, img_metas, gt_bboxes, gt_labels, gt_num)
+        output = net(img_data, gt_bboxes, gt_labels, gt_num)
         gt_bboxes = gt_bboxes.asnumpy()
         gt_labels = gt_labels.asnumpy()
         gt_num = gt_num.asnumpy().astype(bool)

model_zoo/official/cv/ctpn/src/ctpn.py

@@ -119,19 +119,14 @@ class CTPN(nn.Cell):
                                                 config.activate_num_classes,
                                                 config.use_sigmoid_cls)
         self.proposal_generator_test.set_train_local(config, False)
-    def construct(self, img_data, img_metas, gt_bboxes, gt_labels, gt_valids):
-        # (1,3,600,900)
+    def construct(self, img_data, gt_bboxes, gt_labels, gt_valids, img_metas=None):
         x = self.vgg16_feature_extractor(img_data)
         x = self.conv(x)
         x = self.cast(x, mstype.float16)
-        # (1, 512, 38, 57)
         x = self.transpose(x, (0, 2, 1, 3))
         x = self.reshape(x, (-1, self.input_size, self.num_step))
         x = self.transpose(x, (2, 0, 1))
-        # (57, 38, 512)
         x = self.rnn(x)
-        # (57, 38, 256)
-        #x = self.cast(x, mstype.float32)
         rpn_loss, cls_score, bbox_pred, rpn_cls_loss, rpn_reg_loss = self.rpn_with_loss(x,
                                                                                         img_metas,
                                                                                         self.anchor_list,

model_zoo/official/cv/ctpn/src/dataset.py

@@ -15,7 +15,6 @@
 
 """CTPN dataset"""
 from __future__ import division
-import os
 import numpy as np
 from numpy import random
 import mmcv
@@ -23,7 +22,6 @@ import mindspore.dataset as de
 import mindspore.dataset.vision.c_transforms as C
 import mindspore.dataset.transforms.c_transforms as CC
 import mindspore.common.dtype as mstype
-from mindspore.mindrecord import FileWriter
 from src.config import config
 
 class PhotoMetricDistortion:
@@ -98,7 +96,7 @@ class Expand:
         boxes += np.tile((left, top), 2)
         return img, boxes, labels
 
-def rescale_column(img, img_shape, gt_bboxes, gt_label, gt_num):
+def rescale_column(img, gt_bboxes, gt_label, gt_num, img_shape):
     """rescale operation for image"""
     img_data, scale_factor = mmcv.imrescale(img, (config.img_width, config.img_height), return_scale=True)
     if img_data.shape[0] > config.img_height:
@@ -112,10 +110,10 @@ def rescale_column(img, img_shape, gt_bboxes, gt_label, gt_num):
         gt_bboxes[:, 0::2] = np.clip(gt_bboxes[:, 0::2], 0, img_shape[1] - 1)
         gt_bboxes[:, 1::2] = np.clip(gt_bboxes[:, 1::2], 0, img_shape[0] - 1)
 
-    return (img_data, img_shape, gt_bboxes, gt_label, gt_num)
+    return (img_data, gt_bboxes, gt_label, gt_num, img_shape)
 
 
-def resize_column(img, img_shape, gt_bboxes, gt_label, gt_num):
+def resize_column(img, gt_bboxes, gt_label, gt_num, img_shape):
     """resize operation for image"""
     img_data = img
     img_data, w_scale, h_scale = mmcv.imresize(
@@ -129,10 +127,10 @@ def resize_column(img, img_shape, gt_bboxes, gt_label, gt_num):
     gt_bboxes[:, 0::2] = np.clip(gt_bboxes[:, 0::2], 0, img_shape[1] - 1)
     gt_bboxes[:, 1::2] = np.clip(gt_bboxes[:, 1::2], 0, img_shape[0] - 1)
 
-    return (img_data, img_shape, gt_bboxes, gt_label, gt_num)
+    return (img_data, gt_bboxes, gt_label, gt_num, img_shape)
 
 
-def resize_column_test(img, img_shape, gt_bboxes, gt_label, gt_num):
+def resize_column_test(img, gt_bboxes, gt_label, gt_num, img_shape):
     """resize operation for image of eval"""
     img_data = img
     img_data, w_scale, h_scale = mmcv.imresize(
@@ -149,34 +147,34 @@ def resize_column_test(img, img_shape, gt_bboxes, gt_label, gt_num):
     gt_bboxes[:, 0::2] = np.clip(gt_bboxes[:, 0::2], 0, img_shape[1] - 1)
     gt_bboxes[:, 1::2] = np.clip(gt_bboxes[:, 1::2], 0, img_shape[0] - 1)
 
-    return (img_data, img_shape, gt_bboxes, gt_label, gt_num)
+    return (img_data, gt_bboxes, gt_label, gt_num, img_shape)
 
-def flipped_generation(img, img_shape, gt_bboxes, gt_label, gt_num):
+def flipped_generation(img, gt_bboxes, gt_label, gt_num, img_shape):
     """flipped generation"""
     img_data = img
     flipped = gt_bboxes.copy()
     _, w, _ = img_data.shape
     flipped[..., 0::4] = w - gt_bboxes[..., 2::4] - 1
     flipped[..., 2::4] = w - gt_bboxes[..., 0::4] - 1
-    return (img_data, img_shape, flipped, gt_label, gt_num)
+    return (img_data, flipped, gt_label, gt_num, img_shape)
 
-def image_bgr_rgb(img, img_shape, gt_bboxes, gt_label, gt_num):
+def image_bgr_rgb(img, gt_bboxes, gt_label, gt_num, img_shape):
     img_data = img[:, :, ::-1]
-    return (img_data, img_shape, gt_bboxes, gt_label, gt_num)
+    return (img_data, gt_bboxes, gt_label, gt_num, img_shape)
 
-def photo_crop_column(img, img_shape, gt_bboxes, gt_label, gt_num):
+def photo_crop_column(img, gt_bboxes, gt_label, gt_num, img_shape):
     """photo crop operation for image"""
     random_photo = PhotoMetricDistortion()
     img_data, gt_bboxes, gt_label = random_photo(img, gt_bboxes, gt_label)
 
-    return (img_data, img_shape, gt_bboxes, gt_label, gt_num)
+    return (img_data, gt_bboxes, gt_label, gt_num, img_shape)
 
-def expand_column(img, img_shape, gt_bboxes, gt_label, gt_num):
+def expand_column(img, gt_bboxes, gt_label, gt_num, img_shape):
     """expand operation for image"""
     expand = Expand()
     img, gt_bboxes, gt_label = expand(img, gt_bboxes, gt_label)
 
-    return (img, img_shape, gt_bboxes, gt_label, gt_num)
+    return (img, gt_bboxes, gt_label, gt_num, img_shape)
 
 def split_gtbox_label(gt_bbox_total):
     """split ground truth box label"""
@@ -193,7 +191,7 @@ def split_gtbox_label(gt_bbox_total):
             gtbox_list.append([x0, gt_bbox[1], x0+15, gt_bbox[3], 1])
     return np.array(gtbox_list)
 
-def pad_label(img, img_shape, gt_bboxes, gt_label, gt_valid):
+def pad_label(img, gt_bboxes, gt_label, gt_valid, img_shape):
     """pad ground truth label"""
     pad_max_number = 256
     gt_label = gt_bboxes[:, 4]
@@ -208,13 +206,13 @@ def pad_label(img, img_shape, gt_bboxes, gt_label, gt_valid):
         gt_box = gt_bboxes[0:pad_max_number]
         gt_label = gt_label[0:pad_max_number]
         gt_valid = gt_valid[0:pad_max_number]
-    return (img, img_shape, gt_box[:, :4], gt_label, gt_valid)
+    return (img, gt_box[:, :4], gt_label, gt_valid, img_shape)
 
 def preprocess_fn(image, box, is_training):
     """Preprocess function for dataset."""
-    def _infer_data(image_bgr, image_shape, gt_box_new, gt_label_new, gt_valid):
+    def _infer_data(image_bgr, gt_box_new, gt_label_new, gt_valid, image_shape):
         image_shape = image_shape[:2]
-        input_data = image_bgr, image_shape, gt_box_new, gt_label_new, gt_valid
+        input_data = image_bgr, gt_box_new, gt_label_new, gt_valid, image_shape
         if config.keep_ratio:
             input_data = rescale_column(*input_data)
         else:
@@ -234,9 +232,9 @@ def preprocess_fn(image, box, is_training):
         gt_box = box[:, :4]
         gt_label = box[:, 4]
         gt_valid = box[:, 4]
-        input_data = image_bgr, image_shape, gt_box, gt_label, gt_valid
+        input_data = image_bgr, gt_box, gt_label, gt_valid, image_shape
         if not is_training:
-            return _infer_data(image_bgr, image_shape, gt_box, gt_label, gt_valid)
+            return _infer_data(image_bgr, gt_box, gt_label, gt_valid, image_shape)
         expand = (np.random.rand() < config.expand_ratio)
         if expand:
             input_data = expand_column(*input_data)
@@ -260,46 +258,6 @@ def anno_parser(annos_str):
         annos.append(anno)
     return annos
 
-def filter_valid_data(image_dir, anno_path):
-    """Filter valid image file, which both in image_dir and anno_path."""
-    image_files = []
-    image_anno_dict = {}
-    if not os.path.isdir(image_dir):
-        raise RuntimeError("Path given is not valid.")
-    if not os.path.isfile(anno_path):
-        raise RuntimeError("Annotation file is not valid.")
-
-    with open(anno_path, "rb") as f:
-        lines = f.readlines()
-    for line in lines:
-        line_str = line.decode("utf-8").strip()
-        line_split = str(line_str).split(' ')
-        file_name = line_split[0]
-        image_path = os.path.join(image_dir, file_name)
-        if os.path.isfile(image_path):
-            image_anno_dict[image_path] = anno_parser(line_split[1:])
-            image_files.append(image_path)
-    return image_files, image_anno_dict
-
-def data_to_mindrecord_byte_image(is_training=True, prefix="cptn_mlt.mindrecord", file_num=8):
-    """Create MindRecord file."""
-    mindrecord_dir = config.mindrecord_dir
-    mindrecord_path = os.path.join(mindrecord_dir, prefix)
-    writer = FileWriter(mindrecord_path, file_num)
-    image_files, image_anno_dict = create_icdar_test_label()
-    ctpn_json = {
-        "image": {"type": "bytes"},
-        "annotation": {"type": "int32", "shape": [-1, 6]},
-    }
-    writer.add_schema(ctpn_json, "ctpn_json")
-    for image_name in image_files:
-        with open(image_name, 'rb') as f:
-            img = f.read()
-        annos = np.array(image_anno_dict[image_name], dtype=np.int32)
-        row = {"image": img, "annotation": annos}
-        writer.write_raw_data([row])
-    writer.commit()
-
 def create_ctpn_dataset(mindrecord_file, batch_size=1, repeat_num=1, device_num=1, rank_id=0,
                         is_training=True, num_parallel_workers=12):
     """Creatr ctpn dataset with MindDataset."""
@@ -316,8 +274,8 @@ def create_ctpn_dataset(mindrecord_file, batch_size=1, repeat_num=1, device_num=
     type_cast3 = CC.TypeCast(mstype.bool_)
     if is_training:
         ds = ds.map(operations=compose_map_func, input_columns=["image", "annotation"],
-                    output_columns=["image", "image_shape", "box", "label", "valid_num"],
-                    column_order=["image", "image_shape", "box", "label", "valid_num"],
+                    output_columns=["image", "box", "label", "valid_num", "image_shape"],
+                    column_order=["image", "box", "label", "valid_num", "image_shape"],
                     num_parallel_workers=num_parallel_workers,
                     python_multiprocessing=True)
         ds = ds.map(operations=[normalize_op, type_cast0], input_columns=["image"],
@@ -329,8 +287,8 @@ def create_ctpn_dataset(mindrecord_file, batch_size=1, repeat_num=1, device_num=
     else:
         ds = ds.map(operations=compose_map_func,
                     input_columns=["image", "annotation"],
-                    output_columns=["image", "image_shape", "box", "label", "valid_num"],
-                    column_order=["image", "image_shape", "box", "label", "valid_num"],
+                    output_columns=["image", "box", "label", "valid_num", "image_shape"],
+                    column_order=["image", "box", "label", "valid_num", "image_shape"],
                     num_parallel_workers=num_parallel_workers,
                     python_multiprocessing=True)
 

model_zoo/official/cv/ctpn/src/network_define.py

@@ -99,8 +99,8 @@ class WithLossCell(nn.Cell):
         self._backbone = backbone
         self._loss_fn = loss_fn
 
-    def construct(self, x, img_shape, gt_bboxe, gt_label, gt_num):
-        rpn_loss, _, _, rpn_cls_loss, rpn_reg_loss = self._backbone(x, img_shape, gt_bboxe, gt_label, gt_num)
+    def construct(self, x, gt_bbox, gt_label, gt_num, img_shape=None):
+        rpn_loss, _, _, rpn_cls_loss, rpn_reg_loss = self._backbone(x, gt_bbox, gt_label, gt_num, img_shape)
         return self._loss_fn(rpn_loss, rpn_cls_loss, rpn_reg_loss)
 
     @property
@@ -144,10 +144,10 @@ class TrainOneStepCell(nn.Cell):
         if reduce_flag:
             self.grad_reducer = DistributedGradReducer(optimizer.parameters, mean, degree)
 
-    def construct(self, x, img_shape, gt_bboxe, gt_label, gt_num):
+    def construct(self, x, gt_bbox, gt_label, gt_num, img_shape=None):
         weights = self.weights
-        rpn_loss, _, _, rpn_cls_loss, rpn_reg_loss = self.backbone(x, img_shape, gt_bboxe, gt_label, gt_num)
-        grads = self.grad(self.network, weights)(x, img_shape, gt_bboxe, gt_label, gt_num, self.sens)
+        rpn_loss, _, _, rpn_cls_loss, rpn_reg_loss = self.backbone(x, gt_bbox, gt_label, gt_num, img_shape)
+        grads = self.grad(self.network, weights)(x, gt_bbox, gt_label, gt_num, img_shape, self.sens)
         if self.reduce_flag:
             grads = self.grad_reducer(grads)
         return F.depend(rpn_loss, self.optimizer(grads)), rpn_cls_loss, rpn_reg_loss