update humanseg_lite (#2181)

e301f567 · jm_12138 · GitHub · 3b20f676 · e301f567 · e301f567
6 changed file
--- a/modules/image/semantic_segmentation/humanseg_lite/README.md
+++ b/modules/image/semantic_segmentation/humanseg_lite/README.md
@@ -226,6 +226,9 @@
        cv2.imwrite("segment_human_lite.png", rgba)
        ```
+- ### Gradio APP 支持
+    从 PaddleHub 2.3.1 开始支持使用链接 http://127.0.0.1:8866/gradio/humanseg_lite 在浏览器中访问 humanseg_lite 的 Gradio APP。
 ## 五、更新历史
@@ -247,6 +250,10 @@
    移除 Fluid API
+* 1.3.0
+    添加 Gradio APP 支持
    ```shell
-    $ hub install humanseg_lite == 1.2.0
+    $ hub install humanseg_lite == 1.3.0
    ```
--- a/modules/image/semantic_segmentation/humanseg_lite/README_en.md
+++ b/modules/image/semantic_segmentation/humanseg_lite/README_en.md
@@ -230,6 +230,8 @@
            cv2.imwrite("segment_human_lite.png", rgba)
            ```
+- ### Gradio APP support
+   Starting with PaddleHub 2.3.1, the Gradio APP for humanseg_lite is supported to be accessed in the browser using the link http://127.0.0.1:8866/gradio/humanseg_lite.
 ## V. Release Note
@@ -251,6 +253,10 @@
    Remove Fluid API
+* 1.3.0
+    Add Gradio APP support.
    ```shell
-    $ hub install humanseg_lite == 1.2.0
+    $ hub install humanseg_lite == 1.3.0
    ```
--- a/modules/image/semantic_segmentation/humanseg_lite/module.py
+++ b/modules/image/semantic_segmentation/humanseg_lite/module.py
@@ -12,32 +12,39 @@
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
+import argparse
 import ast
 import os
 import os.path as osp
-import argparse
 import cv2
 import numpy as np
-import paddle
 import paddle.jit
 import paddle.static
-from paddle.inference import Config, create_predictor
+from paddle.inference import Config
-from paddlehub.module.module import moduleinfo, runnable, serving
+from paddle.inference import create_predictor
-from .processor import postprocess, base64_to_cv2, cv2_to_base64, check_dir
+from .data_feed import preprocess_v
-from .data_feed import reader, preprocess_v
+from .data_feed import reader
-from .optimal import postprocess_v, threshold_mask
+from .optimal import postprocess_v
+from .optimal import threshold_mask
+from .processor import base64_to_cv2
-@moduleinfo(
+from .processor import check_dir
-    name="humanseg_lite",
+from .processor import cv2_to_base64
+from .processor import postprocess
+from paddlehub.module.module import moduleinfo
+from paddlehub.module.module import runnable
+from paddlehub.module.module import serving
+@moduleinfo(name="humanseg_lite",
            type="CV/semantic_segmentation",
            author="paddlepaddle",
            author_email="",
            summary="humanseg_lite is a semantic segmentation model.",
-    version="1.2.0")
+            version="1.3.0")
 class ShufflenetHumanSeg:
    def __init__(self):
        self.default_pretrained_model_path = os.path.join(self.directory, "humanseg_lite_inference", "model")
        self._set_config()
@@ -46,8 +53,8 @@ class ShufflenetHumanSeg:
        """
        predictor config setting
        """
-        model = self.default_pretrained_model_path+'.pdmodel'
+        model = self.default_pretrained_model_path + '.pdmodel'
-        params = self.default_pretrained_model_path+'.pdiparams'
+        params = self.default_pretrained_model_path + '.pdiparams'
        cpu_config = Config(model, params)
        cpu_config.disable_glog_info()
        cpu_config.disable_gpu()
@@ -134,8 +141,7 @@ class ShufflenetHumanSeg:
            output = np.expand_dims(output[:, 1, :, :], axis=1)
            # postprocess one by one
            for i in range(len(batch_data)):
-                out = postprocess(
+                out = postprocess(data_out=output[i],
-                    data_out=output[i],
                                  org_im=batch_data[i]['org_im'],
                                  org_im_shape=batch_data[i]['org_im_shape'],
                                  org_im_path=batch_data[i]['org_im_path'],
@@ -327,8 +333,7 @@ class ShufflenetHumanSeg:
        """
        Run as a command.
        """
-        self.parser = argparse.ArgumentParser(
+        self.parser = argparse.ArgumentParser(description="Run the {} module.".format(self.name),
-            description="Run the {} module.".format(self.name),
                                              prog='hub run {}'.format(self.name),
                                              usage='%(prog)s',
                                              add_help=True)
@@ -339,8 +344,7 @@ class ShufflenetHumanSeg:
        self.add_module_config_arg()
        self.add_module_input_arg()
        args = self.parser.parse_args(argvs)
-        results = self.segment(
+        results = self.segment(paths=[args.input_path],
-            paths=[args.input_path],
                               batch_size=args.batch_size,
                               use_gpu=args.use_gpu,
                               output_dir=args.output_dir,
@@ -355,14 +359,22 @@ class ShufflenetHumanSeg:
        """
        Add the command config options.
        """
-        self.arg_config_group.add_argument(
+        self.arg_config_group.add_argument('--use_gpu',
-            '--use_gpu', type=ast.literal_eval, default=False, help="whether use GPU or not")
+                                           type=ast.literal_eval,
-        self.arg_config_group.add_argument(
+                                           default=False,
-            '--output_dir', type=str, default='humanseg_lite_output', help="The directory to save output images.")
+                                           help="whether use GPU or not")
-        self.arg_config_group.add_argument(
+        self.arg_config_group.add_argument('--output_dir',
-            '--save_dir', type=str, default='humanseg_lite_model', help="The directory to save model.")
+                                           type=str,
-        self.arg_config_group.add_argument(
+                                           default='humanseg_lite_output',
-            '--visualization', type=ast.literal_eval, default=False, help="whether to save output as images.")
+                                           help="The directory to save output images.")
+        self.arg_config_group.add_argument('--save_dir',
+                                           type=str,
+                                           default='humanseg_lite_model',
+                                           help="The directory to save model.")
+        self.arg_config_group.add_argument('--visualization',
+                                           type=ast.literal_eval,
+                                           default=False,
+                                           help="whether to save output as images.")
        self.arg_config_group.add_argument('--batch_size', type=ast.literal_eval, default=1, help="batch size.")
    def add_module_input_arg(self):
@@ -371,33 +383,20 @@ class ShufflenetHumanSeg:
        """
        self.arg_input_group.add_argument('--input_path', type=str, help="path to image.")
+    def create_gradio_app(self):
-if __name__ == "__main__":
+        import gradio as gr
-    m = ShufflenetHumanSeg()
+        import tempfile
-    #shuffle.video_segment()
+        import os
-    img = cv2.imread('photo.jpg')
+        from PIL import Image
-    # res = m.segment(images=[img], visualization=True)
-    # print(res[0]['data'])
+        def inference(image, use_gpu=False):
-    # m.video_segment('')
+            with tempfile.TemporaryDirectory() as temp_dir:
-    cap_video = cv2.VideoCapture('video_test.mp4')
+                self.segment(paths=[image], use_gpu=use_gpu, visualization=True, output_dir=temp_dir)
-    fps = cap_video.get(cv2.CAP_PROP_FPS)
+                return Image.open(os.path.join(temp_dir, os.listdir(temp_dir)[0]))
-    save_path = 'result_frame.avi'
-    width = int(cap_video.get(cv2.CAP_PROP_FRAME_WIDTH))
+        interface = gr.Interface(
-    height = int(cap_video.get(cv2.CAP_PROP_FRAME_HEIGHT))
+            inference,
-    cap_out = cv2.VideoWriter(save_path, cv2.VideoWriter_fourcc('M', 'J', 'P', 'G'), fps, (width, height))
+            [gr.inputs.Image(type="filepath"), gr.Checkbox(label='use_gpu')],
-    prev_gray = None
+            gr.outputs.Image(type="ndarray"),
-    prev_cfd = None
+            title='humanseg_lite')
-    while cap_video.isOpened():
+        return interface
-        ret, frame_org = cap_video.read()
-        if ret:
-            [img_matting, prev_gray, prev_cfd] = m.video_stream_segment(
-                frame_org=frame_org, frame_id=cap_video.get(1), prev_gray=prev_gray, prev_cfd=prev_cfd)
-            img_matting = np.repeat(img_matting[:, :, np.newaxis], 3, axis=2)
-            bg_im = np.ones_like(img_matting) * 255
-            comb = (img_matting * frame_org + (1 - img_matting) * bg_im).astype(np.uint8)
-            cap_out.write(comb)
-        else:
-            break
-    cap_video.release()
-    cap_out.release()
--- a/modules/image/semantic_segmentation/humanseg_lite/optimal.py
+++ b/modules/image/semantic_segmentation/humanseg_lite/optimal.py
@@ -32,8 +32,8 @@ def human_seg_tracking(pre_gray, cur_gray, prev_cfd, dl_weights, disflow):
    # 超出边界不跟踪
    not_track = (cur_x < 0) + (cur_x >= w) + (cur_y < 0) + (cur_y >= h)
    flow_bw[~not_track] = flow_bw[cur_y[~not_track], cur_x[~not_track]]
-    not_track += (
+    not_track += (np.square(flow_fw[:, :, 0] + flow_bw[:, :, 0]) +
-        np.square(flow_fw[:, :, 0] + flow_bw[:, :, 0]) + np.square(flow_fw[:, :, 1] + flow_bw[:, :, 1])) >= check_thres
+                  np.square(flow_fw[:, :, 1] + flow_bw[:, :, 1])) >= check_thres
    track_cfd[cur_y[~not_track], cur_x[~not_track]] = prev_cfd[~not_track]
    is_track[cur_y[~not_track], cur_x[~not_track]] = 1

--- a/modules/image/semantic_segmentation/humanseg_lite/processor.py
+++ b/modules/image/semantic_segmentation/humanseg_lite/processor.py
 # -*- coding:utf-8 -*-
+import base64
 import os
 import time
-import base64
 import cv2
 import numpy as np

--- a/modules/image/semantic_segmentation/humanseg_lite/test.py
+++ b/modules/image/semantic_segmentation/humanseg_lite/test.py
@@ -3,15 +3,16 @@ import shutil
 import unittest
 import cv2
-import requests
 import numpy as np
-import paddlehub as hub
+import requests
+import paddlehub as hub
 os.environ['CUDA_VISIBLE_DEVICES'] = '0'
 class TestHubModule(unittest.TestCase):
    @classmethod
    def setUpClass(cls) -> None:
        img_url = 'https://unsplash.com/photos/pg_WCHWSdT8/download?ixid=MnwxMjA3fDB8MXxhbGx8fHx8fHx8fHwxNjYyNDM2ODI4&force=true&w=640'
@@ -23,8 +24,7 @@ class TestHubModule(unittest.TestCase):
            f.write(response.content)
        fourcc = cv2.VideoWriter_fourcc('M', 'J', 'P', 'G')
        img = cv2.imread('tests/test.jpg')
-        video = cv2.VideoWriter('tests/test.avi', fourcc,
+        video = cv2.VideoWriter('tests/test.avi', fourcc, 20.0, tuple(img.shape[:2]))
-                                20.0, tuple(img.shape[:2]))
        for i in range(40):
            video.write(img)
        video.release()
@@ -38,101 +38,65 @@ class TestHubModule(unittest.TestCase):
        shutil.rmtree('humanseg_lite_video_result')
    def test_segment1(self):
-        results = self.module.segment(
+        results = self.module.segment(paths=['tests/test.jpg'], use_gpu=False, visualization=False)
-            paths=['tests/test.jpg'],
-            use_gpu=False,
-            visualization=False
-        )
        self.assertIsInstance(results[0]['data'], np.ndarray)
    def test_segment2(self):
-        results = self.module.segment(
+        results = self.module.segment(images=[cv2.imread('tests/test.jpg')], use_gpu=False, visualization=False)
-            images=[cv2.imread('tests/test.jpg')],
-            use_gpu=False,
-            visualization=False
-        )
        self.assertIsInstance(results[0]['data'], np.ndarray)
    def test_segment3(self):
-        results = self.module.segment(
+        results = self.module.segment(images=[cv2.imread('tests/test.jpg')], use_gpu=False, visualization=True)
-            images=[cv2.imread('tests/test.jpg')],
-            use_gpu=False,
-            visualization=True
-        )
        self.assertIsInstance(results[0]['data'], np.ndarray)
    def test_segment4(self):
-        results = self.module.segment(
+        results = self.module.segment(images=[cv2.imread('tests/test.jpg')], use_gpu=True, visualization=False)
-            images=[cv2.imread('tests/test.jpg')],
-            use_gpu=True,
-            visualization=False
-        )
        self.assertIsInstance(results[0]['data'], np.ndarray)
    def test_segment5(self):
-        self.assertRaises(
+        self.assertRaises(AssertionError, self.module.segment, paths=['no.jpg'])
-            AssertionError,
-            self.module.segment,
-            paths=['no.jpg']
-        )
    def test_segment6(self):
-        self.assertRaises(
+        self.assertRaises(AttributeError, self.module.segment, images=['test.jpg'])
-            AttributeError,
-            self.module.segment,
-            images=['test.jpg']
-        )
    def test_video_stream_segment1(self):
-        img_matting, cur_gray, optflow_map = self.module.video_stream_segment(
+        img_matting, cur_gray, optflow_map = self.module.video_stream_segment(frame_org=cv2.imread('tests/test.jpg'),
-            frame_org=cv2.imread('tests/test.jpg'),
                                                                              frame_id=1,
                                                                              prev_gray=None,
                                                                              prev_cfd=None,
-            use_gpu=False
+                                                                              use_gpu=False)
-        )
        self.assertIsInstance(img_matting, np.ndarray)
        self.assertIsInstance(cur_gray, np.ndarray)
        self.assertIsInstance(optflow_map, np.ndarray)
-        img_matting, cur_gray, optflow_map = self.module.video_stream_segment(
+        img_matting, cur_gray, optflow_map = self.module.video_stream_segment(frame_org=cv2.imread('tests/test.jpg'),
-            frame_org=cv2.imread('tests/test.jpg'),
                                                                              frame_id=2,
                                                                              prev_gray=cur_gray,
                                                                              prev_cfd=optflow_map,
-            use_gpu=False
+                                                                              use_gpu=False)
-        )
        self.assertIsInstance(img_matting, np.ndarray)
        self.assertIsInstance(cur_gray, np.ndarray)
        self.assertIsInstance(optflow_map, np.ndarray)
    def test_video_stream_segment2(self):
-        img_matting, cur_gray, optflow_map = self.module.video_stream_segment(
+        img_matting, cur_gray, optflow_map = self.module.video_stream_segment(frame_org=cv2.imread('tests/test.jpg'),
-            frame_org=cv2.imread('tests/test.jpg'),
                                                                              frame_id=1,
                                                                              prev_gray=None,
                                                                              prev_cfd=None,
-            use_gpu=True
+                                                                              use_gpu=True)
-        )
        self.assertIsInstance(img_matting, np.ndarray)
        self.assertIsInstance(cur_gray, np.ndarray)
        self.assertIsInstance(optflow_map, np.ndarray)
-        img_matting, cur_gray, optflow_map = self.module.video_stream_segment(
+        img_matting, cur_gray, optflow_map = self.module.video_stream_segment(frame_org=cv2.imread('tests/test.jpg'),
-            frame_org=cv2.imread('tests/test.jpg'),
                                                                              frame_id=2,
                                                                              prev_gray=cur_gray,
                                                                              prev_cfd=optflow_map,
-            use_gpu=True
+                                                                              use_gpu=True)
-        )
        self.assertIsInstance(img_matting, np.ndarray)
        self.assertIsInstance(cur_gray, np.ndarray)
        self.assertIsInstance(optflow_map, np.ndarray)
    def test_video_segment1(self):
-        self.module.video_segment(
+        self.module.video_segment(video_path="tests/test.avi", use_gpu=False, save_dir='humanseg_lite_video_result')
-            video_path="tests/test.avi",
-            use_gpu=False,
-            save_dir='humanseg_lite_video_result'
-        )
    def test_save_inference_model(self):
        self.module.save_inference_model('./inference/model')