示例#1
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    def _detectBoxer(self, name_img_tuple):
        result, object_detected_list = self._boxer_detector.detect(
            name_img_tuple[1])
        imgobj = ImageCV(name_img_tuple[1])
        for object_detected in object_detected_list:
            object_detected.bbox = imgobj.normRectToAbsRect(
                object_detected.bbox, 1)

        if self.show:
            bbox_rect_label = [
                (detected.bbox,
                 f"{detected.class_name}:{i}: {str(100 * detected.score)[:5]}%"
                 ) for i, detected in enumerate(object_detected_list)
            ]
            imgobj.setTitle(
                f'{name_img_tuple[0]}:boxer_detect_result:').drawBboxes(
                    bbox_rect_label, copy=True).show()
        return result, object_detected_list
示例#2
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文件: video.py 项目: ZDL-Git/PyZDL 
 def readFrame(self,
               index: int,
               need_type: Union[ImageCV, np.ndarray] = ImageCV):
     cap = cv2.VideoCapture(self.fname)
     cap.set(cv2.CAP_PROP_POS_FRAMES, index)
     _, f = cap.read()
     if need_type == ImageCV:
         return ImageCV(f, title=index)
     else:
         return f
示例#3
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    def _estimatePose(self, name_img_tuple):
        poses, datum = self._processImg(name_img_tuple[1])

        if self.show:
            center_points = Poses(
                datum.poseKeypoints,
                self._pose_estimator.pose_type).centers(need_type=tuple)
            ImageCV(datum.cvOutputData).drawPoints(center_points, copy=False)
            self._showIfEnabled(
                datum.cvOutputData,
                title=f'{name_img_tuple[0]}:pose_estimate_result')
        return datum
示例#4
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文件: video.py 项目: ZDL-Git/PyZDL 
 def compare(pre, cur):
     pre_obj = ImageCV(pre[1], pre[0])
     cur_obj = ImageCV(cur[1], cur[0])
     distance = pre_obj.distanceHist(cur_obj,
                                     method=sci_dist.euclidean,
                                     gray=False,
                                     show=False)[-1]
     distances.append([pre[0], cur[0], distance])
     if distance >= threshold:
         sections[-1][-1] = pre[0]
         sections.append([cur[0], None])
         if log:
             print(
                 f'[{pre[0]}]<->[{cur[0]}] distance: {distance}, threshold: {threshold}'
             )
         if show:
             pre_obj.show()
             cur_obj.show()
     del pre_obj, cur_obj
     return cur
示例#5
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class BoxingAIImage(BoxingAI):
    def __init__(self, path):
        assert os.path.isfile(path)
        super().__init__()
        self.media = ImageCV(path)
        self.queue_name_img_tuple = Queue(maxsize=2)

    def _startProducingImgs(self):
        img = self.media.org()
        base_name = os.path.basename(self.media.fname)
        # self.require_show(img,title=f'{base_name}:org')
        img = self._execPrepHooks(img, base_name)
        # ImageCV(img,'testing').show()
        self.queue_name_img_tuple.put((base_name, img))
        self.queue_name_img_tuple.put('DONE')

    def _connectAndSmoothPoses(self, all_poses, smooth):
        return all_poses
示例#6
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文件: openpose.py 项目: ZDL-Git/PyZDL 
 def showState(self):
     logger.debug(self.poseKeypoints)
     ImageCV(self.cvInputData, 'cvInputData').show()
     ImageCV(self.cvOutputData, 'cvOutputData').show()
示例#7
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文件: openpose.py 项目: ZDL-Git/PyZDL 
 def showCvOut(self):
     ImageCV(self.cvOutputData, self.title).show()
示例#8
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文件: openpose.py 项目: ZDL-Git/PyZDL 
 def show(self, img, title=None):
     ImageCV(img, title).show()
示例#9
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 def __init__(self, path):
     assert os.path.isfile(path)
     super().__init__()
     self.media = ImageCV(path)
     self.queue_name_img_tuple = Queue(maxsize=2)
示例#10
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 def _showIfEnabled(self, img, title=None):
     if self.show: ImageCV(img, title).show()
示例#11
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    def _genMainProcess(self, max_people_num, heuristic, smooth):
        # img_shape = self.media.getInfo()['shape']
        # act_recg1 = ActionRecognizer(self.pose_estimator_env[0]['model_pose'],img_shape)
        # act_recg2 = ActionRecognizer(self.pose_estimator_env[0]['model_pose'],img_shape)
        while True:
            got = self.queue_name_img_tuple.get()
            if got == 'DONE': break
            if heuristic:
                _, object_detected_list = self._detectBoxer(got)
                img_obj = ImageCV(got[1], title=got[0])
                dilate_ratio = 1.1
                roi_datum_tuple_list = []
                boxer_id_score_to_every_pose = []
                for i, b in enumerate(object_detected_list):
                    roi_rect = img_obj.rectDilate(b.bbox, dilate_ratio)
                    boxer_roi_img = img_obj.roiCopy(roi_rect).org()
                    datum = self._estimatePose(
                        (f'{got[0]}:boxer {i} (dilate_ratio {dilate_ratio})',
                         boxer_roi_img))
                    roi_datum_tuple_list.append((roi_rect, datum))
                    boxer_id_score_to_every_pose += [(i, b)] * max(
                        1, ndarrayLen(datum.poseKeypoints))
                datum = DatumPickleable.rebuildFromRoiDatum(
                    got[1], roi_datum_tuple_list,
                    self._pose_estimator.pose_type)
                # datum,fill_num = self._fill_missing_pose_keypoints(datum, max_people_num)
                # boxer_id_score_to_every_pose += [None] * fill_num
                self._showIfEnabled(datum.cvOutputData,
                                    title=f'{got[0]}:rebuild(may be covered)')
                poses = Poses(datum.poseKeypoints,
                              self._pose_estimator.pose_type)
                poses.cleanup(['face'])
                posescore_list = self._rescorePoseByBoxerScore(
                    poses, boxer_id_score_to_every_pose)
                posescore_list = self._filterOutDuplicatePose(posescore_list)
            else:
                # if heuristic and not boxer_entities:
                #     logger.warn('only one boxer detected, use full img pose estimation!')
                datum = self._estimatePose(got)
                # datum,fill_num = self._fill_missing_pose_keypoints(datum, max_people_num)
                poses = Poses(datum.poseKeypoints,
                              self._pose_estimator.pose_type)
                poses.cleanup(['face'])
                posescore_list = self._rescorePoseByBoxerScore(poses, None)
                object_detected_list = None

            # posescore_list = self._fill_missing_pose(posescore_list, max_people_num)
            logger.debug('rescored pose score:')
            logger.debug([
                f'frame index:[{got[0]}] from_boxer:{t[1]}  '
                f'completion_score(cleaned):{t[2]} completion_multi_boxerscore:{t[3]}  '
                f'points_scores_sum:{t[4]} scores_sum_after_re_pu:{t[5]}  '
                f'norm_dis_to_boxer_center:{t[6]} knee_and_below_nonzero_exists:{t[7]}  '
                f'[p0x:{t[0].key_points[0][0]} p1x:{t[0].key_points[1][0]} p8x:{t[0].key_points[8][0]} p17x:{t[0].key_points[17][0]}]'
                for t in posescore_list
            ])
            # posescore_list = list(filter(lambda t: t.points_scores_sum_after_re_pu,posescore_list[:max_people_num]))
            # posescore_list = posescore_list[:3]
            posescore_list = self._connectAndSmoothPoses(posescore_list,
                                                         smooth=smooth)

            # actions_hist1 = act_recg1.put_pose(posescore_list[0].pose)[-5:]
            # actions_hist2 = act_recg2.put_pose(posescore_list[1].pose)[-5:]
            # act_recg1.show()

            # yield got[0],list(posescore_list),datum,boxer_entities if heuristic else None,[actions_hist1,actions_hist2]
            yield got[0], list(
                posescore_list
            ), datum, object_detected_list if heuristic else None, [[], []]