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- # copyright (c) 2020 PaddlePaddle Authors. All Rights Reserve.
- #
- # Licensed under the Apache License, Version 2.0 (the "License");
- # you may not use this file except in compliance with the License.
- # You may obtain a copy of the License at
- #
- # http://www.apache.org/licenses/LICENSE-2.0
- #
- # Unless required by applicable law or agreed to in writing, software
- # distributed under the License is distributed on an "AS IS" BASIS,
- # 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 sys
- import os
- import os.path as osp
- import cv2
- import numpy as np
- import yaml
- from six import text_type as _text_type
- from openvino.inference_engine import IECore
- from utils import logging
- class Predictor:
- def __init__(self,
- model_xml,
- model_yaml,
- device="CPU"):
- self.device = device
- if not osp.exists(model_xml):
- logging.error("model xml file is not exists in {}".format(model_xml))
- self.model_xml = model_xml
- self.model_bin = osp.splitext(model_xml)[0] + ".bin"
- if not osp.exists(model_yaml):
- logging,error("model yaml file is not exists in {}".format(model_yaml))
- with open(model_yaml) as f:
- self.info = yaml.load(f.read(), Loader=yaml.Loader)
- self.model_type = self.info['_Attributes']['model_type']
- self.model_name = self.info['Model']
- self.num_classes = self.info['_Attributes']['num_classes']
- self.labels = self.info['_Attributes']['labels']
- if self.info['Model'] == 'MaskRCNN':
- if self.info['_init_params']['with_fpn']:
- self.mask_head_resolution = 28
- else:
- self.mask_head_resolution = 14
- transforms_mode = self.info.get('TransformsMode', 'RGB')
- if transforms_mode == 'RGB':
- to_rgb = True
- else:
- to_rgb = False
- self.transforms = self.build_transforms(self.info['Transforms'], to_rgb)
- self.predictor, self.net = self.create_predictor()
- def create_predictor(self):
- #initialization for specified device
- logging.info("Creating Inference Engine")
- ie = IECore()
- logging.info("Loading network files:\n\t{}\n\t{}".format(self.model_xml, self.model_bin))
- net = ie.read_network(model=self.model_xml, weights=self.model_bin)
- net.batch_size = 1
- exec_net = ie.load_network(network=net, device_name=self.device)
- return exec_net, net
- def build_transforms(self, transforms_info, to_rgb=True):
- if self.model_type == "classifier":
- import transforms.cls_transforms as transforms
- elif self.model_type == "detector":
- import transforms.det_transforms as transforms
- elif self.model_type == "segmenter":
- import transforms.seg_transforms as transforms
- op_list = list()
- for op_info in transforms_info:
- op_name = list(op_info.keys())[0]
- op_attr = op_info[op_name]
- if not hasattr(transforms, op_name):
- raise Exception(
- "There's no operator named '{}' in transforms of {}".
- format(op_name, self.model_type))
- op_list.append(getattr(transforms, op_name)(**op_attr))
- eval_transforms = transforms.Compose(op_list)
- if hasattr(eval_transforms, 'to_rgb'):
- eval_transforms.to_rgb = to_rgb
- self.arrange_transforms(eval_transforms)
- return eval_transforms
-
- def arrange_transforms(self, eval_transforms):
- if self.model_type == 'classifier':
- import transforms.cls_transforms as transforms
- arrange_transform = transforms.ArrangeClassifier
- elif self.model_type == 'segmenter':
- import transforms.det_transforms as transforms
- arrange_transform = transforms.ArrangeSegmenter
- elif self.model_type == 'detector':
- import transforms.seg_transforms as transforms
- arrange_name = 'Arrange{}'.format(self.model_name)
- arrange_transform = getattr(transforms, arrange_name)
- else:
- raise Exception("Unrecognized model type: {}".format(
- self.model_type))
- if type(eval_transforms.transforms[-1]).__name__.startswith('Arrange'):
- eval_transforms.transforms[-1] = arrange_transform(mode='test')
- else:
- eval_transforms.transforms.append(arrange_transform(mode='test'))
- def raw_predict(self, images):
- input_blob = next(iter(self.net.inputs))
- out_blob = next(iter(self.net.outputs))
- #Start sync inference
- logging.info("Starting inference in synchronous mode")
- res = self.predictor.infer(inputs={input_blob:images})
-
- #Processing output blob
- logging.info("Processing output blob")
- res = res[out_blob]
- print("res: ",res)
- def preprocess(self, image):
-
- if self.model_type == "classifier":
- im, = self.transforms(image)
- im = np.expand_dims(im, axis=0).copy()
- #res['image'] = im
- '''elif self.model_type == "detector":
- if self.model_name == "YOLOv3":
- im, im_shape = self.transforms(image)
- im = np.expand_dims(im, axis=0).copy()
- im_shape = np.expand_dims(im_shape, axis=0).copy()
- res['image'] = im
- res['im_size'] = im_shape
- if self.model_name.count('RCNN') > 0:
- im, im_resize_info, im_shape = self.transforms(image)
- im = np.expand_dims(im, axis=0).copy()
- im_resize_info = np.expand_dims(im_resize_info, axis=0).copy()
- im_shape = np.expand_dims(im_shape, axis=0).copy()
- res['image'] = im
- res['im_info'] = im_resize_info
- res['im_shape'] = im_shape
- elif self.model_type == "segmenter":
- im, im_info = self.transforms(image)
- im = np.expand_dims(im, axis=0).copy()
- res['image'] = im
- res['im_info'] = im_info'''
- return im
- def predict(self, image, topk=1, threshold=0.5):
- preprocessed_input = self.preprocess(image)
- model_pred = self.raw_predict(preprocessed_input)
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