PaddleOCR/tools/infer/predict_system.py

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# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
#
# 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 os
import sys
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import subprocess
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__dir__ = os.path.dirname(os.path.abspath(__file__))
sys.path.append(__dir__)
sys.path.append(os.path.abspath(os.path.join(__dir__, '../..')))
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os.environ["FLAGS_allocator_strategy"] = 'auto_growth'
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import cv2
import copy
import numpy as np
import time
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import logging
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from PIL import Image
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import tools.infer.utility as utility
import tools.infer.predict_rec as predict_rec
import tools.infer.predict_det as predict_det
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import tools.infer.predict_cls as predict_cls
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from ppocr.utils.utility import get_image_file_list, check_and_read_gif
from ppocr.utils.logging import get_logger
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from tools.infer.utility import draw_ocr_box_txt, get_current_memory_mb, get_rotate_crop_image
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import tools.infer.benchmark_utils as benchmark_utils
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logger = get_logger()
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class TextSystem(object):
def __init__(self, args):
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if not args.show_log:
logger.setLevel(logging.INFO)
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self.text_detector = predict_det.TextDetector(args)
self.text_recognizer = predict_rec.TextRecognizer(args)
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self.use_angle_cls = args.use_angle_cls
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self.drop_score = args.drop_score
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if self.use_angle_cls:
self.text_classifier = predict_cls.TextClassifier(args)
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def print_draw_crop_rec_res(self, img_crop_list, rec_res):
bbox_num = len(img_crop_list)
for bno in range(bbox_num):
cv2.imwrite("./output/img_crop_%d.jpg" % bno, img_crop_list[bno])
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logger.info(bno, rec_res[bno])
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def __call__(self, img, cls=True):
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ori_im = img.copy()
dt_boxes, elapse = self.text_detector(img)
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logger.debug("dt_boxes num : {}, elapse : {}".format(
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len(dt_boxes), elapse))
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if dt_boxes is None:
return None, None
img_crop_list = []
dt_boxes = sorted_boxes(dt_boxes)
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for bno in range(len(dt_boxes)):
tmp_box = copy.deepcopy(dt_boxes[bno])
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img_crop = get_rotate_crop_image(ori_im, tmp_box)
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img_crop_list.append(img_crop)
if self.use_angle_cls and cls:
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img_crop_list, angle_list, elapse = self.text_classifier(
img_crop_list)
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logger.debug("cls num : {}, elapse : {}".format(
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len(img_crop_list), elapse))
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rec_res, elapse = self.text_recognizer(img_crop_list)
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logger.debug("rec_res num : {}, elapse : {}".format(
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len(rec_res), elapse))
# self.print_draw_crop_rec_res(img_crop_list, rec_res)
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filter_boxes, filter_rec_res = [], []
for box, rec_reuslt in zip(dt_boxes, rec_res):
text, score = rec_reuslt
if score >= self.drop_score:
filter_boxes.append(box)
filter_rec_res.append(rec_reuslt)
return filter_boxes, filter_rec_res
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def sorted_boxes(dt_boxes):
"""
Sort text boxes in order from top to bottom, left to right
args:
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dt_boxes(array):detected text boxes with shape [4, 2]
return:
sorted boxes(array) with shape [4, 2]
"""
num_boxes = dt_boxes.shape[0]
sorted_boxes = sorted(dt_boxes, key=lambda x: (x[0][1], x[0][0]))
_boxes = list(sorted_boxes)
for i in range(num_boxes - 1):
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if abs(_boxes[i + 1][0][1] - _boxes[i][0][1]) < 10 and \
(_boxes[i + 1][0][0] < _boxes[i][0][0]):
tmp = _boxes[i]
_boxes[i] = _boxes[i + 1]
_boxes[i + 1] = tmp
return _boxes
def main(args):
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image_file_list = get_image_file_list(args.image_dir)
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image_file_list = image_file_list[args.process_id::args.total_process_num]
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text_sys = TextSystem(args)
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is_visualize = True
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font_path = args.vis_font_path
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drop_score = args.drop_score
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# warm up 10 times
if args.warmup:
img = np.random.uniform(0, 255, [640, 640, 3]).astype(np.uint8)
for i in range(10):
res = text_sys(img)
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total_time = 0
cpu_mem, gpu_mem, gpu_util = 0, 0, 0
_st = time.time()
count = 0
for idx, image_file in enumerate(image_file_list):
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img, flag = check_and_read_gif(image_file)
if not flag:
img = cv2.imread(image_file)
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if img is None:
logger.info("error in loading image:{}".format(image_file))
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continue
starttime = time.time()
dt_boxes, rec_res = text_sys(img)
elapse = time.time() - starttime
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total_time += elapse
if args.benchmark and idx % 20 == 0:
cm, gm, gu = get_current_memory_mb(0)
cpu_mem += cm
gpu_mem += gm
gpu_util += gu
count += 1
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logger.info(
str(idx) + " Predict time of %s: %.3fs" % (image_file, elapse))
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for text, score in rec_res:
logger.info("{}, {:.3f}".format(text, score))
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if is_visualize:
image = Image.fromarray(cv2.cvtColor(img, cv2.COLOR_BGR2RGB))
boxes = dt_boxes
txts = [rec_res[i][0] for i in range(len(rec_res))]
scores = [rec_res[i][1] for i in range(len(rec_res))]
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draw_img = draw_ocr_box_txt(
image,
boxes,
txts,
scores,
drop_score=drop_score,
font_path=font_path)
draw_img_save = "./inference_results/"
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if not os.path.exists(draw_img_save):
os.makedirs(draw_img_save)
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if flag:
image_file = image_file[:-3] + "png"
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cv2.imwrite(
os.path.join(draw_img_save, os.path.basename(image_file)),
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draw_img[:, :, ::-1])
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logger.info("The visualized image saved in {}".format(
os.path.join(draw_img_save, os.path.basename(image_file))))
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logger.info("The predict total time is {}".format(time.time() - _st))
logger.info("\nThe predict total time is {}".format(total_time))
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img_num = text_sys.text_detector.det_times.img_num
if args.benchmark:
mems = {
'cpu_rss_mb': cpu_mem / count,
'gpu_rss_mb': gpu_mem / count,
'gpu_util': gpu_util * 100 / count
}
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else:
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mems = None
det_time_dict = text_sys.text_detector.det_times.report(average=True)
rec_time_dict = text_sys.text_recognizer.rec_times.report(average=True)
det_model_name = args.det_model_dir
rec_model_name = args.rec_model_dir
# construct det log information
model_info = {
'model_name': args.det_model_dir.split('/')[-1],
'precision': args.precision
}
data_info = {
'batch_size': 1,
'shape': 'dynamic_shape',
'data_num': det_time_dict['img_num']
}
perf_info = {
'preprocess_time_s': det_time_dict['preprocess_time'],
'inference_time_s': det_time_dict['inference_time'],
'postprocess_time_s': det_time_dict['postprocess_time'],
'total_time_s': det_time_dict['total_time']
}
benchmark_log = benchmark_utils.PaddleInferBenchmark(
text_sys.text_detector.config, model_info, data_info, perf_info, mems,
args.save_log_path)
benchmark_log("Det")
# construct rec log information
model_info = {
'model_name': args.rec_model_dir.split('/')[-1],
'precision': args.precision
}
data_info = {
'batch_size': args.rec_batch_num,
'shape': 'dynamic_shape',
'data_num': rec_time_dict['img_num']
}
perf_info = {
'preprocess_time_s': rec_time_dict['preprocess_time'],
'inference_time_s': rec_time_dict['inference_time'],
'postprocess_time_s': rec_time_dict['postprocess_time'],
'total_time_s': rec_time_dict['total_time']
}
benchmark_log = benchmark_utils.PaddleInferBenchmark(
text_sys.text_recognizer.config, model_info, data_info, perf_info, mems,
args.save_log_path)
benchmark_log("Rec")
if __name__ == "__main__":
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args = utility.parse_args()
if args.use_mp:
p_list = []
total_process_num = args.total_process_num
for process_id in range(total_process_num):
cmd = [sys.executable, "-u"] + sys.argv + [
"--process_id={}".format(process_id),
"--use_mp={}".format(False)
]
p = subprocess.Popen(cmd, stdout=sys.stdout, stderr=sys.stdout)
p_list.append(p)
for p in p_list:
p.wait()
else:
main(args)