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''' | |
Copyright (c) Alibaba, Inc. and its affiliates. | |
''' | |
import os | |
import sys | |
sys.path.append(os.path.abspath(os.path.join(os.path.dirname(__file__), '..'))) | |
import cv2 | |
import numpy as np | |
import math | |
import traceback | |
from easydict import EasyDict as edict | |
import time | |
from ocr_recog.RecModel import RecModel | |
import torch | |
import torch.nn.functional as F | |
from skimage.transform._geometric import _umeyama as get_sym_mat | |
def min_bounding_rect(img): | |
ret, thresh = cv2.threshold(img, 127, 255, 0) | |
contours, hierarchy = cv2.findContours(thresh, cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE) | |
if len(contours) == 0: | |
print('Bad contours, using fake bbox...') | |
return np.array([[0, 0], [100, 0], [100, 100], [0, 100]]) | |
max_contour = max(contours, key=cv2.contourArea) | |
rect = cv2.minAreaRect(max_contour) | |
box = cv2.boxPoints(rect) | |
box = np.int0(box) | |
# sort | |
x_sorted = sorted(box, key=lambda x: x[0]) | |
left = x_sorted[:2] | |
right = x_sorted[2:] | |
left = sorted(left, key=lambda x: x[1]) | |
(tl, bl) = left | |
right = sorted(right, key=lambda x: x[1]) | |
(tr, br) = right | |
if tl[1] > bl[1]: | |
(tl, bl) = (bl, tl) | |
if tr[1] > br[1]: | |
(tr, br) = (br, tr) | |
return np.array([tl, tr, br, bl]) | |
def adjust_image(box, img): | |
pts1 = np.float32([box[0], box[1], box[2], box[3]]) | |
width = max(np.linalg.norm(pts1[0]-pts1[1]), np.linalg.norm(pts1[2]-pts1[3])) | |
height = max(np.linalg.norm(pts1[0]-pts1[3]), np.linalg.norm(pts1[1]-pts1[2])) | |
pts2 = np.float32([[0, 0], [width, 0], [width, height], [0, height]]) | |
# get transform matrix | |
M = get_sym_mat(pts1, pts2, estimate_scale=True) | |
C, H, W = img.shape | |
T = np.array([[2 / W, 0, -1], [0, 2 / H, -1], [0, 0, 1]]) | |
theta = np.linalg.inv(T @ M @ np.linalg.inv(T)) | |
theta = torch.from_numpy(theta[:2, :]).unsqueeze(0).type(torch.float32).to(img.device) | |
grid = F.affine_grid(theta, torch.Size([1, C, H, W]), align_corners=True) | |
result = F.grid_sample(img.unsqueeze(0), grid, align_corners=True) | |
result = torch.clamp(result.squeeze(0), 0, 255) | |
# crop | |
result = result[:, :int(height), :int(width)] | |
return result | |
''' | |
mask: numpy.ndarray, mask of textual, HWC | |
src_img: torch.Tensor, source image, CHW | |
''' | |
def crop_image(src_img, mask): | |
box = min_bounding_rect(mask) | |
result = adjust_image(box, src_img) | |
if len(result.shape) == 2: | |
result = torch.stack([result]*3, axis=-1) | |
return result | |
def create_predictor(model_dir=None, model_lang='ch', is_onnx=False): | |
model_file_path = model_dir | |
if model_file_path is not None and not os.path.exists(model_file_path): | |
raise ValueError("not find model file path {}".format(model_file_path)) | |
if is_onnx: | |
import onnxruntime as ort | |
sess = ort.InferenceSession(model_file_path, providers=['CPUExecutionProvider']) # 'TensorrtExecutionProvider', 'CUDAExecutionProvider', 'CPUExecutionProvider' | |
return sess | |
else: | |
if model_lang == 'ch': | |
n_class = 6625 | |
elif model_lang == 'en': | |
n_class = 97 | |
else: | |
raise ValueError(f"Unsupported OCR recog model_lang: {model_lang}") | |
rec_config = edict( | |
in_channels=3, | |
backbone=edict(type='MobileNetV1Enhance', scale=0.5, last_conv_stride=[1, 2], last_pool_type='avg'), | |
neck=edict(type='SequenceEncoder', encoder_type="svtr", dims=64, depth=2, hidden_dims=120, use_guide=True), | |
head=edict(type='CTCHead', fc_decay=0.00001, out_channels=n_class, return_feats=True) | |
) | |
rec_model = RecModel(rec_config) | |
if model_file_path is not None: | |
rec_model.load_state_dict(torch.load(model_file_path, map_location="cpu")) | |
rec_model.eval() | |
return rec_model.eval() | |
def _check_image_file(path): | |
img_end = {'jpg', 'bmp', 'png', 'jpeg', 'rgb', 'tif', 'tiff'} | |
return any([path.lower().endswith(e) for e in img_end]) | |
def get_image_file_list(img_file): | |
imgs_lists = [] | |
if img_file is None or not os.path.exists(img_file): | |
raise Exception("not found any img file in {}".format(img_file)) | |
if os.path.isfile(img_file) and _check_image_file(img_file): | |
imgs_lists.append(img_file) | |
elif os.path.isdir(img_file): | |
for single_file in os.listdir(img_file): | |
file_path = os.path.join(img_file, single_file) | |
if os.path.isfile(file_path) and _check_image_file(file_path): | |
imgs_lists.append(file_path) | |
if len(imgs_lists) == 0: | |
raise Exception("not found any img file in {}".format(img_file)) | |
imgs_lists = sorted(imgs_lists) | |
return imgs_lists | |
class TextRecognizer(object): | |
def __init__(self, args, predictor): | |
self.rec_image_shape = [int(v) for v in args.rec_image_shape.split(",")] | |
self.rec_batch_num = args.rec_batch_num | |
self.predictor = predictor | |
self.chars = self.get_char_dict(args.rec_char_dict_path) | |
self.char2id = {x: i for i, x in enumerate(self.chars)} | |
self.is_onnx = not isinstance(self.predictor, torch.nn.Module) | |
# img: CHW | |
def resize_norm_img(self, img, max_wh_ratio): | |
imgC, imgH, imgW = self.rec_image_shape | |
assert imgC == img.shape[0] | |
imgW = int((imgH * max_wh_ratio)) | |
h, w = img.shape[1:] | |
ratio = w / float(h) | |
if math.ceil(imgH * ratio) > imgW: | |
resized_w = imgW | |
else: | |
resized_w = int(math.ceil(imgH * ratio)) | |
resized_image = torch.nn.functional.interpolate( | |
img.unsqueeze(0), | |
size=(imgH, resized_w), | |
mode='bilinear', | |
align_corners=True, | |
) | |
resized_image /= 255.0 | |
resized_image -= 0.5 | |
resized_image /= 0.5 | |
padding_im = torch.zeros((imgC, imgH, imgW), dtype=torch.float32).to(img.device) | |
padding_im[:, :, 0:resized_w] = resized_image[0] | |
return padding_im | |
# img_list: list of tensors with shape chw 0-255 | |
def pred_imglist(self, img_list, show_debug=False, is_ori=False): | |
img_num = len(img_list) | |
assert img_num > 0 | |
# Calculate the aspect ratio of all text bars | |
width_list = [] | |
for img in img_list: | |
width_list.append(img.shape[2] / float(img.shape[1])) | |
# Sorting can speed up the recognition process | |
indices = torch.from_numpy(np.argsort(np.array(width_list))) | |
batch_num = self.rec_batch_num | |
preds_all = [None] * img_num | |
preds_neck_all = [None] * img_num | |
for beg_img_no in range(0, img_num, batch_num): | |
end_img_no = min(img_num, beg_img_no + batch_num) | |
norm_img_batch = [] | |
imgC, imgH, imgW = self.rec_image_shape[:3] | |
max_wh_ratio = imgW / imgH | |
for ino in range(beg_img_no, end_img_no): | |
h, w = img_list[indices[ino]].shape[1:] | |
if h > w * 1.2: | |
img = img_list[indices[ino]] | |
img = torch.transpose(img, 1, 2).flip(dims=[1]) | |
img_list[indices[ino]] = img | |
h, w = img.shape[1:] | |
# wh_ratio = w * 1.0 / h | |
# max_wh_ratio = max(max_wh_ratio, wh_ratio) # comment to not use different ratio | |
for ino in range(beg_img_no, end_img_no): | |
norm_img = self.resize_norm_img(img_list[indices[ino]], max_wh_ratio) | |
norm_img = norm_img.unsqueeze(0) | |
norm_img_batch.append(norm_img) | |
norm_img_batch = torch.cat(norm_img_batch, dim=0) | |
if show_debug: | |
for i in range(len(norm_img_batch)): | |
_img = norm_img_batch[i].permute(1, 2, 0).detach().cpu().numpy() | |
_img = (_img + 0.5)*255 | |
_img = _img[:, :, ::-1] | |
file_name = f'{indices[beg_img_no + i]}' | |
file_name = file_name + '_ori' if is_ori else file_name | |
cv2.imwrite(file_name + '.jpg', _img) | |
if self.is_onnx: | |
input_dict = {} | |
input_dict[self.predictor.get_inputs()[0].name] = norm_img_batch.detach().cpu().numpy() | |
outputs = self.predictor.run(None, input_dict) | |
preds = {} | |
preds['ctc'] = torch.from_numpy(outputs[0]) | |
preds['ctc_neck'] = [torch.zeros(1)] * img_num | |
else: | |
preds = self.predictor(norm_img_batch) | |
for rno in range(preds['ctc'].shape[0]): | |
preds_all[indices[beg_img_no + rno]] = preds['ctc'][rno] | |
preds_neck_all[indices[beg_img_no + rno]] = preds['ctc_neck'][rno] | |
return torch.stack(preds_all, dim=0), torch.stack(preds_neck_all, dim=0) | |
def get_char_dict(self, character_dict_path): | |
character_str = [] | |
with open(character_dict_path, "rb") as fin: | |
lines = fin.readlines() | |
for line in lines: | |
line = line.decode('utf-8').strip("\n").strip("\r\n") | |
character_str.append(line) | |
dict_character = list(character_str) | |
dict_character = ['sos'] + dict_character + [' '] # eos is space | |
return dict_character | |
def get_text(self, order): | |
char_list = [self.chars[text_id] for text_id in order] | |
return ''.join(char_list) | |
def decode(self, mat): | |
text_index = mat.detach().cpu().numpy().argmax(axis=1) | |
ignored_tokens = [0] | |
selection = np.ones(len(text_index), dtype=bool) | |
selection[1:] = text_index[1:] != text_index[:-1] | |
for ignored_token in ignored_tokens: | |
selection &= text_index != ignored_token | |
return text_index[selection], np.where(selection)[0] | |
def get_ctcloss(self, preds, gt_text, weight): | |
if not isinstance(weight, torch.Tensor): | |
weight = torch.tensor(weight).to(preds.device) | |
ctc_loss = torch.nn.CTCLoss(reduction='none') | |
log_probs = preds.log_softmax(dim=2).permute(1, 0, 2) # NTC-->TNC | |
targets = [] | |
target_lengths = [] | |
for t in gt_text: | |
targets += [self.char2id.get(i, len(self.chars)-1) for i in t] | |
target_lengths += [len(t)] | |
targets = torch.tensor(targets).to(preds.device) | |
target_lengths = torch.tensor(target_lengths).to(preds.device) | |
input_lengths = torch.tensor([log_probs.shape[0]]*(log_probs.shape[1])).to(preds.device) | |
loss = ctc_loss(log_probs, targets, input_lengths, target_lengths) | |
loss = loss / input_lengths * weight | |
return loss | |
def main(): | |
rec_model_dir = "./ocr_weights/ppv3_rec.pth" | |
predictor = create_predictor(rec_model_dir) | |
args = edict() | |
args.rec_image_shape = "3, 48, 320" | |
args.rec_char_dict_path = './ocr_weights/ppocr_keys_v1.txt' | |
args.rec_batch_num = 6 | |
text_recognizer = TextRecognizer(args, predictor) | |
image_dir = './test_imgs_cn' | |
gt_text = ['韩国小馆']*14 | |
image_file_list = get_image_file_list(image_dir) | |
valid_image_file_list = [] | |
img_list = [] | |
for image_file in image_file_list: | |
img = cv2.imread(image_file) | |
if img is None: | |
print("error in loading image:{}".format(image_file)) | |
continue | |
valid_image_file_list.append(image_file) | |
img_list.append(torch.from_numpy(img).permute(2, 0, 1).float()) | |
try: | |
tic = time.time() | |
times = [] | |
for i in range(10): | |
preds, _ = text_recognizer.pred_imglist(img_list) # get text | |
preds_all = preds.softmax(dim=2) | |
times += [(time.time()-tic)*1000.] | |
tic = time.time() | |
print(times) | |
print(np.mean(times[1:]) / len(preds_all)) | |
weight = np.ones(len(gt_text)) | |
loss = text_recognizer.get_ctcloss(preds, gt_text, weight) | |
for i in range(len(valid_image_file_list)): | |
pred = preds_all[i] | |
order, idx = text_recognizer.decode(pred) | |
text = text_recognizer.get_text(order) | |
print(f'{valid_image_file_list[i]}: pred/gt="{text}"/"{gt_text[i]}", loss={loss[i]:.2f}') | |
except Exception as E: | |
print(traceback.format_exc(), E) | |
if __name__ == "__main__": | |
main() | |