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update to new gradio version
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import os
os.system('cd fairseq;'
'pip install ./; cd ..')
os.system('cd ezocr;'
'pip install .; cd ..')
import torch
import numpy as np
from fairseq import utils, tasks
from fairseq import checkpoint_utils
from utils.eval_utils import eval_step
from data.mm_data.ocr_dataset import ocr_resize
from tasks.mm_tasks.ocr import OcrTask
from PIL import Image, ImageDraw
from torchvision import transforms
from typing import List, Tuple
import cv2
from easyocrlite import ReaderLite
import gradio as gr
# Register refcoco task
tasks.register_task('ocr', OcrTask)
os.system('wget https://shuangqing-multimodal.oss-cn-zhangjiakou.aliyuncs.com/ocr_general_clean.pt; '
'mkdir -p checkpoints; mv ocr_general_clean.pt checkpoints/ocr_general_clean.pt')
# turn on cuda if GPU is available
use_cuda = torch.cuda.is_available()
# use fp16 only when GPU is available
use_fp16 = True
mean = [0.5, 0.5, 0.5]
std = [0.5, 0.5, 0.5]
Rect = Tuple[int, int, int, int]
FourPoint = Tuple[Tuple[int, int], Tuple[int, int], Tuple[int, int], Tuple[int, int]]
def four_point_transform(image: np.ndarray, rect: FourPoint) -> np.ndarray:
(tl, tr, br, bl) = rect
widthA = np.sqrt(((br[0] - bl[0]) ** 2) + ((br[1] - bl[1]) ** 2))
widthB = np.sqrt(((tr[0] - tl[0]) ** 2) + ((tr[1] - tl[1]) ** 2))
maxWidth = max(int(widthA), int(widthB))
# compute the height of the new image, which will be the
# maximum distance between the top-right and bottom-right
# y-coordinates or the top-left and bottom-left y-coordinates
heightA = np.sqrt(((tr[0] - br[0]) ** 2) + ((tr[1] - br[1]) ** 2))
heightB = np.sqrt(((tl[0] - bl[0]) ** 2) + ((tl[1] - bl[1]) ** 2))
maxHeight = max(int(heightA), int(heightB))
dst = np.array(
[[0, 0], [maxWidth - 1, 0], [maxWidth - 1, maxHeight - 1], [0, maxHeight - 1]],
dtype="float32",
)
# compute the perspective transform matrix and then apply it
M = cv2.getPerspectiveTransform(rect, dst)
warped = cv2.warpPerspective(image, M, (maxWidth, maxHeight))
return warped
def get_images(img: str, reader: ReaderLite, **kwargs):
results = reader.process(img, **kwargs)
return results
def draw_boxes(image, bounds, color='red', width=4):
draw = ImageDraw.Draw(image)
for i, bound in enumerate(bounds):
p0, p1, p2, p3 = bound
draw.text(p0, str(i+1), fill=color)
draw.line([*p0, *p1, *p2, *p3, *p0], fill=color, width=width)
return image
def encode_text(task, text, length=None, append_bos=False, append_eos=False):
bos_item = torch.LongTensor([task.src_dict.bos()])
eos_item = torch.LongTensor([task.src_dict.eos()])
pad_idx = task.src_dict.pad()
s = task.tgt_dict.encode_line(
line=task.bpe.encode(text),
add_if_not_exist=False,
append_eos=False
).long()
if length is not None:
s = s[:length]
if append_bos:
s = torch.cat([bos_item, s])
if append_eos:
s = torch.cat([s, eos_item])
return s
def patch_resize_transform(patch_image_size=480, is_document=False):
_patch_resize_transform = transforms.Compose(
[
lambda image: ocr_resize(
image, patch_image_size, is_document=is_document, split='test',
),
transforms.ToTensor(),
transforms.Normalize(mean=mean, std=std),
]
)
return _patch_resize_transform
reader = ReaderLite(gpu=True)
overrides={"eval_cider": False, "beam": 5, "max_len_b": 64, "patch_image_size": 480,
"orig_patch_image_size": 224, "no_repeat_ngram_size": 0, "seed": 42}
models, cfg, task = checkpoint_utils.load_model_ensemble_and_task(
utils.split_paths('checkpoints/ocr_general_clean.pt'),
arg_overrides=overrides
)
# Move models to GPU
for model in models:
model.eval()
if use_fp16:
model.half()
if use_cuda and not cfg.distributed_training.pipeline_model_parallel:
model.cuda()
model.prepare_for_inference_(cfg)
# Initialize generator
generator = task.build_generator(models, cfg.generation)
bos_item = torch.LongTensor([task.src_dict.bos()])
eos_item = torch.LongTensor([task.src_dict.eos()])
pad_idx = task.src_dict.pad()
# Construct input for caption task
def construct_sample(task, image: Image, patch_image_size=480):
patch_image = patch_resize_transform(patch_image_size)(image).unsqueeze(0)
patch_mask = torch.tensor([True])
src_text = encode_text(task, "图片上的文字是什么?", append_bos=True, append_eos=True).unsqueeze(0)
src_length = torch.LongTensor([s.ne(pad_idx).long().sum() for s in src_text])
sample = {
"id":np.array(['42']),
"net_input": {
"src_tokens": src_text,
"src_lengths": src_length,
"patch_images": patch_image,
"patch_masks": patch_mask,
},
"target": None
}
return sample
# Function to turn FP32 to FP16
def apply_half(t):
if t.dtype is torch.float32:
return t.to(dtype=torch.half)
return t
def ocr(img):
out_img = Image.open(img)
results = get_images(img, reader, text_confidence=0.7, text_threshold=0.4,
link_threshold=0.43, slope_ths=0., add_margin=0.02)
box_list, image_list = zip(*results)
draw_boxes(out_img, box_list)
ocr_result = []
for i, (box, image) in enumerate(zip(box_list, image_list)):
image = Image.fromarray(image)
sample = construct_sample(task, image, cfg.task.patch_image_size)
sample = utils.move_to_cuda(sample) if use_cuda else sample
sample = utils.apply_to_sample(apply_half, sample) if use_fp16 else sample
with torch.no_grad():
result, scores = eval_step(task, generator, models, sample)
ocr_result.append(str(i+1) + '\t' + result[0]['ocr'].replace(' ', ''))
result = '\n'.join(ocr_result)
return out_img, result
title = "Chinese OCR"
description = "Gradio Demo for Chinese OCR. Upload your own image or click any one of the examples, and click " \
"\"Submit\" and then wait for the generated OCR result. \n " \
"中文OCR体验区。欢迎上传图片,静待检测文字返回~"
article = "<p style='text-align: center'><a href='https://github.com/OFA-Sys/OFA' target='_blank'>OFA Github " \
"Repo</a></p> "
examples = [['shupai.png'], ['chinese.jpg']]
io = gr.Interface(fn=ocr, inputs=gr.inputs.Image(type='filepath', label='Image'),
outputs=[gr.outputs.Image(type='pil', label='Image'), gr.outputs.Textbox(label="OCR result")],
title=title, description=description, article=article, examples=examples)
io.launch()