Datasets:

dlxjj
/

comicocr

	import numpy as np
	from typing import List
	import os
	import logging

	LOGGER = logging.getLogger("BallonTranslator")

	try:
	from paddleocr import PaddleOCR

	PADDLE_OCR_AVAILABLE = True
	except ImportError:
	PADDLE_OCR_AVAILABLE = False
	LOGGER.debug(
	"PaddleOCR is not installed, so the module will not be initialized. \nCheck this issue https://github.com/dmMaze/BallonsTranslator/issues/835#issuecomment-2772940806"
	)

	import cv2
	import re

	from .base import OCRBase, register_OCR, DEFAULT_DEVICE, DEVICE_SELECTOR, TextBlock

	# Specify the path for storing PaddleOCR models
	PADDLE_OCR_PATH = os.path.join("data", "models", "paddle-ocr")
	# Set an environment variable to store PaddleOCR models
	os.environ["PPOCR_HOME"] = PADDLE_OCR_PATH
	os.environ["KMP_DUPLICATE_LIB_OK"] = "TRUE"

	if PADDLE_OCR_AVAILABLE:

	@register_OCR("paddle_ocr")
	class PaddleOCRModule(OCRBase):
	# Mapping language names to PaddleOCR codes
	lang_map = {
	"Chinese & English": "ch",
	"English": "en",
	"French": "fr",
	"German": "german",
	"Japanese": "japan",
	"Korean": "korean",
	"Chinese Traditional": "chinese_cht",
	"Italian": "it",
	"Spanish": "es",
	"Portuguese": "pt",
	"Russian": "ru",
	"Ukrainian": "uk",
	"Belarusian": "be",
	"Telugu": "te",
	"Saudi Arabia": "sa",
	"Tamil": "ta",
	"Afrikaans": "af",
	"Azerbaijani": "az",
	"Bosnian": "bs",
	"Czech": "cs",
	"Welsh": "cy",
	"Danish": "da",
	"Dutch": "nl",
	"Norwegian": "no",
	"Polish": "pl",
	"Romanian": "ro",
	"Slovak": "sk",
	"Slovenian": "sl",
	"Albanian": "sq",
	"Swedish": "sv",
	"Swahili": "sw",
	"Tagalog": "tl",
	"Turkish": "tr",
	"Uzbek": "uz",
	"Vietnamese": "vi",
	"Mongolian": "mn",
	"Arabic": "ar",
	"Hindi": "hi",
	"Uyghur": "ug",
	"Persian": "fa",
	"Urdu": "ur",
	"Serbian (Latin)": "rs_latin",
	"Occitan": "oc",
	"Marathi": "mr",
	"Nepali": "ne",
	"Serbian (Cyrillic)": "rs_cyrillic",
	"Bulgarian": "bg",
	"Estonian": "et",
	"Irish": "ga",
	"Croatian": "hr",
	"Hungarian": "hu",
	"Indonesian": "id",
	"Icelandic": "is",
	"Kurdish": "ku",
	"Lithuanian": "lt",
	"Latvian": "lv",
	"Maori": "mi",
	"Malay": "ms",
	"Maltese": "mt",
	"Adyghe": "ady",
	"Kabardian": "kbd",
	"Avar": "ava",
	"Dargwa": "dar",
	"Ingush": "inh",
	"Lak": "lbe",
	"Lezghian": "lez",
	"Tabassaran": "tab",
	"Bihari": "bh",
	"Maithili": "mai",
	"Angika": "ang",
	"Bhojpuri": "bho",
	"Magahi": "mah",
	"Nagpur": "sck",
	"Newari": "new",
	"Goan Konkani": "gom",
	}

	params = {
	"language": {
	"type": "selector",
	"options": list(lang_map.keys()),
	"value": "English", # Default language
	"description": "Select the language for OCR",
	},
	"device": DEVICE_SELECTOR(),
	"use_angle_cls": {
	"type": "checkbox",
	"value": False,
	"description": "Enable angle classification for rotated text",
	},
	"ocr_version": {
	"type": "selector",
	"options": ["PP-OCRv4", "PP-OCRv3", "PP-OCRv2", "PP-OCR"],
	"value": "PP-OCRv4",
	"description": "Select the OCR model version",
	},
	"enable_mkldnn": {
	"type": "checkbox",
	"value": False,
	"description": "Enable MKL-DNN for CPU acceleration",
	},
	"det_limit_side_len": {
	"value": 960,
	"description": "Maximum side length for text detection",
	},
	"rec_batch_num": {
	"value": 6,
	"description": "Batch size for text recognition",
	},
	"drop_score": {
	"value": 0.5,
	"description": "Confidence threshold for text recognition",
	},
	"text_case": {
	"type": "selector",
	"options": ["Uppercase", "Capitalize Sentences", "Lowercase"],
	"value": "Capitalize Sentences",
	"description": "Text case transformation",
	},
	"output_format": {
	"type": "selector",
	"options": ["Single Line", "As Recognized"],
	"value": "As Recognized",
	"description": "Text output format",
	},
	}

	device = DEFAULT_DEVICE

	def __init__(self, **params) -> None:
	super().__init__(**params)
	self.language = self.params["language"]["value"]
	self.device = self.params["device"]["value"]
	self.use_angle_cls = self.params["use_angle_cls"]["value"]
	self.ocr_version = self.params["ocr_version"]["value"]
	self.enable_mkldnn = self.params["enable_mkldnn"]["value"]
	self.det_limit_side_len = self.params["det_limit_side_len"]["value"]
	self.rec_batch_num = self.params["rec_batch_num"]["value"]
	self.drop_score = self.params["drop_score"]["value"]
	self.text_case = self.params["text_case"]["value"]
	self.output_format = self.params["output_format"]["value"]
	self.model = None
	self._setup_logging()
	self._load_model()

	def _setup_logging(self):
	if self.debug_mode:
	logging.getLogger("ppocr").setLevel(logging.DEBUG)
	logging.getLogger("paddleocr").setLevel(logging.DEBUG)
	logging.getLogger("predict_system").setLevel(logging.DEBUG)
	else:
	logging.getLogger("ppocr").setLevel(logging.WARNING)
	logging.getLogger("paddleocr").setLevel(logging.WARNING)
	logging.getLogger("predict_system").setLevel(logging.WARNING)

	def _load_model(self):
	lang_code = self.lang_map[self.language]
	use_gpu = True if self.device == "cuda" else False
	if self.debug_mode:
	self.logger.info(
	f"Loading PaddleOCR model for language: {self.language} ({lang_code}), GPU: {use_gpu}"
	)
	self.model = PaddleOCR(
	use_angle_cls=self.use_angle_cls,
	lang=lang_code,
	use_gpu=use_gpu,
	ocr_version=self.ocr_version,
	enable_mkldnn=self.enable_mkldnn,
	det_limit_side_len=self.det_limit_side_len,
	rec_batch_num=self.rec_batch_num,
	drop_score=self.drop_score,
	det_model_dir=os.path.join(
	PADDLE_OCR_PATH, lang_code, self.ocr_version, "det"
	),
	rec_model_dir=os.path.join(
	PADDLE_OCR_PATH, lang_code, self.ocr_version, "rec"
	),
	cls_model_dir=(
	os.path.join(PADDLE_OCR_PATH, lang_code, self.ocr_version, "cls")
	if self.use_angle_cls
	else None
	),
	)

	def ocr_img(self, img: np.ndarray) -> str:
	if self.debug_mode:
	self.logger.debug(f"Starting OCR for image size: {img.shape}")
	result = self.model.ocr(img, det=True, rec=True, cls=self.use_angle_cls)
	if self.debug_mode:
	self.logger.debug(f"OCR recognition result: {result}")
	text = self._process_result(result)
	return text

	def _ocr_blk_list(
	self, img: np.ndarray, blk_list: List[TextBlock], args, *kwargs
	):
	im_h, im_w = img.shape[:2]
	for blk in blk_list:
	x1, y1, x2, y2 = blk.xyxy
	if 0 <= x1 < x2 <= im_w and 0 <= y1 < y2 <= im_h:
	cropped_img = img[y1:y2, x1:x2]
	try:
	result = self.model.ocr(
	cropped_img, det=True, rec=True, cls=self.use_angle_cls
	)

	# Extract raw text from OCR result
	raw_texts = []
	if (
	isinstance(result, list)
	and len(result) > 0
	and isinstance(result[0], list)
	):
	for line in result[0]:
	if (
	isinstance(line, list)
	and len(line) > 1
	and isinstance(line[1], (list, tuple))
	and len(line[1]) > 0
	):
	raw_texts.append(line[1][0])
	raw_text = " ".join(raw_texts)

	if self.debug_mode:
	self.logger.debug(
	f"Raw OCR text from block ({x1}, {y1}, {x2}, {y2}): {raw_text}"
	)

	# Process the OCR result
	text = self._process_result(result)

	if self.debug_mode:
	self.logger.debug(
	f"Processed text from block ({x1}, {y1}, {x2}, {y2}): {text}"
	)

	blk.text = text if text else ""

	except Exception as e:
	if self.debug_mode:
	self.logger.error(f"Error recognizing block: {str(e)}")
	blk.text = ""
	else:
	if self.debug_mode:
	self.logger.warning(
	"Invalid text block coordinates for target image"
	)
	blk.text = ""

	def _process_result(self, result):
	try:
	if not result or result[0] is None:
	return ""

	if (
	isinstance(result, list)
	and len(result) > 0
	and isinstance(result[0], list)
	):
	result = result[0]

	raw_texts = []
	for line in result:
	if (
	isinstance(line, list)
	and len(line) > 1
	and isinstance(line[1], (list, tuple))
	and len(line[1]) > 0
	):
	text = line[1][0]
	raw_texts.append(text)

	# Depending on the output_format, we concatenate the lines
	if self.output_format == "Single Line":
	joined_text = " ".join(raw_texts)
	# Text cleaning
	joined_text = re.sub(r"-(?!\w)", "", joined_text)
	joined_text = re.sub(r"\s+", " ", joined_text)
	elif self.output_format == "As Recognized":
	joined_text = " ".join(
	raw_texts
	) # Combine with spaces to create a single text
	# Clean up text, preserve line breaks
	joined_text = re.sub(r"-(?!\w)", "", joined_text)
	joined_text = re.sub(r"\s+", " ", joined_text)
	else:
	joined_text = " ".join(raw_texts)
	joined_text = re.sub(r"-(?!\w)", "", joined_text)
	joined_text = re.sub(r"\s+", " ", joined_text)

	# Apply case conversion to all text
	processed_text = self._apply_text_case(joined_text)
	processed_text = self._apply_punctuation_and_spacing(processed_text)

	if self.debug_mode:
	self.logger.debug(f"Final processed text: {processed_text}")

	return processed_text
	except Exception as e:
	if self.debug_mode:
	self.logger.error(f"Error processing OCR result: {str(e)}")
	return ""

	def _apply_text_case(self, text: str) -> str:
	if self.text_case == "Uppercase":
	return text.upper()
	elif self.text_case == "Capitalize Sentences":
	return self._capitalize_sentences(text)
	elif self.text_case == "Lowercase":
	return text.lower()
	else:
	return text # No change if the mode is not recognized

	def _capitalize_sentences(self, text: str) -> str:
	def process_sentence(sentence):
	words = sentence.split()
	if not words:
	return ""
	if len(words) == 1:
	return words[0].capitalize()
	else:
	return " ".join(
	[words[0].capitalize()] + [word.lower() for word in words[1:]]
	)

	# We divide into sentences only by punctuation marks
	sentences = re.split(r"(?<=[.!?…])\s+", text)
	return " ".join(process_sentence(sentence) for sentence in sentences)

	def _apply_punctuation_and_spacing(self, text: str) -> str:
	text = re.sub(r"\s+([,.!?…])", r"\1", text)
	text = re.sub(r"([,.!?…])(?!\s)(?![,.!?…])", r"\1 ", text)
	text = re.sub(r"([,.!?…])\s+([,.!?…])", r"\1\2", text)
	return text.strip()

	def updateParam(self, param_key: str, param_content):
	super().updateParam(param_key, param_content)
	if param_key in [
	"language",
	"device",
	"use_angle_cls",
	"ocr_version",
	"enable_mkldnn",
	"det_limit_side_len",
	"rec_batch_num",
	"drop_score",
	]:
	self.language = self.params["language"]["value"]
	self.device = self.params["device"]["value"]
	self.use_angle_cls = self.params["use_angle_cls"]["value"]
	self.ocr_version = self.params["ocr_version"]["value"]
	self.enable_mkldnn = self.params["enable_mkldnn"]["value"]
	self.det_limit_side_len = self.params["det_limit_side_len"]["value"]
	self.rec_batch_num = self.params["rec_batch_num"]["value"]
	self.drop_score = self.params["drop_score"]["value"]
	self._load_model()
	elif param_key == "text_case":
	self.text_case = self.params["text_case"]["value"]
	elif param_key == "output_format":
	self.output_format = self.params["output_format"]["value"]

	else:
	# If PaddleOCR is not installed, you can define a stub or alternative module
	logging.info("PaddleOCR module will not be loaded as the library is not installed.")