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AutoWeightLogger1 / ocr_engine.py

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	import easyocr
	import numpy as np
	import cv2
	import re
	import logging
	from datetime import datetime
	import os

	# Set up logging
	logging.basicConfig(level=logging.INFO, format='%(asctime)s - %(levelname)s - %(message)s')

	# Initialize EasyOCR
	try:
	easyocr_reader = easyocr.Reader(['en'], gpu=False)
	logging.info("EasyOCR initialized successfully")
	except Exception as e:
	logging.error(f"Failed to initialize EasyOCR: {str(e)}")
	easyocr_reader = None

	# Directory for debug images
	DEBUG_DIR = "debug_images"
	os.makedirs(DEBUG_DIR, exist_ok=True)

	def save_debug_image(img, filename_suffix, prefix=""):
	"""Save image to debug directory with timestamp."""
	timestamp = datetime.now().strftime("%Y%m%d_%H%M%S_%f")
	filename = os.path.join(DEBUG_DIR, f"{prefix}{timestamp}_{filename_suffix}.png")
	if len(img.shape) == 3:
	cv2.imwrite(filename, cv2.cvtColor(img, cv2.COLOR_BGR2RGB))
	else:
	cv2.imwrite(filename, img)
	logging.info(f"Saved debug image: {filename}")

	def estimate_brightness(img):
	"""Estimate image brightness."""
	gray = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY)
	return np.mean(gray)

	def preprocess_image(img):
	"""Preprocess image for OCR with enhanced contrast and noise reduction."""
	gray = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY)
	brightness = estimate_brightness(img)
	# Dynamic CLAHE based on brightness
	clahe_clip = 4.0 if brightness < 80 else 2.0
	clahe = cv2.createCLAHE(clipLimit=clahe_clip, tileGridSize=(8, 8))
	enhanced = clahe.apply(gray)
	save_debug_image(enhanced, "01_preprocess_clahe")
	# Gaussian blur to reduce noise
	blurred = cv2.GaussianBlur(enhanced, (3, 3), 0)
	save_debug_image(blurred, "02_preprocess_blur")
	# Adaptive thresholding with dynamic block size
	block_size = max(11, min(31, int(img.shape[0] / 15) * 2 + 1))
	thresh = cv2.adaptiveThreshold(blurred, 255, cv2.ADAPTIVE_THRESH_GAUSSIAN_C,
	cv2.THRESH_BINARY_INV, block_size, 5)
	# Morphological operations to enhance digits
	kernel = cv2.getStructuringElement(cv2.MORPH_RECT, (3, 3))
	thresh = cv2.morphologyEx(thresh, cv2.MORPH_OPEN, kernel, iterations=1)
	thresh = cv2.morphologyEx(thresh, cv2.MORPH_CLOSE, kernel, iterations=2)
	save_debug_image(thresh, "03_preprocess_morph")
	return thresh, enhanced

	def correct_rotation(img):
	"""Correct image rotation using edge detection."""
	try:
	gray = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY)
	edges = cv2.Canny(gray, 50, 150, apertureSize=3)
	lines = cv2.HoughLinesP(edges, 1, np.pi / 180, threshold=50, minLineLength=30, maxLineGap=10)
	if lines is not None:
	angles = [np.arctan2(line[0][3] - line[0][1], line[0][2] - line[0][0]) * 180 / np.pi for line in lines]
	angle = np.median(angles)
	if abs(angle) > 1.0:
	h, w = img.shape[:2]
	center = (w // 2, h // 2)
	M = cv2.getRotationMatrix2D(center, angle, 1.0)
	img = cv2.warpAffine(img, M, (w, h))
	save_debug_image(img, "00_rotated_image")
	logging.info(f"Applied rotation: {angle:.2f} degrees")
	return img
	except Exception as e:
	logging.error(f"Rotation correction failed: {str(e)}")
	return img

	def detect_roi(img):
	"""Detect region of interest (display) with multi-scale contour filtering."""
	try:
	save_debug_image(img, "04_original")
	thresh, enhanced = preprocess_image(img)
	brightness_map = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY)
	# Try multiple block sizes for robust ROI detection
	block_sizes = [max(11, min(31, int(img.shape[0] / s) * 2 + 1)) for s in [15, 20, 25]]
	valid_contours = []
	img_area = img.shape[0] * img.shape[1]

	for block_size in block_sizes:
	temp_thresh = cv2.adaptiveThreshold(enhanced, 255, cv2.ADAPTIVE_THRESH_GAUSSIAN_C,
	cv2.THRESH_BINARY_INV, block_size, 5)
	kernel = cv2.getStructuringElement(cv2.MORPH_RECT, (5, 5))
	temp_thresh = cv2.morphologyEx(temp_thresh, cv2.MORPH_CLOSE, kernel, iterations=2)
	save_debug_image(temp_thresh, f"05_roi_threshold_block{block_size}")
	contours, _ = cv2.findContours(temp_thresh, cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE)

	for c in contours:
	area = cv2.contourArea(c)
	x, y, w, h = cv2.boundingRect(c)
	roi_brightness = np.mean(brightness_map[y:y+h, x:x+w])
	aspect_ratio = w / h
	if (300 < area < (img_area * 0.7) and
	0.5 <= aspect_ratio <= 10.0 and w > 60 and h > 25 and roi_brightness > 40):
	valid_contours.append((c, area * roi_brightness))
	logging.debug(f"Contour (block {block_size}): Area={area}, Aspect={aspect_ratio:.2f}, Brightness={roi_brightness:.2f}")

	if valid_contours:
	contour, _ = max(valid_contours, key=lambda x: x[1])
	x, y, w, h = cv2.boundingRect(contour)
	padding = max(20, min(60, int(min(w, h) * 0.3)))
	x, y = max(0, x - padding), max(0, y - padding)
	w, h = min(w + 2 * padding, img.shape[1] - x), min(h + 2 * padding, img.shape[0] - y)
	roi_img = img[y:y+h, x:x+w]
	save_debug_image(roi_img, "06_detected_roi")
	logging.info(f"Detected ROI: ({x}, {y}, {w}, {h})")
	return roi_img, (x, y, w, h)

	logging.info("No ROI found, using full image.")
	save_debug_image(img, "06_no_roi_fallback")
	return img, None
	except Exception as e:
	logging.error(f"ROI detection failed: {str(e)}")
	save_debug_image(img, "06_roi_error_fallback")
	return img, None

	def detect_segments(digit_img, brightness):
	"""Detect seven-segment digits with adaptive thresholds."""
	try:
	h, w = digit_img.shape
	if h < 10 or w < 5:
	logging.debug("Digit image too small for segment detection.")
	return None

	# Dynamic segment threshold based on brightness
	segment_threshold = 0.2 if brightness < 80 else 0.3
	segments = {
	'top': (int(w0.1), int(w0.9), 0, int(h*0.25)),
	'middle': (int(w0.1), int(w0.9), int(h0.45), int(h0.55)),
	'bottom': (int(w0.1), int(w0.9), int(h*0.75), h),
	'left_top': (0, int(w0.3), int(h0.1), int(h*0.5)),
	'left_bottom': (0, int(w0.3), int(h0.5), int(h*0.9)),
	'right_top': (int(w0.7), w, int(h0.1), int(h*0.5)),
	'right_bottom': (int(w0.7), w, int(h0.5), int(h*0.9))
	}

	segment_presence = {}
	for name, (x1, x2, y1, y2) in segments.items():
	x1, y1 = max(0, x1), max(0, y1)
	x2, y2 = min(w, x2), min(h, y2)
	region = digit_img[y1:y2, x1:x2]
	if region.size == 0:
	segment_presence[name] = False
	continue
	pixel_count = np.sum(region == 255)
	total_pixels = region.size
	segment_presence[name] = pixel_count / total_pixels > segment_threshold
	logging.debug(f"Segment {name}: {pixel_count}/{total_pixels} = {pixel_count/total_pixels:.2f}")

	digit_patterns = {
	'0': ('top', 'bottom', 'left_top', 'left_bottom', 'right_top', 'right_bottom'),
	'1': ('right_top', 'right_bottom'),
	'2': ('top', 'middle', 'bottom', 'left_bottom', 'right_top'),
	'3': ('top', 'middle', 'bottom', 'right_top', 'right_bottom'),
	'4': ('middle', 'left_top', 'right_top', 'right_bottom'),
	'5': ('top', 'middle', 'bottom', 'left_top', 'right_bottom'),
	'6': ('top', 'middle', 'bottom', 'left_top', 'left_bottom', 'right_bottom'),
	'7': ('top', 'right_top', 'right_bottom'),
	'8': ('top', 'middle', 'bottom', 'left_top', 'left_bottom', 'right_top', 'right_bottom'),
	'9': ('top', 'middle', 'bottom', 'left_top', 'right_top', 'right_bottom')
	}

	best_match, best_score = None, -1
	for digit, pattern in digit_patterns.items():
	matches = sum(1 for segment in pattern if segment_presence.get(segment, False))
	non_matches = sum(1 for segment in segment_presence if segment not in pattern and segment_presence[segment])
	score = matches - 0.2 * non_matches
	if matches >= len(pattern) * 0.6:
	score += 1.0
	if score > best_score:
	best_score = score
	best_match = digit
	logging.debug(f"Segment detection: {segment_presence}, Digit: {best_match}, Score: {best_score:.2f}")
	return best_match
	except Exception as e:
	logging.error(f"Segment detection failed: {str(e)}")
	return None

	def perform_ocr(img, roi_bbox):
	"""Perform OCR with EasyOCR and seven-segment fallback."""
	if easyocr_reader is None:
	logging.error("EasyOCR not initialized, cannot perform OCR.")
	return None, 0.0
	try:
	thresh, enhanced = preprocess_image(img)
	brightness = estimate_brightness(img)
	# Dynamic EasyOCR parameters
	results = easyocr_reader.readtext(thresh, detail=1, paragraph=False,
	contrast_ths=0.1, adjust_contrast=1.5,
	text_threshold=0.3, mag_ratio=3.0,
	allowlist='0123456789.', batch_size=1, y_ths=0.2)
	save_debug_image(thresh, "07_ocr_threshold")
	logging.info(f"EasyOCR results: {results}")

	if not results:
	logging.info("EasyOCR failed, trying fallback parameters.")
	results = easyocr_reader.readtext(thresh, detail=1, paragraph=False,
	contrast_ths=0.05, adjust_contrast=2.0,
	text_threshold=0.2, mag_ratio=4.0,
	allowlist='0123456789.', batch_size=1, y_ths=0.2)
	save_debug_image(thresh, "07_fallback_threshold")

	digits_info = []
	for (bbox, text, conf) in results:
	(x1, y1), (x2, y2), (x3, y3), (x4, y4) = bbox
	h_bbox = max(y1, y2, y3, y4) - min(y1, y2, y3, y4)
	if (text.isdigit() or text == '.') and h_bbox > 10 and conf > 0.2:
	x_min, x_max = int(min(x1, x4)), int(max(x2, x3))
	y_min, y_max = int(min(y1, y2)), int(max(y3, y4))
	digits_info.append((x_min, x_max, y_min, y_max, text, conf))

	if digits_info:
	digits_info.sort(key=lambda x: x[0])
	recognized_text = ""
	total_conf = 0.0
	conf_count = 0
	for idx, (x_min, x_max, y_min, y_max, char, conf) in enumerate(digits_info):
	x_min, y_min = max(0, x_min), max(0, y_min)
	x_max, y_max = min(thresh.shape[1], x_max), min(thresh.shape[0], y_max)
	if x_max <= x_min or y_max <= y_min:
	continue
	if conf < 0.7 and char != '.':
	digit_crop = thresh[y_min:y_max, x_min:x_max]
	save_debug_image(digit_crop, f"08_digit_crop_{idx}_{char}")
	segment_digit = detect_segments(digit_crop, brightness)
	if segment_digit:
	recognized_text += segment_digit
	total_conf += 0.85
	logging.debug(f"Used segment detection for char {char}: {segment_digit}")
	else:
	recognized_text += char
	total_conf += conf
	conf_count += 1
	else:
	recognized_text += char
	total_conf += conf
	conf_count += 1

	avg_conf = total_conf / conf_count if conf_count > 0 else 0.0
	text = re.sub(r"[^\d\.]", "", recognized_text)
	if text.count('.') > 1:
	text = text.replace('.', '', text.count('.') - 1)
	text = text.strip('.')
	if text and re.fullmatch(r"^\d\.?\d$", text):
	text = text.lstrip('0') or '0'
	logging.info(f"Validated text: {text}, Confidence: {avg_conf:.2f}")
	return text, avg_conf * 100
	logging.info("No valid digits detected.")
	return None, 0.0
	except Exception as e:
	logging.error(f"OCR failed: {str(e)}")
	return None, 0.0

	def extract_weight_from_image(pil_img):
	"""Extract weight from a digital scale image."""
	try:
	img = np.array(pil_img)
	img = cv2.cvtColor(img, cv2.COLOR_RGB2BGR)
	save_debug_image(img, "00_input_image")
	img = correct_rotation(img)
	brightness = estimate_brightness(img)
	conf_threshold = 0.7 if brightness > 100 else 0.5

	roi_img, roi_bbox = detect_roi(img)
	if roi_bbox:
	conf_threshold = 1.1 if (roi_bbox[2] roi_bbox[3]) > (img.shape[0] * img.shape[1] * 0.3) else 1.0

	result, confidence = perform_ocr(roi_img, roi_bbox)
	if result and confidence >= conf_threshold * 100:
	try:
	weight = float(result)
	if 0.01 <= weight <= 1000:
	logging.info(f"Detected weight: {result} kg, Confidence: {confidence:.2f}%")
	return result, confidence
	logging.warning(f"Weight {result} out of range.")
	except ValueError:
	logging.warning(f"Invalid weight format: {result}")

	logging.info("Primary OCR failed, using full image fallback.")
	result, confidence = perform_ocr(img, None)
	if result and confidence >= conf_threshold * 0.9 * 100:
	try:
	weight = float(result)
	if 0.01 <= weight <= 1000:
	logging.info(f"Full image weight: {result} kg, Confidence: {confidence:.2f}%")
	return result, confidence
	logging.warning(f"Full image weight {result} out of range.")
	except ValueError:
	logging.warning(f"Invalid full image weight format: {result}")

	logging.info("No valid weight detected.")
	return "Not detected", 0.0
	except Exception as e:
	logging.error(f"Weight extraction failed: {str(e)}")
	return "Not detected", 0.0