import easyocr import numpy as np import cv2 import re reader = easyocr.Reader(['en'], gpu=False) def extract_weight_from_image(pil_img): try: img = np.array(pil_img) # Resize if too large max_dim = 1000 height, width = img.shape[:2] if max(height, width) > max_dim: scale = max_dim / max(height, width) img = cv2.resize(img, None, fx=scale, fy=scale, interpolation=cv2.INTER_AREA) results = reader.readtext(img) best_weight = None best_conf = 0.0 for item in results: if len(item) != 2 or not isinstance(item[1], tuple): continue text, conf = item[1] cleaned = text.lower().strip() # Fix misread characters cleaned = cleaned.replace(",", ".") cleaned = cleaned.replace("o", "0").replace("O", "0") cleaned = cleaned.replace("s", "5").replace("S", "5") cleaned = cleaned.replace("g", "9").replace("G", "6") cleaned = cleaned.replace("kg", "").replace("kgs", "") cleaned = re.sub(r"[^\d\.]", "", cleaned) # Check for number format like 75.5, 102.3 if re.fullmatch(r"\d{2,4}(\.\d{1,3})?", cleaned): if conf > best_conf: best_weight = cleaned best_conf = conf # If nothing matched, return first numeric string found if not best_weight: for item in results: if len(item) != 2 or not isinstance(item[1], tuple): continue text, conf = item[1] fallback = re.sub(r"[^\d\.]", "", text) if fallback and fallback.replace(".", "").isdigit(): best_weight = fallback best_conf = conf break if not best_weight: return "Not detected", 0.0 # Strip leading zeros if "." in best_weight: int_part, dec_part = best_weight.split(".") int_part = int_part.lstrip("0") or "0" best_weight = f"{int_part}.{dec_part}" else: best_weight = best_weight.lstrip("0") or "0" return best_weight, round(best_conf * 100, 2) except Exception as e: return f"Error: {str(e)}", 0.0