import streamlit as st import gradio as gr import cv2 import numpy as np from tensorflow.keras.models import load_model from tensorflow.keras.applications.vgg16 import preprocess_input from tensorflow.keras.preprocessing import image # Loading Models # braintumor_model = load_model('models/brain_tumor_binary.h5') braintumor_model = load_model('models/braintumor.h5') # Configuring Streamlit st.set_page_config(page_title="Brain Tumor Prediction App", page_icon=":brain:") def preprocess_image(img): # If it's a NumPy array, use it directly if isinstance(img, np.ndarray): img_gray = cv2.cvtColor(img, cv2.COLOR_RGB2GRAY) else: # Convert Gradio image data to bytes img_bytes = img.read() # Convert to NumPy array nparr = np.frombuffer(img_bytes, np.uint8) # Decode image img_gray = cv2.imdecode(nparr, cv2.IMREAD_GRAYSCALE) # Crop and preprocess the grayscale image img_processed = preprocess_imgs([img_gray], (224, 224)) return img_processed # Handle binary decision def binary_decision(confidence): return 1 if confidence >= 0.5 else 0 def predict_braintumor(img): # Preprocess the image img_processed = preprocess_image(img) # Make prediction pred = braintumor_model.predict(img_processed) # Handle binary decision confidence = pred[0][0] return "Brain Tumor Not Found!" if binary_decision(confidence) == 1 else "Brain Tumor Found!" def preprocess_imgs(set_name, img_size): set_new = [] for img in set_name: img = cv2.resize(img, dsize=img_size, interpolation=cv2.INTER_CUBIC) set_new.append(preprocess_input(img)) return np.array(set_new) def crop_imgs(set_name, add_pixels_value=0): set_new = [] for img in set_name: gray = cv2.GaussianBlur(img, (5, 5), 0) thresh = cv2.threshold(gray, 45, 255, cv2.THRESH_BINARY)[1] thresh = cv2.erode(thresh, None, iterations=2) thresh = cv2.dilate(thresh, None, iterations=2) cnts = cv2.findContours(thresh.copy(), cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE) cnts = cnts[0] if len(cnts) == 2 else cnts[1] c = max(cnts, key=cv2.contourArea) extLeft = tuple(c[c[:, :, 0].argmin()][0]) extRight = tuple(c[c[:, :, 0].argmax()][0]) extTop = tuple(c[c[:, :, 1].argmin()][0]) extBot = tuple(c[c[:, :, 1].argmax()][0]) ADD_PIXELS = add_pixels_value new_img = img[extTop[1] - ADD_PIXELS:extBot[1] + ADD_PIXELS, extLeft[0] - ADD_PIXELS:extRight[0] + ADD_PIXELS].copy() set_new.append(new_img) return np.array(set_new) # Gradio interface iface = gr.Interface( fn=predict_braintumor, inputs="image", outputs="text", examples=[["examples/1_no.jpeg"], ["examples/2_no.jpeg"], ["examples/3_no.jpg"], ["examples/Y1.jpg"], ["examples/Y2.jpg"], ["examples/Y3.jpg"]] ) iface.launch()