import numpy as np from tensorflow.keras.preprocessing.image import img_to_array, load_img import gradio as gr import tensorflow as tf import numpy as np from PIL import Image import cv2 from tensorflow.keras.preprocessing import image import keras emotion_labels = {'angry': 0, 'disgust': 1, 'fear': 2, 'happy': 3, 'neutral': 4, 'sad': 5, 'surprise': 6} index_to_emotion = {v: k for k, v in emotion_labels.items()} model = keras.models.load_model('ED_model_RT_19.keras') def prepare_image(img_pil): # Convert the PIL image to a numpy array with the target size img = img_pil.resize((224, 224)) img_array = img_to_array(img) img_array = np.expand_dims(img_array, axis=0) # Convert single image to a batch. img_array /= 255.0 # Rescale pixel values to [0,1], as done during training return img_array # Define the Gradio interface def predict_emotion(image): # Preprocess the image processed_image = prepare_image(image) # Make prediction using the model prediction = model.predict(processed_image) # Get the emotion label with the highest probability predicted_class = np.argmax(prediction, axis=1) predicted_emotion = index_to_emotion.get(predicted_class[0], "Unknown Emotion") return predicted_emotion interface = gr.Interface( fn=predict_emotion, # Your prediction function inputs=gr.Image(type="pil"), # Input for uploading an image, directly compatible with PIL images outputs="text", # Output as text displaying the predicted emotion title="Emotion Detection", description="Upload an image and see the predicted emotion." ) # Launch the Gradio interface interface.launch()