import os import numpy as np import tensorflow as tf from tensorflow import keras # Load the trained model model = keras.models.load_model('trained_model.h5') # Load the class names class_names = ['Table', 'Done','Order'] # Load and preprocess the validation dataset data_dir = "Training/" image_size = (100, 100) batch_size = 32 val_ds = tf.keras.preprocessing.image_dataset_from_directory( data_dir, validation_split=0.2, subset="validation", seed=123, image_size=image_size, batch_size=batch_size, ) # Select 20 random images from the validation set val_images = [] val_labels = [] for images, labels in val_ds.unbatch().shuffle(1000).take(60): val_images.append(images) val_labels.append(labels) # Make predictions on the random images errorcount = 0 for i in range(60): test_image = val_images[i] test_label = val_labels[i] test_image = np.expand_dims(test_image, axis=0) test_image = test_image / 255.0 # Normalize the image # Make predictions predictions = model.predict(test_image) predicted_class_index = np.argmax(predictions[0]) predicted_class = class_names[predicted_class_index] true_class = class_names[test_label] direct = 'Results/' filename = predicted_class + str(i) + '.jpeg' tf.keras.preprocessing.image.save_img(direct+filename, test_image) if predicted_class != true_class: errorcount += 1 print('Image', i+1) print('True class:', true_class) print('Predicted class:', predicted_class) print() print('Error count: ', errorcount)