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Skin_Cancer_Prediction / app.py

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	import numpy as np
	import tempfile
	import pandas as pd
	import tensorflow as tf
	from tensorflow import keras
	from tensorflow.keras.layers import Conv2D, MaxPooling2D, Flatten, Dense, Dropout, BatchNormalization, GlobalAveragePooling2D
	from tensorflow.keras.models import Model, load_model, Sequential
	from tensorflow.keras.optimizers import Adam
	from tensorflow.keras.metrics import Precision, Recall
	from tensorflow.keras.callbacks import EarlyStopping
	from sklearn.utils.class_weight import compute_class_weight
	from sklearn.model_selection import train_test_split
	from tensorflow.image import resize
	import cv2

	from tensorflow.keras.utils import to_categorical
	import matplotlib.pyplot as plt
	import warnings
	import warnings
	warnings.filterwarnings("ignore")

	# print ('modules loaded')


	import streamlit as st
	import pandas as pd
	import numpy as np
	from PIL import Image
	import tensorflow.keras as keras

	st.title("Skin Cancer Classification App")

	models = {
	"Le_Net": load_model('LeNet_5.h5'),
	"Simple_CNN": load_model('Simple CNN.h5'),
	"Alex_Net": load_model('AlexNet.h5'),
	"Deeper_CNN": load_model('Deeper CNN.h5')
	}

	# Allow user to select model
	model_name = st.selectbox("Choose a model", list(models.keys()))
	model = models[model_name]

	# Upload Image

	file = st.file_uploader("Upload an image", type=["png", "jpg", "jpeg"])
	# file ='hmnist_28_28_RGB.csv'

	print(file)

	true_file=pd.read_csv("HAM10000_metadata.csv")


	# true_file.apply(lambda x: x["image_id"] ==file)

	# uploaded_file = st.file_uploader("Choose a image file", type="jpg")

	# if uploaded_file is not None:
	# # Convert the file to an opencv image.
	# file_bytes = np.asarray(bytearray(uploaded_file.read()), dtype=np.uint8)
	# opencv_image = cv2.imdecode(file_bytes, 1)

	# st.image(opencv_image, channels="BGR")


	classes = {4: ('nv', ' melanocytic nevi'), 6: ('mel', 'melanoma'),
	2 :('bkl', 'benign keratosis-like lesions'), 1:('bcc' , ' basal cell carcinoma'),
	5: ('vasc', ' pyogenic granulomas and hemorrhage'),
	0: ('akiec', 'Actinic keratoses and intraepithelial carcinomae'),
	3: ('df', 'dermatofibroma')}


	if file is not None:

	file_bytes = np.asarray(bytearray(file.read()), dtype=np.uint8)
	opencv_image = cv2.imdecode(file_bytes, 1)


	# temp_dir = tempfile.TemporaryDirectory()
	# temp_file_path = temp_dir.name + "/" + file.name

	# # Save the uploaded file to the temporary directory
	# with open(temp_file_path, "wb") as f:
	# f.write(file.read())

	# img = cv2.imread(file)
	# cv2_imshow(img)
	img1 = cv2.resize(opencv_image, (32, 32))
	result = model.predict(img1.reshape(1, 32, 32, 3))
	max_prob = max(result[0])
	class_ind = list(result[0]).index(max_prob)
	class_name = classes[class_ind]
	# print(class_name)
	# count+=1
	# if count>10:
	# break


	# df = pd.read_csv(file)
	# # Get first row
	# img_reshaped = image_resize(df)

	# # Get prediction
	# pred = model.predict(img_reshaped)
	# label = np.argmax(pred)


	# Display image and result
	col1, col2 = st.columns(2)
	with col1:
	st.header("Input Image")
	st.image(opencv_image, channels="BGR")
	with col2:
	st.header("Results")
	st.write("True Label",true_file[true_file["image_id"]==file]["dx"][0]])
	st.write("Prediction",class_name[0])
	st.metric("Category:", class_name[1])







	# from google.colab.patches import cv2_imshow
	# srcdir = '/kaggle/input/skin-cancer-mnist-ham10000/HAM10000_images_part_1'
	# count=0
	# for temp in os.listdir(srcdir):
	# img = cv2.imread(os.path.join(srcdir, temp))
	# cv2.imwrite(temp, img)
	# cv2_imshow(img)
	# img = cv2.resize(img, (28, 28))
	# result = model.predict(img.reshape(1, 28, 28, 3))
	# max_prob = max(result[0])
	# class_ind = list(result[0]).index(max_prob)
	# class_name = classes[class_ind]
	# print(class_name)
	# count+=1
	# if count>10:
	# break