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	import tensorflow as tf
	import tensorflow_hub as hub

	import requests
	from PIL import Image
	from io import BytesIO

	import matplotlib.pyplot as plt
	import numpy as np
	import gradio as gr

	#@title Helper functions for loading image (hidden)

	original_image_cache = {}

	def preprocess_image(image):
	image = np.array(image)
	# reshape into shape [batch_size, height, width, num_channels]
	img_reshaped = tf.reshape(image, [1, image.shape[0], image.shape[1], image.shape[2]])
	# Use `convert_image_dtype` to convert to floats in the [0,1] range.
	image = tf.image.convert_image_dtype(img_reshaped, tf.float32)
	return image

	def load_image_from_url(img_url):
	"""Returns an image with shape [1, height, width, num_channels]."""
	user_agent = {'User-agent': 'Colab Sample (https://tensorflow.org)'}
	response = requests.get(img_url, headers=user_agent)
	image = Image.open(BytesIO(response.content))
	image = preprocess_image(image)
	return image

	def load_image(image_url, image_size=256, dynamic_size=False, max_dynamic_size=512):
	"""Loads and preprocesses images."""
	# Cache image file locally.
	if image_url in original_image_cache:
	img = original_image_cache[image_url]
	elif image_url.startswith('https://'):
	img = load_image_from_url(image_url)
	else:
	fd = tf.io.gfile.GFile(image_url, 'rb')
	img = preprocess_image(Image.open(fd))
	original_image_cache[image_url] = img
	# Load and convert to float32 numpy array, add batch dimension, and normalize to range [0, 1].
	img_raw = img
	if tf.reduce_max(img) > 1.0:
	img = img / 255.
	if len(img.shape) == 3:
	img = tf.stack([img, img, img], axis=-1)
	if not dynamic_size:
	img = tf.image.resize_with_pad(img, image_size, image_size)
	elif img.shape[1] > max_dynamic_size or img.shape[2] > max_dynamic_size:
	img = tf.image.resize_with_pad(img, max_dynamic_size, max_dynamic_size)
	return img, img_raw



	image_size = 224
	dynamic_size = False

	model_name = "mobilenet_v2_100_224"

	model_handle_map = {
	"efficientnetv2-s": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet1k_s/classification/2",
	"efficientnetv2-m": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet1k_m/classification/2",
	"efficientnetv2-l": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet1k_l/classification/2",
	"efficientnetv2-s-21k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_s/classification/2",
	"efficientnetv2-m-21k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_m/classification/2",
	"efficientnetv2-l-21k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_l/classification/2",
	"efficientnetv2-xl-21k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_xl/classification/2",
	"efficientnetv2-b0-21k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_b0/classification/2",
	"efficientnetv2-b1-21k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_b1/classification/2",
	"efficientnetv2-b2-21k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_b2/classification/2",
	"efficientnetv2-b3-21k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_b3/classification/2",
	"efficientnetv2-s-21k-ft1k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_ft1k_s/classification/2",
	"efficientnetv2-m-21k-ft1k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_ft1k_m/classification/2",
	"efficientnetv2-l-21k-ft1k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_ft1k_l/classification/2",
	"efficientnetv2-xl-21k-ft1k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_ft1k_xl/classification/2",
	"efficientnetv2-b0-21k-ft1k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_ft1k_b0/classification/2",
	"efficientnetv2-b1-21k-ft1k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_ft1k_b1/classification/2",
	"efficientnetv2-b2-21k-ft1k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_ft1k_b2/classification/2",
	"efficientnetv2-b3-21k-ft1k": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet21k_ft1k_b3/classification/2",
	"efficientnetv2-b0": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet1k_b0/classification/2",
	"efficientnetv2-b1": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet1k_b1/classification/2",
	"efficientnetv2-b2": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet1k_b2/classification/2",
	"efficientnetv2-b3": "https://tfhub.dev/google/imagenet/efficientnet_v2_imagenet1k_b3/classification/2",
	"efficientnet_b0": "https://tfhub.dev/tensorflow/efficientnet/b0/classification/1",
	"efficientnet_b1": "https://tfhub.dev/tensorflow/efficientnet/b1/classification/1",
	"efficientnet_b2": "https://tfhub.dev/tensorflow/efficientnet/b2/classification/1",
	"efficientnet_b3": "https://tfhub.dev/tensorflow/efficientnet/b3/classification/1",
	"efficientnet_b4": "https://tfhub.dev/tensorflow/efficientnet/b4/classification/1",
	"efficientnet_b5": "https://tfhub.dev/tensorflow/efficientnet/b5/classification/1",
	"efficientnet_b6": "https://tfhub.dev/tensorflow/efficientnet/b6/classification/1",
	"efficientnet_b7": "https://tfhub.dev/tensorflow/efficientnet/b7/classification/1",
	"bit_s-r50x1": "https://tfhub.dev/google/bit/s-r50x1/ilsvrc2012_classification/1",
	"inception_v3": "https://tfhub.dev/google/imagenet/inception_v3/classification/4",
	"inception_resnet_v2": "https://tfhub.dev/google/imagenet/inception_resnet_v2/classification/4",
	"resnet_v1_50": "https://tfhub.dev/google/imagenet/resnet_v1_50/classification/4",
	"resnet_v1_101": "https://tfhub.dev/google/imagenet/resnet_v1_101/classification/4",
	"resnet_v1_152": "https://tfhub.dev/google/imagenet/resnet_v1_152/classification/4",
	"resnet_v2_50": "https://tfhub.dev/google/imagenet/resnet_v2_50/classification/4",
	"resnet_v2_101": "https://tfhub.dev/google/imagenet/resnet_v2_101/classification/4",
	"resnet_v2_152": "https://tfhub.dev/google/imagenet/resnet_v2_152/classification/4",
	"nasnet_large": "https://tfhub.dev/google/imagenet/nasnet_large/classification/4",
	"nasnet_mobile": "https://tfhub.dev/google/imagenet/nasnet_mobile/classification/4",
	"pnasnet_large": "https://tfhub.dev/google/imagenet/pnasnet_large/classification/4",
	"mobilenet_v2_100_224": "https://tfhub.dev/google/imagenet/mobilenet_v2_100_224/classification/4",
	"mobilenet_v2_130_224": "https://tfhub.dev/google/imagenet/mobilenet_v2_130_224/classification/4",
	"mobilenet_v2_140_224": "https://tfhub.dev/google/imagenet/mobilenet_v2_140_224/classification/4",
	"mobilenet_v3_small_100_224": "https://tfhub.dev/google/imagenet/mobilenet_v3_small_100_224/classification/5",
	"mobilenet_v3_small_075_224": "https://tfhub.dev/google/imagenet/mobilenet_v3_small_075_224/classification/5",
	"mobilenet_v3_large_100_224": "https://tfhub.dev/google/imagenet/mobilenet_v3_large_100_224/classification/5",
	"mobilenet_v3_large_075_224": "https://tfhub.dev/google/imagenet/mobilenet_v3_large_075_224/classification/5",
	}

	model_image_size_map = {
	"efficientnetv2-s": 384,
	"efficientnetv2-m": 480,
	"efficientnetv2-l": 480,
	"efficientnetv2-b0": 224,
	"efficientnetv2-b1": 240,
	"efficientnetv2-b2": 260,
	"efficientnetv2-b3": 300,
	"efficientnetv2-s-21k": 384,
	"efficientnetv2-m-21k": 480,
	"efficientnetv2-l-21k": 480,
	"efficientnetv2-xl-21k": 512,
	"efficientnetv2-b0-21k": 224,
	"efficientnetv2-b1-21k": 240,
	"efficientnetv2-b2-21k": 260,
	"efficientnetv2-b3-21k": 300,
	"efficientnetv2-s-21k-ft1k": 384,
	"efficientnetv2-m-21k-ft1k": 480,
	"efficientnetv2-l-21k-ft1k": 480,
	"efficientnetv2-xl-21k-ft1k": 512,
	"efficientnetv2-b0-21k-ft1k": 224,
	"efficientnetv2-b1-21k-ft1k": 240,
	"efficientnetv2-b2-21k-ft1k": 260,
	"efficientnetv2-b3-21k-ft1k": 300,
	"efficientnet_b0": 224,
	"efficientnet_b1": 240,
	"efficientnet_b2": 260,
	"efficientnet_b3": 300,
	"efficientnet_b4": 380,
	"efficientnet_b5": 456,
	"efficientnet_b6": 528,
	"efficientnet_b7": 600,
	"inception_v3": 299,
	"inception_resnet_v2": 299,
	"mobilenet_v2_100_224": 224,
	"mobilenet_v2_130_224": 224,
	"mobilenet_v2_140_224": 224,
	"nasnet_large": 331,
	"nasnet_mobile": 224,
	"pnasnet_large": 331,
	"resnet_v1_50": 224,
	"resnet_v1_101": 224,
	"resnet_v1_152": 224,
	"resnet_v2_50": 224,
	"resnet_v2_101": 224,
	"resnet_v2_152": 224,
	"mobilenet_v3_small_100_224": 224,
	"mobilenet_v3_small_075_224": 224,
	"mobilenet_v3_large_100_224": 224,
	"mobilenet_v3_large_075_224": 224,
	}

	model_handle = model_handle_map[model_name]


	max_dynamic_size = 512
	if model_name in model_image_size_map:
	image_size = model_image_size_map[model_name]
	dynamic_size = False
	print(f"Images will be converted to {image_size}x{image_size}")
	else:
	dynamic_size = True
	print(f"Images will be capped to a max size of {max_dynamic_size}x{max_dynamic_size}")

	labels_file = "https://storage.googleapis.com/download.tensorflow.org/data/ImageNetLabels.txt"

	#download labels and creates a maps
	downloaded_file = tf.keras.utils.get_file("labels.txt", origin=labels_file)

	classes = []

	with open(downloaded_file) as f:
	labels = f.readlines()
	classes = [l.strip() for l in labels]


	classifier = hub.load(model_handle)


	def inference(img):
	image, original_image = load_image(img, image_size, dynamic_size, max_dynamic_size)


	input_shape = image.shape
	warmup_input = tf.random.uniform(input_shape, 0, 1.0)
	warmup_logits = classifier(warmup_input).numpy()

	# Run model on image
	probabilities = tf.nn.softmax(classifier(image)).numpy()

	top_5 = tf.argsort(probabilities, axis=-1, direction="DESCENDING")[0][:5].numpy()
	np_classes = np.array(classes)

	# Some models include an additional 'background' class in the predictions, so
	# we must account for this when reading the class labels.
	includes_background_class = probabilities.shape[1] == 1001
	result = {}
	for i, item in enumerate(top_5):
	class_index = item if includes_background_class else item + 1
	line = f'({i+1}) {class_index:4} - {classes[class_index]}: {probabilities[0][top_5][i]}'
	result[classes[class_index]] = probabilities[0][top_5][i].item()
	return result

	title="mobilenet_v2_100_224"
	description="Gradio Demo for mobilenet_v2_100_224: Imagenet (ILSVRC-2012-CLS) classification with MobileNet V2 (depth multiplier 1.00). To use it, simply upload your image or click on one of the examples to load them. Read more at the links below"
	article = "<p style='text-align: center'><a href='https://tfhub.dev/google/imagenet/mobilenet_v2_100_224/classification/5' target='_blank'>Tensorflow Hub</a></p>"
	examples=[['apple1.jpg']]
	gr.Interface(inference,gr.inputs.Image(type="filepath"),"label",title=title,description=description,article=article,examples=examples).launch(enable_queue=True)