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	import torch
	from transformers import ViTImageProcessor, ViTForImageClassification
	from fastai.learner import load_learner
	from fastai.vision.core import PILImage
	from PIL import Image
	import matplotlib.pyplot as plt
	import numpy as np
	import gradio as gr
	import io
	import base64
	import os
	import zipfile
	import tensorflow as tf

	# --- Extraer y cargar modelo TensorFlow desde zip ---
	zip_path = "saved_model.zip"
	extract_dir = "saved_model"
	if not os.path.exists(extract_dir):
	os.makedirs(extract_dir)
	with zipfile.ZipFile(zip_path, 'r') as zip_ref:
	zip_ref.extractall(extract_dir)

	model_tf = tf.saved_model.load(extract_dir)

	# Función helper para inferencia TensorFlow
	def predict_tf(img: Image.Image):
	try:
	img_resized = img.resize((224,224))
	img_np = np.array(img_resized) / 255.0
	if img_np.shape[-1] == 4:
	img_np = img_np[..., :3]
	img_tf = tf.convert_to_tensor(img_np, dtype=tf.float32)
	img_tf = tf.expand_dims(img_tf, axis=0)

	infer = model_tf.signatures["serving_default"]
	output = infer(img_tf)
	pred = list(output.values())[0].numpy()[0]
	probs = tf.nn.softmax(pred).numpy()
	return probs
	except Exception as e:
	print(f"Error en predict_tf: {e}")
	return np.zeros(2)

	MODEL_NAME = "ahishamm/vit-base-HAM-10000-sharpened-patch-32"
	feature_extractor = ViTImageProcessor.from_pretrained(MODEL_NAME)
	model_vit = ViTForImageClassification.from_pretrained(MODEL_NAME)
	model_vit.eval()

	model_malignancy = load_learner("ada_learn_malben.pkl")
	model_norm2000 = load_learner("ada_learn_skin_norm2000.pkl")

	CLASSES = [
	"Queratosis actínica / Bowen", "Carcinoma células basales",
	"Lesión queratósica benigna", "Dermatofibroma",
	"Melanoma maligno", "Nevus melanocítico", "Lesión vascular"
	]
	RISK_LEVELS = {
	0: {'level': 'Moderado', 'color': '#ffaa00', 'weight': 0.6},
	1: {'level': 'Alto', 'color': '#ff4444', 'weight': 0.8},
	2: {'level': 'Bajo', 'color': '#44ff44', 'weight': 0.1},
	3: {'level': 'Bajo', 'color': '#44ff44', 'weight': 0.1},
	4: {'level': 'Crítico', 'color': '#cc0000', 'weight': 1.0},
	5: {'level': 'Bajo', 'color': '#44ff44', 'weight': 0.1},
	6: {'level': 'Bajo', 'color': '#44ff44', 'weight': 0.1}
	}

	def analizar_lesion_combined(img):
	try:
	img_fastai = PILImage.create(img)
	inputs = feature_extractor(img, return_tensors="pt")
	with torch.no_grad():
	outputs = model_vit(**inputs)
	probs_vit = outputs.logits.softmax(dim=-1).cpu().numpy()[0]
	pred_idx_vit = int(np.argmax(probs_vit))
	pred_class_vit = CLASSES[pred_idx_vit]
	confidence_vit = probs_vit[pred_idx_vit]
	except:
	pred_class_vit = "Error"
	confidence_vit = 0.0
	probs_vit = np.zeros(len(CLASSES))

	try:
	pred_fast_malignant, _, probs_fast_mal = model_malignancy.predict(img_fastai)
	prob_malignant = float(probs_fast_mal[1])
	except:
	prob_malignant = 0.0

	try:
	pred_fast_type, _, _ = model_norm2000.predict(img_fastai)
	except:
	pred_fast_type = "Error"

	try:
	probs_tf = predict_tf(img)
	if len(probs_tf) == 2:
	benign_prob, malignant_prob = probs_tf
	pred_class_tf = "Maligno" if malignant_prob > benign_prob else "Benigno"
	confidence_tf = max(probs_tf)
	else:
	pred_class_tf = "Modelo no binario"
	confidence_tf = 0.0
	except:
	pred_class_tf = "Error"
	confidence_tf = 0.0

	colors_bars = [RISK_LEVELS[i]['color'] for i in range(7)]
	fig, ax = plt.subplots(figsize=(8, 3))
	ax.bar(CLASSES, probs_vit*100, color=colors_bars)
	ax.set_title("Probabilidad ViT por tipo de lesión")
	ax.set_ylabel("Probabilidad (%)")
	ax.set_xticks(np.arange(len(CLASSES)))
	ax.set_xticklabels(CLASSES, rotation=45, ha='right')
	ax.grid(axis='y', alpha=0.2)
	plt.tight_layout()
	buf = io.BytesIO()
	plt.savefig(buf, format="png")
	plt.close(fig)
	img_bytes = buf.getvalue()
	img_b64 = base64.b64encode(img_bytes).decode("utf-8")
	html_chart = f'<img src="data:image/png;base64,{img_b64}" style="max-width:100%"/>'

	informe = f"""
	<div style="font-family:sans-serif; max-width:800px; margin:auto">
	<h2>🦢 Diagnóstico por 4 modelos de IA</h2>
	<table style="border-collapse: collapse; width:100%; font-size:16px">
	<tr><th style="text-align:left">🔍 Modelo</th><th>Resultado</th><th>Confianza</th></tr>
	<tr><td>🧠 ViT (transformer)</td><td><b>{pred_class_vit}</b></td><td>{confidence_vit:.1%}</td></tr>
	<tr><td>🧬 Fast.ai (clasificación)</td><td><b>{pred_fast_type}</b></td><td>N/A</td></tr>
	<tr><td>⚠️ Fast.ai (malignidad)</td><td><b>{"Maligno" if prob_malignant > 0.5 else "Benigno"}</b></td><td>{prob_malignant:.1%}</td></tr>
	<tr><td>🔬 TensorFlow (saved_model)</td><td><b>{pred_class_tf}</b></td><td>{confidence_tf:.1%}</td></tr>
	</table>
	<br>
	<b>🦥 Recomendación automática:</b><br>
	"""

	cancer_risk_score = sum(probs_vit[i] * RISK_LEVELS[i]['weight'] for i in range(7))
	if prob_malignant > 0.7 or cancer_risk_score > 0.6:
	informe += "🚨 <b>CRÍTICO</b> – Derivación urgente a oncología dermatológica"
	elif prob_malignant > 0.4 or cancer_risk_score > 0.4:
	informe += "⚠️ <b>ALTO RIESGO</b> – Consulta con dermatólogo en 7 días"
	elif cancer_risk_score > 0.2:
	informe += "📋 <b>RIESGO MODERADO</b> – Evaluación programada (2-4 semanas)"
	else:
	informe += "✅ <b>BAJO RIESGO</b> – Seguimiento de rutina (3-6 meses)"

	informe += "</div>"
	return informe, html_chart

	demo = gr.Interface(
	fn=analizar_lesion_combined,
	inputs=gr.Image(type="pil", label="Sube una imagen de la lesión"),
	outputs=[gr.HTML(label="Informe combinado"), gr.HTML(label="Gráfico ViT")],
	title="Detector de Lesiones Cutáneas (ViT + Fast.ai + TensorFlow)",
	description="Comparación entre ViT transformer (HAM10000), dos modelos Fast.ai y un modelo TensorFlow.",
	flagging_mode="never"
	)

	if __name__ == "__main__":
	demo.launch()