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	# app.py (versión con logging, manejo de TileOutsideBounds y endpoint debug hillshade)
	import io
	import os
	import logging
	import numpy as np
	from fastapi import FastAPI, Response
	from fastapi.middleware.cors import CORSMiddleware
	from rio_tiler.io import COGReader
	from rio_tiler.errors import TileOutsideBounds
	from PIL import Image

	COG_URL = os.environ.get("COG_URL", "https://huggingface.co/datasets/Pingul/mexico-dem/resolve/main/Mexico_DEM_COG.tif")
	# COG_URL = os.environ.get("COG_URL", "https://huggingface.co/datasets/Pingul/mexico-dem/resolve/main/CEM_15m_COG.tif")
	TILE_SIZE = 256

	# Logging simple
	logging.basicConfig(level=logging.INFO)
	logger = logging.getLogger("dem-tiler")

	app = FastAPI(title="Mexico DEM TerrainRGB API (debuggable)")

	app.add_middleware(
	CORSMiddleware,
	allow_origins=["*"],
	allow_credentials=True,
	allow_methods=["*"],
	allow_headers=["*"],
	)

	def encode_terrainrgb(arr: np.ndarray) -> np.ndarray:
	"""
	Convierte elevación en metros a Terrain-RGB (Mapbox spec).
	"""
	arr = np.array(arr, dtype=np.float32)
	arr = np.clip(arr, -10000, 9000)
	arr = (arr + 10000.0) * 10.0 # mapbox scale

	R = np.floor(arr / (256.0 * 256.0))
	G = np.floor((arr - R * 256.0 * 256.0) / 256.0)
	B = np.floor(arr - R * 256.0 * 256.0 - G * 256.0)

	rgb = np.stack([R, G, B], axis=-1).astype(np.uint8)
	return rgb

	def elev_to_grayscale(arr: np.ndarray) -> np.ndarray:
	"""
	Convierte elevación a imagen grayscale para debug: mapea min->0 max->255.
	NaNs se convierten a 0 (transparente later).
	"""
	a = np.array(arr, dtype=np.float32)
	a = np.where(np.isfinite(a), a, np.nan)
	# clamp to sensible range (optional)
	vmin = np.nanpercentile(a, 2) if np.isfinite(np.nanpercentile(a, 2)) else np.nanmin(a)
	vmax = np.nanpercentile(a, 98) if np.isfinite(np.nanpercentile(a, 98)) else np.nanmax(a)
	if np.isnan(vmin) or np.isnan(vmax) or vmin == vmax:
	vmin, vmax = np.nanmin(a), np.nanmax(a)
	# handle edge cases
	if np.isnan(vmin): vmin = 0.0
	if np.isnan(vmax): vmax = vmin + 1.0

	norm = (a - vmin) / (vmax - vmin)
	norm = np.clip(norm, 0.0, 1.0)
	img = (norm * 255).astype(np.uint8)
	# convert to RGB
	rgb = np.stack([img, img, img], axis=-1)
	return rgb

	@app.get("/")
	def root():
	return {"message": "Mexico DEM TerrainRGB API running", "cog_url": COG_URL}

	@app.get("/health")
	def health():
	return {"status": "ok"}

	@app.get("/info")
	def get_info():
	try:
	with COGReader(COG_URL) as cog:
	meta = cog.info()
	# return a small, JSON-serializable subset
	out = {
	"bounds": meta.bounds, # [left, bottom, right, top] in CRS of dataset (EPSG:3857)
	"minzoom": meta.minzoom,
	"maxzoom": meta.maxzoom,
	"band_descriptions": meta.band_descriptions,
	"statistics": {
	"min": getattr(meta, "min", None),
	"max": getattr(meta, "max", None)
	},
	"crs": str(meta.crs)
	}
	return out
	except Exception as e:
	logger.exception("Error reading COG info")
	return {"error": str(e)}

	@app.get("/tiles/{z}/{x}/{y}.png")
	def get_tile(z: int, x: int, y: int):
	"""
	Tile endpoint: devuelve Terrain-RGB PNG (Mapbox spec).
	Si el tile está fuera de bounds, devuelve PNG transparente.
	"""
	try:
	with COGReader(COG_URL) as cog:
	data, mask = cog.tile(x, y, z, tilesize=TILE_SIZE)
	elev = data[0].astype(np.float32)

	# Replace nodata values with NaN if mask indicates no-data
	if mask is not None:
	# rio-tiler mask: 255 valid, 0 invalid (varies), handle robustly
	invalid = (mask == 0)
	elev = elev.astype(np.float32)
	elev[invalid] = np.nan

	# Handle all-nodata -> return transparent
	if np.all(np.isnan(elev)):
	raise TileOutsideBounds(f"All NaN for tile {z}/{x}/{y}")

	rgb = encode_terrainrgb(np.nan_to_num(elev, nan=-10000.0))
	img = Image.fromarray(rgb, "RGB")
	buf = io.BytesIO()
	img.save(buf, format="PNG")
	buf.seek(0)
	return Response(buf.getvalue(), media_type="image/png")

	except TileOutsideBounds:
	# tile fuera de bounds: PNG transparente
	blank = Image.new("RGBA", (TILE_SIZE, TILE_SIZE), (0, 0, 0, 0))
	buf = io.BytesIO()
	blank.save(buf, format="PNG")
	buf.seek(0)
	return Response(buf.getvalue(), media_type="image/png")

	except Exception as e:
	logger.exception(f"Unexpected error generating tile {z}/{x}/{y}")
	# Devuelve 500 con mensaje corto (no stacktrace)
	return Response(status_code=500, content=f"Server error generating tile: {str(e)}")

	@app.get("/debug/{z}/{x}/{y}.png")
	def debug_tile(z: int, x: int, y: int):
	"""
	Endpoint de debug: devuelve una imagen en escala de grises (hillshade-like) para ver visualmente
	si la tile solicitada coincide con tu DEM.
	"""
	try:
	with COGReader(COG_URL) as cog:
	data, mask = cog.tile(x, y, z, tilesize=TILE_SIZE)
	elev = data[0].astype(np.float32)
	# mask nodata
	if mask is not None:
	elev[mask == 0] = np.nan

	if np.all(np.isnan(elev)):
	raise TileOutsideBounds()

	# convert elevation to grayscale RGB for debug
	rgb = elev_to_grayscale(elev)
	# if any nodata, set those pixels transparent by returning RGBA
	alpha = np.where(np.isfinite(elev), 255, 0).astype(np.uint8)
	rgba = np.dstack([rgb, alpha])
	img = Image.fromarray(rgba, "RGBA")
	buf = io.BytesIO()
	img.save(buf, format="PNG")
	buf.seek(0)
	return Response(buf.getvalue(), media_type="image/png")

	except TileOutsideBounds:
	blank = Image.new("RGBA", (TILE_SIZE, TILE_SIZE), (0, 0, 0, 0))
	buf = io.BytesIO()
	blank.save(buf, format="PNG")
	buf.seek(0)
	return Response(buf.getvalue(), media_type="image/png")
	except Exception as e:
	logger.exception("Error in debug_tile")
	return Response(status_code=500, content=f"Error: {e}")

	@app.get("/point")
	def get_point(lon: float, lat: float):
	try:
	with COGReader(COG_URL) as cog:
	val = cog.point(lon, lat)
	elevation = float(val.data[0])
	return {"lon": lon, "lat": lat, "elevation_m": elevation}
	except Exception as e:
	logger.exception("Error sampling point")
	return Response(status_code=500, content=f"Error sampling point: {e}")