kopia lustrzana https://github.com/OpenDroneMap/WebODM
286 wiersze
10 KiB
Python
286 wiersze
10 KiB
Python
import rasterio
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import re
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import logging
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import os
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import subprocess
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import numpy as np
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import numexpr as ne
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from rasterio.enums import ColorInterp
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from rio_tiler.utils import has_alpha_band, linear_rescale
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from rio_tiler.colormap import cmap as colormap, apply_cmap
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from rio_tiler.errors import InvalidColorMapName
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from app.api.hsvblend import hsv_blend
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from app.api.hillshade import LightSource
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from rio_tiler.io import COGReader
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from rasterio.warp import calculate_default_transform, reproject, Resampling
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logger = logging.getLogger('app.logger')
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ZOOM_EXTRA_LEVELS = 3
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def extension_for_export_format(export_format):
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extensions = {
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'gtiff': 'tif',
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'gtiff-rgb': 'tif',
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}
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return extensions.get(export_format, export_format)
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def export_raster(input, output, **opts):
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epsg = opts.get('epsg')
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expression = opts.get('expression')
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export_format = opts.get('format')
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rescale = opts.get('rescale')
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color_map = opts.get('color_map')
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hillshade = opts.get('hillshade')
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asset_type = opts.get('asset_type')
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name = opts.get('name', 'raster') # KMZ specific
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dem = asset_type in ['dsm', 'dtm']
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with COGReader(input) as ds_src:
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src = ds_src.dataset
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profile = src.meta.copy()
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# Output format
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driver = "GTiff"
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compress = None
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max_bands = 9999
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with_alpha = True
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rgb = False
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indexes = src.indexes
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output_raster = output
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jpg_background = 255 # white
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# KMZ is special, we just export it as PNG with EPSG:4326
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# and then call GDAL to tile/package it
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kmz = export_format == "kmz"
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if kmz:
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export_format = "png"
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epsg = 4326
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path_base, _ = os.path.splitext(output)
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output_raster = path_base + ".png"
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if export_format == "jpg":
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driver = "JPEG"
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profile.update(quality=90)
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band_count = 3
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with_alpha = False
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rgb = True
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elif export_format == "png":
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driver = "PNG"
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band_count = 4
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rgb = True
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elif export_format == "gtiff-rgb":
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compress = "JPEG"
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profile.update(jpeg_quality=90)
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band_count = 4
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rgb = True
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else:
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compress = "DEFLATE"
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band_count = src.count
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if compress is not None:
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profile.update(compress=compress)
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profile.update(predictor=2 if compress == "DEFLATE" else 1)
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if rgb and rescale is None:
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# Compute min max
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nodata = None
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if asset_type == 'orthophoto':
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nodata = 0
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md = ds_src.metadata(pmin=2.0, pmax=98.0, hist_options={"bins": 255}, nodata=nodata)
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rescale = [md['statistics']['1']['min'], md['statistics']['1']['max']]
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ci = src.colorinterp
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if rgb and expression is None:
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# More than 4 bands?
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if len(ci) > 4:
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# Try to find RGBA band order
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if ColorInterp.red in ci and \
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ColorInterp.green in ci and \
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ColorInterp.blue in ci and \
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ColorInterp.alpha in ci:
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indexes = (ci.index(ColorInterp.red) + 1,
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ci.index(ColorInterp.green) + 1,
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ci.index(ColorInterp.blue) + 1,
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ci.index(ColorInterp.alpha) + 1)
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if ColorInterp.alpha in ci:
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mask = src.read(ci.index(ColorInterp.alpha) + 1)
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else:
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mask = src.dataset_mask()
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cmap = None
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if color_map:
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try:
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cmap = colormap.get(color_map)
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except InvalidColorMapName:
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logger.warning("Invalid colormap {}".format(color_map))
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def process(arr, skip_rescale=False, skip_alpha=False, skip_type=False):
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if not skip_rescale and rescale is not None:
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arr = linear_rescale(arr, in_range=rescale)
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if not skip_alpha and not with_alpha:
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arr[mask==0] = jpg_background
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if not skip_type and rgb and arr.dtype != np.uint8:
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arr = arr.astype(np.uint8)
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return arr
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def update_rgb_colorinterp(dst):
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if with_alpha:
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dst.colorinterp = [ColorInterp.red, ColorInterp.green, ColorInterp.blue, ColorInterp.alpha]
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else:
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dst.colorinterp = [ColorInterp.red, ColorInterp.green, ColorInterp.blue]
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profile.update(driver=driver, count=band_count)
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if rgb:
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profile.update(dtype=rasterio.uint8)
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if dem and rgb and profile.get('nodata') is not None:
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profile.update(nodata=None)
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# Define write band function
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# Reprojection needed?
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if src.crs is not None and epsg is not None and src.crs.to_epsg() != epsg:
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dst_crs = "EPSG:{}".format(epsg)
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transform, width, height = calculate_default_transform(
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src.crs, dst_crs, src.width, src.height, *src.bounds)
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profile.update(
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crs=dst_crs,
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transform=transform,
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width=width,
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height=height
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)
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def write_band(arr, dst, band_num):
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reproject(source=arr,
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destination=rasterio.band(dst, band_num),
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src_transform=src.transform,
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src_crs=src.crs,
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dst_transform=transform,
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dst_crs=dst_crs,
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resampling=Resampling.nearest)
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else:
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# No reprojection needed
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def write_band(arr, dst, band_num):
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dst.write(arr, band_num)
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if expression is not None:
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# Apply band math
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if rgb:
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profile.update(dtype=rasterio.uint8, count=band_count)
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else:
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profile.update(dtype=rasterio.float32, count=1, nodata=-9999)
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bands_names = ["b{}".format(b) for b in tuple(sorted(set(re.findall(r"b(?P<bands>[0-9]{1,2})", expression))))]
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rgb_expr = expression.split(",")
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indexes = tuple([int(b.replace("b", "")) for b in bands_names])
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alpha_index = None
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if has_alpha_band(src):
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try:
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alpha_index = src.colorinterp.index(ColorInterp.alpha) + 1
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indexes += (alpha_index, )
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except ValueError:
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pass
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data = src.read(indexes=indexes, out_dtype=np.float32)
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arr = dict(zip(bands_names, data))
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arr = np.array([np.nan_to_num(ne.evaluate(bloc.strip(), local_dict=arr)) for bloc in rgb_expr])
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# Set nodata values
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index_band = arr[0]
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if alpha_index is not None:
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# -1 is the last band = alpha
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index_band[data[-1] == 0] = -9999
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# Remove infinity values
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index_band[index_band>1e+30] = -9999
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index_band[index_band<-1e+30] = -9999
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# Make sure this is float32
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arr = arr.astype(np.float32)
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with rasterio.open(output_raster, 'w', **profile) as dst:
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# Apply colormap?
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if rgb and cmap is not None:
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rgb_data, _ = apply_cmap(process(arr, skip_alpha=True), cmap)
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band_num = 1
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for b in rgb_data:
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write_band(process(b, skip_rescale=True), dst, band_num)
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band_num += 1
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if with_alpha:
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write_band(mask, dst, band_num)
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update_rgb_colorinterp(dst)
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else:
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# Raw
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write_band(process(arr)[0], dst, 1)
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elif dem:
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# Apply hillshading, colormaps to elevation
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with rasterio.open(output_raster, 'w', **profile) as dst:
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arr = src.read()
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intensity = None
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if hillshade is not None and hillshade > 0:
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delta_scale = (ZOOM_EXTRA_LEVELS + 1) * 4
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dx = src.meta["transform"][0] * delta_scale
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dy = -src.meta["transform"][4] * delta_scale
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ls = LightSource(azdeg=315, altdeg=45)
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intensity = ls.hillshade(arr[0], dx=dx, dy=dy, vert_exag=hillshade)
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intensity = intensity * 255.0
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# Apply colormap?
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if rgb and cmap is not None:
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rgb_data, _ = apply_cmap(process(arr, skip_alpha=True), cmap)
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if intensity is not None:
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rgb_data = hsv_blend(rgb_data, intensity)
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band_num = 1
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for b in rgb_data:
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write_band(process(b, skip_rescale=True), dst, band_num)
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band_num += 1
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if with_alpha:
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write_band(mask, dst, band_num)
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update_rgb_colorinterp(dst)
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else:
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# Raw
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write_band(process(arr)[0], dst, 1)
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else:
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# Copy bands as-is
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with rasterio.open(output_raster, 'w', **profile) as dst:
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band_num = 1
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for idx in indexes:
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ci = src.colorinterp[idx - 1]
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arr = src.read(idx)
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if ci == ColorInterp.alpha:
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if with_alpha:
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write_band(arr, dst, band_num)
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band_num += 1
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else:
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write_band(process(arr), dst, band_num)
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band_num += 1
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new_ci = [src.colorinterp[idx - 1] for idx in indexes]
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if not with_alpha:
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new_ci = [ci for ci in new_ci if ci != ColorInterp.alpha]
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dst.colorinterp = new_ci
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if kmz:
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subprocess.check_output(["gdal_translate", "-of", "KMLSUPEROVERLAY",
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"-co", "Name={}".format(name),
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"-co", "FORMAT=PNG", output_raster, output])
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