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259 lines
8.3 KiB
Python
259 lines
8.3 KiB
Python
from functools import reduce
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import osmnx as ox
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from osmnx import utils_geo
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import numpy as np
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from shapely.geometry import Point, Polygon, MultiPolygon, MultiLineString
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from shapely.ops import unary_union
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from geopandas import GeoDataFrame, read_file
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# Compute circular or square boundary given point, radius and crs
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def get_boundary(point, radius, crs, circle=True, dilate=0):
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if circle:
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return (
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ox.project_gdf(GeoDataFrame(geometry=[Point(point[::-1])], crs=crs))
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.geometry[0]
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.buffer(radius)
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)
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else:
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x, y = np.stack(
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ox.project_gdf(GeoDataFrame(geometry=[Point(point[::-1])], crs=crs))
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.geometry[0]
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.xy
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)
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r = radius
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return Polygon(
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[(x - r, y - r), (x + r, y - r), (x + r, y + r), (x - r, y + r)]
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).buffer(dilate)
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# Get perimeter
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def get_perimeter(query, by_osmid=False, **kwargs):
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return ox.geocode_to_gdf(
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query,
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by_osmid=by_osmid,
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**kwargs,
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**{x: kwargs[x] for x in ["circle", "dilate"] if x in kwargs.keys()}
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)
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# Get coastline
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def get_coast(perimeter = None, point = None, radius = None, perimeter_tolerance = 0, union = True, buffer = 0, circle = True, dilate = 0, file_location = None):
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if perimeter is not None:
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# Boundary defined by polygon (perimeter)
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bbox=perimeter.to_crs(3174)
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bbox=bbox.buffer(perimeter_tolerance+dilate+buffer)
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bbox=bbox.to_crs(4326)
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bbox=bbox.envelope
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# Load the polygons for the coastline from a file
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geometries = read_file(file_location, bbox=bbox)
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perimeter = unary_union(ox.project_gdf(perimeter).geometry)
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elif (point is not None) and (radius is not None):
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# Boundary defined by circle with radius 'radius' around point
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north,south,west,east=utils_geo.bbox_from_point(point, dist=radius+dilate+buffer)
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bbox=(west,south,east,north)
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# Load the polygons for the coastline from a file
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geometries=read_file(file_location, bbox=bbox)
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perimeter = get_boundary(point, radius, geometries.crs, circle = circle, dilate = dilate)
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# Project GDF
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if len(geometries) > 0:
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geometries = ox.project_gdf(geometries)
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# Intersect with perimeter
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geometries = geometries.intersection(perimeter)
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if union:
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geometries = unary_union(reduce(lambda x,y: x+y, [
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[x] if type(x) == Polygon else list(x)
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for x in geometries if type(x) in [Polygon, MultiPolygon]
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], []))
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else:
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geometries = MultiPolygon(reduce(lambda x,y: x+y, [
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[x] if type(x) == Polygon else list(x)
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for x in geometries if type(x) in [Polygon, MultiPolygon]
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], []))
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return geometries
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# Get geometries
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def get_geometries(
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perimeter=None,
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point=None,
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radius=None,
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tags={},
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perimeter_tolerance=0,
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union=True,
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circle=True,
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dilate=0,
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):
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if perimeter is not None:
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# Boundary defined by polygon (perimeter)
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geometries = ox.geometries_from_polygon(
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unary_union(perimeter.geometry).buffer(perimeter_tolerance)
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if perimeter_tolerance > 0
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else unary_union(perimeter.geometry),
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tags={tags: True} if type(tags) == str else tags,
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)
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perimeter = unary_union(ox.project_gdf(perimeter).geometry)
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elif (point is not None) and (radius is not None):
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# Boundary defined by circle with radius 'radius' around point
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geometries = ox.geometries_from_point(
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point,
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dist=radius + dilate,
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tags={tags: True} if type(tags) == str else tags,
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)
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perimeter = get_boundary(
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point, radius, geometries.crs, circle=circle, dilate=dilate
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)
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# Project GDF
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if len(geometries) > 0:
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geometries = ox.project_gdf(geometries)
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# Intersect with perimeter
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geometries = geometries.intersection(perimeter)
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if union:
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geometries = unary_union(
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reduce(
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lambda x, y: x + y,
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[
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[x] if type(x) == Polygon else list(x)
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for x in geometries
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if type(x) in [Polygon, MultiPolygon]
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],
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[],
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)
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)
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else:
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geometries = MultiPolygon(
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reduce(
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lambda x, y: x + y,
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[
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[x] if type(x) == Polygon else list(x)
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for x in geometries
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if type(x) in [Polygon, MultiPolygon]
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],
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[],
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)
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)
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return geometries
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# Get streets
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def get_streets(
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perimeter=None,
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point=None,
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radius=None,
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layer="streets",
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width=6,
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custom_filter=None,
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buffer=0,
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retain_all=False,
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circle=True,
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dilate=0,
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truncate_by_edge=True
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):
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if layer == "streets":
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layer = "highway"
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# Boundary defined by polygon (perimeter)
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if perimeter is not None:
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# Fetch streets data, project & convert to GDF
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streets = ox.graph_from_polygon(
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unary_union(perimeter.geometry).buffer(buffer)
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if buffer > 0
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else unary_union(perimeter.geometry),
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custom_filter=custom_filter,
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)
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streets = ox.project_graph(streets)
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streets = ox.graph_to_gdfs(streets, nodes=False)
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# Boundary defined by polygon (perimeter)
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elif (point is not None) and (radius is not None):
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# Fetch streets data, save CRS & project
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streets = ox.graph_from_point(
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point,
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dist=radius + dilate + buffer,
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retain_all=retain_all,
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truncate_by_edge = truncate_by_edge,
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custom_filter=custom_filter,
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)
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crs = ox.graph_to_gdfs(streets, nodes=False).crs
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streets = ox.project_graph(streets)
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# Compute perimeter from point & CRS
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perimeter = get_boundary(point, radius, crs, circle=circle, dilate=dilate)
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# Convert to GDF
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streets = ox.graph_to_gdfs(streets, nodes=False)
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# Intersect with perimeter & filter empty elements
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streets.geometry = streets.geometry.intersection(perimeter)
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streets = streets[~streets.geometry.is_empty]
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if type(width) == dict:
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streets = unary_union(
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[
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# Dilate streets of each highway type == 'highway' using width 'w'
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MultiLineString(
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streets[
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(streets[layer] == highway)
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& (streets.geometry.type == "LineString")
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].geometry.tolist()
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+ list(
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reduce(
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lambda x, y: x + y,
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[
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list(lines)
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for lines in streets[
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(streets[layer] == highway)
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& (streets.geometry.type == "MultiLineString")
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].geometry
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],
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[],
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)
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)
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).buffer(w)
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for highway, w in width.items()
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]
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)
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else:
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# Dilate all streets by same amount 'width'
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streets = MultiLineString(streets.geometry.tolist()).buffer(width)
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return streets
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# Get any layer
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def get_layer(layer, **kwargs):
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# Fetch perimeter
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if layer == "perimeter":
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# If perimeter is already provided:
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if "perimeter" in kwargs:
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return unary_union(ox.project_gdf(kwargs["perimeter"]).geometry)
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# If point and radius are provided:
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elif "point" in kwargs and "radius" in kwargs:
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crs = "EPSG:4326"
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perimeter = get_boundary(
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kwargs["point"],
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kwargs["radius"],
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crs,
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**{x: kwargs[x] for x in ["circle", "dilate"] if x in kwargs.keys()}
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)
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return perimeter
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else:
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raise Exception("Either 'perimeter' or 'point' & 'radius' must be provided")
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# Fetch streets or railway
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if layer in ['streets', 'railway', 'waterway']:
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return get_streets(**kwargs, layer=layer)
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# Fetch Coastline
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elif layer == 'coastline':
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return get_coast(**kwargs)
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# Fetch geometries
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else:
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return get_geometries(**kwargs)
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