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Showing posts with label osmnx. Show all posts
Showing posts with label osmnx. Show all posts

Monday, December 9, 2019

Python 3.7.5 : The OSMnx python package.

About this python package named OSMnx, you can read on GitHub.
OSMnx is a Python package that lets you download spatial geometries and model, project, visualize, and analyze street networks from OpenStreetMap's APIs. Users can download and model walkable, drivable, or bikable urban networks with a single line of Python code, and then easily analyze and visualize them ...
You cannot install osmnx directly in Fedora 31 Linux distro because of the dependency with python packages.
[mythcat@desk projects]$ pip3 install osmnx --user
Installation depends by rtree python packages:
[root@desk projects]# dnf install python3-rtree.noarch
...
Installed:
  python3-rtree-0.9.1-1.fc31.noarch 
spatialindex-1.9.3-1.fc31.x86_64                             

Complete!
Now you can install with pip3 tool if you use the python3.
[mythcat@desk projects]$ pip3 install osmnx --user
Collecting osmnx
...
Installing collected packages: pyparsing, kiwisolver, cycler, matplotlib, descartes, networkx, Shapely,
 pyproj, click, click-plugins, cligj, attrs, munch, fiona, geopandas, osmnx
Successfully installed Shapely-1.6.4.post2 attrs-19.3.0 click-7.0 click-plugins-1.1.1 cligj-0.5.0 
cycler-0.10.0 descartes-1.1.0 fiona-1.8.13 geopandas-0.6.2 kiwisolver-1.1.0 matplotlib-3.1.2 
munch-2.5.0 networkx-2.4 osmnx-0.11 pyparsing-2.4.5 pyproj-2.4.2.post1
Let's test the default example:
[mythcat@desk projects]$ python3
Python 3.7.5 (default, Oct 17 2019, 12:16:48) 
[GCC 9.2.1 20190827 (Red Hat 9.2.1-1)] on linux
Type "help", "copyright", "credits" or "license" for more information.
>>> import osmnx as ox
>>> ox.config(log_file=True, log_console=True, use_cache=True)
Configured osmnx
>>> my_loc  = ox.graph_from_address('Fălticeni, Suceava, 725200, Romania', network_type= 'all', 
retain_all =True)
Geocoded "Fa?lticeni, Suceava, 725200, Romania" to (47.4597637, 26.30255)
Projected the GeoDataFrame "geometry to project" to UTM-35 in 0.01 seconds
Projected the GeoDataFrame "geometry to project" to default_crs in 0.01 seconds
Created bounding box 1000 meters in each direction from (47.4597637, 26.30255): 47.46876106367192,
47.45076632191398,26.31581675508982,26.289283302659218
Projected the GeoDataFrame "geometry to project" to UTM-35 in 0.01 seconds
Projected the GeoDataFrame "geometry to project" to default_crs in 0.01 seconds
Projected the GeoDataFrame "geometry to project" to UTM-35 in 0.01 seconds
Projected the GeoDataFrame "geometry to project" to default_crs in 0.01 seconds
Requesting network data within bounding box from API in 1 request(s)
Retrieved response from cache file "cache/eb15fb167cf173e622992dbc2b7b7c77.json" for URL 
"http://overpass-api.de/api/interpreter?data=%5Bout%3Ajson%5D%5Btimeout%3A180%5D%3B%28way
%5B%22highway%22%5D%5B%22area%22%21~%22yes%22%5D%5B%22highway%22%21~%22proposed%7Cconstruction
%7Cabandoned%7Cplatform%7Craceway%22%5D%5B%22service%22%21~%22private%22%5D%5B%22access%22%21
~%22private%22%5D%2847.446267%2C26.282649%2C47.473260%2C26.322452%29%3B%3E%3B%29%3Bout%3B"
Got all network data within bounding box from API in 1 request(s) and 0.01 seconds
Creating networkx graph from downloaded OSM data...
Created graph with 2,003 nodes and 3,930 edges in 0.08 seconds
Added edge lengths to graph in 0.06 seconds
Truncated graph by bounding box in 0.05 seconds
Begin topologically simplifying the graph...
Identified 339 edge endpoints in 0.03 seconds
Constructed all paths to simplify in 0.01 seconds
Simplified graph (from 2,003 to 339 nodes and from 3,930 to 803 edges) in 0.22 seconds
Truncated graph by bounding box in 0.01 seconds
Got the counts of undirected street segments incident to each node (before 
removing peripheral edges) in 0.07 seconds
graph_from_bbox() returning graph with 235 nodes and 556 edges
graph_from_point() returning graph with 235 nodes and 556 edges
graph_from_address() returning graph with 235 nodes and 556 edges
>>> my_proj = ox.project_graph(my_loc)
Created a GeoDataFrame from graph in 0.05 seconds
Projected the GeoDataFrame "unnamed_nodes" to UTM-35 in 0.03 seconds
Projected the GeoDataFrame "unnamed_edges" to UTM-35 in 0.10 seconds
Extracted projected node geometries from GeoDataFrame in 0.01 seconds
Rebuilt projected graph in 0.94 seconds
>>> fig, ax = ox.plot_graph(my_proj)
Begin plotting the graph...
Created GeoDataFrame "unnamed_UTM_edges" from graph in 0.07 seconds
Drew the graph edges in 0.04 seconds
This python module comes with many features.
You can select a polygon area and show the map.
This is the result of source code from this tutorial: