surveilling-surveillance/streetview/zoning.py

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2021-05-20 22:20:48 +02:00
import geopandas as gpd
from geopy import distance
import pandas as pd
from shapely.geometry import Point
import numpy as np
from shapely.ops import nearest_points
from sklearn.neighbors import KDTree
from tqdm import tqdm
from matplotlib import pyplot as plt
import sys
from util import constants as C
CITIES = [('NYC', 'New York'), ('SF', 'San Francisco'), ('Seattle', 'Seattle'), ('Boston', 'Boston'), ('Chicago', 'Chicago'), ('Philadelphia', 'Philadelphia'), ('DC', 'Washington'),
('LA', 'Los Angeles'), ('Baltimore', 'Baltimore'), ('Milwaukee', 'Milwaukee')]
class Zoning:
def __init__(self, path):
self.path = path
self.gdf = gpd.read_file(self.path)
self.zone_type = self.gdf.zone_type.tolist()
self._get_centroids()
def _get_centroids(self):
centroids = self.gdf.centroid
coords = []
for i, c in enumerate(centroids):
if c is None or self.zone_type[i] == 'roads':
coords.append([10000, 10000])
else:
coords.append([c.y, c.x])
self.coords = KDTree(np.array(coords), leaf_size=30)
def get_zone(self, lat, lon, n=-1, return_polygon=False):
if n == -1:
ind = range(len(self.gdf))
else:
ind = self.coords.query(np.array([lat, lon])[np.newaxis,:], k=n, return_distance=False).flatten()
dist = 10000
zone_type = None
zone = None
for i in list(ind):
_zone = self.gdf.geometry.iloc[i]
#for p in nearest_points(_zone, Point(lon, lat)):
p = nearest_points(_zone, Point(lon, lat))[0]
_lat, _lon = p.y, p.x
_dist = distance.distance((lat, lon), (_lat, _lon)).m
if _dist < dist:
zone_type = self.zone_type[i]
dist = _dist
zone = _zone
if return_polygon:
return zone_type, dist, zone
else:
return zone_type, dist
def calculate_zone(meta_path="/share/data/camera/deployment/verified_0425.csv"):
df = pd.read_csv(meta_path)
dfs = []
for city, city_tag in CITIES:
print(f"Loading zoning shapefile for [{city_tag}]..")
try:
zone = Zoning(f"/share/data/camera/zoning/{city_tag}_zoning_clean.shp")
except Exception as e:
print(str(e))
continue
final = df.query(f"city == '{city}'")
rows = []
for rid, row in tqdm(final.iterrows(), total=len(final)):
z, d = zone.get_zone(row['lat'], row['lon'], n=5)
row['zone_type'] = z
row['zone_distance'] = d
rows.append(row)
zone_final = pd.DataFrame(rows)
dfs.append(zone_final)
pd.concat(dfs).to_csv("/share/data/camera/deployment/verified_0425_zone.csv", index=False)