from sklearn.cluster import KMeansfrom sklearn.preprocessing import OneHotEnco

1. from sklearn.cluster import KMeans
2. from sklearn.preprocessing import OneHotEncoder
3. from geopy.distance import vincenty
4. from sklearn.neighbors import BallTree
5. import builtins
6.  
7. smallKMeans = KMeans(n_clusters=3).fit(array([[ 55.73008165, 37.59531199], [ 59.91301691, 30.31944249],[ 55.67814337, 46.11249841]]))
8. holidays = "1.01,2.01,3.01,4.01,5.01,6.01,7.01,8.01,23.02,8.03,9.03,10.03,1.05,2.05,3.05,4.05,9.05,10.05,11.05,12.06,13.06,14.06,15.06".split(',')
9. holidays = set(tuple(map(int, x.split('.'))) for x in holidays)
10.  
11. def get_features(data):
12. dist = data.dist.values
13. lat, lon = data.lat.values, data.lon.values
14. weekday, month = data.day_of_week.values, data.month.values
15. hourx, houry = cos(data.hour / 23), sin(data.hour / 23)
16. hour = data.hour
17. hota, hotb, hotc = zeros_like(hour, dtype=float32), zeros_like(hour, dtype=float32), zeros_like(hour, dtype=float32)
18.  
19. hota[(data.f_class == 'econom').values] += 1.00
20. hota[(data.s_class == 'econom').values] += 0.50
21. hota[(data.t_class == 'econom').values] += 0.25
22.  
23. hotb[(data.f_class == 'business').values] += 1.00
24. hotb[(data.s_class == 'business').values] += 0.50
25. hotb[(data.t_class == 'business').values] += 0.25
26.  
27. hotc[(data.f_class == 'vip').values] += 1.00
28. hotc[(data.s_class == 'vip').values] += 0.50
29. hotc[(data.t_class == 'vip').values] += 0.25
30.  
31. isHoliday = array([[1 if x in holidays else 0] for x in zip(data['day'], data['month'])])
32. city = smallKMeans.predict(ds[['lat', 'lon']])
33. smallClusters = OneHotEncoder().fit_transform(city.reshape(-1, 1)).toarray()
34. cityDistance = array([vincenty(smallKMeans.cluster_centers_[city[i]], (data['lat'][i], data['lon'][i])).meters for i in range(len(data))])
35. ballTree = BallTree(data[['lat', 'lon']])
36. coord = list(zip(data['lat'], data['lon']))
37. sumDist = array([builtins.sum(vincenty(coord[i], coord[x]).meters for x in (ballTree.query((coord[i],), 5)[1][0])) for i in range(len(coord))])
38.  
39. weekday = OneHotEncoder().fit_transform(ds['day_of_week'].reshape(-1, 1)).toarray()
40. features = array(list(zip(dist, lat, lon, month, hourx, houry, hour, hota, hotb, hotc)))
41. features = hstack((features, smallClusters, isHoliday, weekday, city.reshape(-1, 1), cityDistance.reshape(-1, 1), sumDist.reshape(-1, 1)))
42. return features