import os
import folium
print(folium.__version__)
0.7.0+12.gfdf158a.dirty
import numpy as np
x = np.linspace(0, 2*np.pi, 300)
lats = 20 * np.cos(x)
lons = 20 * np.sin(x)
colors = np.sin(5 * x)
from folium import features
m = folium.Map([0, 0], zoom_start=3)
color_line = features.ColorLine(
positions=list(zip(lats, lons)),
colors=colors,
colormap=['y', 'orange', 'r'],
weight=10)
color_line.add_to(m)
m.save(os.path.join('results', 'Features_0.html'))
m
m = folium.Map([0, 0], zoom_start=1)
mk = features.Marker([0, 0])
pp = folium.Popup('hello')
ic = features.Icon(color='red')
mk.add_child(ic)
mk.add_child(pp)
m.add_child(mk)
m.save(os.path.join('results', 'Features_1.html'))
m
import json
import vincent
N = 100
multi_iter2 = {
'x': np.random.uniform(size=(N,)),
'y': np.random.uniform(size=(N,)),
}
scatter = vincent.Scatter(multi_iter2, iter_idx='x', height=100, width=200)
data = json.loads(scatter.to_json())
m = folium.Map([0, 0], zoom_start=1)
mk = features.Marker([0, 0])
p = folium.Popup('Hello')
v = features.Vega(data, width='100%', height='100%')
mk.add_child(p)
p.add_child(v)
m.add_child(mk)
m.save(os.path.join('results', 'Features_2.html'))
m
from altair import Chart, load_dataset
# load built-in dataset as a pandas DataFrame
cars = load_dataset('cars')
scatter = Chart(cars).mark_circle().encode(
x='Horsepower',
y='Miles_per_Gallon',
color='Origin',
)
vega = folium.features.VegaLite(
scatter,
width='100%',
height='100%',
)
m = folium.Map(location=[-27.5717, -48.6256])
marker = folium.features.Marker([-27.57, -48.62])
popup = folium.Popup()
vega.add_to(popup)
popup.add_to(marker)
marker.add_to(m)
m.save(os.path.join('results', 'Features_3.html'))
m
import branca
N = 100
multi_iter2 = {
'x': np.random.uniform(size=(N,)),
'y': np.random.uniform(size=(N,)),
}
scatter = vincent.Scatter(
multi_iter2,
iter_idx='x',
height=250,
width=420
)
data = json.loads(scatter.to_json())
f = branca.element.Figure()
# Create two maps.
m = folium.Map(location=[0, 0],
tiles='stamenwatercolor',
zoom_start=1,
position='absolute',
left='0%',
width='50%',
height='50%')
m2 = folium.Map(location=[46, 3],
tiles='OpenStreetMap',
zoom_start=4,
position='absolute',
left='50%',
width='50%',
height='50%',
top='50%')
# Create two Vega.
v = features.Vega(
data,
position='absolute',
left='50%',
width='50%',
height='50%'
)
v2 = features.Vega(
data,
position='absolute',
left='0%',
width='50%',
height='50%',
top='50%'
)
f.add_child(m)
f.add_child(m2)
f.add_child(v)
f.add_child(v2)
f.save(os.path.join('results', 'Features_4.html'))
f
import pandas as pd
N = 100
multi_iter2 = pd.DataFrame({
'x': np.random.uniform(size=(N,)),
'y': np.random.uniform(size=(N,)),
})
scatter = Chart(multi_iter2).mark_circle().encode(x='x', y='y')
scatter.width = 420
scatter.height = 250
data = json.loads(scatter.to_json())
f = branca.element.Figure()
# Create two maps.
m = folium.Map(
location=[0, 0],
tiles='stamenwatercolor',
zoom_start=1,
position='absolute',
left='0%',
width='50%',
height='50%'
)
m2 = folium.Map(
location=[46, 3],
tiles='OpenStreetMap',
zoom_start=4,
position='absolute',
left='50%',
width='50%',
height='50%',
top='50%')
# Create two Vega.
v = features.VegaLite(
data,
position='absolute',
left='50%',
width='50%',
height='50%'
)
v2 = features.VegaLite(
data,
position='absolute',
left='0%',
width='50%',
height='50%',
top='50%'
)
f.add_child(m)
f.add_child(m2)
f.add_child(v)
f.add_child(v2)
f.save(os.path.join('results', 'Features_5.html'))
f
N = 1000
lons = +5 - np.random.normal(size=N)
lats = 48 - np.random.normal(size=N)
data = {
'type': 'FeatureCollection',
'features': [
{
'type': 'Feature',
'geometry': {
'type': 'MultiPoint',
'coordinates': [[lon, lat] for (lat, lon) in zip(lats, lons)],
},
'properties': {'prop0': 'value0'}
},
],
}
m = folium.Map([48, 5], zoom_start=6)
m.add_child(features.GeoJson(data))
m.save(os.path.join('results', 'Features_6.html'))
m
N = 100
multi_iter2 = {
'x': np.random.uniform(size=(N,)),
'y': np.random.uniform(size=(N,)),
}
scatter = vincent.Scatter(
multi_iter2,
iter_idx='x',
height=250,
width=420
)
data = json.loads(scatter.to_json())
f = branca.element.Figure()
d1 = f.add_subplot(1, 2, 1)
d2 = f.add_subplot(1, 2, 2)
d1.add_child(folium.Map([0, 0], tiles='stamenwatercolor', zoom_start=1))
d2.add_child(folium.Map([46, 3], tiles='OpenStreetMap', zoom_start=5))
f.save(os.path.join('results', 'Features_7.html'))
f
m = folium.Map(tiles=None)
folium.raster_layers.TileLayer('OpenStreetMap').add_to(m)
folium.raster_layers.TileLayer('stamentoner').add_to(m)
folium.LayerControl().add_to(m)
m.save(os.path.join('results', 'Features_8.html'))
m