from math import atan2, cos, radians, sin, sqrt
import numpy as np
import scipy.ndimage as im
from bokeh.document import Document
from bokeh.embed import file_html
from bokeh.models import (Column, ColumnDataSource, GMapOptions, GMapPlot,
Grid, Label, Line, LinearAxis, PanTool, Patches,
Plot, Range1d, ResetTool, WheelZoomTool)
from bokeh.resources import INLINE
from bokeh.sampledata.mtb import obiszow_mtb_xcm
from bokeh.util.browser import view
def haversin(theta):
return sin(0.5 * theta) ** 2
def distance(p1, p2):
"""Distance between (lat1, lon1) and (lat2, lon2). """
R = 6371
lat1, lon1 = p1
lat2, lon2 = p2
phi1 = radians(lat1)
phi2 = radians(lat2)
delta_lat = radians(lat2 - lat1)
delta_lon = radians(lon2 - lon1)
a = haversin(delta_lat) + cos(phi1) * cos(phi2) * haversin(delta_lon)
return 2 * R * atan2(sqrt(a), sqrt(1 - a))
def prep_data(dataset):
df = dataset.copy()
latlon = list(zip(df.lat, df.lon))
dist = np.array([distance(latlon[i + 1], latlon[i]) for i in range(len(latlon[:-1]))])
df["dist"] = np.concatenate(([0], np.cumsum(dist)))
slope = np.abs(100 * np.diff(df.alt) / (1000 * dist))
slope[np.where( slope < 4) ] = 0 # "green"
slope[np.where((slope >= 4) & (slope < 6))] = 1 # "yellow"
slope[np.where((slope >= 6) & (slope < 10))] = 2 # "pink"
slope[np.where((slope >= 10) & (slope < 15))] = 3 # "orange"
slope[np.where( slope >= 15 )] = 4 # "red"
slope = im.median_filter(slope, 6)
colors = np.empty_like(slope, dtype=object)
colors[np.where(slope == 0)] = "green"
colors[np.where(slope == 1)] = "yellow"
colors[np.where(slope == 2)] = "pink"
colors[np.where(slope == 3)] = "orange"
colors[np.where(slope == 4)] = "red"
df["colors"] = list(colors) + [None] # NOTE: add [None] just make pandas happy
return df
name = "Obiszów MTB XCM"
# Google Maps now requires an API key. You can find out how to get one here:
# https://developers.google.com/maps/documentation/javascript/get-api-key
API_KEY = "GOOGLE_API_KEY"
def trail_map(data):
lon = (min(data.lon) + max(data.lon)) / 2
lat = (min(data.lat) + max(data.lat)) / 2
map_options = GMapOptions(lng=lon, lat=lat, zoom=13)
plot = GMapPlot(width=800, height=800, map_options=map_options, api_key=API_KEY)
plot.title.text = "%s - Trail Map" % name
plot.x_range = Range1d()
plot.y_range = Range1d()
plot.add_tools(PanTool(), WheelZoomTool(), ResetTool())
line_source = ColumnDataSource(dict(x=data.lon, y=data.lat, dist=data.dist))
line = Line(x="x", y="y", line_color="blue", line_width=2)
plot.add_glyph(line_source, line)
if plot.api_key == "GOOGLE_API_KEY":
plot.add_layout(Label(x=240, y=700, x_units='screen', y_units='screen',
text='Replace GOOGLE_API_KEY with your own key',
text_color='red'))
return plot
def altitude_profile(data):
plot = Plot(width=800, height=400)
plot.title.text = "%s - Altitude Profile" % name
plot.y_range.range_padding = 0
xaxis = LinearAxis(axis_label="Distance (km)")
plot.add_layout(xaxis, 'below')
yaxis = LinearAxis(axis_label="Altitude (m)")
plot.add_layout(yaxis, 'left')
plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker)) # x grid
plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker)) # y grid
plot.add_tools(PanTool(), WheelZoomTool(), ResetTool())
X, Y = data.dist, data.alt
y0 = min(Y)
patches_source = ColumnDataSource(dict(
xs=[[X[i], X[i+1], X[i+1], X[i]] for i in range(len(X[:-1])) ],
ys=[[y0, y0, Y[i+1], Y[i]] for i in range(len(Y[:-1])) ],
color=data.colors[:-1]
))
patches = Patches(xs="xs", ys="ys", fill_color="color", line_color="color")
plot.add_glyph(patches_source, patches)
line_source = ColumnDataSource(dict(x=data.dist, y=data.alt))
line = Line(x='x', y='y', line_color="black", line_width=1)
plot.add_glyph(line_source, line)
return plot
data = prep_data(obiszow_mtb_xcm)
trail = trail_map(data)
altitude = altitude_profile(data)
layout = Column(children=[altitude, trail])
doc = Document()
doc.add_root(layout)
if __name__ == "__main__":
doc.validate()
filename = "trail.html"
with open(filename, "w") as f:
f.write(file_html(doc, INLINE, "Trail map and altitude profile"))
print("Wrote %s" % filename)
view(filename)