I'm trying to (roughly) equally space the points of a line to a predefined distance.

It's ok to have some tolerance between the distances but as close as possible would be desirable.

I know I could manually iterate through each point in my line and check the p1 distance vs p2 and add more points if needed.

But I wondered if anyone knows if there is a way to achieve this with shapely as I already have the coords in a LineString.

enter image description here

3 Answers 3


One way to do that is to use interpolate method that returns points at specified distances along the line. You just have to generate a list of the distances somehow first. Taking the input line example from Roy2012's answer:

import numpy as np
from shapely.geometry import LineString
from shapely.ops import unary_union

line = LineString(([0, 0], [2, 1], [3, 2], [3.5, 1], [5, 2]))

enter image description here

Splitting at a specified distance:

distance_delta = 0.9
distances = np.arange(0, line.length, distance_delta)
# or alternatively without NumPy:
# points_count = int(line.length // distance_delta) + 1
# distances = (distance_delta * i for i in range(points_count))
points = [line.interpolate(distance) for distance in distances] + [line.boundary[1]]
multipoint = unary_union(points)  # or new_line = LineString(points)

enter image description here
Note that since the distance is fixed you can have problems at the end of the line as shown in the image. Depending on what you want you can include/exclude the [line.boundary[1]] part which adds the line's endpoint or use distances = np.arange(0, line.length, distance_delta)[:-1] to exclude the penultimate point.

Also, note that the unary_union I'm using should be more efficient than calling object.union(other) inside a loop, as shown in another answer.

Splitting to a fixed number of points:

n = 7
# or to get the distances closest to the desired one:
# n = round(line.length / desired_distance_delta)
distances = np.linspace(0, line.length, n)
# or alternatively without NumPy:
# distances = (line.length * i / (n - 1) for i in range(n))
points = [line.interpolate(distance) for distance in distances]
multipoint = unary_union(points)  # or new_line = LineString(points)

enter image description here

  • Wow, that's perfect. Jul 21, 2020 at 4:06
  • I've just realised that points = [line.interpolate(distance) for distance in distances] + [line.boundary[1]] flips the axis. I think you need boundry[0] Nov 21, 2020 at 10:09
  • 1
    @LewisMorris What do you mean by "flips the axis"? I cannot reproduce the issue with the given example. I'm also not sure how changing boundary[1] to boundary[0] would solve the problem since boundary[0] should already be included as the first value of distances is zero.
    – Georgy
    Nov 22, 2020 at 10:29
  • 1
    line.boundary isn't subscriptable anymore. You need line.boundary.geoms[-1]. Feb 13 at 10:04
  • Oh, and if Linestring is a loop, line.boundary won't have any geometry, so you should check line.boundary is truthy before getting the last point. Feb 13 at 11:57

You can use the shapely substring operation:

from shapely.geometry import LineString
from shapely.ops import substring

line = LineString(([0, 0], [2, 1], [3,2], [3.5, 1], [5, 2]))

mp = shapely.geometry.MultiPoint()
for i in np.arange(0, line.length, 0.2):
    s = substring(line, i, i+0.2)
    mp = mp.union(s.boundary)

The result for this data is given below. Each circle is a point.

enter image description here


You can use shapely.segmentize:

line = gpd.read_file("line.geojson")
line = shapely.segmentize(line,max_segment_length=100)

The points on the line won't strictly be equally spaced, but if max_segment_length is much higher than the number of points in the original line, the distances will be very close to each other.

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