I have a shapely `LineString`

and have defined a shapely `Point`

which lies along the `LineString`

.

How can I find the vertices of the `LineString`

which lie either side of the point? (split the line in two)

2

I have a shapely `LineString`

and have defined a shapely `Point`

which lies along the `LineString`

.

How can I find the vertices of the `LineString`

which lie either side of the point? (split the line in two)

2

Locate the line segment in the `LineString`

where the point lies. Then split in two groups the vertices of the `LineString`

accordingly. To locate the line segment, simply apply a point / line segment intersection test to each segment.

```
from shapely.geometry import Point,LineString
def split(line_string, point):
coords = line_string.coords
j = None
for i in range(len(coords) - 1):
if LineString(coords[i:i + 2]).intersects(point):
j = i
break
assert j is not None
# Make sure to always include the point in the first group
if Point(coords[j + 1:j + 2]).equals(point):
return coords[:j + 2], coords[j + 1:]
else:
return coords[:j + 1], coords[j:]
```

0

Newer versions of Shapely (>=1.6.0 (2017-08-21)) provide `split`

function that can split a line by a point:

```
from shapely.geometry import LineString, Point
from shapely.ops import split
line = LineString([(0, 0), (1, 1), (2, 1)])
point = Point(1.5, 1)
print(split(line, point))
# GEOMETRYCOLLECTION (LINESTRING (0 0, 1 1, 1.5 1), LINESTRING (1.5 1, 2 1))
```

One must take care, though, that due to precision errors this sometimes doesn't work properly:

```
line = LineString([(0, 0), (3, 2)])
point = Point(1, 2 / 3)
print(split(line, point))
# GEOMETRYCOLLECTION (LINESTRING (0 0, 3 2))
print(point.distance(line))
# 0.0
```

One way to deal with this is to construct a new `LineString`

that will contain the splitting point.

```
new_line = LineString([line.coords[0], point.coords[0], line.coords[1]])
print(split(new_line, point))
# GEOMETRYCOLLECTION (LINESTRING (0 0, 1 0.6666666666666666), LINESTRING (1 0.6666666666666666, 3 2))
```

or if you don't want to do it manually:

```
from itertools import chain
all_points_coords = chain(line.coords, point.coords)
all_points = map(Point, all_points_coords)
new_line = LineString(sorted(all_points, key=line.project))
print(split(new_line, point))
# GEOMETRYCOLLECTION (LINESTRING (0 0, 1 0.6666666666666666), LINESTRING (1 0.6666666666666666, 3 2))
```