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I have a large number of polygons (~100000) and try to find a smart way of calculating their intersecting area with a regular grid cells.

Currently, I am creating the polygons and the grid cells using shapely (based on their corner coordinates). Then, using a simple for-loop I go through each polygon and compare it to nearby grid cells.

Just a small example to illustrate the polygons/grid cells.

from shapely.geometry import box, Polygon
# Example polygon 
xy = [[130.21001, 27.200001], [129.52, 27.34], [129.45, 27.1], [130.13, 26.950001]]
polygon_shape = Polygon(xy)
# Example grid cell
gridcell_shape = box(129.5, -27.0, 129.75, 27.25)
# The intersection

(BTW: the grid cells have the dimensions 0.25x0.25 and the polygons 1x1 at max)

Actually this is quite fast for an individual polygon/grid cell combo with around 0.003 seconds. However, running this code on a huge amount of polygons (each one could intersect dozens of grid cells) takes around 15+ minutes (up to 30+ min depending on the number of intersecting grid cells) on my machine which is not acceptable. Unfortunately, I have no idea how it is possible to write a code for polygon intersection to get the area of overlap. Do you have any tips? Is there an alternative to shapely?

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I'm curious how you are looping and intersecting your polygons. Can you show more code on the process? It would be easier to figure out how this can be optimized. – tdedecko Feb 5 '13 at 0:30
I basically take an array of lat/lon corner values and convert them in a for loop to the polygons. Then, I compare each polygon to certain grid cell, which is done in a for-loop again. See this: – HyperCube Feb 5 '13 at 8:35

1 Answer 1

Consider using Rtree to help identify which grid cells that a polygon may intersect. This way, you can remove the for loop used with the array of lat/lons, which is probably the slow part.

Structure your code something like this:

from shapely.ops import cascaded_union
from rtree import index
idx = index.Index()

# Populate R-tree index with bounds of grid cells
for pos, cell in enumerate(grid_cells):
    # assuming cell is a shapely object
    idx.insert(pos, cell.bounds)

# Loop through each Shapely polygon
for poly in polygons:
    # Merge cells that have overlapping bounding boxes
    merged_cells = cascaded_union([grid_cells[pos] for pos in idx.intersection(poly.bounds)])
    # Now do actual intersection
    print poly.intersection(merged_cells).area
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