# Python: fill a polygon area in an array

I have a raster image (in Tiff format) and a polygon area in shapefile format converted in an Array. I wish to find an elegant way to create an array where all element inside the border of polygon have 1 value and all element outside the polygon have value 0. My final goal is mask the array derived from the image with the array derived from the shapefile.

i have the following question and thanks for helps:

after create an empty array using np.zeros((ds.RasterYSize, ds.RasterXSize)) and the pixel location of a geospatial coordinate of the border of my polygon, what is the best solution to fill with 1 the polygon inside the array?

``````from osgeo import gdal, gdalnumeric, ogr, osr
import osgeo.gdal
import math
import numpy
import numpy as np

def world2Pixel(geoMatrix, x, y):
"""
Uses a gdal geomatrix (gdal.GetGeoTransform()) to calculate
the pixel location of a geospatial coordinate
geoMatrix
[0] = top left x (x Origin)
[1] = w-e pixel resolution (pixel Width)
[2] = rotation, 0 if image is "north up"
[3] = top left y (y Origin)
[4] = rotation, 0 if image is "north up"
[5] = n-s pixel resolution (pixel Height)

"""
ulX = geoMatrix[0]
ulY = geoMatrix[3]
xDist = geoMatrix[1]
yDist = geoMatrix[5]
rtnX = geoMatrix[2]
rtnY = geoMatrix[4]
pixel = np.round((x - ulX) / xDist).astype(np.int)
line = np.round((ulY - y) / xDist).astype(np.int)
return (pixel, line)

# Open the image as a read only image
# Get image georeferencing information.
geoMatrix = ds.GetGeoTransform()
ulX = geoMatrix[0] # top left x (x Origin)
ulY = geoMatrix[3] # top left y (y Origin)
xDist = geoMatrix[1] # w-e pixel resolution (pixel Width)
yDist = geoMatrix[5] # n-s pixel resolution (pixel Height)
rtnX = geoMatrix[2] # rotation, 0 if image is "north up"
rtnY = geoMatrix[4] #rotation, 0 if image is "north up"

# open shapefile (= border of are of interest)
shp = osgeo.ogr.Open(poly)
source_shp = ogr.GetDriverByName("Memory").CopyDataSource(shp, "")
# get the coordinates of the points from the boundary of the shapefile
source_layer = source_shp.GetLayer(0)
feature = source_layer.GetNextFeature()
geometry = feature.GetGeometryRef()
pts = geometry.GetGeometryRef(0)
points = []
for p in range(pts.GetPointCount()):
points.append((pts.GetX(p), pts.GetY(p)))
pnts = np.array(points).transpose()

print pnts
pnts
array([[  558470.28969598,   559495.31976318,   559548.50931402,
559362.85560495,   559493.99688721,   558958.22572622,
558529.58862305,   558575.0174293 ,   558470.28969598],
[ 6362598.63707171,  6362629.15167236,  6362295.16466266,
6362022.63453845,  6361763.96246338,  6361635.8559779 ,
6361707.07684326,  6362279.69352024,  6362598.63707171]])

# calculate the pixel location of a geospatial coordinate (= define the border of my polygon)

pixels, line = world2Pixel(geoMatrix,pnts[0],pnts[1])
pixels
array([17963, 20013, 20119, 19748, 20010, 18939, 18081, 18172, 17963])
line
array([35796, 35734, 36402, 36948, 37465, 37721, 37579, 36433, 35796])

#create an empty array with value zero using
data = np.zeros((ds.RasterYSize, ds.RasterXSize))
``````
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This is essentially a point-in-polygon problem.

Here's a little library to solve this problem. It's from this page with some modifications to make it more readable.

pip.py

``````#From http://www.ariel.com.au/a/python-point-int-poly.html
# Modified by Nick ODell
from collections import namedtuple

def point_in_polygon(target, poly):
"""x,y is the point to test. poly is a list of tuples comprising the polygon."""
point = namedtuple("Point", ("x", "y"))
line = namedtuple("Line", ("p1", "p2"))
target = point(*target)

inside = False
# Build list of coordinate pairs
# First, turn it into named tuples

poly = map(lambda p: point(*p), poly)

# Make two lists, with list2 shifted forward by one and wrapped around
list1 = poly
list2 = poly[1:] + [poly[0]]
poly = map(line, list1, list2)

for l in poly:
p1 = l.p1
p2 = l.p2

if p1.y == p2.y:
# This line is horizontal and thus not relevant.
continue
if max(p1.y, p2.y) < target.y <= min(p1.y, p2.y):
# This line is too high or low
continue
if target.x < max(p1.x, p2.x):
# Ignore this line because it's to the right of our point
continue
# Now, the line still might be to the right of our target point, but
# still to the right of one of the line endpoints.
rise = p1.y - p2.y
run =  p1.x - p2.x
try:
slope = rise/float(run)
except ZeroDivisionError:
slope = float('inf')

# Find the x-intercept, that is, the place where the line we are
# testing equals the y value of our target point.

# Pick one of the line points, and figure out what the run between it
# and the target point is.
run_to_intercept = target.x - p1.x
x_intercept = p1.x + run_to_intercept / slope
if target.x < x_intercept:
# We almost crossed the line.
continue

inside = not inside

return inside

if __name__ == "__main__":
poly = [(2,2), (1,-1), (-1,-1), (-1, 1)]
print point_in_polygon((1.5, 0), poly)
``````
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Thanks Nick, do you know some function to solve a point-in-polygon problem? – Gianni Spear Nov 16 '12 at 19:19
@Gianni cut-n-paste "point-in-polygon" drop it in that cute little search box at the top right of this page, hit enter... ;) – John Gaines Jr. Nov 16 '12 at 19:23
:) i know, i find this stackoverflow.com/questions/3654289/… – Gianni Spear Nov 16 '12 at 19:26
img = Image.new('L', (width, height), 0) Python close :( – Gianni Spear Nov 16 '12 at 19:29
@Gianni, I've edited my post. – Nick ODell Nov 16 '12 at 23:02

The accepted answer doesn't work for me.

I ended up using shapely library.

``````sudo pip install shapely
``````

Code:

``````import shapely.geometry

poly = shapely.geometry.Polygon([(2,2), (1,-1), (-1,-1), (-1, 1)])
point = shapely.geometry.Point(1.5, 0)

point.intersects(poly)
``````
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