Extracting a subset of points efficiently depends on the exact format you are using. Assuming you store your raster as a numpy array of integers, you can extract points like this:

```
from numpy import *
def points_in_circle(circle, arr):
"A generator to return all points whose indices are within given circle."
i0,j0,r = circle
def intceil(x):
return int(ceil(x))
for i in xrange(intceil(i0-r),intceil(i0+r)):
ri = sqrt(r**2-(i-i0)**2)
for j in xrange(intceil(j0-ri),intceil(j0+ri)):
yield arr[i][j]
```

`points_in_circle`

will create a generator returning all points. Please note that I used `yield`

instead of `return`

. This function does not actually return point values, but describes how to find all of them. It creates a sequential iterator over values of points within circle. See Python documentation for more details how `yield`

works.

I used the fact that for circle we can explicitly loop only over inner points. For more complex shapes you may loop over the points of the extent of a shape, and then check if a point belongs to it. The trick is not to check *every* point, only a narrow subset of them.

Now an example of how to use `points_in_circle`

:

```
# raster dimensions, 10 million points
N, M = 3200, 3200
# circle center and its radius in index space
i0, j0, r = 70, 20, 12.3
raster = fromfunction(lambda i,j: 100+10*i+j, (N, M), dtype=int)
print "raster is ready"
print raster
pts_iterator = points_in_circle((i0,j0,r), raster) # very quick, do not extract points yet
pts = array(list(pts_iterator)) # actually extract all points
print pts.size, "points extracted, sum = ", sum(pts)
```

On a raster of 10 million integers it is pretty quick.

Please describe file format or put a sample somewhere if you need more specific answer.