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I have a set of not-regular points with X,Y and Z value. I wish to create a regular square grid (to export in TIFF format or ASCII format) with a resolution of 0.5 x 0.5 and extension equal to the boundery box of my data-set [X_Min,Y_Min],[X_Max,Y_Min],[X_Max,Y_Max],[X_Min,Y_Max],[X_Min,Y_Min]

The value of each pixel, where the points are present, need to be the low value of the points in the pixel.

Sorry if i cannot post any Python code.

Thanks in advance for all Help, suggestions, and link where to solve this problem

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What is a non-regular point? Why can't you post any python code? –  Andy Hayden Sep 24 '12 at 20:05
    
Hey thanks for your attention, I have hundred of X,Y,Z where X is the point position on x-axe, y the position on y-axe, and Z the value. The points are randomly positioned. Sorry if i don't post any Python code because I have just the txt file as: X1,Y1,Z1 X2,Y2,Z2 X3,Y3,Z3 ....... ....... –  Gianni Spear Sep 24 '12 at 21:05
    
The value of Z is the height respect of the ground (=0). Sorry if I was not clear. –  Gianni Spear Sep 24 '12 at 21:19
    
what I wish to do is: 1) boundery box of my data-set 2) create a regural sqaure grid (ex: 0.5 by 0.5 m of side) 3) find the low value of the number of points (can be varius) inside the pixel-i 4) give the low value at the pixel-i (some pixel could be NO value, because there are not points inside) 5) save a TIF 6) go to sleep :) –  Gianni Spear Sep 24 '12 at 21:28

1 Answer 1

up vote 1 down vote accepted

I assume your points are available in an array like this:

points = [(x1,y1,z1), (x2,y2,z2), ...]  

To extract the x and y values you can use the zip trick:

points_zipped = zip(*points)  
xvals = points_zipped[0]  
yvals = points_zipped[1]  

Getting the bounding box is then straightforward:

xmin, ymin = min(xvals), min(yvals)
xmax, ymax = max(xvals), max(yvals)

To get the minimum points I couldn't come up with something more inspiring than using defaultdicts from the collections module:

from collections import defaultdict
minpoints = defaultdict(lambda: defaultdict(lambda : 0.))  # 0. or another suitable min value  
for p in points:  
    minpoints[p[0]][p[1]] = min(p[2], minpoints[p[0]][p[1]])  

From there one you could use scipy interpolation. There is a dedicated recipe for 2d-interpolation of irregularly spaced data: http://www.scipy.org/Cookbook/Matplotlib/Gridding_irregularly_spaced_data

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