See important clarification at bottom of this question.
I am using numpy to speed up some processing of longitude/latitude coordinates. Unfortunately, my numpy "optimizations" made my code run about 5x more slowly than it ran without using numpy.
The bottleneck seems to be in filling the numpy array with my data, and then extracting out that data after I have done the mathematical transformations. To fill the array I basically have a loop like:
point_list = GetMyPoints() # returns a long list of ( lon, lat ) coordinate pairs n = len( point_list ) point_buffer = numpy.empty( ( n, 2 ), numpy.float32 ) for point_index in xrange( 0, n ): point_buffer[ point_index ] = point_list[ point_index ]
That loop, just filling in the numpy array before even operating on it, is extremely slow, much slower than the entire computation was without numpy. (That is, it's not just the slowness of the python loop itself, but apparently some huge overhead in actually transferring each small block of data from python to numpy.) There is similar slowness on the other end; after I have processed the numpy arrays, I access each modified coordinate pair in a loop, again as
some_python_tuple = point_buffer[ index ]
Again that loop to pull the data out is much slower than the entire original computation without numpy. So, how do I actually fill the numpy array and extract data from the numpy array in a way that doesn't defeat the purpose of using numpy in the first place?
I am reading the data from a shape file using a C library that hands me the data as a regular python list. I understand that if the library handed me the coordinates already in a numpy array there would be no "filling" of the numpy array necessary. But unfortunately the starting point for me with the data is as a regular python list. And more to the point, in general I want to understand how you quickly fill a numpy array with data from within python.
The loop shown above is actually oversimplified. I wrote it that way in this question because I wanted to focus on the problem I was seeing of trying to fill a numpy array slowly in a loop. I now understand that doing that is just slow.
In my actual application what I have is a shape file of coordinate points, and I have an API to retrieve the points for a given object. There are something like 200,000 objects. So I repeatedly call a function
GetShapeCoords( i ) to get the coords for object i. This returns a list of lists, where each sublist is a list of lon/lat pairs, and the reason it's a list of lists is that some of the objects are multi-part (i.e., multi-polygon). Then, in my original code, as I read in each object's points, I was doing a transformation on each point by calling a regular python function, and then plotting the transformed points using PIL. The whole thing took about 20 seconds to draw all 200,000 polygons. Not terrible, but much room for improvement. I noticed that at least half of those 20 seconds were spent doing the transformation logic, so I thought I'd do that in numpy. And my original implementation was just to read in the objects one at a time, and keep appending all the points from the sublists into one big numpy array, which I then could do the math stuff on in numpy.
So, I now understand that simply passing a whole python list to numpy is the right way to set up a big array. But in my case I only read one object at a time. So one thing I could do is keep appending points together in a big python list of lists of lists. And then when I've compiled some large number of objects' points in this way (say, 10000 objects), I could simply assign that monster list to numpy.
So my question now is three parts:
(a) Is it true that numpy can take that big, irregularly shaped, list of lists of lists, and slurp it okay and quickly?
(b) I then want to be able to transform all the points in the leaves of that monster tree. What is the expression to get numpy to, for instance, "go into each sublist, and then into each subsublist, and then for each coordinate pair you find in those subsublists multiply the first (lon coordinate) by 0.5"? Can I do that?
(c) Finally, I need to get those transformed coordinates back out in order to plot them.
Winston's answer below seems to give some hint at how I might do this all using itertools. What I want to do is pretty much like what Winston does, flattening the list out. But I can't quite just flatten it out. When I go to draw the data, I need to be able to know when one polygon stops and the next starts. So, I think I could make it work if there were a way to quickly mark the end of each polygon (i.e., each subsublist) with a special coordinate pair like (-1000, -1000) or something like that. Then I could flatten with itertools as in Winston's answer, and then do the transforms in numpy. Then I need to actually draw from point to point using PIL, and here I think I'd need to reassign the modified numpy array back to a python list, and then iterate through that list in a regular python loop to do the drawing. Does that seem like my best option short of just writing a C module to handle all the reading and drawing for me in one step?