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I have two large arrays of type numpy.core.memmap.memmap, called data and new_data, with > 7 million float32 items.

I need to iterate over them both within the same loop which I'm currently doing like this.

for i in range(0,len(data)):
  if new_data[i] == 0: continue
  combo = ( data[i], new_data[i] )
  if not combo in new_values_map: new_values_map[combo] = available_values.pop()
  data[i] = new_values_map[combo]

However this is unreasonably slow, so I gather that using numpy's vectorising functions are the way to go.

Is it possible to vectorize with the index – so that the vectorised array can compare it's items to the corresponding item in the other array?

I thought of zipping the two arrays but I guess this would cause unreasonable overhead to prepare?

Is there some other way to optimise this operation?

For context: the goal is to effectively merge the two arrays such that each unique combination of corresponding values between the two arrays is represented by a different value in the resulting array, except zeros in the new_data array which are ignored. The arrays represent 3D bitmap images.

EDIT: available_values is a set of values that have not yet been used in data and persists across calls to this loop. new_values_map on the other hand is reset to an empty dictionary before each time this loop is used.

EDIT2: the data array only contains whole numbers, that is: it's initialised as zeros then with each usage of this loop with a different new_data it is populated with more values drawn from available_values which is initially a range of integers. new_data could theoretically be anything.

share|improve this question
I know it is not what you are asking for, but you should use xrange instead of range. – Daniel Thaagaard Andreasen Mar 11 '13 at 12:08
thanks, I'm a new to python so that's good to know. – Nat Mar 11 '13 at 12:12
Can you show some example of the values in data, new_data and available_values? Because float values are not accurate, it may better convert the data to integer first. – HYRY Mar 11 '13 at 12:39
I think the problem that we're all having is that it is the mapping from available_values to data that is your core vectorization problem. As you've written it, you seem to sequentially go through each value, popping one off at a time, and assigning it to data. If this is what you're doing, you can do something like my answer. If you're doing something more complicated then we need to know about it to offer any sensible assistance. – Henry Gomersall Mar 11 '13 at 13:32
Does it help to know that values are only drawn from the set available_values a tiny fraction of the time? For 99% of iterations the combo will already be in the new_values_map dictionary and so available_values is not invoked. – Nat Mar 11 '13 at 13:46

In answer to you question about vectorising, the answer is probably yes, though you need to clarify what available_values contains and how it's used, as that is the core of the vectorisation.

Your solution will probably look something like this...

indices = new_data != 0

data[indices] = available_values

In this case, if available_values can be considered as a set of values in which we allocate the first value to the first value in data in which new_data is not 0, that should work, as long as available_values is a numpy array.

Let's say new_data and data take values 0-255, then you can construct an available_values array with unique entries for every possible pair of values in new_data and data like the following:

available_data = numpy.array(xrange(0, 255*255)).reshape((255, 255))
indices = new_data != 0
data[indices] = available_data[data[indices], new_data[indices]]

Obviously, available_data can be whatever mapping you want. The above should be very quick whatever is in available_data (especially if you only construct available_data once).

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Python gives you a powerful tools for handling large arrays of data: generators and iterators

Basically, they will allow to acces your data as they were regular lists, without fetching them at once to memory, but accessing piece by piece.

In case of accessing two large arrays at once, you can

for item_a, item_b in izip(data, new_data):
   #... do you stuff here

izip creates an iterator what iterates over the elements of your arrays at once, but it does picks pieces as you need them, not all at once.

share|improve this answer

It seems that replacing the first two lines of loop to produce:

for i in numpy.where(new_data != 0)[0]:
  combo = ( data[i], new_data[i] )
  if not combo in new_values_map: new_values_map[combo] = available_values.pop()
  data[i] = new_values_map[combo]

has the desired effect.

So most of the time in the loop was spent skipping the entire loop upon encountering a zero in new_data. Don't really understand why these many null iterations were so expensive, maybe one day I will...

share|improve this answer
It's still the wrong way to do it. If you're using a numpy array, you want to get down to zero loops if you can. – Henry Gomersall Mar 11 '13 at 15:32

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