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I have a 2D numpy array containing x (data[:,0]) and y(data[:,1]) information for a plot.

I’d like to fit a curve to the data, but only using certain parts of the data to determine the fitting parameters (e.g. using data in the range x = x1 -> x2, and x3 -> x4). My plan to do this is to create a new numpy array only containing the data I intend to pass to a SciPy CurveFitting routine.

index_range1 = np.where((data[:,0] > x1) and (data[:,0] < x2)
index_range2 = np.where((data[:,0] > x3) and (data[:,0] < x4)

and then I'd use these index ranges to pull the data of interest into a new array which I could pass to CurveFit.

Firstly, given that Python can handle complex arrays, this seems a very un-pythonic approach. Secondly, when running my script, I get an error saying that I need to use .any() or .all() in my expression for index_range 1 and 2.

I wonder, therefore, if anyone has any suggestions for an improved, more pythonic approach to solving this problem.

Thanks!

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2 Answers 2

up vote 2 down vote accepted

To get a boolean array out of two others, use & to compare element-wise:

index_range1 = np.where((data[:,0] > x1) & (data[:,0] < x2))
index_range2 = np.where((data[:,0] > x3) & (data[:,0] < x4))

Using boolean arrays to index an array is probably more 'pythonic'. You don't need to find (using where) and save the indices, you can access the data directly from the array:

range1 = data[(data[:,0] > x1) & (data[:,0] < x2)]
range2 = data[(data[:,0] > x3) & (data[:,0] < x4)]

You could shorten this/make it more readable with:

x, y = data.T
range1 = data[(x > x1) & (x < x2)]
range2 = data[(x > x3) & (x < x4)]

Note: x and y are views, so modifying x, y modifies data, and there's no copying so it shouldn't slow your code down. But the ranges are copies, since fancy indexing makes a copy, so modifying them won't affect x, y, or data.

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Thanks, I've combined this and the below answer to solve my problem in one line: my_data = data[np.logical_or(((data[:,0] > x1) & (data[:,0] < x2)),((data[:,0] > x3) & (data[:,0] < x4)))] –  IanRoberts May 7 '13 at 22:57
    
@Ian You can use a pipe, a | b instead of logical_or(a,b). –  askewchan May 7 '13 at 23:00
    
As in, my_data = data[((data[:,0] > x1) & (data[:,0] < x2)) | ((data[:,0] > x3) & (data[:,0] < x4))] Use lots of parenthesis! –  askewchan May 7 '13 at 23:01
    
Thanks, that's even better! –  IanRoberts May 8 '13 at 10:35
1  
FWIW, I think I prefer the "logical_XXX" functions to the & and | operators. The latter actually do bitwise operations. It turns out that they give the same results for arrays of booleans since True is a subclass of 1, but I find that to be a little less clear. –  mgilson May 8 '13 at 12:35

In this case, you want to use numpy.logical_and:

>>> import numpy as np
>>> data = np.arange(100)
>>> data[np.logical_and(50 <= data,data <= 70)]
array([50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66,
       67, 68, 69, 70])

The reason is that with regular and, python looks to the left array and says "Is this true-like?". However, arrays don't have a concept of "true-like" (They refuse to guess what a "True" array would look like), so they raise the exception that you see (suggesting that maybe you meant to use the all or any methods).

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Thanks, I wasn't aware of the logical and function. That helps greatly. –  IanRoberts May 7 '13 at 22:56

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