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It seems like there should be a numpy function for finding the overlap of two vectors, but I can't seem to find it. Maybe one of you knows it?

The problem is best described with a simple code (below). I have two sets of data (x1, y1), and (x2, y2), where each x and y are hundreds of elements. I need to truncate them all so that the domains are the same (i.e. x1 = x2), and y1 represents the appropriate range to go with the new x1, y2 is also truncated to go with the new x2.

# x1 and y1 are abscissa and ordinate from some measurement.
x1 = array([1,2,3,4,5,6,7,8,9,10])
y1 = x1**2 # I'm just making some numbers for the ordinate.

# x2 and y2 are abscissa and ordinate from a different measurement, 
# but not over the same exact range.
x2 = array([5,6,7,8,9,10,11,12,13])
y2 = sqrt(x2) # And some more numbers that aren't the same.

# And I need to do some math on just the portion where the two measurements overlap.
x3 = array([5,6,7,8,9,10])
y3 = y1[4:10] + y2[:6]

# Is there a simple function that would give me these indices, 
# or do I have to do loops and compare values?
print x1[4:10]
print x2[:6]


# ------------ THE FOLLOWING IS WHAT I WANT TO REPLACE -------------


# Doing loops is really clumsy...

# Check which vector starts lower.
if x1[0] <= x2[0]:
    # Loop through it until you find an index that matches the start of the other.
    for i in range(len(x1)):
        # Here is is.
        if x1[i] == x2[0]:
            # Note the offsets for the new starts of both vectors.
            x1off = i
            x2off = 0
            break
else:
    for i in range(len(x2)):
        if x2[i] == x1[0]:
            x1off = 0
            x2off = i
            break

# Cutoff the beginnings of the vectors as appropriate.
x1 = x1[x1off:]
y1 = y1[x1off:]
x2 = x2[x2off:]
y2 = y2[x2off:]

# Now make the lengths of the vectors be the same.
# See which is longer.
if len(x1) > len(x2):
    # Cut off the longer one to be the same length as the shorter.
    x1 = x1[:len(x2)]
    y1 = y1[:len(x2)]
elif len(x2) > len(x1):
    x2 = x2[:len(x1)]
    y2 = y2[:len(x1)]

# OK, now the domains and ranges for the two (x,y) sets are identical.    
print x1, y1
print x2, y2

Thanks!

share|improve this question
    
numpy.in1d(x1,x2) ? im not sure what your asking or how these things overlap? but this code will give you [5,6,7,8,9,10] –  Joran Beasley Jun 19 at 23:29
    
It gives me a vector of True and False. I then have to go back through the first vector to find the first true and set that as my offset, and then find that same place in the second vector. –  ZSG Jun 19 at 23:44
    
err see the answer (that is likely a better solution) ... I guess it would be x1[numpy.in1d(x1,x2)] –  Joran Beasley Jun 19 at 23:54
    
In your example, y3 does not depend on y1 or y2, so why do you need the subsets of y1 and y2? Or should this y3 = x1[4:10]**2 + sqrt(x2[:6]) really be something like y3 = y1[4:10]**2 + sqrt(y2[:6])? –  Warren Weckesser Jun 20 at 0:06
    
To be specific, x1 and x2 are temperatures. y1 and y2 are the values measured at those temperatures. I need to add y1 to y2 where the temperatures are the same. I'll update the example so this is clearer. –  ZSG Jun 20 at 0:12

1 Answer 1

up vote 2 down vote accepted

For a simple intersection, you can use np.intersect1d:

In [20]: x1 = array([1,2,3,4,5,6,7,8,9,10])

In [21]: x2 = array([5,6,7,8,9,10,11,12,13])

In [22]: x3 = np.intersect1d(x1, x2)

In [23]: x3
Out[23]: array([ 5,  6,  7,  8,  9, 10])

But it looks like you need something different. As @JoranBeasley suggested in a comment, you can use np.in1d, but you need to use it twice:

Here's the data:

In [57]: x1
Out[57]: array([ 1,  2,  3,  4,  5,  6,  7,  8,  9, 10])

In [58]: y1
Out[58]: array([  1,   4,   9,  16,  25,  36,  49,  64,  81, 100])

In [59]: x2
Out[59]: array([ 5,  6,  7,  8,  9, 10, 11, 12, 13])

In [60]: y2
Out[60]: 
array([ 2.23606798,  2.44948974,  2.64575131,  2.82842712,  3.        ,
        3.16227766,  3.31662479,  3.46410162,  3.60555128])

Get the subset of the (x1, y1) data:

In [61]: mask1 = np.in1d(x1, x2)

In [62]: xx1 = x1[mask1]

In [63]: yy1 = y1[mask1]

In [64]: xx1, yy1
Out[64]: (array([ 5,  6,  7,  8,  9, 10]), array([ 25,  36,  49,  64,  81, 100]))

Get the subset of the (x2, y2) data. Note that the order of the arguments to np.in1d is now x2, x1:

In [65]: mask2 = np.in1d(x2, x1)

In [66]: xx2 = x2[mask2]

In [67]: yy2 = y2[mask2]

In [68]: xx2, yy2
Out[68]: 
(array([ 5,  6,  7,  8,  9, 10]),
 array([ 2.23606798,  2.44948974,  2.64575131,  2.82842712,  3.        ,
         3.16227766]))

We didn't really have to form xx2, because it will be the same as xx1. We can now operate on yy1 and yy2. E.g.:

In [69]: yy1 + yy2
Out[69]: 
array([  27.23606798,   38.44948974,   51.64575131,   66.82842712,
         84.        ,  103.16227766])
share|improve this answer
    
Not quite. It sets the range for the two x-vectors to be the same, but it doesn't give me the same for the y-vectors that go with it. I've added loops into the question to make this more explicit. –  ZSG Jun 20 at 0:00
    
Wonderful! Thank you! –  ZSG Jun 20 at 0:30

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