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I have a nested list of 2-element lists (lat/lon coordinates)

xlist = [[-75.555476, 42.121701],
[-75.552684, 42.121725],
[-75.55268, 42.122023],
[-75.55250199999999, 42.125071999999996],
[-75.552611, 42.131277] ... ]

that I want to convert into a set. Before I do the conversion, however, I really want to round these values down to a lower precision so I can perform set operations on other similar lists and look for points common to both lists.

I can round with numpy,

x = np.round( xlist, decimals = 4 )
array([[-75.5555,  42.1217],
   [-75.5527,  42.1217],
   [-75.5527,  42.122 ],
   [-75.5552,  42.1086],
   [-75.5553,  42.1152],
   [-75.5555,  42.1217]])

but then the resulting object is a numpy array which I can't convert to a set

s = set( x )
TypeError: unhashable type: 'numpy.ndarray'

I tried converting the array back into a tuple of tuples

 t = ( tuple( row ) for row in x )

but this does nasty things to the precision in the conversion

(-75.555499999999995, 42.121699999999997)

I've also tried doing this in a single step, and had no luck

map( tuple, np.round( x, decimals =5 ) )
[(-75.555480000000003, 42.121699999999997),
(-75.552679999999995, 42.121720000000003),
(-75.552679999999995, 42.122019999999999),
(-75.552499999999995, 42.125070000000001)]

Is there something I'm missing about converting between tuples and arrays? How can I get from a list to a set that has its items rounded to lower precision?

Is it even advisable to use sets with float elements?

share|improve this question
You're seeing the results of repr which displays as many digits as necessary to recreate the exact binary representation. It isn't possible to round any closer than that. If you use str instead the values will look nicer. –  Mark Ransom Sep 19 '13 at 21:25
P.S. It has nothing to do with the conversion between tuples and arrays. –  Mark Ransom Sep 19 '13 at 21:27
Which you can prove, thusly: print (x[0][0]) –  Robᵩ Sep 19 '13 at 21:38
Aha, so it's just the formatting of the print statement! Thanks guys, I feel dumb now... –  jjardel Sep 19 '13 at 22:17
P.P.S. I wouldn't generally suggest using floats in a set since the exact representation might be off between two of them, but if they're all rounded consistently you should be OK. –  Mark Ransom Sep 19 '13 at 22:37

2 Answers 2

I think the core of your problem is that you can't create a set with a 2D list... try this:

xlist = [[-75.555476, 42.121701],
[-75.552684, 42.121725],
[-75.55268, 42.122023],
[-75.55250199999999, 42.125071999999996],
[-75.552611, 42.131277]]

x = []
for i in xlist:
    x.append( [round(i[0],4) , round(i[1],4)] )

s = map(set,x)
share|improve this answer

You say you want precise decimal fractions and floating-point isn't doing it for you?

This is a job for decimal.Decimal!

>>> four_digits=decimal.Decimal('.0001')
>>> x = tuple(tuple(decimal.Decimal(x).quantize(four_digits) for x in sub) for sub in xlist)
>>> x
((Decimal('-75.5555'), Decimal('42.1217')), (Decimal('-75.5527'), Decimal('42.1217')),(Decimal('-75.5527'), Decimal('42.1220')), (Decimal('-75.5525'), Decimal('42.1251')), (Decimal('-75.5526'), Decimal('42.1313')))
>>> set(x)
set([(Decimal('-75.5525'), Decimal('42.1251')), (Decimal('-75.5526'), Decimal('42.1313')), (Decimal('-75.5527'), Decimal('42.1217')), (Decimal('-75.5555'), Decimal('42.1217')), (Decimal('-75.5527'), Decimal('42.1220'))])

You can convert back to floating-point later, if you wish, or you can keep them in Decimal until you print them or store them.

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