# Rounding issues when converting between arrays and tuples

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

``````t.next()
(-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?

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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 `float`s 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

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)
``````
-

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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