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This is a two-part question, with an immediate question and a more general one.

I have a pandas TimeSeries, ts. To know the first value after a certain time. I can do this,


a) Is there a better, less clunky way to do it?

b) Coming from C, I have a certain phobia when dealing with these somewhat opaque, possibly mutable but generally not, possibly lazy but not always types. So to be clear, when I do


ts[datetime(2012,1,1,15,0,0):] is a pandas.TimeSeries object right? And I could possibly mutate it.

Does it mean that whenever I take a slice, there's a copy of ts being allocated in memory? Does it mean that this innocuous line of code could actually trigger the copy of a gigabyte of TimeSeries just to get an index value?

Or perhaps they magically share memory and a lazy copy is done if one of the object is mutated for instance? But then, how do you know which specific operations trigger a copy? Maybe not slicing but how about renaming columns? It doesn't seem to say so in the documentation. Does that bother you? Should it bother me or should I just learn not to worry and catch problems with a profiler?

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2 Answers 2

up vote 2 down vote accepted

Some setup:

In [1]: import numpy as np
In [2]: import pandas as pd
In [3]: from datetime import datetime
In [4]: dates = [datetime(2011, 1, 2), datetime(2011, 1, 5), datetime(2011, 1, 7), datetime(2011, 1, 8), datetime(2011, 1, 10), datetime(2011, 1, 12)]

In [5]: ts = pd.Series(np.random.randn(6), index=dates)

In [6]: ts
2011-01-02   -0.412335
2011-01-05   -0.809092
2011-01-07   -0.442320
2011-01-08   -0.337281
2011-01-10    0.522765
2011-01-12    1.559876

Okay, now to answer your first question, a) yes, there are less clunky ways, depending on your intention. This is pretty simple:

In [9]: ts[datetime(2011, 1, 8):]
2011-01-08   -0.337281
2011-01-10    0.522765
2011-01-12    1.559876

This is a slice containing all the values after your chosen date. You can select just the first one, as you wanted, by:

In [10]: ts[datetime(2011, 1, 8):][0]
Out[10]: -0.33728079849770815

To your second question, (b) -- this type of indexing is a slice of the original, just as other numpy arrays. It is NOT a copy of the original. See this question, or many similar: Bug or feature: cloning a numpy array w/ slicing

To demonstrate, let's modify the slice:

In [21]: ts2 = ts[datetime(2011, 1, 8):]
In [23]: ts2[0] = 99

This changes the original timeseries object ts, since ts2 is a slice and not a copy.

In [24]: ts
2011-01-02    -0.412335
2011-01-05    -0.809092
2011-01-07    -0.442320
2011-01-08    99.000000
2011-01-10     0.522765
2011-01-12     1.559876

If you DO want a copy, you can (in general) use the copy method or, (in this case) use truncate:

In [25]: ts3 = ts.truncate(before='2011-01-08')

In [26]: ts3  
2011-01-08    99.000000
2011-01-10     0.522765
2011-01-12     1.559876

Changing this copy will not change the original.

In [27]: ts3[1] = 99

In [28]: ts3
2011-01-08    99.000000
2011-01-10    99.000000
2011-01-12     1.559876

In [29]: ts                #The january 10th value will be unchanged. 
2011-01-02    -0.412335
2011-01-05    -0.809092
2011-01-07    -0.442320
2011-01-08    99.000000
2011-01-10     0.522765
2011-01-12     1.559876

This example is straight out of "Python for Data Analysis" by Wes. Check it out. It's great.

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Me not knowing panda, a general answer:

You can overload anything in python, and they must have done that there. If you define a special method __getitem__ on your class, it is called when you use obj[key] or obj[start:stop] (With just key as argument in the former case, with a special slice object in the latter). You can then return anything you want.

Here's an example to show how __getitem__ works:

class Foo(object):
    def __getitem__(self, k):
        if isinstance(k, slice):
            return k.start + k.stop # properties of the slice object
            return k

This gives you:

>>> f = range.Foo()
>>> f[42]
>>> f[23:42]

I assume that in your example, the __getitem__ method returns some special object, which contains the datetime objects plus a reference to the original ts object. That special object can then use that information to fetch the desired information later on, when the first_valid_index method or a similar one is called. (It does not even have to modify the original object, like your question suggested.)

TL;DR: Learn not to worry :-)

Addition: I got curious, so I implemented a minimal example of the behavior you described above myself:

class FilterableList(list):
    def __init__(self, *args):
        list.__init__(self, *args)
        self.filter = FilterProxy(self)

class FilterProxy(object):
    def __init__(self, parent):
        self.parent = parent

    def __getitem__(self, sl):
        if isinstance(sl, slice):
            return Filter(self.parent, sl)

class Filter(object):
    def __init__(self, parent, sl):
        self.parent = parent
        self.sl = sl

    def eval(self):
        return [e for e in self.parent if self.sl.start <= e <= self.sl.stop]

>>> l = FilterableList([4,5,6,7])
>>> f = l.filter[6:10]
>>> f.eval()
[6, 7]
>>> l.append(8)
>>> f.eval()
[6, 7, 8]
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