Internals¶
This section will provide a look into some of pandas internals. It’s primarily intended for developers of pandas itself.
Indexing¶
In pandas there are a few objects implemented which can serve as valid containers for the axis labels:
Index
: the generic “ordered set” object, an ndarray of object dtype assuming nothing about its contents. The labels must be hashable (and likely immutable) and unique. Populates a dict of label to location in Cython to doO(1)
lookups.Int64Index
: a version ofIndex
highly optimized for 64-bit integer data, such as time stampsFloat64Index
: a version ofIndex
highly optimized for 64-bit float dataMultiIndex
: the standard hierarchical index objectDatetimeIndex
: An Index object withTimestamp
boxed elements (impl are the int64 values)TimedeltaIndex
: An Index object withTimedelta
boxed elements (impl are the in64 values)PeriodIndex
: An Index object with Period elements
There are functions that make the creation of a regular index easy:
date_range
: fixed frequency date range generated from a time rule or DateOffset. An ndarray of Python datetime objectsperiod_range
: fixed frequency date range generated from a time rule or DateOffset. An ndarray ofPeriod
objects, representing timespans
The motivation for having an Index
class in the first place was to enable
different implementations of indexing. This means that it’s possible for you,
the user, to implement a custom Index
subclass that may be better suited to
a particular application than the ones provided in pandas.
From an internal implementation point of view, the relevant methods that an
Index
must define are one or more of the following (depending on how
incompatible the new object internals are with the Index
functions):
get_loc
: returns an “indexer” (an integer, or in some cases a slice object) for a labelslice_locs
: returns the “range” to slice between two labelsget_indexer
: Computes the indexing vector for reindexing / data alignment purposes. See the source / docstrings for more on thisget_indexer_non_unique
: Computes the indexing vector for reindexing / data alignment purposes when the index is non-unique. See the source / docstrings for more on thisreindex
: Does any pre-conversion of the input index then callsget_indexer
union
,intersection
: computes the union or intersection of two Index objectsinsert
: Inserts a new label into an Index, yielding a new objectdelete
: Delete a label, yielding a new objectdrop
: Deletes a set of labelstake
: Analogous to ndarray.take
MultiIndex¶
Internally, the MultiIndex
consists of a few things: the levels, the
integer codes (until version 0.24 named labels), and the level names:
In [1]: index = pd.MultiIndex.from_product([range(3), ['one', 'two']], ...: names=['first', 'second']) ...: In [2]: index Out[2]: MultiIndex([(0, 'one'), (0, 'two'), (1, 'one'), (1, 'two'), (2, 'one'), (2, 'two')], names=['first', 'second']) In [3]: index.levels Out[3]: FrozenList([[0, 1, 2], ['one', 'two']]) In [4]: index.codes Out[4]: FrozenList([[0, 0, 1, 1, 2, 2], [0, 1, 0, 1, 0, 1]]) In [5]: index.names Out[5]: FrozenList(['first', 'second'])
You can probably guess that the codes determine which unique element is
identified with that location at each layer of the index. It’s important to
note that sortedness is determined solely from the integer codes and does
not check (or care) whether the levels themselves are sorted. Fortunately, the
constructors from_tuples
and from_arrays
ensure that this is true, but
if you compute the levels and codes yourself, please be careful.
Values¶
Pandas extends NumPy’s type system with custom types, like Categorical
or
datetimes with a timezone, so we have multiple notions of “values”. For 1-D
containers (Index
classes and Series
) we have the following convention:
cls._ndarray_values
is always a NumPyndarray
. Ideally,_ndarray_values
is cheap to compute. For example, for aCategorical
, this returns the codes, not the array of objects.cls._values
refers is the “best possible” array. This could be anndarray
,ExtensionArray
, or inIndex
subclass (note: we’re in the process of removing the index subclasses here so that it’s always anndarray
orExtensionArray
).
So, for example, Series[category]._values
is a Categorical
, while
Series[category]._ndarray_values
is the underlying codes.
Subclassing pandas data structures¶
This section has been moved to Subclassing pandas data structures.