Commit 77384562 authored by Tim Peters's avatar Tim Peters

Minor improvements to existing text. Changed examples to use list()

instead of listcomps.  Added new examples.  Corrected minor mistakes.
Removed the byValue() example and claimed that function is deprecated
(it's almost never used, and it's hard to explain exactly what it does).
parent 19e489d9
...@@ -49,17 +49,18 @@ you're storing something very large, such as a 100,000-entry user ...@@ -49,17 +49,18 @@ you're storing something very large, such as a 100,000-entry user
database, unpickling such a large object will be slow. BTrees are a database, unpickling such a large object will be slow. BTrees are a
balanced tree data structure that behave like a mapping but distribute balanced tree data structure that behave like a mapping but distribute
keys throughout a number of tree nodes. The nodes are stored in keys throughout a number of tree nodes. The nodes are stored in
sorted order. Nodes are then only unpickled and brought into memory sorted order (this has important consequences -- see below). Nodes are
as they're accessed, so the entire tree doesn't have to occupy memory then only unpickled and brought into memory as they're accessed, so the
(unless you really are touching every single key). entire tree doesn't have to occupy memory (unless you really are
touching every single key).
The BTrees package provides a large collection of related data The BTrees package provides a large collection of related data
structures. There are variants of the data structures specialized to structures. There are variants of the data structures specialized to
handle integer values, which are faster and use less memory. There handle integer values, which are faster and use less memory. There
are four modules that handle the different variants. The first two are four modules that handle the different variants. The first two
letters of the module name specify the types of the keys and values in letters of the module name specify the types of the keys and values in
mappings -- O for any object and I for integer. The mappings -- O for any object and I for integer. For example, the
\module{BTrees.IOBTree} module provides a mapping that accepts integer \module{BTrees.IOBTree} module provides a mapping with integer
keys and arbitrary objects as values. keys and arbitrary objects as values.
The four data structures provide by each module are a btree, a bucket, The four data structures provide by each module are a btree, a bucket,
...@@ -72,27 +73,41 @@ a mapping with no keys, e.g. \function{keys()} but not ...@@ -72,27 +73,41 @@ a mapping with no keys, e.g. \function{keys()} but not
building blocks for btrees and tree sets, respectively. A bucket or building blocks for btrees and tree sets, respectively. A bucket or
set can be used when you are sure that it will have few elements. If set can be used when you are sure that it will have few elements. If
the data structure will grow large, you should use a btree or tree the data structure will grow large, you should use a btree or tree
set. set. Like Python lists, buckets and sets are allocated in one
contiguous piece, and insertions and deletions can take time
proportional to the number of existing elements. Btrees and tree sets
are multi-level tree structures with much better (logarithmic) worst-case
time bounds.
The four modules are named \module{OOBTree}, \module{IOBTree}, The four modules are named \module{OOBTree}, \module{IOBTree},
\module{OIBTree}, and \module{IIBTree}. The two letter prefixes are \module{OIBTree}, and \module{IIBTree}. The two letter prefixes are
repeated in the data types names. The \module{BTrees.OOBTree} module repeated in the data types names. The \module{BTrees.OOBTree} module
defines the following types: \class{OOBTree}, \class{OOBucket}, defines the following types: \class{OOBTree}, \class{OOBucket},
\class{OOSet}, and \class{OOTreeSet}. \class{OOSet}, and \class{OOTreeSet}. Similarly, the other three modules
each define their own variants of those four types.
The \function{keys()}, \function{values()}, and \function{items()} The \function{keys()}, \function{values()}, and \function{items()}
methods do not materialize a list with all of the data. Instead, they methods on btree and tree set types do not materialize a list with all
return lazy sequences that fetch data from the BTree as needed. They of the data. Instead, they return lazy sequences that fetch data
also support optional arguments to specify the minium and maximum from the BTree as needed. They also support optional arguments to
values to return. specify the minimum and maximum values to return, often called "range
searching". Because all these types are stored in sorted order, range
searching is very efficient.
The \function{keys()}, \function{values()}, and \function{items()}
methods on bucket and set types do return lists with all the data.
Starting in ZODB4, there are also \function{iterkeys()},
\function{itervalues()}, and \function{iteritems()} methods that
return iterators (in the Python 2.2 sense).
A BTree object supports all the methods you would expect of a mapping A BTree object supports all the methods you would expect of a mapping
with a few extensions that exploit the fact that the keys are sorted. with a few extensions that exploit the fact that the keys are sorted.
The example below demonstrates how some of the methods work. The The example below demonstrates how some of the methods work. The
extra methods re \function{minKey()} and \function{maxKey()}, which extra methods are \function{minKey()} and \function{maxKey()}, which
find the minimum and maximum key value subject to an optional bound find the minimum and maximum key value subject to an optional bound
argument, and \function{byValue()}, which returns value, key pairs argument, and \function{byValue()}, which should probably be ignored
in reversed sorted order subject to an optional minimum bound argument. (it's hard to explain exactly what it does, and as a result it's
almost never used -- best to consider it deprecated).
\begin{verbatim} \begin{verbatim}
>>> from BTrees.OOBTree import OOBTree >>> from BTrees.OOBTree import OOBTree
...@@ -102,22 +117,29 @@ in reversed sorted order subject to an optional minimum bound argument. ...@@ -102,22 +117,29 @@ in reversed sorted order subject to an optional minimum bound argument.
4 4
>>> t[2] >>> t[2]
'green' 'green'
>>> t.keys() >>> s = t.keys() # this is a "lazy" sequence object
<OOBTreeItems object at 0x40269098> >>> s
>>> [k for k in t.keys()] # use a listcomp to get a printable sequence <OOBTreeItems object at 0x0088AD20>
>>> len(s) # it acts like a Python list
4
>>> s[-2]
3
>>> list(s) # materialize the full list
[1, 2, 3, 4] [1, 2, 3, 4]
>>> [k for k in t.values()] >>> list(t.values())
['red', 'green', 'blue', 'spades'] ['red', 'green', 'blue', 'spades']
>>> [k for k in t.values(1, 2)] >>> list(t.values(1, 2))
['red', 'green'] ['red', 'green']
>>> [k for k in t.values(2)] >>> list(t.values(2))
['green', 'blue', 'spades'] ['green', 'blue', 'spades']
>>> t.byValue("glue") # all values > "glue" >>> t.minKey() # smallest key
[('spades', 4), ('red', 1), ('green', 2)] 1
>>> t.minKey(1.5) >>> t.minKey(1.5) # smallest key >= 1.5
2 2
\end{verbatim} \end{verbatim}
% XXX I'm not sure all of the following is actually correct. The
% XXX set functions have complicated behavior.
Each of the modules also defines some functions that operate on Each of the modules also defines some functions that operate on
BTrees -- \function{difference()}, \function{union()}, and BTrees -- \function{difference()}, \function{union()}, and
\function{difference()}. The \function{difference()} function returns \function{difference()}. The \function{difference()} function returns
...@@ -127,4 +149,3 @@ If the keys are integers, then the module also defines ...@@ -127,4 +149,3 @@ If the keys are integers, then the module also defines
also defines \function{weightedIntersection()} and also defines \function{weightedIntersection()} and
\function{weighterUnion()}. The function doc strings describe each \function{weighterUnion()}. The function doc strings describe each
function briefly. function briefly.
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