mirror of https://github.com/python/cpython
387 lines
13 KiB
TeX
387 lines
13 KiB
TeX
\section{\module{itertools} ---
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Functions creating iterators for efficient looping}
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\declaremodule{standard}{itertools}
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\modulesynopsis{Functions creating iterators for efficient looping.}
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\moduleauthor{Raymond Hettinger}{python@rcn.com}
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\sectionauthor{Raymond Hettinger}{python@rcn.com}
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\versionadded{2.3}
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This module implements a number of iterator building blocks inspired
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by constructs from the Haskell and SML programming languages. Each
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has been recast in a form suitable for Python.
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The module standardizes a core set of fast, memory efficient tools
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that are useful by themselves or in combination. Standardization helps
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avoid the readability and reliability problems which arise when many
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different individuals create their own slightly varying implementations,
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each with their own quirks and naming conventions.
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The tools are designed to combine readily with one another. This makes
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it easy to construct more specialized tools succinctly and efficiently
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in pure Python.
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For instance, SML provides a tabulation tool: \code{tabulate(f)}
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which produces a sequence \code{f(0), f(1), ...}. This toolbox
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provides \function{imap()} and \function{count()} which can be combined
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to form \code{imap(f, count())} and produce an equivalent result.
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Likewise, the functional tools are designed to work well with the
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high-speed functions provided by the \refmodule{operator} module.
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The module author welcomes suggestions for other basic building blocks
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to be added to future versions of the module.
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Whether cast in pure python form or C code, tools that use iterators
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are more memory efficient (and faster) than their list based counterparts.
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Adopting the principles of just-in-time manufacturing, they create
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data when and where needed instead of consuming memory with the
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computer equivalent of ``inventory''.
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The performance advantage of iterators becomes more acute as the number
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of elements increases -- at some point, lists grow large enough to
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to severely impact memory cache performance and start running slowly.
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\begin{seealso}
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\seetext{The Standard ML Basis Library,
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\citetitle[http://www.standardml.org/Basis/]
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{The Standard ML Basis Library}.}
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\seetext{Haskell, A Purely Functional Language,
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\citetitle[http://www.haskell.org/definition/]
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{Definition of Haskell and the Standard Libraries}.}
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\end{seealso}
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\subsection{Itertool functions \label{itertools-functions}}
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The following module functions all construct and return iterators.
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Some provide streams of infinite length, so they should only be accessed
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by functions or loops that truncate the stream.
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\begin{funcdesc}{chain}{*iterables}
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Make an iterator that returns elements from the first iterable until
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it is exhausted, then proceeds to the next iterable, until all of the
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iterables are exhausted. Used for treating consecutive sequences as
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a single sequence. Equivalent to:
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\begin{verbatim}
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def chain(*iterables):
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for it in iterables:
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for element in it:
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yield element
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\end{verbatim}
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\end{funcdesc}
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\begin{funcdesc}{count}{\optional{n}}
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Make an iterator that returns consecutive integers starting with \var{n}.
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Does not currently support python long integers. Often used as an
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argument to \function{imap()} to generate consecutive data points.
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Also, used with \function{izip()} to add sequence numbers. Equivalent to:
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\begin{verbatim}
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def count(n=0):
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while True:
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yield n
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n += 1
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\end{verbatim}
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Note, \function{count()} does not check for overflow and will return
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negative numbers after exceeding \code{sys.maxint}. This behavior
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may change in the future.
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\end{funcdesc}
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\begin{funcdesc}{cycle}{iterable}
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Make an iterator returning elements from the iterable and saving a
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copy of each. When the iterable is exhausted, return elements from
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the saved copy. Repeats indefinitely. Equivalent to:
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\begin{verbatim}
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def cycle(iterable):
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saved = []
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for element in iterable:
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yield element
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saved.append(element)
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while saved:
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for element in saved:
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yield element
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\end{verbatim}
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Note, this is the only member of the toolkit that may require
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significant auxiliary storage (depending on the length of the
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iterable).
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\end{funcdesc}
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\begin{funcdesc}{dropwhile}{predicate, iterable}
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Make an iterator that drops elements from the iterable as long as
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the predicate is true; afterwards, returns every element. Note,
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the iterator does not produce \emph{any} output until the predicate
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is true, so it may have a lengthy start-up time. Equivalent to:
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\begin{verbatim}
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def dropwhile(predicate, iterable):
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iterable = iter(iterable)
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for x in iterable:
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if not predicate(x):
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yield x
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break
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for x in iterable:
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yield x
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\end{verbatim}
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\end{funcdesc}
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\begin{funcdesc}{ifilter}{predicate, iterable}
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Make an iterator that filters elements from iterable returning only
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those for which the predicate is \code{True}.
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If \var{predicate} is \code{None}, return the items that are true.
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Equivalent to:
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\begin{verbatim}
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def ifilter(predicate, iterable):
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if predicate is None:
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def predicate(x):
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return x
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for x in iterable:
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if predicate(x):
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yield x
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\end{verbatim}
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\end{funcdesc}
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\begin{funcdesc}{ifilterfalse}{predicate, iterable}
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Make an iterator that filters elements from iterable returning only
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those for which the predicate is \code{False}.
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If \var{predicate} is \code{None}, return the items that are false.
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Equivalent to:
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\begin{verbatim}
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def ifilterfalse(predicate, iterable):
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if predicate is None:
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def predicate(x):
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return x
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for x in iterable:
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if not predicate(x):
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yield x
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\end{verbatim}
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\end{funcdesc}
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\begin{funcdesc}{imap}{function, *iterables}
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Make an iterator that computes the function using arguments from
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each of the iterables. If \var{function} is set to \code{None}, then
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\function{imap()} returns the arguments as a tuple. Like
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\function{map()} but stops when the shortest iterable is exhausted
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instead of filling in \code{None} for shorter iterables. The reason
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for the difference is that infinite iterator arguments are typically
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an error for \function{map()} (because the output is fully evaluated)
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but represent a common and useful way of supplying arguments to
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\function{imap()}.
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Equivalent to:
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\begin{verbatim}
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def imap(function, *iterables):
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iterables = map(iter, iterables)
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while True:
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args = [i.next() for i in iterables]
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if function is None:
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yield tuple(args)
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else:
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yield function(*args)
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\end{verbatim}
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\end{funcdesc}
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\begin{funcdesc}{islice}{iterable, \optional{start,} stop \optional{, step}}
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Make an iterator that returns selected elements from the iterable.
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If \var{start} is non-zero, then elements from the iterable are skipped
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until start is reached. Afterward, elements are returned consecutively
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unless \var{step} is set higher than one which results in items being
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skipped. If \var{stop} is \code{None}, then iteration continues until
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the iterator is exhausted, if at all; otherwise, it stops at the specified
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position. Unlike regular slicing,
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\function{islice()} does not support negative values for \var{start},
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\var{stop}, or \var{step}. Can be used to extract related fields
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from data where the internal structure has been flattened (for
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example, a multi-line report may list a name field on every
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third line). Equivalent to:
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\begin{verbatim}
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def islice(iterable, *args):
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s = slice(*args)
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next, stop, step = s.start or 0, s.stop, s.step or 1
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for cnt, element in enumerate(iterable):
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if cnt < next:
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continue
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if stop is not None and cnt >= stop:
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break
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yield element
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next += step
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\end{verbatim}
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\end{funcdesc}
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\begin{funcdesc}{izip}{*iterables}
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Make an iterator that aggregates elements from each of the iterables.
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Like \function{zip()} except that it returns an iterator instead of
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a list. Used for lock-step iteration over several iterables at a
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time. Equivalent to:
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\begin{verbatim}
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def izip(*iterables):
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iterables = map(iter, iterables)
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while iterables:
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result = [i.next() for i in iterables]
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yield tuple(result)
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\end{verbatim}
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\versionchanged[When no iterables are specified, returns a zero length
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iterator instead of raising a TypeError exception]{2.4}
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\end{funcdesc}
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\begin{funcdesc}{repeat}{object\optional{, times}}
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Make an iterator that returns \var{object} over and over again.
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Runs indefinitely unless the \var{times} argument is specified.
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Used as argument to \function{imap()} for invariant parameters
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to the called function. Also used with \function{izip()} to create
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an invariant part of a tuple record. Equivalent to:
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\begin{verbatim}
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def repeat(object, times=None):
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if times is None:
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while True:
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yield object
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else:
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for i in xrange(times):
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yield object
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\end{verbatim}
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\end{funcdesc}
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\begin{funcdesc}{starmap}{function, iterable}
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Make an iterator that computes the function using arguments tuples
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obtained from the iterable. Used instead of \function{imap()} when
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argument parameters are already grouped in tuples from a single iterable
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(the data has been ``pre-zipped''). The difference between
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\function{imap()} and \function{starmap()} parallels the distinction
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between \code{function(a,b)} and \code{function(*c)}.
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Equivalent to:
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\begin{verbatim}
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def starmap(function, iterable):
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iterable = iter(iterable)
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while True:
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yield function(*iterable.next())
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\end{verbatim}
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\end{funcdesc}
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\begin{funcdesc}{takewhile}{predicate, iterable}
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Make an iterator that returns elements from the iterable as long as
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the predicate is true. Equivalent to:
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\begin{verbatim}
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def takewhile(predicate, iterable):
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for x in iterable:
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if predicate(x):
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yield x
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else:
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break
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\end{verbatim}
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\end{funcdesc}
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\subsection{Examples \label{itertools-example}}
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The following examples show common uses for each tool and
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demonstrate ways they can be combined.
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\begin{verbatim}
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>>> amounts = [120.15, 764.05, 823.14]
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>>> for checknum, amount in izip(count(1200), amounts):
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... print 'Check %d is for $%.2f' % (checknum, amount)
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...
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Check 1200 is for $120.15
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Check 1201 is for $764.05
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Check 1202 is for $823.14
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>>> import operator
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>>> for cube in imap(operator.pow, xrange(1,4), repeat(3)):
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... print cube
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...
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1
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8
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27
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>>> reportlines = ['EuroPython', 'Roster', '', 'alex', '', 'laura',
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'', 'martin', '', 'walter', '', 'samuele']
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>>> for name in islice(reportlines, 3, None, 2):
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... print name.title()
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...
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Alex
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Laura
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Martin
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Walter
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Samuele
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\end{verbatim}
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This section has further examples of how itertools can be combined.
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Note that \function{enumerate()} and \method{iteritems()} already
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have highly efficient implementations in Python. They are only
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included here to illustrate how higher level tools can be created
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from building blocks.
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\begin{verbatim}
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>>> def enumerate(iterable):
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... return izip(count(), iterable)
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>>> def tabulate(function):
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... "Return function(0), function(1), ..."
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... return imap(function, count())
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>>> def iteritems(mapping):
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... return izip(mapping.iterkeys(), mapping.itervalues())
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>>> def nth(iterable, n):
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... "Returns the nth item"
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... return list(islice(iterable, n, n+1))
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>>> def all(pred, seq):
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... "Returns True if pred(x) is True for every element in the iterable"
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... return False not in imap(pred, seq)
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>>> def some(pred, seq):
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... "Returns True if pred(x) is True at least one element in the iterable"
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... return True in imap(pred, seq)
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>>> def no(pred, seq):
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... "Returns True if pred(x) is False for every element in the iterable"
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... return True not in imap(pred, seq)
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>>> def quantify(pred, seq):
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... "Count how many times the predicate is True in the sequence"
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... return sum(imap(pred, seq))
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>>> def padnone(seq):
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... "Returns the sequence elements and then returns None indefinitely"
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... return chain(seq, repeat(None))
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>>> def ncycles(seq, n):
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... "Returns the sequence elements n times"
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... return chain(*repeat(seq, n))
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>>> def dotproduct(vec1, vec2):
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... return sum(imap(operator.mul, vec1, vec2))
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>>> def window(seq, n=2):
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... "Returns a sliding window (of width n) over data from the iterable"
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... " s -> (s0,s1,...s[n-1]), (s1,s2,...,sn), ... "
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... it = iter(seq)
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... result = tuple(islice(it, n))
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... if len(result) == n:
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... yield result
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... for elem in it:
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... result = result[1:] + (elem,)
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... yield result
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>>> def take(n, seq):
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... return list(islice(seq, n))
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\end{verbatim}
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