Merged revisions 60481,60485,60489-60492,60494-60496,60498-60499,60501-60503,60505-60506,60508-60509,60523-60524,60532,60543,60545,60547-60548,60552,60554,60556-60559,60561-60562,60569,60571-60572,60574,60576-60583,60585-60586,60589,60591,60594-60595,60597-60598,60600-60601,60606-60612,60615,60617,60619-60621,60623-60625,60627-60629,60631,60633,60635,60647,60650,60652,60654,60656,60658-60659,60664-60666,60668-60670,60672,60676,60678,60680-60683,60685-60686,60688,60690,60692-60694,60697-60706,60708-60712,60714-60724 via svnmerge from
svn+ssh://pythondev@svn.python.org/python/trunk ........ r60701 | georg.brandl | 2008-02-09 22:36:15 +0100 (Sat, 09 Feb 2008) | 2 lines Needs only 2.4 now. ........ r60702 | georg.brandl | 2008-02-09 22:38:54 +0100 (Sat, 09 Feb 2008) | 2 lines Docs are rst now. ........ r60703 | georg.brandl | 2008-02-09 23:00:00 +0100 (Sat, 09 Feb 2008) | 2 lines Fix link. ........ r60704 | georg.brandl | 2008-02-10 00:09:25 +0100 (Sun, 10 Feb 2008) | 2 lines Fix for newest doctools. ........ r60709 | raymond.hettinger | 2008-02-10 08:21:09 +0100 (Sun, 10 Feb 2008) | 1 line Clarify that decimal also supports fixed-point arithmetic. ........ r60710 | nick.coghlan | 2008-02-10 08:32:52 +0100 (Sun, 10 Feb 2008) | 1 line Add missing NEWS entry for r60695 ........ r60712 | mark.dickinson | 2008-02-10 15:58:38 +0100 (Sun, 10 Feb 2008) | 3 lines Turn classmethods into staticmethods, and avoid calling the constructor of subclasses of Rational. (See discussion in issue #1682.) ........ r60715 | mark.dickinson | 2008-02-10 16:19:58 +0100 (Sun, 10 Feb 2008) | 2 lines Typos in decimal comment and documentation ........ r60716 | skip.montanaro | 2008-02-10 16:31:54 +0100 (Sun, 10 Feb 2008) | 2 lines Get the saying right. ;-) ........ r60717 | skip.montanaro | 2008-02-10 16:32:16 +0100 (Sun, 10 Feb 2008) | 2 lines whoops - revert ........ r60718 | mark.dickinson | 2008-02-10 20:23:36 +0100 (Sun, 10 Feb 2008) | 2 lines Remove reference to Rational ........ r60719 | raymond.hettinger | 2008-02-10 21:35:16 +0100 (Sun, 10 Feb 2008) | 1 line Complete an open todo on pickletools -- add a pickle optimizer. ........ r60721 | mark.dickinson | 2008-02-10 22:29:51 +0100 (Sun, 10 Feb 2008) | 3 lines Rename rational.Rational to fractions.Fraction, to avoid name clash with numbers.Rational. See issue #1682 for related discussion. ........ r60722 | christian.heimes | 2008-02-11 03:26:22 +0100 (Mon, 11 Feb 2008) | 1 line The test requires the network resource ........ r60723 | mark.dickinson | 2008-02-11 04:11:55 +0100 (Mon, 11 Feb 2008) | 3 lines Put an extra space into the repr of a Fraction: Fraction(1, 2) instead of Fraction(1,2). ........
This commit is contained in:
parent
ba99c58872
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3feef61742
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@ -4,7 +4,6 @@ Complex.py Complex numbers
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Dates.py Date manipulation package by Tim Peters
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Dbm.py Wrapper around built-in dbm, supporting arbitrary values
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Range.py Example of a generator: re-implement built-in range()
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Rat.py Rational numbers
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Rev.py Yield the reverse of a sequence
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Vec.py A simple vector class
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bitvec.py A bit-vector class by Jan-Hein B\"uhrman
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@ -14,7 +14,7 @@ those familiar with the previous docs written in LaTeX.
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Building the docs
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=================
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You need to install Python 2.5.1 or higher (but Python 3.0 is not supported yet);
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You need to install Python 2.4 or higher (but Python 3.0 is not supported yet);
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the toolset used to build the docs are written in Python. The toolset used
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to build the documentation is called *Sphinx*, it is not included in this
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tree, but maintained separately in the Python Subversion repository. Also
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|
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22
Doc/conf.py
22
Doc/conf.py
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@ -38,17 +38,17 @@ today = ''
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today_fmt = '%B %d, %Y'
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# List of files that shouldn't be included in the build.
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unused_files = [
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'whatsnew/2.0.rst',
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'whatsnew/2.1.rst',
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'whatsnew/2.2.rst',
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'whatsnew/2.3.rst',
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'whatsnew/2.4.rst',
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'whatsnew/2.5.rst',
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'whatsnew/2.6.rst',
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'maclib/scrap.rst',
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'library/xmllib.rst',
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'library/xml.etree.rst',
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unused_docs = [
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'whatsnew/2.0',
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'whatsnew/2.1',
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'whatsnew/2.2',
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'whatsnew/2.3',
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'whatsnew/2.4',
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'whatsnew/2.5',
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'whatsnew/2.6',
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'maclib/scrap',
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'library/xmllib',
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'library/xml.etree',
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]
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# Relative filename of the reference count data file.
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@ -179,7 +179,7 @@ and add the following to the module initialization function::
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MyObject_Type.ob_type = &PyType_Type;
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Refer to section 3 of the `Python FAQ <http://www.python.org/doc/FAQ.html>`_ for
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Refer to section 3 of the `Python FAQ <http://www.python.org/doc/faq>`_ for
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details on why you must do this.
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@ -1,6 +1,6 @@
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:mod:`decimal` --- Decimal floating point arithmetic
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====================================================
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:mod:`decimal` --- Decimal fixed point and floating point arithmetic
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====================================================================
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.. module:: decimal
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:synopsis: Implementation of the General Decimal Arithmetic Specification.
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@ -16,6 +16,11 @@
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The :mod:`decimal` module provides support for decimal floating point
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arithmetic. It offers several advantages over the :class:`float` datatype:
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* Decimal "is based on a floating-point model which was designed with people
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in mind, and necessarily has a paramount guiding principle -- computers must
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provide an arithmetic that works in the same way as the arithmetic that
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people learn at school." -- excerpt from the decimal arithmetic specification.
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* Decimal numbers can be represented exactly. In contrast, numbers like
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:const:`1.1` do not have an exact representation in binary floating point. End
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users typically would not expect :const:`1.1` to display as
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@ -25,7 +30,7 @@ arithmetic. It offers several advantages over the :class:`float` datatype:
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+ 0.1 + 0.1 - 0.3`` is exactly equal to zero. In binary floating point, the result
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is :const:`5.5511151231257827e-017`. While near to zero, the differences
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prevent reliable equality testing and differences can accumulate. For this
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reason, decimal would be preferred in accounting applications which have strict
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reason, decimal is preferred in accounting applications which have strict
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equality invariants.
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* The decimal module incorporates a notion of significant places so that ``1.30
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@ -50,6 +55,13 @@ arithmetic. It offers several advantages over the :class:`float` datatype:
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standards. While the built-in float type exposes only a modest portion of its
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capabilities, the decimal module exposes all required parts of the standard.
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When needed, the programmer has full control over rounding and signal handling.
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This includes an option to enforce exact arithmetic by using exceptions
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to block any inexact operations.
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* The decimal module was designed to support "without prejudice, both exact
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unrounded decimal arithmetic (sometimes called fixed-point arithmetic)
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and rounded floating-point arithmetic." -- excerpt from the decimal
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arithmetic specification.
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The module design is centered around three concepts: the decimal number, the
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context for arithmetic, and signals.
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@ -832,7 +844,7 @@ described below. In addition, the module provides three pre-made contexts:
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:const:`ROUND_HALF_EVEN`. All flags are cleared. No traps are enabled (so that
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exceptions are not raised during computations).
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Because the trapped are disabled, this context is useful for applications that
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Because the traps are disabled, this context is useful for applications that
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prefer to have result value of :const:`NaN` or :const:`Infinity` instead of
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raising exceptions. This allows an application to complete a run in the
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presence of conditions that would otherwise halt the program.
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@ -1245,7 +1257,7 @@ quiet or signaling :const:`NaN` always returns :const:`False` (even when doing
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:const:`True`. An attempt to compare two Decimals using any of the ``<``,
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``<=``, ``>`` or ``>=`` operators will raise the :exc:`InvalidOperation` signal
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if either operand is a :const:`NaN`, and return :const:`False` if this signal is
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trapped. Note that the General Decimal Arithmetic specification does not
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not trapped. Note that the General Decimal Arithmetic specification does not
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specify the behavior of direct comparisons; these rules for comparisons
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involving a :const:`NaN` were taken from the IEEE 854 standard (see Table 3 in
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section 5.7). To ensure strict standards-compliance, use the :meth:`compare`
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@ -1,28 +1,28 @@
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:mod:`rational` --- Rational numbers
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:mod:`fractions` --- Rational numbers
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====================================
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.. module:: rational
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.. module:: fractions
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:synopsis: Rational numbers.
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.. moduleauthor:: Jeffrey Yasskin <jyasskin at gmail.com>
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.. sectionauthor:: Jeffrey Yasskin <jyasskin at gmail.com>
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.. versionadded:: 2.6
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The :mod:`rational` module defines an immutable, infinite-precision
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The :mod:`fractions` module defines an immutable, infinite-precision
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Rational number class.
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.. class:: Rational(numerator=0, denominator=1)
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Rational(other_rational)
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Rational(string)
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.. class:: Fraction(numerator=0, denominator=1)
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Fraction(other_fraction)
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Fraction(string)
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The first version requires that *numerator* and *denominator* are
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instances of :class:`numbers.Integral` and returns a new
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``Rational`` representing ``numerator/denominator``. If
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``Fraction`` representing ``numerator/denominator``. If
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*denominator* is :const:`0`, raises a :exc:`ZeroDivisionError`. The
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second version requires that *other_rational* is an instance of
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:class:`numbers.Rational` and returns an instance of
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second version requires that *other_fraction* is an instance of
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:class:`numbers.Fraction` and returns an instance of
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:class:`Rational` with the same value. The third version expects a
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string of the form ``[-+]?[0-9]+(/[0-9]+)?``, optionally surrounded
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by spaces.
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:class:`numbers.Rational` and is immutable and hashable.
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.. method:: Rational.from_float(flt)
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.. method:: Fraction.from_float(flt)
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This classmethod constructs a :class:`Rational` representing the
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This classmethod constructs a :class:`Fraction` representing the
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exact value of *flt*, which must be a :class:`float`. Beware that
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``Rational.from_float(0.3)`` is not the same value as ``Rational(3,
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``Fraction.from_float(0.3)`` is not the same value as ``Rational(3,
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10)``
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.. method:: Rational.from_decimal(dec)
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.. method:: Fraction.from_decimal(dec)
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This classmethod constructs a :class:`Rational` representing the
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This classmethod constructs a :class:`Fraction` representing the
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exact value of *dec*, which must be a
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:class:`decimal.Decimal`.
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.. method:: Rational.__floor__()
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.. method:: Fraction.__floor__()
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Returns the greatest :class:`int` ``<= self``. Will be accessible
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through :func:`math.floor` in Py3k.
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.. method:: Rational.__ceil__()
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.. method:: Fraction.__ceil__()
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Returns the least :class:`int` ``>= self``. Will be accessible
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through :func:`math.ceil` in Py3k.
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.. method:: Rational.__round__()
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Rational.__round__(ndigits)
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.. method:: Fraction.__round__()
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Fraction.__round__(ndigits)
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The first version returns the nearest :class:`int` to ``self``,
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rounding half to even. The second version rounds ``self`` to the
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nearest multiple of ``Rational(1, 10**ndigits)`` (logically, if
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nearest multiple of ``Fraction(1, 10**ndigits)`` (logically, if
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``ndigits`` is negative), again rounding half toward even. Will be
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accessible through :func:`round` in Py3k.
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@ -104,7 +104,7 @@ Notes for type implementors
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Implementors should be careful to make equal numbers equal and hash
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them to the same values. This may be subtle if there are two different
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extensions of the real numbers. For example, :class:`rational.Rational`
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extensions of the real numbers. For example, :class:`fractions.Fraction`
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implements :func:`hash` as follows::
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def __hash__(self):
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@ -199,11 +199,11 @@ in :class:`complex`, and both :meth:`__radd__` s land there, so ``a+b
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Because most of the operations on any given type will be very similar,
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it can be useful to define a helper function which generates the
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forward and reverse instances of any given operator. For example,
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:class:`rational.Rational` uses::
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:class:`fractions.Fraction` uses::
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def _operator_fallbacks(monomorphic_operator, fallback_operator):
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def forward(a, b):
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if isinstance(b, (int, long, Rational)):
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if isinstance(b, (int, long, Fraction)):
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return monomorphic_operator(a, b)
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elif isinstance(b, float):
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return fallback_operator(float(a), b)
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@ -215,7 +215,7 @@ forward and reverse instances of any given operator. For example,
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forward.__doc__ = monomorphic_operator.__doc__
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def reverse(b, a):
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if isinstance(a, RationalAbc):
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if isinstance(a, Rational):
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# Includes ints.
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return monomorphic_operator(a, b)
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elif isinstance(a, numbers.Real):
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@ -231,7 +231,7 @@ forward and reverse instances of any given operator. For example,
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def _add(a, b):
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"""a + b"""
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return Rational(a.numerator * b.denominator +
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return Fraction(a.numerator * b.denominator +
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b.numerator * a.denominator,
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a.denominator * b.denominator)
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@ -33,3 +33,10 @@ probably won't find the :mod:`pickletools` module relevant.
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the opcode's argument; *pos* is the position at which this opcode is located.
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*pickle* can be a string or a file-like object.
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.. function:: optimize(picklestring)
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Returns a new equivalent pickle string after eliminating unused ``PUT``
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opcodes. The optimized pickle is shorter, takes less transmission time,
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requires less storage space, and unpickles more efficiently.
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.. versionadded:: 2.6
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@ -578,8 +578,8 @@ and comparisons.
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:class:`Rational` numbers derive from :class:`Real`, have
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:attr:`numerator` and :attr:`denominator` properties, and can be
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converted to floats. Python 2.6 adds a simple rational-number class
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in the :mod:`rational` module.
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converted to floats. Python 2.6 adds a simple rational-number class,
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:class:`Fraction`, in the :mod:`fractions` module.
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:class:`Integral` numbers derive from :class:`Rational`, and
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can be shifted left and right with ``<<`` and ``>>``,
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@ -598,29 +598,29 @@ one, :func:`trunc`, that's been backported to Python 2.6.
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The Rational Module
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The Fraction Module
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--------------------------------------------------
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To fill out the hierarchy of numeric types, a rational-number class
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has been added as the :mod:`rational` module. Rational numbers are
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has been added as the :mod:`fractions` module. Rational numbers are
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represented as a fraction; rational numbers can exactly represent
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numbers such as two-thirds that floating-point numbers can only
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approximate.
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The :class:`Rational` constructor takes two :class:`Integral` values
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The :class:`Fraction` constructor takes two :class:`Integral` values
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that will be the numerator and denominator of the resulting fraction. ::
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>>> from rational import Rational
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>>> a = Rational(2, 3)
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>>> b = Rational(2, 5)
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>>> from fractions import Fraction
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>>> a = Fraction(2, 3)
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>>> b = Fraction(2, 5)
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>>> float(a), float(b)
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(0.66666666666666663, 0.40000000000000002)
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>>> a+b
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rational.Rational(16,15)
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Fraction(16, 15)
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>>> a/b
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rational.Rational(5,3)
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Fraction(5, 3)
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The :mod:`rational` module is based upon an implementation by Sjoerd
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The :mod:`fractions` module is based upon an implementation by Sjoerd
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Mullender that was in Python's :file:`Demo/classes/` directory for a
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long time. This implementation was significantly updated by Jeffrey
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Yaskin.
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@ -802,7 +802,7 @@ class Decimal(_numbers.Real, _numbers.Inexact):
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# != comparisons involving a NaN always return True
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# <, >, <= and >= comparisons involving a (quiet or signaling)
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# NaN signal InvalidOperation, and return False if the
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# InvalidOperation is trapped.
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# InvalidOperation is not trapped.
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#
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# This behavior is designed to conform as closely as possible to
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# that specified by IEEE 754.
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@ -1,16 +1,15 @@
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# Originally contributed by Sjoerd Mullender.
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# Significantly modified by Jeffrey Yasskin <jyasskin at gmail.com>.
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"""Rational, infinite-precision, real numbers."""
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"""Fraction, infinite-precision, real numbers."""
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import math
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import numbers
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import operator
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import re
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__all__ = ["Rational"]
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__all__ = ["Fraction"]
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RationalAbc = numbers.Rational
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def gcd(a, b):
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@ -38,15 +37,15 @@ _RATIONAL_FORMAT = re.compile(r"""
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""", re.VERBOSE)
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class Rational(RationalAbc):
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class Fraction(numbers.Rational):
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"""This class implements rational numbers.
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Rational(8, 6) will produce a rational number equivalent to
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Fraction(8, 6) will produce a rational number equivalent to
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4/3. Both arguments must be Integral. The numerator defaults to 0
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and the denominator defaults to 1 so that Rational(3) == 3 and
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Rational() == 0.
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and the denominator defaults to 1 so that Fraction(3) == 3 and
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Fraction() == 0.
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Rationals can also be constructed from strings of the form
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Fraction can also be constructed from strings of the form
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'[-+]?[0-9]+((/|.)[0-9]+)?', optionally surrounded by spaces.
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"""
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@ -61,7 +60,7 @@ class Rational(RationalAbc):
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numerator/denominator pair.
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|
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"""
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self = super(Rational, cls).__new__(cls)
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self = super(Fraction, cls).__new__(cls)
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if denominator == 1:
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if isinstance(numerator, str):
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|
@ -69,7 +68,7 @@ class Rational(RationalAbc):
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input = numerator
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m = _RATIONAL_FORMAT.match(input)
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if m is None:
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raise ValueError('Invalid literal for Rational: ' + input)
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raise ValueError('Invalid literal for Fraction: ' + input)
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numerator = m.group('num')
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decimal = m.group('decimal')
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if decimal:
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|
@ -86,7 +85,7 @@ class Rational(RationalAbc):
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numerator = -numerator
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|
||||
elif (not isinstance(numerator, numbers.Integral) and
|
||||
isinstance(numerator, RationalAbc)):
|
||||
isinstance(numerator, numbers.Rational)):
|
||||
# Handle copies from other rationals.
|
||||
other_rational = numerator
|
||||
numerator = other_rational.numerator
|
||||
|
@ -94,11 +93,11 @@ class Rational(RationalAbc):
|
|||
|
||||
if (not isinstance(numerator, numbers.Integral) or
|
||||
not isinstance(denominator, numbers.Integral)):
|
||||
raise TypeError("Rational(%(numerator)s, %(denominator)s):"
|
||||
raise TypeError("Fraction(%(numerator)s, %(denominator)s):"
|
||||
" Both arguments must be integral." % locals())
|
||||
|
||||
if denominator == 0:
|
||||
raise ZeroDivisionError('Rational(%s, 0)' % numerator)
|
||||
raise ZeroDivisionError('Fraction(%s, 0)' % numerator)
|
||||
|
||||
g = gcd(numerator, denominator)
|
||||
self._numerator = int(numerator // g)
|
||||
|
@ -109,7 +108,7 @@ class Rational(RationalAbc):
|
|||
def from_float(cls, f):
|
||||
"""Converts a finite float to a rational number, exactly.
|
||||
|
||||
Beware that Rational.from_float(0.3) != Rational(3, 10).
|
||||
Beware that Fraction.from_float(0.3) != Fraction(3, 10).
|
||||
|
||||
"""
|
||||
if not isinstance(f, float):
|
||||
|
@ -141,7 +140,7 @@ class Rational(RationalAbc):
|
|||
|
||||
@classmethod
|
||||
def from_continued_fraction(cls, seq):
|
||||
'Build a Rational from a continued fraction expessed as a sequence'
|
||||
'Build a Fraction from a continued fraction expessed as a sequence'
|
||||
n, d = 1, 0
|
||||
for e in reversed(seq):
|
||||
n, d = d, n
|
||||
|
@ -168,7 +167,7 @@ class Rational(RationalAbc):
|
|||
if self.denominator <= max_denominator:
|
||||
return self
|
||||
cf = self.as_continued_fraction()
|
||||
result = Rational(0)
|
||||
result = Fraction(0)
|
||||
for i in range(1, len(cf)):
|
||||
new = self.from_continued_fraction(cf[:i])
|
||||
if new.denominator > max_denominator:
|
||||
|
@ -186,7 +185,7 @@ class Rational(RationalAbc):
|
|||
|
||||
def __repr__(self):
|
||||
"""repr(self)"""
|
||||
return ('Rational(%r,%r)' % (self.numerator, self.denominator))
|
||||
return ('Fraction(%r,%r)' % (self.numerator, self.denominator))
|
||||
|
||||
def __str__(self):
|
||||
"""str(self)"""
|
||||
|
@ -206,13 +205,13 @@ class Rational(RationalAbc):
|
|||
that mixed-mode operations either call an implementation whose
|
||||
author knew about the types of both arguments, or convert both
|
||||
to the nearest built in type and do the operation there. In
|
||||
Rational, that means that we define __add__ and __radd__ as:
|
||||
Fraction, that means that we define __add__ and __radd__ as:
|
||||
|
||||
def __add__(self, other):
|
||||
# Both types have numerators/denominator attributes,
|
||||
# so do the operation directly
|
||||
if isinstance(other, (int, Rational)):
|
||||
return Rational(self.numerator * other.denominator +
|
||||
if isinstance(other, (int, Fraction)):
|
||||
return Fraction(self.numerator * other.denominator +
|
||||
other.numerator * self.denominator,
|
||||
self.denominator * other.denominator)
|
||||
# float and complex don't have those operations, but we
|
||||
|
@ -227,8 +226,8 @@ class Rational(RationalAbc):
|
|||
def __radd__(self, other):
|
||||
# radd handles more types than add because there's
|
||||
# nothing left to fall back to.
|
||||
if isinstance(other, RationalAbc):
|
||||
return Rational(self.numerator * other.denominator +
|
||||
if isinstance(other, numbers.Rational):
|
||||
return Fraction(self.numerator * other.denominator +
|
||||
other.numerator * self.denominator,
|
||||
self.denominator * other.denominator)
|
||||
elif isinstance(other, Real):
|
||||
|
@ -239,32 +238,32 @@ class Rational(RationalAbc):
|
|||
|
||||
|
||||
There are 5 different cases for a mixed-type addition on
|
||||
Rational. I'll refer to all of the above code that doesn't
|
||||
refer to Rational, float, or complex as "boilerplate". 'r'
|
||||
will be an instance of Rational, which is a subtype of
|
||||
RationalAbc (r : Rational <: RationalAbc), and b : B <:
|
||||
Fraction. I'll refer to all of the above code that doesn't
|
||||
refer to Fraction, float, or complex as "boilerplate". 'r'
|
||||
will be an instance of Fraction, which is a subtype of
|
||||
Rational (r : Fraction <: Rational), and b : B <:
|
||||
Complex. The first three involve 'r + b':
|
||||
|
||||
1. If B <: Rational, int, float, or complex, we handle
|
||||
1. If B <: Fraction, int, float, or complex, we handle
|
||||
that specially, and all is well.
|
||||
2. If Rational falls back to the boilerplate code, and it
|
||||
2. If Fraction falls back to the boilerplate code, and it
|
||||
were to return a value from __add__, we'd miss the
|
||||
possibility that B defines a more intelligent __radd__,
|
||||
so the boilerplate should return NotImplemented from
|
||||
__add__. In particular, we don't handle RationalAbc
|
||||
__add__. In particular, we don't handle Rational
|
||||
here, even though we could get an exact answer, in case
|
||||
the other type wants to do something special.
|
||||
3. If B <: Rational, Python tries B.__radd__ before
|
||||
Rational.__add__. This is ok, because it was
|
||||
implemented with knowledge of Rational, so it can
|
||||
3. If B <: Fraction, Python tries B.__radd__ before
|
||||
Fraction.__add__. This is ok, because it was
|
||||
implemented with knowledge of Fraction, so it can
|
||||
handle those instances before delegating to Real or
|
||||
Complex.
|
||||
|
||||
The next two situations describe 'b + r'. We assume that b
|
||||
didn't know about Rational in its implementation, and that it
|
||||
didn't know about Fraction in its implementation, and that it
|
||||
uses similar boilerplate code:
|
||||
|
||||
4. If B <: RationalAbc, then __radd_ converts both to the
|
||||
4. If B <: Rational, then __radd_ converts both to the
|
||||
builtin rational type (hey look, that's us) and
|
||||
proceeds.
|
||||
5. Otherwise, __radd__ tries to find the nearest common
|
||||
|
@ -276,7 +275,7 @@ class Rational(RationalAbc):
|
|||
|
||||
"""
|
||||
def forward(a, b):
|
||||
if isinstance(b, (int, Rational)):
|
||||
if isinstance(b, (int, Fraction)):
|
||||
return monomorphic_operator(a, b)
|
||||
elif isinstance(b, float):
|
||||
return fallback_operator(float(a), b)
|
||||
|
@ -288,7 +287,7 @@ class Rational(RationalAbc):
|
|||
forward.__doc__ = monomorphic_operator.__doc__
|
||||
|
||||
def reverse(b, a):
|
||||
if isinstance(a, RationalAbc):
|
||||
if isinstance(a, numbers.Rational):
|
||||
# Includes ints.
|
||||
return monomorphic_operator(a, b)
|
||||
elif isinstance(a, numbers.Real):
|
||||
|
@ -304,7 +303,7 @@ class Rational(RationalAbc):
|
|||
|
||||
def _add(a, b):
|
||||
"""a + b"""
|
||||
return Rational(a.numerator * b.denominator +
|
||||
return Fraction(a.numerator * b.denominator +
|
||||
b.numerator * a.denominator,
|
||||
a.denominator * b.denominator)
|
||||
|
||||
|
@ -312,7 +311,7 @@ class Rational(RationalAbc):
|
|||
|
||||
def _sub(a, b):
|
||||
"""a - b"""
|
||||
return Rational(a.numerator * b.denominator -
|
||||
return Fraction(a.numerator * b.denominator -
|
||||
b.numerator * a.denominator,
|
||||
a.denominator * b.denominator)
|
||||
|
||||
|
@ -320,13 +319,13 @@ class Rational(RationalAbc):
|
|||
|
||||
def _mul(a, b):
|
||||
"""a * b"""
|
||||
return Rational(a.numerator * b.numerator, a.denominator * b.denominator)
|
||||
return Fraction(a.numerator * b.numerator, a.denominator * b.denominator)
|
||||
|
||||
__mul__, __rmul__ = _operator_fallbacks(_mul, operator.mul)
|
||||
|
||||
def _div(a, b):
|
||||
"""a / b"""
|
||||
return Rational(a.numerator * b.denominator,
|
||||
return Fraction(a.numerator * b.denominator,
|
||||
a.denominator * b.numerator)
|
||||
|
||||
__truediv__, __rtruediv__ = _operator_fallbacks(_div, operator.truediv)
|
||||
|
@ -357,14 +356,14 @@ class Rational(RationalAbc):
|
|||
result will be rational.
|
||||
|
||||
"""
|
||||
if isinstance(b, RationalAbc):
|
||||
if isinstance(b, numbers.Rational):
|
||||
if b.denominator == 1:
|
||||
power = b.numerator
|
||||
if power >= 0:
|
||||
return Rational(a.numerator ** power,
|
||||
return Fraction(a.numerator ** power,
|
||||
a.denominator ** power)
|
||||
else:
|
||||
return Rational(a.denominator ** -power,
|
||||
return Fraction(a.denominator ** -power,
|
||||
a.numerator ** -power)
|
||||
else:
|
||||
# A fractional power will generally produce an
|
||||
|
@ -379,8 +378,8 @@ class Rational(RationalAbc):
|
|||
# If a is an int, keep it that way if possible.
|
||||
return a ** b.numerator
|
||||
|
||||
if isinstance(a, RationalAbc):
|
||||
return Rational(a.numerator, a.denominator) ** b
|
||||
if isinstance(a, numbers.Rational):
|
||||
return Fraction(a.numerator, a.denominator) ** b
|
||||
|
||||
if b.denominator == 1:
|
||||
return a ** b.numerator
|
||||
|
@ -388,16 +387,16 @@ class Rational(RationalAbc):
|
|||
return a ** float(b)
|
||||
|
||||
def __pos__(a):
|
||||
"""+a: Coerces a subclass instance to Rational"""
|
||||
return Rational(a.numerator, a.denominator)
|
||||
"""+a: Coerces a subclass instance to Fraction"""
|
||||
return Fraction(a.numerator, a.denominator)
|
||||
|
||||
def __neg__(a):
|
||||
"""-a"""
|
||||
return Rational(-a.numerator, a.denominator)
|
||||
return Fraction(-a.numerator, a.denominator)
|
||||
|
||||
def __abs__(a):
|
||||
"""abs(a)"""
|
||||
return Rational(abs(a.numerator), a.denominator)
|
||||
return Fraction(abs(a.numerator), a.denominator)
|
||||
|
||||
def __trunc__(a):
|
||||
"""trunc(a)"""
|
||||
|
@ -433,12 +432,12 @@ class Rational(RationalAbc):
|
|||
return floor + 1
|
||||
shift = 10**abs(ndigits)
|
||||
# See _operator_fallbacks.forward to check that the results of
|
||||
# these operations will always be Rational and therefore have
|
||||
# these operations will always be Fraction and therefore have
|
||||
# round().
|
||||
if ndigits > 0:
|
||||
return Rational(round(self * shift), shift)
|
||||
return Fraction(round(self * shift), shift)
|
||||
else:
|
||||
return Rational(round(self / shift) * shift)
|
||||
return Fraction(round(self / shift) * shift)
|
||||
|
||||
def __hash__(self):
|
||||
"""hash(self)
|
||||
|
@ -461,7 +460,7 @@ class Rational(RationalAbc):
|
|||
|
||||
def __eq__(a, b):
|
||||
"""a == b"""
|
||||
if isinstance(b, RationalAbc):
|
||||
if isinstance(b, numbers.Rational):
|
||||
return (a.numerator == b.numerator and
|
||||
a.denominator == b.denominator)
|
||||
if isinstance(b, numbers.Complex) and b.imag == 0:
|
||||
|
@ -488,7 +487,7 @@ class Rational(RationalAbc):
|
|||
if isinstance(b, float):
|
||||
b = a.from_float(b)
|
||||
try:
|
||||
# XXX: If b <: Real but not <: RationalAbc, this is likely
|
||||
# XXX: If b <: Real but not <: Rational, this is likely
|
||||
# to fall back to a float. If the actual values differ by
|
||||
# less than MIN_FLOAT, this could falsely call them equal,
|
||||
# which would make <= inconsistent with ==. Better ways of
|
||||
|
@ -496,7 +495,7 @@ class Rational(RationalAbc):
|
|||
diff = a - b
|
||||
except TypeError:
|
||||
return NotImplemented
|
||||
if isinstance(diff, RationalAbc):
|
||||
if isinstance(diff, numbers.Rational):
|
||||
return op(diff.numerator, 0)
|
||||
return op(diff, 0)
|
||||
|
||||
|
@ -526,11 +525,11 @@ class Rational(RationalAbc):
|
|||
return (self.__class__, (str(self),))
|
||||
|
||||
def __copy__(self):
|
||||
if type(self) == Rational:
|
||||
if type(self) == Fraction:
|
||||
return self # I'm immutable; therefore I am my own clone
|
||||
return self.__class__(self.numerator, self.denominator)
|
||||
|
||||
def __deepcopy__(self, memo):
|
||||
if type(self) == Rational:
|
||||
if type(self) == Fraction:
|
||||
return self # My components are also immutable
|
||||
return self.__class__(self.numerator, self.denominator)
|
|
@ -14,9 +14,7 @@ import codecs
|
|||
import pickle
|
||||
import re
|
||||
|
||||
__all__ = ['dis',
|
||||
'genops',
|
||||
]
|
||||
__all__ = ['dis', 'genops', 'optimize']
|
||||
|
||||
bytes_types = pickle.bytes_types
|
||||
|
||||
|
@ -1835,6 +1833,33 @@ def genops(pickle):
|
|||
assert opcode.name == 'STOP'
|
||||
break
|
||||
|
||||
##############################################################################
|
||||
# A pickle optimizer.
|
||||
|
||||
def optimize(p):
|
||||
'Optimize a pickle string by removing unused PUT opcodes'
|
||||
gets = set() # set of args used by a GET opcode
|
||||
puts = [] # (arg, startpos, stoppos) for the PUT opcodes
|
||||
prevpos = None # set to pos if previous opcode was a PUT
|
||||
for opcode, arg, pos in genops(p):
|
||||
if prevpos is not None:
|
||||
puts.append((prevarg, prevpos, pos))
|
||||
prevpos = None
|
||||
if 'PUT' in opcode.name:
|
||||
prevarg, prevpos = arg, pos
|
||||
elif 'GET' in opcode.name:
|
||||
gets.add(arg)
|
||||
|
||||
# Copy the pickle string except for PUTS without a corresponding GET
|
||||
s = []
|
||||
i = 0
|
||||
for arg, start, stop in puts:
|
||||
j = stop if (arg in gets) else start
|
||||
s.append(p[i:j])
|
||||
i = stop
|
||||
s.append(p[i:])
|
||||
return ''.join(s)
|
||||
|
||||
##############################################################################
|
||||
# A symbolic pickle disassembler.
|
||||
|
||||
|
|
|
@ -5,7 +5,7 @@ from test.test_support import fcmp, TESTFN, unlink, run_unittest, \
|
|||
run_with_locale
|
||||
from operator import neg
|
||||
|
||||
import sys, warnings, random, collections, io, rational
|
||||
import sys, warnings, random, collections, io, rational, fractions
|
||||
warnings.filterwarnings("ignore", "hex../oct.. of negative int",
|
||||
FutureWarning, __name__)
|
||||
warnings.filterwarnings("ignore", "integer argument expected",
|
||||
|
@ -607,7 +607,7 @@ class BuiltinTest(unittest.TestCase):
|
|||
n, d = f.as_integer_ratio()
|
||||
self.assertEqual(float(n).__truediv__(d), f)
|
||||
|
||||
R = rational.Rational
|
||||
R = fractions.Fraction
|
||||
self.assertEqual(R(0, 1),
|
||||
R(*float(0.0).as_integer_ratio()))
|
||||
self.assertEqual(R(5, 2),
|
||||
|
|
|
@ -1,15 +1,15 @@
|
|||
"""Tests for Lib/rational.py."""
|
||||
"""Tests for Lib/fractions.py."""
|
||||
|
||||
from decimal import Decimal
|
||||
from test.test_support import run_unittest, verbose
|
||||
import math
|
||||
import operator
|
||||
import rational
|
||||
import fractions
|
||||
import unittest
|
||||
from copy import copy, deepcopy
|
||||
from pickle import dumps, loads
|
||||
R = rational.Rational
|
||||
gcd = rational.gcd
|
||||
R = fractions.Fraction
|
||||
gcd = fractions.gcd
|
||||
|
||||
|
||||
class GcdTest(unittest.TestCase):
|
||||
|
@ -31,7 +31,7 @@ def _components(r):
|
|||
return (r.numerator, r.denominator)
|
||||
|
||||
|
||||
class RationalTest(unittest.TestCase):
|
||||
class FractionTest(unittest.TestCase):
|
||||
|
||||
def assertTypedEquals(self, expected, actual):
|
||||
"""Asserts that both the types and values are the same."""
|
||||
|
@ -60,7 +60,7 @@ class RationalTest(unittest.TestCase):
|
|||
self.assertEquals((7, 15), _components(R(7, 15)))
|
||||
self.assertEquals((10**23, 1), _components(R(10**23)))
|
||||
|
||||
self.assertRaisesMessage(ZeroDivisionError, "Rational(12, 0)",
|
||||
self.assertRaisesMessage(ZeroDivisionError, "Fraction(12, 0)",
|
||||
R, 12, 0)
|
||||
self.assertRaises(TypeError, R, 1.5)
|
||||
self.assertRaises(TypeError, R, 1.5 + 3j)
|
||||
|
@ -81,41 +81,41 @@ class RationalTest(unittest.TestCase):
|
|||
self.assertEquals((3, 5), _components(R(" .6 ")))
|
||||
|
||||
self.assertRaisesMessage(
|
||||
ZeroDivisionError, "Rational(3, 0)",
|
||||
ZeroDivisionError, "Fraction(3, 0)",
|
||||
R, "3/0")
|
||||
self.assertRaisesMessage(
|
||||
ValueError, "Invalid literal for Rational: 3/",
|
||||
ValueError, "Invalid literal for Fraction: 3/",
|
||||
R, "3/")
|
||||
self.assertRaisesMessage(
|
||||
ValueError, "Invalid literal for Rational: 3 /2",
|
||||
ValueError, "Invalid literal for Fraction: 3 /2",
|
||||
R, "3 /2")
|
||||
self.assertRaisesMessage(
|
||||
# Denominators don't need a sign.
|
||||
ValueError, "Invalid literal for Rational: 3/+2",
|
||||
ValueError, "Invalid literal for Fraction: 3/+2",
|
||||
R, "3/+2")
|
||||
self.assertRaisesMessage(
|
||||
# Imitate float's parsing.
|
||||
ValueError, "Invalid literal for Rational: + 3/2",
|
||||
ValueError, "Invalid literal for Fraction: + 3/2",
|
||||
R, "+ 3/2")
|
||||
self.assertRaisesMessage(
|
||||
# Avoid treating '.' as a regex special character.
|
||||
ValueError, "Invalid literal for Rational: 3a2",
|
||||
ValueError, "Invalid literal for Fraction: 3a2",
|
||||
R, "3a2")
|
||||
self.assertRaisesMessage(
|
||||
# Only parse ordinary decimals, not scientific form.
|
||||
ValueError, "Invalid literal for Rational: 3.2e4",
|
||||
ValueError, "Invalid literal for Fraction: 3.2e4",
|
||||
R, "3.2e4")
|
||||
self.assertRaisesMessage(
|
||||
# Don't accept combinations of decimals and rationals.
|
||||
ValueError, "Invalid literal for Rational: 3/7.2",
|
||||
ValueError, "Invalid literal for Fraction: 3/7.2",
|
||||
R, "3/7.2")
|
||||
self.assertRaisesMessage(
|
||||
# Don't accept combinations of decimals and rationals.
|
||||
ValueError, "Invalid literal for Rational: 3.2/7",
|
||||
ValueError, "Invalid literal for Fraction: 3.2/7",
|
||||
R, "3.2/7")
|
||||
self.assertRaisesMessage(
|
||||
# Allow 3. and .3, but not .
|
||||
ValueError, "Invalid literal for Rational: .",
|
||||
ValueError, "Invalid literal for Fraction: .",
|
||||
R, ".")
|
||||
|
||||
def testImmutable(self):
|
||||
|
@ -136,7 +136,7 @@ class RationalTest(unittest.TestCase):
|
|||
|
||||
def testFromFloat(self):
|
||||
self.assertRaisesMessage(
|
||||
TypeError, "Rational.from_float() only takes floats, not 3 (int)",
|
||||
TypeError, "Fraction.from_float() only takes floats, not 3 (int)",
|
||||
R.from_float, 3)
|
||||
|
||||
self.assertEquals((0, 1), _components(R.from_float(-0.0)))
|
||||
|
@ -152,19 +152,19 @@ class RationalTest(unittest.TestCase):
|
|||
inf = 1e1000
|
||||
nan = inf - inf
|
||||
self.assertRaisesMessage(
|
||||
TypeError, "Cannot convert inf to Rational.",
|
||||
TypeError, "Cannot convert inf to Fraction.",
|
||||
R.from_float, inf)
|
||||
self.assertRaisesMessage(
|
||||
TypeError, "Cannot convert -inf to Rational.",
|
||||
TypeError, "Cannot convert -inf to Fraction.",
|
||||
R.from_float, -inf)
|
||||
self.assertRaisesMessage(
|
||||
TypeError, "Cannot convert nan to Rational.",
|
||||
TypeError, "Cannot convert nan to Fraction.",
|
||||
R.from_float, nan)
|
||||
|
||||
def testFromDecimal(self):
|
||||
self.assertRaisesMessage(
|
||||
TypeError,
|
||||
"Rational.from_decimal() only takes Decimals, not 3 (int)",
|
||||
"Fraction.from_decimal() only takes Decimals, not 3 (int)",
|
||||
R.from_decimal, 3)
|
||||
self.assertEquals(R(0), R.from_decimal(Decimal("-0")))
|
||||
self.assertEquals(R(5, 10), R.from_decimal(Decimal("0.5")))
|
||||
|
@ -174,16 +174,16 @@ class RationalTest(unittest.TestCase):
|
|||
R.from_decimal(Decimal("0." + "9" * 30)))
|
||||
|
||||
self.assertRaisesMessage(
|
||||
TypeError, "Cannot convert Infinity to Rational.",
|
||||
TypeError, "Cannot convert Infinity to Fraction.",
|
||||
R.from_decimal, Decimal("inf"))
|
||||
self.assertRaisesMessage(
|
||||
TypeError, "Cannot convert -Infinity to Rational.",
|
||||
TypeError, "Cannot convert -Infinity to Fraction.",
|
||||
R.from_decimal, Decimal("-inf"))
|
||||
self.assertRaisesMessage(
|
||||
TypeError, "Cannot convert NaN to Rational.",
|
||||
TypeError, "Cannot convert NaN to Fraction.",
|
||||
R.from_decimal, Decimal("nan"))
|
||||
self.assertRaisesMessage(
|
||||
TypeError, "Cannot convert sNaN to Rational.",
|
||||
TypeError, "Cannot convert sNaN to Fraction.",
|
||||
R.from_decimal, Decimal("snan"))
|
||||
|
||||
def testFromContinuedFraction(self):
|
||||
|
@ -316,7 +316,7 @@ class RationalTest(unittest.TestCase):
|
|||
# Decimal refuses mixed comparisons.
|
||||
self.assertRaisesMessage(
|
||||
TypeError,
|
||||
"unsupported operand type(s) for +: 'Rational' and 'Decimal'",
|
||||
"unsupported operand type(s) for +: 'Fraction' and 'Decimal'",
|
||||
operator.add, R(3,11), Decimal('3.1415926'))
|
||||
self.assertNotEquals(R(5, 2), Decimal('2.5'))
|
||||
|
||||
|
@ -378,7 +378,7 @@ class RationalTest(unittest.TestCase):
|
|||
self.assertFalse(R(5, 2) == 2)
|
||||
|
||||
def testStringification(self):
|
||||
self.assertEquals("Rational(7,3)", repr(R(7, 3)))
|
||||
self.assertEquals("Fraction(7,3)", repr(R(7, 3)))
|
||||
self.assertEquals("7/3", str(R(7, 3)))
|
||||
self.assertEquals("7", str(R(7, 1)))
|
||||
|
||||
|
@ -421,7 +421,7 @@ class RationalTest(unittest.TestCase):
|
|||
self.assertEqual(id(r), id(deepcopy(r)))
|
||||
|
||||
def test_main():
|
||||
run_unittest(RationalTest, GcdTest)
|
||||
run_unittest(FractionTest, GcdTest)
|
||||
|
||||
if __name__ == '__main__':
|
||||
test_main()
|
|
@ -1182,6 +1182,8 @@ defdict_reduce(defdictobject *dd)
|
|||
static PyMethodDef defdict_methods[] = {
|
||||
{"__missing__", (PyCFunction)defdict_missing, METH_O,
|
||||
defdict_missing_doc},
|
||||
{"copy", (PyCFunction)defdict_copy, METH_NOARGS,
|
||||
defdict_copy_doc},
|
||||
{"__copy__", (PyCFunction)defdict_copy, METH_NOARGS,
|
||||
defdict_copy_doc},
|
||||
{"__reduce__", (PyCFunction)defdict_reduce, METH_NOARGS,
|
||||
|
|
Loading…
Reference in New Issue