Issue #28763: Use double hyphens (rendered as en-dashes) in numerical ranges
in the documentation.
This commit is contained in:
Serhiy Storchaka
commit
0264e46caa
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@ -31,7 +31,7 @@ least slightly uneasy when reading (or being required to write) another style.
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Many coding styles place begin/end brackets on a line by themselves. This makes
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programs considerably longer and wastes valuable screen space, making it harder
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to get a good overview of a program. Ideally, a function should fit on one
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screen (say, 20-30 lines). 20 lines of Python can do a lot more work than 20
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screen (say, 20--30 lines). 20 lines of Python can do a lot more work than 20
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lines of C. This is not solely due to the lack of begin/end brackets -- the
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lack of declarations and the high-level data types are also responsible -- but
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the indentation-based syntax certainly helps.
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@ -77,7 +77,7 @@ which is exactly::
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1.1999999999999999555910790149937383830547332763671875 (decimal)
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The typical precision of 53 bits provides Python floats with 15-16
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The typical precision of 53 bits provides Python floats with 15--16
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decimal digits of accuracy.
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For a fuller explanation, please see the :ref:`floating point arithmetic
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@ -252,7 +252,7 @@ outdated.
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Guido van Rossum and Jelke de Boer, "Interactively Testing Remote Servers
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Using the Python Programming Language", CWI Quarterly, Volume 4, Issue 4
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(December 1991), Amsterdam, pp 283-303.
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(December 1991), Amsterdam, pp 283--303.
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Are there any books on Python?
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@ -240,8 +240,8 @@ Error Codes
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~~~~~~~~~~~
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Because the default handlers handle redirects (codes in the 300 range), and
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codes in the 100-299 range indicate success, you will usually only see error
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codes in the 400-599 range.
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codes in the 100--299 range indicate success, you will usually only see error
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codes in the 400--599 range.
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:attr:`http.server.BaseHTTPRequestHandler.responses` is a useful dictionary of
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response codes in that shows all the response codes used by RFC 2616. The
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@ -47,7 +47,7 @@ it's the base calendar for all computations.
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.. method:: itermonthdates(year, month)
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Return an iterator for the month *month* (1-12) in the year *year*. This
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Return an iterator for the month *month* (1--12) in the year *year*. This
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iterator will return all days (as :class:`datetime.date` objects) for the
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month and all days before the start of the month or after the end of the
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month that are required to get a complete week.
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@ -309,4 +309,4 @@ cuts for numerical purposes, a good reference should be the following:
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Kahan, W: Branch cuts for complex elementary functions; or, Much ado about
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nothing's sign bit. In Iserles, A., and Powell, M. (eds.), The state of the art
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in numerical analysis. Clarendon Press (1987) pp165-211.
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in numerical analysis. Clarendon Press (1987) pp165--211.
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@ -858,7 +858,7 @@ Encodings and Unicode
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---------------------
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Strings are stored internally as sequences of code points in
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range ``0x0``-``0x10FFFF``. (See :pep:`393` for
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range ``0x0``--``0x10FFFF``. (See :pep:`393` for
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more details about the implementation.)
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Once a string object is used outside of CPU and memory, endianness
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and how these arrays are stored as bytes become an issue. As with other
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@ -868,7 +868,7 @@ There are a variety of different text serialisation codecs, which are
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collectivity referred to as :term:`text encodings <text encoding>`.
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The simplest text encoding (called ``'latin-1'`` or ``'iso-8859-1'``) maps
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the code points 0-255 to the bytes ``0x0``-``0xff``, which means that a string
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the code points 0--255 to the bytes ``0x0``--``0xff``, which means that a string
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object that contains code points above ``U+00FF`` can't be encoded with this
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codec. Doing so will raise a :exc:`UnicodeEncodeError` that looks
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like the following (although the details of the error message may differ):
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@ -877,7 +877,7 @@ position 3: ordinal not in range(256)``.
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There's another group of encodings (the so called charmap encodings) that choose
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a different subset of all Unicode code points and how these code points are
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mapped to the bytes ``0x0``-``0xff``. To see how this is done simply open
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mapped to the bytes ``0x0``--``0xff``. To see how this is done simply open
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e.g. :file:`encodings/cp1252.py` (which is an encoding that is used primarily on
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Windows). There's a string constant with 256 characters that shows you which
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character is mapped to which byte value.
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@ -213,7 +213,7 @@ it returns a string.
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Return a string representation of the ASCII character *c*. If *c* is printable,
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this string is the character itself. If the character is a control character
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(0x00-0x1f) the string consists of a caret (``'^'``) followed by the
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(0x00--0x1f) the string consists of a caret (``'^'``) followed by the
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corresponding uppercase letter. If the character is an ASCII delete (0x7f) the
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string is ``'^?'``. If the character has its meta bit (0x80) set, the meta bit
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is stripped, the preceding rules applied, and ``'!'`` prepended to the result.
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@ -316,7 +316,7 @@ The module :mod:`curses` defines the following functions:
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Return the name of the key numbered *k*. The name of a key generating printable
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ASCII character is the key's character. The name of a control-key combination
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is a two-character string consisting of a caret followed by the corresponding
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printable ASCII character. The name of an alt-key combination (128-255) is a
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printable ASCII character. The name of an alt-key combination (128--255) is a
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string consisting of the prefix 'M-' followed by the name of the corresponding
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ASCII character.
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@ -692,7 +692,7 @@ are always available. They are listed here in alphabetical order.
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preceded by ``+`` or ``-`` (with no space in between) and surrounded by
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whitespace. A base-n literal consists of the digits 0 to n-1, with ``a``
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to ``z`` (or ``A`` to ``Z``) having
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values 10 to 35. The default *base* is 10. The allowed values are 0 and 2-36.
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values 10 to 35. The default *base* is 10. The allowed values are 0 and 2--36.
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Base-2, -8, and -16 literals can be optionally prefixed with ``0b``/``0B``,
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``0o``/``0O``, or ``0x``/``0X``, as with integer literals in code. Base 0
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means to interpret exactly as a code literal, so that the actual base is 2,
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@ -99,7 +99,7 @@ write code that handles both IP versions correctly.
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The following constitutes a valid IPv4 address:
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1. A string in decimal-dot notation, consisting of four decimal integers in
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the inclusive range 0-255, separated by dots (e.g. ``192.168.0.1``). Each
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the inclusive range 0--255, separated by dots (e.g. ``192.168.0.1``). Each
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integer represents an octet (byte) in the address. Leading zeroes are
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tolerated only for values less than 8 (as there is no ambiguity
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between the decimal and octal interpretations of such strings).
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@ -345,7 +345,7 @@ Encoders and Decoders
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If *strict* is false (``True`` is the default), then control characters
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will be allowed inside strings. Control characters in this context are
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those with character codes in the 0-31 range, including ``'\t'`` (tab),
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those with character codes in the 0--31 range, including ``'\t'`` (tab),
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``'\n'``, ``'\r'`` and ``'\0'``.
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If the data being deserialized is not a valid JSON document, a
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@ -53,7 +53,7 @@ from sources provided by the operating system.
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M. Matsumoto and T. Nishimura, "Mersenne Twister: A 623-dimensionally
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equidistributed uniform pseudorandom number generator", ACM Transactions on
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Modeling and Computer Simulation Vol. 8, No. 1, January pp.3-30 1998.
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Modeling and Computer Simulation Vol. 8, No. 1, January pp.3--30 1998.
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`Complementary-Multiply-with-Carry recipe
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@ -224,9 +224,9 @@ However, for reading convenience, most of the examples show sorted sequences.
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52.5
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In the following example, the data are rounded, so that each value represents
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the midpoint of data classes, e.g. 1 is the midpoint of the class 0.5-1.5, 2
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is the midpoint of 1.5-2.5, 3 is the midpoint of 2.5-3.5, etc. With the data
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given, the middle value falls somewhere in the class 3.5-4.5, and
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the midpoint of data classes, e.g. 1 is the midpoint of the class 0.5--1.5, 2
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is the midpoint of 1.5--2.5, 3 is the midpoint of 2.5--3.5, etc. With the data
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given, the middle value falls somewhere in the class 3.5--4.5, and
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interpolation is used to estimate it:
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.. doctest::
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@ -731,7 +731,7 @@ of the more notable changes are:
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...
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For a fuller discussion of the line I/O changes, see the python-dev summary for
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January 1-15, 2001 at https://mail.python.org/pipermail/python-dev/2001-January/.
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January 1--15, 2001 at https://mail.python.org/pipermail/python-dev/2001-January/.
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* A new method, :meth:`popitem`, was added to dictionaries to enable
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destructively iterating through the contents of a dictionary; this can be faster
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@ -104,7 +104,7 @@ Some key consequences of the long-term significance of 2.7 are:
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when compared to earlier 2.x versions. Python 2.7 is currently expected to
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remain supported by the core development team (receiving security updates
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and other bug fixes) until at least 2020 (10 years after its initial
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release, compared to the more typical support period of 18-24 months).
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release, compared to the more typical support period of 18--24 months).
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* As the Python 2.7 standard library ages, making effective use of the
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Python Package Index (either directly or via a redistributor) becomes
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@ -989,7 +989,7 @@ Several performance enhancements have been added:
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Gregory Smith; :issue:`1087418`).
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* The implementation of ``%`` checks for the left-side operand being
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a Python string and special-cases it; this results in a 1-3%
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a Python string and special-cases it; this results in a 1--3%
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performance increase for applications that frequently use ``%``
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with strings, such as templating libraries.
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(Implemented by Collin Winter; :issue:`5176`.)
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@ -2130,8 +2130,8 @@ Many operations on :class:`io.BytesIO` are now 50% to 100% faster.
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(Contributed by Serhiy Storchaka in :issue:`15381` and David Wilson in
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:issue:`22003`.)
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The :func:`marshal.dumps` function is now faster: 65-85% with versions 3
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and 4, 20-25% with versions 0 to 2 on typical data, and up to 5 times in
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The :func:`marshal.dumps` function is now faster: 65--85% with versions 3
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and 4, 20--25% with versions 0 to 2 on typical data, and up to 5 times in
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best cases.
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(Contributed by Serhiy Storchaka in :issue:`20416` and :issue:`23344`.)
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