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nexedi
cython
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57f69093
Commit
57f69093
authored
Nov 02, 2010
by
Stefan Behnel
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section on surrogate pairs and narrow CPython builds, some fixes based on type inference
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src/tutorial/strings.rst
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57f69093
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@@ -16,12 +16,15 @@ convert it into a Python byte string by simply assigning it to a
Python variable::
cdef char* c_string = c_call_returning_a_c_string()
py_string = c_string
cdef bytes
py_string = c_string
This creates a Python byte string object that holds a copy of the
original C string. It can be safely passed around in Python code, and
will be garbage collected when the last reference to it goes out of
scope.
scope. It is important to remember that null bytes in the string act
as terminator character, as generally known from C. The above will
therefore only work correctly for C strings that do not contain null
bytes.
Note that the creation of the Python bytes string can fail with an
exception, e.g. due to insufficient memory. If you need to ``free()``
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@@ -29,6 +32,7 @@ the string after the conversion, you should wrap the assignment in a
try-finally construct::
cimport stdlib
cdef bytes py_string
cdef char* c_string = c_call_returning_a_c_string()
try:
py_string = c_string
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@@ -249,8 +253,51 @@ The following will print 65::
Note that casting to a C ``int`` (or ``unsigned int``) will do just
fine on a platform with 32bit or more, as the maximum code point value
that a Unicode character can have is 1114111 on a 4-byte unicode
CPython platform ("wide unicode") and 65535 on a 2-byte unicode
platform.
CPython platform ("wide unicode") and 65535 on a narrow (2-byte)
unicode platform.
Narrow Unicode builds
----------------------
In narrow Unicode builds of CPython, i.e. builds where
``sys.maxunicode`` is 65535 (such as all Windows builds, as opposed to
1114111 in wide builds), it is still possible to use Unicode character
code points that do not fit into the two bytes wide ``Py_UNICODE``
type. For example, such a CPython build will accept the unicode
literal ``u'\U00012345'``. However, the underlying system level
encoding leaks into Python space in this case, so that the length of
this literal becomes 2 instead of 1. This also shows when iterating
over it or when indexing into it. The visible substrings are
``u'\uD808'`` and ``u'\uDF45'`` in this example. They form a
so-called surrogate pair that represents the above character.
For more information on this topic, it is worth reading the `Wikipedia
article about the UTF-16 encoding`_.
.. _`Wikipedia article on the UTF-16 encoding`: http://en.wikipedia.org/wiki/UTF-16/UCS-2
The same properties apply to Cython code that gets compiled for a
narrow CPython runtime environment. In most cases, e.g. when
searching for a substring, this difference can be ignored as both the
text and the substring will contain the surrogates. So most Unicode
processing code will work correctly also on narrow builds. Encoding,
decoding and printing will work as expected, so that the above literal
turns into exactly the same byte sequence on both narrow and wide
Unicode platforms.
However, programmers should be aware that a single ``Py_UNICODE``
value (or single 'character' unicode string in CPython) may not be
enough to represent a complete Unicode character on narrow platforms.
For example, if an independent search for ``u'\uD808'`` and
``u'\uDF45'`` in a unicode string succeeds, this does not necessarily
mean that the character ``u'\U00012345`` is part of that string. It
may well be that two different characters are in the string that just
happen to share a code unit with the surrogate pair of the character
in question. Looking for substrings works correctly because the two
code units in the surrogate pair use distinct value ranges, so the
pair is always identifiable in a sequence of code points.
Iteration
---------
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