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Python extension wrapping the ICU C++ API

Project description

# README file for PyICU

## Welcome

Welcome to PyICU, a Python extension wrapping the ICU C++ libraries.

ICU stands for "International Components for Unicode".
These are the i18n libraries of the Unicode Consortium.
They implement much of the Unicode Standard,
many of its companion Unicode Technical Standards,
and much of Unicode CLDR.

The PyICU source code is hosted on GitHub at https://github.com/ovalhub/pyicu.

The ICU homepage is http://site.icu-project.org/

See also the CLDR homepage at http://cldr.unicode.org/

## Building PyICU

Before building PyICU the ICU libraries must be built and installed. Refer
to each system's instructions for more information.

PyICU is built with distutils or setuptools:

- verify that the ``INCLUDES``, ``LFLAGS``, ``CFLAGS`` and ``LIBRARIES``
dictionaries in ``setup.py`` contain correct values for your platform
- ``python setup.py build``
- ``sudo python setup.py install``


## Running PyICU

- Mac OS X
Make sure that ``DYLD_LIBRARY_PATH`` contains paths to the directory(ies)
containing the ICU libs.

- Linux & Solaris
Make sure that ``LD_LIBRARY_PATH`` contains paths to the directory(ies)
containing the ICU libs or that you added the corresponding ``-rpath``
argument to ``LFLAGS``.

- Windows
Make sure that ``PATH`` contains paths to the directory(ies)
containing the ICU DLLs.


## What's available

See the ``CHANGES`` file for an up to date log of changes and additions.


## API Documentation

There is no API documentation for PyICU. The API for ICU is documented at
http://icu-project.org/apiref/icu4c/ and the following patterns can be
used to translate from the C++ APIs to the corresponding Python APIs.

### strings

The ICU string type, ``UnicodeString``, is a type pointing at a mutable
array of ``UChar`` Unicode 16-bit wide characters. The Python unicode type
is an immutable string of 16-bit or 32-bit wide Unicode characters.

Because of these differences, ``UnicodeString`` and Python's ``unicode``
type are not merged into the same type when crossing the C++ boundary.
ICU APIs taking ``UnicodeString`` arguments have been overloaded to also
accept Python str or unicode type arguments. In the case of ``str``
objects, the ``utf-8`` encoding is assumed when converting them to
``UnicodeString`` objects.

To convert a Python ``str`` encoded in a encoding other than ``utf-8`` to
an ICU ``UnicodeString`` use the ``UnicodeString(str, encodingName)``
constructor.

ICU's C++ APIs accept and return ``UnicodeString`` arguments in several
ways: by value, by pointer or by reference.
When an ICU C++ API is documented to accept a ``UnicodeString`` reference
parameter, it is safe to assume that there are several corresponding
PyICU python APIs making it accessible in simpler ways:

For example, the
``'UnicodeString &Locale::getDisplayName(UnicodeString &)'`` API,
documented at
http://icu-project.org/apiref/icu4c/classLocale.html
can be invoked from Python in several ways:

1. The ICU way

>>> from icu import UnicodeString, Locale
>>> locale = Locale('pt_BR')
>>> string = UnicodeString()
>>> name = locale.getDisplayName(string)
>>> name
<UnicodeString: Portuguese (Brazil)>
>>> name is string
True <-- string arg was returned, modified in place

2. The Python way

>>> from icu import Locale
>>> locale = Locale('pt_BR')
>>> name = locale.getDisplayName()
>>> name
u'Portuguese (Brazil)'

A ``UnicodeString`` object was allocated and converted to a Python
``unicode`` object.

A UnicodeString can be coerced to a Python unicode string with Python's
``unicode()`` constructor. The usual ``len()``, ``str()``, comparison,
``[]`` and ``[:]`` operators are all available, with the additional
twists that slicing is not read-only and that ``+=`` is also available
since a UnicodeString is mutable. For example:

>>> name = locale.getDisplayName()
u'Portuguese (Brazil)'
>>> name = UnicodeString(name)
>>> name
<UnicodeString: Portuguese (Brazil)>
>>> unicode(name)
u'Portuguese (Brazil)'
>>> len(name)
19
>>> str(name) <-- works when chars fit with default encoding
'Portuguese (Brazil)'
>>> name[3]
u't'
>>> name[12:18]
<UnicodeString: Brazil>
>>> name[12:18] = 'the country of Brasil'
>>> name
<UnicodeString: Portuguese (the country of Brasil)>
>>> name += ' oh joy'
>>> name
<UnicodeString: Portuguese (the country of Brasil) oh joy>

### error reporting

The C++ ICU library does not use C++ exceptions to report errors. ICU
C++ APIs return errors via a ``UErrorCode`` reference argument. All such
APIs are wrapped by Python APIs that omit this argument and throw an
``ICUError`` Python exception instead. The same is true for ICU APIs
taking both a ``ParseError`` and a ``UErrorCode``, they are both to be
omitted.

For example, the ``'UnicodeString &DateFormat::format(const Formattable &,
UnicodeString &, UErrorCode &)'`` API, documented at
http://icu-project.org/apiref/icu4c/classDateFormat.html
is invoked from Python with:

>>> from icu import DateFormat, Formattable
>>> df = DateFormat.createInstance()
>>> df
<SimpleDateFormat: M/d/yy h:mm a>
>>> f = Formattable(940284258.0, Formattable.kIsDate)
>>> df.format(f)
u'10/18/99 3:04 PM'

Of course, the simpler ``'UnicodeString &DateFormat::format(UDate,
UnicodeString &)'`` documented here:
http://icu-project.org/apiref/icu4c/classDateFormat.html
can be used too:

>>> from icu import DateFormat
>>> df = DateFormat.createInstance()
>>> df
<SimpleDateFormat: M/d/yy h:mm a>
>>> df.format(940284258.0)
u'10/18/99 3:04 PM'

### dates

ICU uses a double floating point type called ``UDate`` that represents the
number of milliseconds elapsed since 1970-jan-01 UTC for dates.

In Python, the value returned by the ``time`` module's ``time()``
function is the number of seconds since 1970-jan-01 UTC. Because of this
difference, floating point values are multiplied by 1000 when passed to
APIs taking ``UDate`` and divided by 1000 when returned as ``UDate``.

Python's ``datetime`` objects, with or without timezone information, can
also be used with APIs taking ``UDate`` arguments. The ``datetime``
objects get converted to ``UDate`` when crossing into the C++ layer.

### arrays

Many ICU API take array arguments. A list of elements of the array
element types is to be passed from Python.

### StringEnumeration

An ICU ``StringEnumeration`` has three ``next`` methods: ``next()`` which
returns a ``str`` objects, ``unext()`` which returns ``unicode`` objects
and ``snext()`` which returns ``UnicodeString`` objects.
Any of these methods can be used as an iterator, using the Python
built-in ``iter`` function.

For example, let ``e`` be a ``StringEnumeration`` instance::

```python
[s for s in e] is a list of 'str' objects
[s for s in iter(e.unext, None)] is a list of 'unicode' objects
[s for s in iter(e.snext, None)] is a list of 'UnicodeString' objects
```

### timezones

The ICU ``TimeZone`` type may be wrapped with an ``ICUtzinfo`` type for
usage with Python's ``datetime`` type. For example::

```python
tz = ICUtzinfo(TimeZone.createTimeZone('US/Mountain'))
datetime.now(tz)
```

or, even simpler::

```python
tz = ICUtzinfo.getInstance('Pacific/Fiji')
datetime.now(tz)
```

To get the default time zone use::

```python
defaultTZ = ICUtzinfo.getDefault()
```

To get the time zone's id, use the ``tzid`` attribute or coerce the time
zone to a string::

```python
ICUtzinfo.getInstance('Pacific/Fiji').tzid -> 'Pacific/Fiji'
str(ICUtzinfo.getInstance('Pacific/Fiji')) -> 'Pacific/Fiji'
```

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