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django/docs/ref/contrib/gis/measure.txt
Tobias Kunze 4a954cfd11 Fixed #30573 -- Rephrased documentation to avoid words that minimise the involved difficulty. 
This patch does not remove all occurrences of the words in question.
Rather, I went through all of the occurrences of the words listed
below, and judged if they a) suggested the reader had some kind of
knowledge/experience, and b) if they added anything of value (including
tone of voice, etc). I left most of the words alone. I looked at the
following words:

- simply/simple
- easy/easier/easiest
- obvious
- just
- merely
- straightforward
- ridiculous

Thanks to Carlton Gibson for guidance on how to approach this issue, and
to Tim Bell for providing the idea. But the enormous lion's share of
thanks go to Adam Johnson for his patient and helpful review.
2019-09-06 13:27:46 +02:00

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===================
Measurement Objects
===================
.. module:: django.contrib.gis.measure
:synopsis: GeoDjango's distance and area measurement objects.
The :mod:`django.contrib.gis.measure` module contains objects that allow
for convenient representation of distance and area units of measure. [#]_
Specifically, it implements two objects, :class:`Distance` and
:class:`Area` -- both of which may be accessed via the
:class:`D` and :class:`A` convenience aliases, respectively.
Example
=======
:class:`Distance` objects may be instantiated using a keyword argument indicating the
context of the units. In the example below, two different distance objects are
instantiated in units of kilometers (``km``) and miles (``mi``)::
>>> from django.contrib.gis.measure import D, Distance
>>> d1 = Distance(km=5)
>>> print(d1)
5.0 km
>>> d2 = D(mi=5) # `D` is an alias for `Distance`
>>> print(d2)
5.0 mi
For conversions, access the preferred unit attribute to get a converted
distance quantity::
>>> print(d1.mi) # Converting 5 kilometers to miles
3.10685596119
>>> print(d2.km) # Converting 5 miles to kilometers
8.04672
Moreover, arithmetic operations may be performed between the distance
objects::
>>> print(d1 + d2) # Adding 5 miles to 5 kilometers
13.04672 km
>>> print(d2 - d1) # Subtracting 5 kilometers from 5 miles
1.89314403881 mi
Two :class:`Distance` objects multiplied together will yield an :class:`Area`
object, which uses squared units of measure::
>>> a = d1 * d2 # Returns an Area object.
>>> print(a)
40.2336 sq_km
To determine what the attribute abbreviation of a unit is, the ``unit_attname``
class method may be used::
>>> print(Distance.unit_attname('US Survey Foot'))
survey_ft
>>> print(Distance.unit_attname('centimeter'))
cm
.. _supported_units:
Supported units
===============
================================= ========================================
Unit Attribute Full name or alias(es)
================================= ========================================
``km`` Kilometre, Kilometer
``mi`` Mile
``m`` Meter, Metre
``yd`` Yard
``ft`` Foot, Foot (International)
``survey_ft`` U.S. Foot, US survey foot
``inch`` Inches
``cm`` Centimeter
``mm`` Millimetre, Millimeter
``um`` Micrometer, Micrometre
``british_ft`` British foot (Sears 1922)
``british_yd`` British yard (Sears 1922)
``british_chain_sears`` British chain (Sears 1922)
``indian_yd`` Indian yard, Yard (Indian)
``sears_yd`` Yard (Sears)
``clarke_ft`` Clarke's Foot
``chain`` Chain
``chain_benoit`` Chain (Benoit)
``chain_sears`` Chain (Sears)
``british_chain_benoit`` British chain (Benoit 1895 B)
``british_chain_sears_truncated`` British chain (Sears 1922 truncated)
``gold_coast_ft`` Gold Coast foot
``link`` Link
``link_benoit`` Link (Benoit)
``link_sears`` Link (Sears)
``clarke_link`` Clarke's link
``fathom`` Fathom
``rod`` Rod
``furlong`` Furlong, Furrow Long
``nm`` Nautical Mile
``nm_uk`` Nautical Mile (UK)
``german_m`` German legal metre
================================= ========================================
.. note::
:class:`Area` attributes are the same as :class:`Distance` attributes,
except they are prefixed with ``sq_`` (area units are square in nature).
For example, ``Area(sq_m=2)`` creates an :class:`Area` object
representing two square meters.
Measurement API
===============
``Distance``
------------
.. class:: Distance(**kwargs)
To initialize a distance object, pass in a keyword corresponding to the
desired :ref:`unit attribute name <supported_units>` set with desired
value. For example, the following creates a distance object representing 5
miles::
>>> dist = Distance(mi=5)
.. method:: __getattr__(unit_att)
Returns the distance value in units corresponding to the given unit
attribute. For example::
>>> print(dist.km)
8.04672
.. classmethod:: unit_attname(unit_name)
Returns the distance unit attribute name for the given full unit name. For
example::
>>> Distance.unit_attname('Mile')
'mi'
.. class:: D
Alias for :class:`Distance` class.
``Area``
--------
.. class:: Area(**kwargs)
To initialize an area object, pass in a keyword corresponding to the
desired :ref:`unit attribute name <supported_units>` set with desired
value. For example, the following creates an area object representing 5
square miles::
>>> a = Area(sq_mi=5)
.. method:: __getattr__(unit_att)
Returns the area value in units corresponding to the given unit attribute.
For example::
>>> print(a.sq_km)
12.949940551680001
.. classmethod:: unit_attname(unit_name)
Returns the area unit attribute name for the given full unit name. For
example::
>>> Area.unit_attname('Kilometer')
'sq_km'
.. class:: A
Alias for :class:`Area` class.
.. rubric:: Footnotes
.. [#] `Robert Coup <https://koordinates.com/>`_ is the initial author of the measure objects,
and was inspired by Brian Beck's work in `geopy <https://github.com/geopy/geopy/>`_
and Geoff Biggs' PhD work on dimensioned units for robotics.
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