Fuzzy attributes
================

.. module:: factory.fuzzy

.. note:: Now that FactoryBoy includes the :class:`factory.Faker` class, most of
          these built-in fuzzers are deprecated in favor of their
          `Faker <https://faker.readthedocs.io/>`_ equivalents. Further
          discussion here:
          `<https://github.com/FactoryBoy/factory_boy/issues/271/>`_

Some tests may be interested in testing with fuzzy, random values.

This is handled by the :mod:`factory.fuzzy` module, which provides a few
random declarations.

.. note:: Use ``import factory.fuzzy`` to load this module.


FuzzyAttribute
--------------


.. class:: FuzzyAttribute

    The :class:`FuzzyAttribute` uses an arbitrary callable as fuzzer.
    It is expected that successive calls of that function return various
    values.

    .. attribute:: fuzzer

        The callable that generates random values


FuzzyText
---------


.. class:: FuzzyText(length=12, chars=string.ascii_letters, prefix='')

    The :class:`FuzzyText` fuzzer yields random strings beginning with
    the given :attr:`prefix`, followed by :attr:`length` charactes chosen
    from the :attr:`chars` character set,
    and ending with the given :attr:`suffix`.

    .. attribute:: length

        int, the length of the random part

    .. attribute:: prefix

        text, an optional prefix to prepend to the random part

    .. attribute:: suffix

        text, an optional suffix to append to the random part

    .. attribute:: chars

        char iterable, the chars to choose from; defaults to the list of ascii
            letters and numbers.


FuzzyChoice
-----------


.. class:: FuzzyChoice(choices)

    The :class:`FuzzyChoice` fuzzer yields random choices from the given
    iterable.

    .. note:: The passed in :attr:`choices` will be converted into a list upon
              first use, not at declaration time.

              This allows passing in, for instance, a Django queryset that will
              only hit the database during the database, not at import time.

    .. attribute:: choices

        The list of choices to select randomly


FuzzyInteger
------------

.. class:: FuzzyInteger(low[, high[, step]])

    The :class:`FuzzyInteger` fuzzer generates random integers within a given
    inclusive range.

    The :attr:`low` bound may be omitted, in which case it defaults to 0:

    .. code-block:: pycon

        >>> fi = FuzzyInteger(0, 42)
        >>> fi.low, fi.high
        0, 42

        >>> fi = FuzzyInteger(42)
        >>> fi.low, fi.high
        0, 42

    .. attribute:: low

        int, the inclusive lower bound of generated integers

    .. attribute:: high

        int, the inclusive higher bound of generated integers

    .. attribute:: step

        int, the step between values in the range; for instance, a ``FuzzyInteger(0, 42, step=3)``
        might only yield values from ``[0, 3, 6, 9, 12, 15, 18, 21, 24, 27, 30, 33, 36, 39, 42]``.


FuzzyDecimal
------------

.. class:: FuzzyDecimal(low[, high[, precision=2]])

    The :class:`FuzzyDecimal` fuzzer generates random :class:`decimals <decimal.Decimal>` within a given
    inclusive range.

    The :attr:`low` bound may be omitted, in which case it defaults to 0:

    .. code-block:: pycon

        >>> FuzzyDecimal(0.5, 42.7)
        >>> fi.low, fi.high
        0.5, 42.7

        >>> fi = FuzzyDecimal(42.7)
        >>> fi.low, fi.high
        0.0, 42.7

        >>> fi = FuzzyDecimal(0.5, 42.7, 3)
        >>> fi.low, fi.high, fi.precision
        0.5, 42.7, 3

    .. attribute:: low

        decimal, the inclusive lower bound of generated decimals

    .. attribute:: high

        decimal, the inclusive higher bound of generated decimals

    .. attribute:: precision
        int, the number of digits to generate after the dot. The default is 2 digits.


FuzzyFloat
----------

.. class:: FuzzyFloat(low[, high])

    The :class:`FuzzyFloat` fuzzer provides random :class:`float` objects within a given inclusive range.

    .. code-block:: pycon

        >>> FuzzyFloat(0.5, 42.7)
        >>> fi.low, fi.high
        0.5, 42.7

        >>> fi = FuzzyFloat(42.7)
        >>> fi.low, fi.high
        0.0, 42.7


    .. attribute:: low

        decimal, the inclusive lower bound of generated floats

    .. attribute:: high

        decimal, the inclusive higher bound of generated floats

FuzzyDate
---------

.. class:: FuzzyDate(start_date[, end_date])

    The :class:`FuzzyDate` fuzzer generates random dates within a given
    inclusive range.

    The :attr:`end_date` bound may be omitted, in which case it defaults to the current date:

    .. code-block:: pycon

        >>> fd = FuzzyDate(datetime.date(2008, 1, 1))
        >>> fd.start_date, fd.end_date
        datetime.date(2008, 1, 1), datetime.date(2013, 4, 16)

    .. attribute:: start_date

        :class:`datetime.date`, the inclusive lower bound of generated dates

    .. attribute:: end_date

        :class:`datetime.date`, the inclusive higher bound of generated dates


FuzzyDateTime
-------------

.. class:: FuzzyDateTime(start_dt[, end_dt], force_year=None, force_month=None, force_day=None, force_hour=None, force_minute=None, force_second=None, force_microsecond=None)

    The :class:`FuzzyDateTime` fuzzer generates random timezone-aware datetime within a given
    inclusive range.

    The :attr:`end_dt` bound may be omitted, in which case it defaults to ``datetime.datetime.now()``
    localized into the UTC timezone.

    .. code-block:: pycon

        >>> fdt = FuzzyDateTime(datetime.datetime(2008, 1, 1, tzinfo=UTC))
        >>> fdt.start_dt, fdt.end_dt
        datetime.datetime(2008, 1, 1, tzinfo=UTC), datetime.datetime(2013, 4, 21, 19, 13, 32, 458487, tzinfo=UTC)


    The ``force_XXX`` keyword arguments force the related value of generated datetimes:

    .. code-block:: pycon

        >>> fdt = FuzzyDateTime(datetime.datetime(2008, 1, 1, tzinfo=UTC), datetime.datetime(2009, 1, 1, tzinfo=UTC),
        ...     force_day=3, force_second=42)
        >>> fdt.evaluate(2, None, False)  # Actual code used by ``SomeFactory.build()``
        datetime.datetime(2008, 5, 3, 12, 13, 42, 124848, tzinfo=UTC)


    .. attribute:: start_dt

        :class:`datetime.datetime`, the inclusive lower bound of generated datetimes

    .. attribute:: end_dt

        :class:`datetime.datetime`, the inclusive upper bound of generated datetimes


    .. attribute:: force_year

        int or None; if set, forces the :attr:`~datetime.datetime.year` of generated datetime.

    .. attribute:: force_month

        int or None; if set, forces the :attr:`~datetime.datetime.month` of generated datetime.

    .. attribute:: force_day

        int or None; if set, forces the :attr:`~datetime.datetime.day` of generated datetime.

    .. attribute:: force_hour

        int or None; if set, forces the :attr:`~datetime.datetime.hour` of generated datetime.

    .. attribute:: force_minute

        int or None; if set, forces the :attr:`~datetime.datetime.minute` of generated datetime.

    .. attribute:: force_second

        int or None; if set, forces the :attr:`~datetime.datetime.second` of generated datetime.

    .. attribute:: force_microsecond

        int or None; if set, forces the :attr:`~datetime.datetime.microsecond` of generated datetime.


FuzzyNaiveDateTime
------------------

.. class:: FuzzyNaiveDateTime(start_dt[, end_dt], force_year=None, force_month=None, force_day=None, force_hour=None, force_minute=None, force_second=None, force_microsecond=None)

    The :class:`FuzzyNaiveDateTime` fuzzer generates random naive datetime within a given
    inclusive range.

    The :attr:`end_dt` bound may be omitted, in which case it defaults to ``datetime.datetime.now()``:

    .. code-block:: pycon

        >>> fdt = FuzzyNaiveDateTime(datetime.datetime(2008, 1, 1))
        >>> fdt.start_dt, fdt.end_dt
        datetime.datetime(2008, 1, 1), datetime.datetime(2013, 4, 21, 19, 13, 32, 458487)


    The ``force_XXX`` keyword arguments force the related value of generated datetimes:

    .. code-block:: pycon

        >>> fdt = FuzzyNaiveDateTime(datetime.datetime(2008, 1, 1), datetime.datetime(2009, 1, 1),
        ...     force_day=3, force_second=42)
        >>> fdt.evaluate(2, None, False)  # Actual code used by ``SomeFactory.build()``
        datetime.datetime(2008, 5, 3, 12, 13, 42, 124848)


    .. attribute:: start_dt

        :class:`datetime.datetime`, the inclusive lower bound of generated datetimes

    .. attribute:: end_dt

        :class:`datetime.datetime`, the inclusive upper bound of generated datetimes


    .. attribute:: force_year

        int or None; if set, forces the :attr:`~datetime.datetime.year` of generated datetime.

    .. attribute:: force_month

        int or None; if set, forces the :attr:`~datetime.datetime.month` of generated datetime.

    .. attribute:: force_day

        int or None; if set, forces the :attr:`~datetime.datetime.day` of generated datetime.

    .. attribute:: force_hour

        int or None; if set, forces the :attr:`~datetime.datetime.hour` of generated datetime.

    .. attribute:: force_minute

        int or None; if set, forces the :attr:`~datetime.datetime.minute` of generated datetime.

    .. attribute:: force_second

        int or None; if set, forces the :attr:`~datetime.datetime.second` of generated datetime.

    .. attribute:: force_microsecond

        int or None; if set, forces the :attr:`~datetime.datetime.microsecond` of generated datetime.


Custom fuzzy fields
-------------------

Alternate fuzzy fields may be defined.
They should inherit from the :class:`BaseFuzzyAttribute` class, and override its
:meth:`~BaseFuzzyAttribute.fuzz` method.


.. class:: BaseFuzzyAttribute

    Base class for all fuzzy attributes.

    .. method:: fuzz(self)

        The method responsible for generating random values.
        *Must* be overridden in subclasses.


Managing randomness
-------------------

Using :mod:`random` in factories allows to "fuzz" a program efficiently.
However, it's sometimes required to *reproduce* a failing test.

:mod:`factory.fuzzy` uses a separate instance of :class:`random.Random`,
and provides a few helpers for this:

.. method:: get_random_state()

    Call :meth:`get_random_state` to retrieve the random generator's current
    state.

.. method:: set_random_state(state)

    Use :meth:`set_random_state` to set a custom state into the random generator
    (fetched from :meth:`get_random_state` in a previous run, for instance)

.. method:: reseed_random(seed)

    The :meth:`reseed_random` function allows to load a chosen seed into the random generator.


Custom :class:`BaseFuzzyAttribute` subclasses **SHOULD**
use :obj:`factory.fuzzy._random` as a randomness source; this ensures that
data they generate can be regenerated using the simple state from
:meth:`get_random_state`.
