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159 lines
5.7 KiB
ReStructuredText
159 lines
5.7 KiB
ReStructuredText
.. _sec-views:
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*****************************
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Views and the “``with``” rule
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*****************************
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.. warning::
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NOT UPDATED FOR IDRIS 2 YET
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Dependent pattern matching
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==========================
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Since types can depend on values, the form of some arguments can be
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determined by the value of others. For example, if we were to write
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down the implicit length arguments to ``(++)``, we’d see that the form
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of the length argument was determined by whether the vector was empty
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or not:
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.. code-block:: idris
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(++) : Vect n a -> Vect m a -> Vect (n + m) a
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(++) {n=Z} [] ys = ys
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(++) {n=S k} (x :: xs) ys = x :: xs ++ ys
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If ``n`` was a successor in the ``[]`` case, or zero in the ``::``
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case, the definition would not be well typed.
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.. _sect-nattobin:
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The ``with`` rule — matching intermediate values
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================================================
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Very often, we need to match on the result of an intermediate
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computation. Idris provides a construct for this, the ``with``
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rule, inspired by views in ``Epigram`` [#McBridgeMcKinna]_, which takes account of
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the fact that matching on a value in a dependently typed language can
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affect what we know about the forms of other values. In its simplest
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form, the ``with`` rule adds another argument to the function being
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defined.
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We have already seen a vector filter function. This time, we define it
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using ``with`` as follows:
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.. code-block:: idris
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filter : (a -> Bool) -> Vect n a -> (p ** Vect p a)
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filter p [] = ( _ ** [] )
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filter p (x :: xs) with (filter p xs)
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filter p (x :: xs) | ( _ ** xs' ) = if (p x) then ( _ ** x :: xs' ) else ( _ ** xs' )
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Here, the ``with`` clause allows us to deconstruct the result of
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``filter p xs``. The view refined argument pattern ``filter p (x ::
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xs)`` goes beneath the ``with`` clause, followed by a vertical bar
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``|``, followed by the deconstructed intermediate result ``( _ ** xs'
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)``. If the view refined argument pattern is unchanged from the
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original function argument pattern, then the left side of ``|`` is
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extraneous and may be omitted:
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.. code-block:: idris
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filter p (x :: xs) with (filter p xs)
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| ( _ ** xs' ) = if (p x) then ( _ ** x :: xs' ) else ( _ ** xs' )
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``with`` clauses can also be nested:
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.. code-block:: idris
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foo : Int -> Int -> Bool
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foo n m with (n + 1)
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foo _ m | 2 with (m + 1)
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foo _ _ | 2 | 3 = True
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foo _ _ | 2 | _ = False
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foo _ _ | _ = False
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If the intermediate computation itself has a dependent type, then the
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result can affect the forms of other arguments — we can learn the form
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of one value by testing another. In these cases, view refined argument
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patterns must be explicit. For example, a ``Nat`` is either even or
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odd. If it is even it will be the sum of two equal ``Nat``.
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Otherwise, it is the sum of two equal ``Nat`` plus one:
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.. code-block:: idris
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data Parity : Nat -> Type where
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Even : {n : _} -> Parity (n + n)
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Odd : {n : _} -> Parity (S (n + n))
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We say ``Parity`` is a *view* of ``Nat``. It has a *covering function*
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which tests whether it is even or odd and constructs the predicate
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accordingly. Note that we're going to need access to ``n`` at run time, so
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although it's an implicit argument, it has unrestricted multiplicity.
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.. code-block:: idris
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parity : (n:Nat) -> Parity n
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We’ll come back to the definition of ``parity`` shortly. We can use it
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to write a function which converts a natural number to a list of
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binary digits (least significant first) as follows, using the ``with``
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rule:
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.. code-block:: idris
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natToBin : Nat -> List Bool
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natToBin Z = Nil
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natToBin k with (parity k)
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natToBin (j + j) | Even = False :: natToBin j
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natToBin (S (j + j)) | Odd = True :: natToBin j
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The value of ``parity k`` affects the form of ``k``, because the
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result of ``parity k`` depends on ``k``. So, as well as the patterns
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for the result of the intermediate computation (``Even`` and ``Odd``)
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right of the ``|``, we also write how the results affect the other
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patterns left of the ``|``. That is:
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- When ``parity k`` evaluates to ``Even``, we can refine the original
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argument ``k`` to a refined pattern ``(j + j)`` according to
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``Parity (n + n)`` from the ``Even`` constructor definition. So
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``(j + j)`` replaces ``k`` on the left side of ``|``, and the
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``Even`` constructor appears on the right side. The natural number
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``j`` in the refined pattern can be used on the right side of the
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``=`` sign.
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- Otherwise, when ``parity k`` evaluates to ``Odd``, the original
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argument ``k`` is refined to ``S (j + j)`` according to ``Parity (S
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(n + n))`` from the ``Odd`` constructor definition, and ``Odd`` now
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appears on the right side of ``|``, again with the natural number
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``j`` used on the right side of the ``=`` sign.
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Note that there is a function in the patterns (``+``) and repeated
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occurrences of ``j`` - this is allowed because another argument has
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determined the form of these patterns.
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Defining ``parity``
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===================
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The definition of ``parity`` is a little tricky, and requires some knowledge of
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theorem proving (see Section :ref:`sect-theorems`), but for completeness, here
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it is:
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.. code-block:: idris
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parity : (n : Nat) -> Parity n
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parity Z = Even {n = Z}
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parity (S Z) = Odd {n = Z}
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parity (S (S k)) with (parity k)
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parity (S (S (j + j))) | Even
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= rewrite plusSuccRightSucc j j in Even {n = S j}
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parity (S (S (S (j + j)))) | Odd
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= rewrite plusSuccRightSucc j j in Odd {n = S j}
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For full details on ``rewrite`` in particular, please refer to the theorem
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proving tutorial, in Section :ref:`proofs-index`.
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.. [#McBridgeMcKinna] Conor McBride and James McKinna. 2004. The view from the
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left. J. Funct. Program. 14, 1 (January 2004),
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69-111. https://doi.org/10.1017/S0956796803004829
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