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299 lines
9.3 KiB
ReStructuredText
299 lines
9.3 KiB
ReStructuredText
.. _sect-namespaces:
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**********************
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Modules and Namespaces
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**********************
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An Idris program consists of a collection of modules. Each module
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includes an optional ``module`` declaration giving the name of the
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module, a list of ``import`` statements giving the other modules which
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are to be imported, and a collection of declarations and definitions of
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types, interfaces and functions. For example, the listing below gives a
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module which defines a binary tree type ``BTree`` (in a file
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``BTree.idr``):
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.. code-block:: idris
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module BTree
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public export
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data BTree a = Leaf
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| Node (BTree a) a (BTree a)
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export
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insert : Ord a => a -> BTree a -> BTree a
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insert x Leaf = Node Leaf x Leaf
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insert x (Node l v r) = if (x < v) then (Node (insert x l) v r)
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else (Node l v (insert x r))
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export
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toList : BTree a -> List a
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toList Leaf = []
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toList (Node l v r) = BTree.toList l ++ (v :: BTree.toList r)
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export
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toTree : Ord a => List a -> BTree a
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toTree [] = Leaf
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toTree (x :: xs) = insert x (toTree xs)
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The modifiers ``export`` and ``public export`` say which names are visible
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from other namespaces. These are explained further below.
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Then, this gives a main program (in a file
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``bmain.idr``) which uses the ``BTree`` module to sort a list:
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.. code-block:: idris
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module Main
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import BTree
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main : IO ()
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main = do let t = toTree [1,8,2,7,9,3]
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print (BTree.toList t)
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The same names can be defined in multiple modules: names are *qualified* with
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the name of the module. The names defined in the ``BTree`` module are, in full:
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+ ``BTree.BTree``
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+ ``BTree.Leaf``
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+ ``BTree.Node``
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+ ``BTree.insert``
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+ ``BTree.toList``
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+ ``BTree.toTree``
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If names are otherwise unambiguous, there is no need to give the fully
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qualified name. Names can be disambiguated either by giving an explicit
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qualification, using the ``with`` keyword, or according to their type.
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The ``with`` keyword in expressions comes in two variants:
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* ``with BTree.insert (insert x empty)`` for one name
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* ``with [BTree.insert, BTree.empty] (insert x empty)`` for multiple names
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This is particularly useful with ``do`` notation, where it can often improve
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error messages: ``with MyModule.(>>=) do ...``
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There is no formal link between the module name and its filename,
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although it is generally advisable to use the same name for each. An
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``import`` statement refers to a filename, using dots to separate
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directories. For example, ``import foo.bar`` would import the file
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``foo/bar.idr``, which would conventionally have the module declaration
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``module foo.bar``. The only requirement for module names is that the
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main module, with the ``main`` function, must be called
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``Main`` — although its filename need not be ``Main.idr``.
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Export Modifiers
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================
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Idris allows for fine-grained control over the visibility of a
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namespace's contents. By default, all names defined in a namespace are kept
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private. This aids in specification of a minimal interface and for
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internal details to be left hidden. Idris allows for functions,
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types, and interfaces to be marked as: ``private``, ``export``, or
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``public export``. Their general meaning is as follows:
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- ``private`` meaning that it is not exported at all. This is the default.
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- ``export`` meaning that its top level type is exported.
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- ``public export`` meaning that the entire definition is exported.
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A further restriction in modifying the visibility is that definitions must not
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refer to anything within a lower level of visibility. For example, ``public
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export`` definitions cannot use ``private`` or ``export`` names, and ``export``
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types cannot use ``private`` names. This is to prevent private names leaking
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into a module's interface.
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Meaning for Functions
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---------------------
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- ``export`` the type is exported
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- ``public export`` the type and definition are exported, and the
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definition can be used after it is imported. In other words, the
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definition itself is considered part of the module's interface. The
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long name ``public export`` is intended to make you think twice
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about doing this.
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.. note::
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Type synonyms in Idris are created by writing a function. When
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setting the visibility for a module, it is usually a good idea to
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``public export`` all type synonyms if they are to be used outside
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the module. Otherwise, Idris won't know what the synonym is a
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synonym for.
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Since ``public export`` means that a function's definition is exported,
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this effectively makes the function definition part of the module's API.
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Therefore, it's generally a good idea to avoid using ``public export`` for
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functions unless you really mean to export the full definition.
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.. note::
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*For beginners*:
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If the function needs to be accessed only at runtime, use ``export``.
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However, if it's also meant to be used at *compile* time (e.g. to prove
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a theorem), use ``public export``.
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For example, consider the function ``plus : Nat -> Nat -> Nat`` discussed
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previously, and the following theorem: ``thm : plus Z m = m``.
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In order to prove it, the type checker needs to reduce ``plus Z m`` to ``m``
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(and hence obtain ``thm : m = m``).
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To achieve this, it will need access to the *definition* of ``plus``,
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which includes the equation ``plus Z m = m``.
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Therefore, in this case, ``plus`` has to be marked as ``public export``.
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Meaning for Data Types
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----------------------
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For data types, the meanings are:
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- ``export`` the type constructor is exported
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- ``public export`` the type constructor and data constructors are exported
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Meaning for Interfaces
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----------------------
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For interfaces, the meanings are:
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- ``export`` the interface name is exported
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- ``public export`` the interface name, method names and default
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definitions are exported
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Propagating Inner Module API's
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-------------------------------
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Additionally, a module can re-export a module it has imported, by using
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the ``public`` modifier on an ``import``. For example:
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::
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module A
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import B
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import public C
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The module ``A`` will export the name ``a``, as well as any public or
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abstract names in module ``C``, but will not re-export anything from
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module ``B``.
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Renaming imports
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----------------
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Sometimes it is convenient to be able to access the names in another module
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via a different namespace (typically, a shorter one). For this, you can
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use `import...as`. For example:
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::
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module A
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import Data.List as L
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This module ``A`` has access to the exported names from module ``Data.List``,
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but can also explicitly access them via the module name ``L``. ``import...as``
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can also be combined with ``import public`` to create a module which exports
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a larger API from other sub-modules:
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::
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module Books
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import public Books.Hardback as Books
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import public Books.Comic as Books
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Here, any module which imports ``Books`` will have access to the exported
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interfaces of ``Books.Hardback`` and ``Books.Comic`` both under the namespace
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``Books``.
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Explicit Namespaces
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===================
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Defining a module also defines a namespace implicitly. However,
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namespaces can also be given *explicitly*. This is most useful if you
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wish to overload names within the same module:
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.. code-block:: idris
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module Foo
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namespace X
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export
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test : Int -> Int
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test x = x * 2
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namespace Y
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export
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test : String -> String
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test x = x ++ x
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This (admittedly contrived) module defines two functions with fully
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qualified names ``Foo.X.test`` and ``Foo.Y.test``, which can be
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disambiguated by their types:
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::
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*Foo> test 3
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6 : Int
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*Foo> test "foo"
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"foofoo" : String
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The export rules, ``public export`` and ``export``, are *per namespace*,
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not *per file*, so the two ``test`` definitions above need the ``export``
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flag to be visible outside their own namespaces.
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Parameterised blocks
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====================
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Groups of functions can be parameterised over a number of arguments
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using a ``parameters`` declaration, for example:
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.. code-block:: idris
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parameters (x : Nat, y : Nat)
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addAll : Nat -> Nat
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addAll z = x + y + z
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The effect of a ``parameters`` block is to add the declared parameters
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to every function, type and data constructor within the
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block. Specifically, adding the parameters to the front of the
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argument list. Outside the block, the parameters must be given
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explicitly. The ``addAll`` function, when called from the REPL, will
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thus have the following type signature.
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::
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*params> :t addAll
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addAll : Nat -> Nat -> Nat -> Nat
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and the following definition.
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.. code-block:: idris
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addAll : (x : Nat) -> (y : Nat) -> (z : Nat) -> Nat
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addAll x y z = x + y + z
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Parameters blocks can be nested, and can also include data declarations,
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in which case the parameters are added explicitly to all type and data
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constructors. They may also be dependent types with implicit arguments:
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.. code-block:: idris
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parameters (y : Nat, xs : Vect x a)
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data Vects : Type -> Type where
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MkVects : Vect y a -> Vects a
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append : Vects a -> Vect (x + y) a
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append (MkVects ys) = xs ++ ys
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To use ``Vects`` or ``append`` outside the block, we must also give the
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``xs`` and ``y`` arguments. Here, we can use placeholders for the values
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which can be inferred by the type checker:
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::
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Main> show (append _ _ (MkVects _ [1,2,3] [4,5,6]))
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"[1, 2, 3, 4, 5, 6]"
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