lean2/doc/lean/declarations.org

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* Lean declarations
** Definitions
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The command =definition= declares a new constant/function. The identity function is defined as
#+BEGIN_SRC lean
definition identity {A : Type} (a : A) : A := a
#+END_SRC
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We say definitions are "transparent", because the type checker can
unfold them. The following declaration only type checks because =+= is
a transparent definition. Otherwise, the type checker would reject
the expression =v = w= since it would not be able to establish that
=2+3= and =5= are "identical". In type theory, we say they are
_definitionally equal_.
#+BEGIN_SRC lean
import data.tuple data.nat
open nat
check λ (v : tuple nat (2+3)) (w : tuple nat 5), v = w
#+END_SRC
Similarly, the following definition only type checks because =identity= is transparent, and the type checker can establish that
=nat= and =id nat= are definitionally equal, that is, they are the "same".
#+BEGIN_SRC lean
import data.nat
definition identity {A : Type} (a : A) : A := a
check λ (x : nat) (y : identity nat), x = y
#+END_SRC
** Theorems
In Lean, a theorem is just an =opaque= definition. We usually use
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=theorem= for declaring propositions. The idea is that users don't
really care about the actual proof, only about its existence. As
described in previous sections, =Prop= (the type of all propositions)
is _proof irrelevant_. If we had defined =id= using a theorem the
previous example would produce a typing error because the type checker
would be unable to unfold =identity= and establish that =nat= and =identity nat=
are definitionally equal.
** Private definitions and theorems
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Sometimes it is useful to hide auxiliary definitions and theorems from
the module interface. The keyword =private= allows us to declare local
hidden definitions and theorems. A private definition is always
opaque. The name of a =private= definition is only visible in the
module/file where it was declared.
#+BEGIN_SRC lean
import data.nat
open nat
private definition inc (x : nat) := x + 1
private theorem inc_eq_succ (x : nat) : succ x = inc x :=
rfl
-- The definition inc and theorem inc_eq_succ are not visible/accessible
-- in modules that import this one.
#+END_SRC
** Protected definitions and theorems
Declarations can be be organized into namespaces. In the previous
examples, we have been using the namespace =nat=. It contains
definitions such as =nat.succ= and =nat.add=. The command =open=
creates the aliases =succ= and =add= to these definitions. An alias
will not be created for a _protected definition_ unless the user
explicitly request it.
#+BEGIN_SRC lean
import data.nat
open nat
namespace foo
definition two : nat := 2
protected definition three : nat := 3
end foo
open foo
check two
-- The following command produces a 'unknown identifier' error
/-
check three
-/
-- We have to use its fully qualified name to access three
check foo.three
-- If the user explicitly request three, then an alias is created
open foo (three)
check three
#+END_SRC