mirror of
https://github.com/idris-lang/Idris2.git
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c28133b7d9
- Renaming of the string overload interface - Added test cases for both string and integer literals overload
207 lines
5.7 KiB
Idris
207 lines
5.7 KiB
Idris
module Builtin
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-- The most primitive data types; things which are used by desugaring
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-- Totality assertions
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||| Assert to the totality checker that the given expression will always
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||| terminate.
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||| The multiplicity of its argument is 1, so `assert_total` won't affect how
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||| many times variables are used. If you're not writing a linear function,
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||| this doesn't make a difference.
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|||
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||| Note: assert_total can reduce at compile time, if required for unification,
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||| which might mean that it's no longer guarded a subexpression. Therefore,
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||| it is best to use it around the smallest possible subexpression.
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%inline
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public export
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assert_total : (1 _ : a) -> a
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assert_total x = x
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||| Assert to the totality checker that y is always structurally smaller than x
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||| (which is typically a pattern argument, and *must* be in normal form for
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||| this to work).
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||| The multiplicity of x is 0, so in a linear function, you can pass values to
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||| x even if they have already been used.
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||| The multiplicity of y is 1, so `assert_smaller` won't affect how many times
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||| its y argument is used.
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||| If you're not writing a linear function, the multiplicities don't make a
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||| difference.
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||| @ x the larger value (typically a pattern argument)
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%inline
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public export
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assert_smaller : (0 x : a) -> (1 y : b) -> b
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assert_smaller x y = y
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-- Unit type and pairs
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||| The canonical single-element type, also known as the trivially true
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||| proposition.
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public export
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data Unit =
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||| The trivial constructor for `()`.
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MkUnit
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||| The non-dependent pair type, also known as conjunction.
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public export
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data Pair : Type -> Type -> Type where
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||| A pair of elements.
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||| @ a the left element of the pair
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||| @ b the right element of the pair
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MkPair : {0 a, b : Type} -> (1 x : a) -> (1 y : b) -> Pair a b
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||| Return the first element of a pair.
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public export
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fst : {0 a, b : Type} -> (a, b) -> a
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fst (x, y) = x
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||| Return the second element of a pair.
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public export
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snd : {0 a, b : Type} -> (a, b) -> b
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snd (x, y) = y
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-- This directive tells auto implicit search what to use to look inside pairs
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%pair Pair fst snd
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infix 5 #
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||| A pair type for use in operations on linear resources, which return a
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||| value and an updated resource
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public export
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data LPair : Type -> Type -> Type where
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(#) : (x : a) -> (1 _ : b) -> LPair a b
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namespace DPair
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||| Dependent pairs aid in the construction of dependent types by providing
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||| evidence that some value resides in the type.
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||| Formally, speaking, dependent pairs represent existential quantification -
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||| they consist of a witness for the existential claim and a proof that the
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||| property holds for it.
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||| @ a the value to place in the type.
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||| @ p the dependent type that requires the value.
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public export
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record DPair a (p : a -> Type) where
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constructor MkDPair
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fst : a
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snd : p fst
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||| A dependent variant of LPair, pairing a result value with a resource
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||| that depends on the result value
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public export
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data Res : (a : Type) -> (a -> Type) -> Type where
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(#) : (val : a) -> (1 r : t val) -> Res a t
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-- The empty type
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||| The empty type, also known as the trivially false proposition.
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||| Use `void` or `absurd` to prove anything if you have a variable of type
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||| `Void` in scope.
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public export
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data Void : Type where
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-- Equality
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public export
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data Equal : forall a, b . a -> b -> Type where
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[search a b]
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Refl : {0 x : a} -> Equal x x
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%name Equal prf
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infix 9 ===, ~=~
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-- An equality type for when you want to assert that each side of the
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-- equality has the same type, but there's not other evidence available
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-- to help with unification
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public export
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(===) : (x : a) -> (y : a) -> Type
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(===) = Equal
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||| Explicit heterogeneous ("John Major") equality. Use this when Idris
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||| incorrectly chooses homogeneous equality for `(=)`.
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||| @ a the type of the left side
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||| @ b the type of the right side
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||| @ x the left side
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||| @ y the right side
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public export
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(~=~) : (x : a) -> (y : b) -> Type
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(~=~) = Equal
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||| Perform substitution in a term according to some equality.
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||| Like `replace`, but with an explicit predicate, and applying the rewrite in
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||| the other direction, which puts it in a form usable by the `rewrite` tactic
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||| and term.
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%inline
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public export
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rewrite__impl : {0 x, y : a} -> (0 p : _) ->
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(0 rule : x = y) -> (1 val : p y) -> p x
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rewrite__impl p Refl prf = prf
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%rewrite Equal rewrite__impl
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||| Perform substitution in a term according to some equality.
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%inline
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public export
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replace : forall x, y, p . (0 rule : x = y) -> p x -> p y
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replace Refl prf = prf
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||| Symmetry of propositional equality.
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%inline
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public export
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sym : (0 rule : x = y) -> y = x
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sym Refl = Refl
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||| Transitivity of propositional equality.
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%inline
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public export
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trans : forall a, b, c . (0 l : a = b) -> (0 r : b = c) -> a = c
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trans Refl Refl = Refl
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||| Subvert the type checker. This function is abstract, so it will not reduce
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||| in the type checker. Use it with care - it can result in segfaults or
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public export
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believe_me : a -> b
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believe_me = prim__believe_me _ _
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export partial
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idris_crash : String -> a
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idris_crash = prim__crash _
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public export
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delay : a -> Lazy a
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delay x = Delay x
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public export
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force : Lazy a -> a
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force x = Force x
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%stringLit fromString
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||| Interface for types that can be constructed from string literals.
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public export
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interface FromString ty where
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||| Conversion from String.
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fromString : String -> ty
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%allow_overloads fromString
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%inline
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public export
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FromString String where
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fromString s = s
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%defaulthint
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%inline
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public export
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defaultString : FromString String
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defaultString = %search
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