quox/lib/Quox/Syntax/Subst.idr

module Quox.Syntax.Subst

import public Quox.Syntax.Shift
import Quox.Syntax.Var
import Quox.Name

import Data.Nat
import Data.List
import Data.SnocVect
import Derive.Prelude

%default total
%language ElabReflection


public export
data Subst : (Nat -> Type) -> Nat -> Nat -> Type where
  Shift : Shift from to -> Subst env from to
  (:::) : (t : Lazy (env to)) -> Subst env from to -> Subst env (S from) to
%name Subst th, ph, ps

infixr 7 !:::
||| in case the automatic laziness insertion gets confused
public export
(!:::) : env to -> Subst env from to -> Subst env (S from) to
t !::: ts = t ::: ts


private
Repr : (Nat -> Type) -> Nat -> Type
Repr f to = (List (f to), Nat)

private
repr : Subst f from to -> Repr f to
repr (Shift by) = ([], by.nat)
repr (t ::: th) = let (ts, i) = repr th in (t::ts, i)


export Eq   (f to) => Eq   (Subst f from to) where (==) = (==) `on` repr
export Ord  (f to) => Ord  (Subst f from to) where compare = compare `on` repr
export Show (f to) => Show (Subst f from to) where show = show . repr


infixl 8 //
public export
interface FromVar term => CanSubstSelf term where
  (//) : term from -> Lazy (Subst term from to) -> term to


public export
getLoc : FromVar term => Subst term from to -> Var from -> Loc -> term to
getLoc (Shift by) i      loc = fromVarLoc (shift by i) loc
getLoc (t ::: th) VZ     _   = t
getLoc (t ::: th) (VS i) loc = getLoc th i loc


public export
CanSubstSelf Var where
  i    // Shift by   = shift by i
  VZ   // (t ::: th) = t
  VS i // (t ::: th) = i // th


public export %inline
shift : (by : Nat) -> Subst env from (by + from)
shift by = Shift $ fromNat by

public export %inline
shift0 : (by : Nat) -> Subst env 0 by
shift0 by = rewrite sym $ plusZeroRightNeutral by in Shift $ fromNat by


public export
(.) : CanSubstSelf f => Subst f from mid -> Subst f mid to -> Subst f from to
Shift by      . Shift bz   = Shift $ by . bz
Shift SZ      . ph         = ph
Shift (SS by) . (t ::: th) = Shift by . th
(t ::: th)    . ph         = (t // ph) ::: (th . ph)

public export %inline
id : Subst f n n
id = shift 0

public export
traverse : Applicative m =>
           (f to -> m (g to)) -> Subst f from to -> m (Subst g from to)
traverse f (Shift by) = pure $ Shift by
traverse f (t ::: th) = [|f t !::: traverse f th|]

-- not in terms of traverse because this map can maintain laziness better
public export
map : (f to -> g to) -> Subst f from to -> Subst g from to
map f (Shift by) = Shift by
map f (t ::: th) = f t ::: map f th


public export %inline
push : CanSubstSelf f => Subst f from to -> Subst f (S from) (S to)
push th = fromVar VZ ::: (th . shift 1)

-- [fixme] a better way to do this?
public export
pushN : CanSubstSelf f => (s : Nat) ->
        Subst f from to -> Subst f (s + from) (s + to)
pushN 0     th = th
pushN (S s) th =
  rewrite plusSuccRightSucc s from in
  rewrite plusSuccRightSucc s to in
  pushN s $ fromVar VZ ::: (th . shift 1)

public export
drop1 : Subst f (S from) to -> Subst f from to
drop1 (Shift by) = Shift $ ssDown by
drop1 (t ::: th) = th


public export
fromSnocVect : SnocVect s (f n) -> Subst f (s + n) n
fromSnocVect [<]       = id
fromSnocVect (xs :< x) = x ::: fromSnocVect xs

public export %inline
one : f n -> Subst f (S n) n
one x = fromSnocVect [< x]


||| whether two substitutions with the same codomain have the same shape
||| (the same number of terms and the same shift at the end). if so, they
||| also have the same domain
export
cmpShape : Subst env from1 to -> Subst env from2 to ->
           Either Ordering (from1 = from2)
cmpShape (Shift by) (Shift bz) = cmpLen by bz
cmpShape (Shift _)  (_ ::: _)  = Left LT
cmpShape (_ ::: _)  (Shift _)  = Left GT
cmpShape (_ ::: th) (_ ::: ph) = cong S <$> cmpShape th ph


public export
record WithSubst tm env n where
  constructor Sub
  term  : tm from
  subst : Lazy (Subst env from n)

export
(Eq (env n), forall n. Eq (tm n)) => Eq (WithSubst tm env n) where
  Sub t1 s1 == Sub t2 s2 =
    case cmpShape s1 s2 of
      Left  _    => False
      Right Refl => t1 == t2 && s1 == s2

export
(Ord (env n), forall n. Ord (tm n)) => Ord (WithSubst tm env n) where
  Sub t1 s1 `compare` Sub t2 s2 =
    case cmpShape s1 s2 of
      Left  o    => o
      Right Refl => compare (t1, s1) (t2, s2)

export %hint
ShowWithSubst : (Show (env n), forall n. Show (tm n)) =>
                Show (WithSubst tm env n)
ShowWithSubst = deriveShow
some syntax stuff 2021-07-20 16:05:19 -04:00			`module Quox.Syntax.Subst`

add CanShift interface like CanSubst 2021-09-09 17:53:00 -04:00			`import public Quox.Syntax.Shift`
some syntax stuff 2021-07-20 16:05:19 -04:00			`import Quox.Syntax.Var`
			`import Quox.Name`

ScopeTerms that can bind multiple vars 2023-01-22 21:22:50 -05:00			`import Data.Nat`
some syntax stuff 2021-07-20 16:05:19 -04:00			`import Data.List`
use a SnocVect for subN 2023-03-26 10:09:47 -04:00			`import Data.SnocVect`
refactor core syntax slightly to derive Eq/Show add a new `WithSubst tm env to` record that packages a `tm from` with a `Subst env from to`, and write instances for just that. the rest of the AST can be derived 2023-04-27 15:37:20 -04:00			`import Derive.Prelude`
some syntax stuff 2021-07-20 16:05:19 -04:00
			`%default total`
refactor core syntax slightly to derive Eq/Show add a new `WithSubst tm env to` record that packages a `tm from` with a `Subst env from to`, and write instances for just that. the rest of the AST can be derived 2023-04-27 15:37:20 -04:00			`%language ElabReflection`
some syntax stuff 2021-07-20 16:05:19 -04:00

			`public export`
			`data Subst : (Nat -> Type) -> Nat -> Nat -> Type where`
			`Shift : Shift from to -> Subst env from to`
			`(:::) : (t : Lazy (env to)) -> Subst env from to -> Subst env (S from) to`
			`%name Subst th, ph, ps`

re-add tightening and use it when messing with scopes e.g. "coe [_ ⇒ A] @p @q s" should immediately reduce to "s", but if the "_ ⇒ A" happened to use an SY it didn't. this will still happen if a wrong SY sneaks in but the alternative is re-traversing the term over and over every time whnf runs 2023-04-17 14:56:31 -04:00			`infixr 7 !:::`
			`\|\|\| in case the automatic laziness insertion gets confused`
			`public export`
			`(!:::) : env to -> Subst env from to -> Subst env (S from) to`
			`t !::: ts = t ::: ts`

some syntax stuff 2021-07-20 16:05:19 -04:00
			`private`
			`Repr : (Nat -> Type) -> Nat -> Type`
			`Repr f to = (List (f to), Nat)`

			`private`
			`repr : Subst f from to -> Repr f to`
			`repr (Shift by) = ([], by.nat)`
			`repr (t ::: th) = let (ts, i) = repr th in (t::ts, i)`


refactor core syntax slightly to derive Eq/Show add a new `WithSubst tm env to` record that packages a `tm from` with a `Subst env from to`, and write instances for just that. the rest of the AST can be derived 2023-04-27 15:37:20 -04:00			export Eq (f to) => Eq (Subst f from to) where (==) = (==) `on` repr
			export Ord (f to) => Ord (Subst f from to) where compare = compare `on` repr
			`export Show (f to) => Show (Subst f from to) where show = show . repr`
some syntax stuff 2021-07-20 16:05:19 -04:00

			`infixl 8 //`
			`public export`
Replace subst overloading with interfaces too (mostly) 2023-02-20 16:22:23 -05:00			`interface FromVar term => CanSubstSelf term where`
			`(//) : term from -> Lazy (Subst term from to) -> term to`
some syntax stuff 2021-07-20 16:05:19 -04:00

			`public export`
add source locations to inner syntax 2023-05-01 21:06:25 -04:00			`getLoc : FromVar term => Subst term from to -> Var from -> Loc -> term to`
			`getLoc (Shift by) i loc = fromVarLoc (shift by i) loc`
			`getLoc (t ::: th) VZ _ = t`
			`getLoc (t ::: th) (VS i) loc = getLoc th i loc`

some syntax stuff 2021-07-20 16:05:19 -04:00
			`public export`
Replace subst overloading with interfaces too (mostly) 2023-02-20 16:22:23 -05:00			`CanSubstSelf Var where`
formatting fixes & tweaks 2021-09-03 11:10:50 -04:00			`i // Shift by = shift by i`
some syntax stuff 2021-07-20 16:05:19 -04:00			`VZ // (t ::: th) = t`
			`VS i // (t ::: th) = i // th`


			`public export %inline`
			`shift : (by : Nat) -> Subst env from (by + from)`
			`shift by = Shift $ fromNat by`

put names into contexts, and contexts into errors 2023-03-13 22:22:26 -04:00			`public export %inline`
			`shift0 : (by : Nat) -> Subst env 0 by`
			`shift0 by = rewrite sym $ plusZeroRightNeutral by in Shift $ fromNat by`

some syntax stuff 2021-07-20 16:05:19 -04:00
			`public export`
Replace subst overloading with interfaces too (mostly) 2023-02-20 16:22:23 -05:00			`(.) : CanSubstSelf f => Subst f from mid -> Subst f mid to -> Subst f from to`
reorder clauses in Subst.(.) 2021-09-25 14:13:51 -04:00			`Shift by . Shift bz = Shift $ by . bz`
some syntax stuff 2021-07-20 16:05:19 -04:00			`Shift SZ . ph = ph`
			`Shift (SS by) . (t ::: th) = Shift by . th`
			`(t ::: th) . ph = (t // ph) ::: (th . ph)`

			`public export %inline`
			`id : Subst f n n`
			`id = shift 0`

re-add tightening and use it when messing with scopes e.g. "coe [_ ⇒ A] @p @q s" should immediately reduce to "s", but if the "_ ⇒ A" happened to use an SY it didn't. this will still happen if a wrong SY sneaks in but the alternative is re-traversing the term over and over every time whnf runs 2023-04-17 14:56:31 -04:00			`public export`
			`traverse : Applicative m =>`
			`(f to -> m (g to)) -> Subst f from to -> m (Subst g from to)`
			`traverse f (Shift by) = pure $ Shift by`
			`traverse f (t ::: th) = [\|f t !::: traverse f th\|]`

			`-- not in terms of traverse because this map can maintain laziness better`
some syntax stuff 2021-07-20 16:05:19 -04:00			`public export`
			`map : (f to -> g to) -> Subst f from to -> Subst g from to`
			`map f (Shift by) = Shift by`
			`map f (t ::: th) = f t ::: map f th`


			`public export %inline`
Replace subst overloading with interfaces too (mostly) 2023-02-20 16:22:23 -05:00			`push : CanSubstSelf f => Subst f from to -> Subst f (S from) (S to)`
some syntax stuff 2021-07-20 16:05:19 -04:00			`push th = fromVar VZ ::: (th . shift 1)`

ScopeTerms that can bind multiple vars 2023-01-22 21:22:50 -05:00			`-- [fixme] a better way to do this?`
			`public export`
Replace subst overloading with interfaces too (mostly) 2023-02-20 16:22:23 -05:00			`pushN : CanSubstSelf f => (s : Nat) ->`
ScopeTerms that can bind multiple vars 2023-01-22 21:22:50 -05:00			`Subst f from to -> Subst f (s + from) (s + to)`
			`pushN 0 th = th`
			`pushN (S s) th =`
			`rewrite plusSuccRightSucc s from in`
			`rewrite plusSuccRightSucc s to in`
			`pushN s $ fromVar VZ ::: (th . shift 1)`

add context stuff 2021-09-09 17:56:10 -04:00			`public export`
			`drop1 : Subst f (S from) to -> Subst f from to`
oops Shift.drop1 and ssDown were the same 2022-06-24 05:28:25 -04:00			`drop1 (Shift by) = Shift $ ssDown by`
add context stuff 2021-09-09 17:56:10 -04:00			`drop1 (t ::: th) = th`

some syntax stuff 2021-07-20 16:05:19 -04:00
pair stuff 2023-01-26 13:54:46 -05:00			`public export`
use a SnocVect for subN 2023-03-26 10:09:47 -04:00			`fromSnocVect : SnocVect s (f n) -> Subst f (s + n) n`
			`fromSnocVect [<] = id`
			`fromSnocVect (xs :< x) = x ::: fromSnocVect xs`
pair stuff 2023-01-26 13:54:46 -05:00
add Subst.one 2022-02-26 19:46:44 -05:00			`public export %inline`
			`one : f n -> Subst f (S n) n`
use a SnocVect for subN 2023-03-26 10:09:47 -04:00			`one x = fromSnocVect [< x]`
add Subst.one 2022-02-26 19:46:44 -05:00

add source locations to inner syntax 2023-05-01 21:06:25 -04:00			`\|\|\| whether two substitutions with the same codomain have the same shape`
			`\|\|\| (the same number of terms and the same shift at the end). if so, they`
			`\|\|\| also have the same domain`
refactor core syntax slightly to derive Eq/Show add a new `WithSubst tm env to` record that packages a `tm from` with a `Subst env from to`, and write instances for just that. the rest of the AST can be derived 2023-04-27 15:37:20 -04:00			`export`
add source locations to inner syntax 2023-05-01 21:06:25 -04:00			`cmpShape : Subst env from1 to -> Subst env from2 to ->`
			`Either Ordering (from1 = from2)`
			`cmpShape (Shift by) (Shift bz) = cmpLen by bz`
			`cmpShape (Shift _) (_ ::: _) = Left LT`
			`cmpShape (_ ::: _) (Shift _) = Left GT`
			`cmpShape (_ ::: th) (_ ::: ph) = cong S <$> cmpShape th ph`
refactor core syntax slightly to derive Eq/Show add a new `WithSubst tm env to` record that packages a `tm from` with a `Subst env from to`, and write instances for just that. the rest of the AST can be derived 2023-04-27 15:37:20 -04:00

			`public export`
			`record WithSubst tm env n where`
			`constructor Sub`
			`term : tm from`
			`subst : Lazy (Subst env from n)`

			`export`
add source locations to inner syntax 2023-05-01 21:06:25 -04:00			`(Eq (env n), forall n. Eq (tm n)) => Eq (WithSubst tm env n) where`
refactor core syntax slightly to derive Eq/Show add a new `WithSubst tm env to` record that packages a `tm from` with a `Subst env from to`, and write instances for just that. the rest of the AST can be derived 2023-04-27 15:37:20 -04:00			`Sub t1 s1 == Sub t2 s2 =`
add source locations to inner syntax 2023-05-01 21:06:25 -04:00			`case cmpShape s1 s2 of`
			`Left _ => False`
			`Right Refl => t1 == t2 && s1 == s2`

			`export`
			`(Ord (env n), forall n. Ord (tm n)) => Ord (WithSubst tm env n) where`
			Sub t1 s1 `compare` Sub t2 s2 =
			`case cmpShape s1 s2 of`
			`Left o => o`
			`Right Refl => compare (t1, s1) (t2, s2)`
refactor core syntax slightly to derive Eq/Show add a new `WithSubst tm env to` record that packages a `tm from` with a `Subst env from to`, and write instances for just that. the rest of the AST can be derived 2023-04-27 15:37:20 -04:00
			`export %hint`
add source locations to inner syntax 2023-05-01 21:06:25 -04:00			`ShowWithSubst : (Show (env n), forall n. Show (tm n)) =>`
refactor core syntax slightly to derive Eq/Show add a new `WithSubst tm env to` record that packages a `tm from` with a `Subst env from to`, and write instances for just that. the rest of the AST can be derived 2023-04-27 15:37:20 -04:00			`Show (WithSubst tm env n)`
			`ShowWithSubst = deriveShow`