quox/lib/Quox/Syntax/DimEq.idr

module Quox.Syntax.DimEq

import public Quox.Syntax.Var
import public Quox.Syntax.Dim
import public Quox.Syntax.Subst
import public Quox.Context

import Data.Maybe
import Data.Nat
import Data.DPair
import Data.Fun.Graph
import Decidable.Decidable
import Decidable.Equality

%default total


public export
DimEq' : Nat -> Type
DimEq' = Context (Maybe . Dim)


public export
data DimEq : Nat -> Type where
  ZeroIsOne : DimEq d
  C         : (eqs : DimEq' d) -> DimEq d

%name DimEq eqs


export
zeroEq : DimEq 0
zeroEq = C [<]

export
new' : {d : Nat} -> DimEq' d
new' {d = 0}   = [<]
new' {d = S d} = new' :< Nothing

export %inline
new : {d : Nat} -> DimEq d
new = C new'


private %inline
shiftMay : Maybe (Dim from) -> Shift from to -> Maybe (Dim to)
shiftMay p by = map (// by) p

export %inline
get' : DimEq' d -> Var d -> Maybe (Dim d)
get' = getWith shiftMay

private %inline
getShift' : Shift len out -> DimEq' len -> Var len -> Maybe (Dim out)
getShift' = getShiftWith shiftMay

export %inline
get : DimEq' d -> Dim d -> Dim d
get _   (K e) = K e
get eqs (B i) = fromMaybe (B i) $ get' eqs i


export %inline
equal : DimEq d -> (p, q : Dim d) -> Bool
equal ZeroIsOne p q = True
equal (C eqs)   p q = get eqs p == get eqs q


infixl 5 :<?
export %inline
(:<?) : DimEq d -> Maybe (Dim d) -> DimEq (S d)
ZeroIsOne :<? d = ZeroIsOne
C eqs     :<? d = C $ eqs :< d


private %inline
ifVar : Var d -> Dim d -> Maybe (Dim d) -> Maybe (Dim d)
ifVar i p = map $ \q => if isYes $ q `decEq` B i then p else q

private %inline
checkConst : (e, f : DimConst) -> (eqs : Lazy (DimEq' d)) -> DimEq d
checkConst Zero Zero eqs = C eqs
checkConst One  One  eqs = C eqs
checkConst _    _    _   = ZeroIsOne

export
setConst : Var d -> DimConst -> DimEq' d -> DimEq d
setConst VZ e (eqs :< Nothing)    = C $ eqs :< Just (K e)
setConst VZ e (eqs :< Just (K f)) = checkConst e f $ eqs :< Just (K f)
setConst VZ e (eqs :< Just (B i)) = setConst i e eqs :<? Just (K e)
setConst (VS i) e (eqs :< p)      = setConst i e eqs :<? ifVar i (K e) p

mutual
  private
  setVar' : (i, j : Var d) -> i `LT` j -> DimEq' d -> DimEq d
  setVar' VZ (VS i) LTZ (eqs :< Nothing) =
    C $ eqs :< Just (B i)
  setVar' VZ (VS i) LTZ (eqs :< Just (K e)) =
    setConst i e eqs :<? Just (K e)
  setVar' VZ (VS i) LTZ (eqs :< Just (B j)) =
    setVar i j eqs :<? Just (B (max i j))
  setVar' (VS i) (VS j) (LTS lt) (eqs :< p) =
    setVar' i j lt eqs :<? ifVar i (B j) p

  export %inline
  setVar : (i, j : Var d) -> DimEq' d -> DimEq d
  setVar i j eqs with (compareP i j)
    _              | IsLT lt = setVar' i j lt eqs
    setVar i i eqs | IsEQ    = C eqs
    _              | IsGT gt = setVar' j i gt eqs


export %inline
set : (p, q : Dim d) -> DimEq d -> DimEq d
set _ _ ZeroIsOne = ZeroIsOne
set (K e) (K f) (C eqs) = checkConst e f eqs
set (K e) (B i) (C eqs) = setConst i e eqs
set (B i) (K e) (C eqs) = setConst i e eqs
set (B i) (B j) (C eqs) = setVar   i j eqs


public export %inline
Split : Nat -> Type
Split d = (DimEq' d, DSubst (S d) d)

export %inline
split1 : DimConst -> DimEq' (S d) -> Maybe (Split d)
split1 e eqs = case setConst VZ e eqs of
  ZeroIsOne    => Nothing
  C (eqs :< _) => Just (eqs, K e ::: id)

export %inline
split : DimEq' (S d) -> List (Split d)
split eqs = toList (split1 Zero eqs) <+> toList (split1 One eqs)


export
splits' : DimEq' d -> List (DSubst d 0)
splits' [<]          = [id]
splits' eqs@(_ :< _) = [th . ph | (eqs', th) <- split eqs, ph <- splits' eqs']

export %inline
splits : DimEq d -> List (DSubst d 0)
splits ZeroIsOne = []
splits (C eqs)   = splits' eqs


private
0 newGetShift : (d : Nat) -> (i : Var d) -> (by : Shift d d') ->
                getShift' by (new' {d}) i = Nothing
newGetShift (S d) VZ     by = Refl
newGetShift (S d) (VS i) by = newGetShift d i (drop1 by)

export
0 newGet' : (d : Nat) -> (i : Var d) -> get' (new' {d}) i = Nothing
newGet' d i = newGetShift d i SZ

export
0 newGet : (d : Nat) -> (p : Dim d) -> get (new' {d}) p = p
newGet d (K e) = Refl
newGet d (B i) = rewrite newGet' d i in Refl


export
0 setSelf : (p : Dim d) -> (eqs : DimEq d) -> set p p eqs = eqs
setSelf p ZeroIsOne = Refl
setSelf (K Zero) (C eqs) = Refl
setSelf (K One)  (C eqs) = Refl
setSelf (B i)    (C eqs) = rewrite comparePSelf i in Refl


-- [todo] "well formed" dimeqs
-- [todo] operations maintain well-formedness
-- [todo] if 'Wf eqs' then 'equal eqs' is an equivalence
-- [todo] 'set' never breaks existing equalities
add DimEq 2021-12-23 13:05:00 -05:00			`module Quox.Syntax.DimEq`

			`import public Quox.Syntax.Var`
			`import public Quox.Syntax.Dim`
			`import public Quox.Syntax.Subst`
			`import public Quox.Context`

			`import Data.Maybe`
			`import Data.Nat`
			`import Data.DPair`
some DimEqs properties 2022-02-26 19:45:10 -05:00			`import Data.Fun.Graph`
			`import Decidable.Decidable`
			`import Decidable.Equality`
add DimEq 2021-12-23 13:05:00 -05:00
			`%default total`


			`public export`
			`DimEq' : Nat -> Type`
			`DimEq' = Context (Maybe . Dim)`


			`public export`
			`data DimEq : Nat -> Type where`
			`ZeroIsOne : DimEq d`
			`C : (eqs : DimEq' d) -> DimEq d`

			`%name DimEq eqs`


add DimEqs.zeroEq 2022-02-26 19:31:52 -05:00			`export`
			`zeroEq : DimEq 0`
			`zeroEq = C [<]`

add DimEq 2021-12-23 13:05:00 -05:00			`export`
typechecker stuff 2022-04-23 18:21:30 -04:00			`new' : {d : Nat} -> DimEq' d`
			`new' {d = 0} = [<]`
			`new' {d = S d} = new' :< Nothing`
add DimEq 2021-12-23 13:05:00 -05:00
add %inlines 2022-02-26 19:30:23 -05:00			`export %inline`
typechecker stuff 2022-04-23 18:21:30 -04:00			`new : {d : Nat} -> DimEq d`
			`new = C new'`
add DimEq 2021-12-23 13:05:00 -05:00

add DimEqs.get etc 2022-02-26 19:33:52 -05:00			`private %inline`
			`shiftMay : Maybe (Dim from) -> Shift from to -> Maybe (Dim to)`
			`shiftMay p by = map (// by) p`

			`export %inline`
			`get' : DimEq' d -> Var d -> Maybe (Dim d)`
			`get' = getWith shiftMay`

			`private %inline`
			`getShift' : Shift len out -> DimEq' len -> Var len -> Maybe (Dim out)`
			`getShift' = getShiftWith shiftMay`

			`export %inline`
add DimEq 2021-12-23 13:05:00 -05:00			`get : DimEq' d -> Dim d -> Dim d`
			`get _ (K e) = K e`
add DimEqs.get etc 2022-02-26 19:33:52 -05:00			`get eqs (B i) = fromMaybe (B i) $ get' eqs i`
add DimEq 2021-12-23 13:05:00 -05:00
add %inlines 2022-02-26 19:30:23 -05:00
			`export %inline`
add DimEq 2021-12-23 13:05:00 -05:00			`equal : DimEq d -> (p, q : Dim d) -> Bool`
			`equal ZeroIsOne p q = True`
			`equal (C eqs) p q = get eqs p == get eqs q`


			`infixl 5 :<?`
add %inlines 2022-02-26 19:30:23 -05:00			`export %inline`
add DimEq 2021-12-23 13:05:00 -05:00			`(:<?) : DimEq d -> Maybe (Dim d) -> DimEq (S d)`
			`ZeroIsOne :<? d = ZeroIsOne`
			`C eqs :<? d = C $ eqs :< d`

formatting etc 2022-02-26 19:28:19 -05:00
			`private %inline`
			`ifVar : Var d -> Dim d -> Maybe (Dim d) -> Maybe (Dim d)`
			ifVar i p = map $ \q => if isYes $ q `decEq` B i then p else q

			`private %inline`
add DimEq 2021-12-23 13:05:00 -05:00			`checkConst : (e, f : DimConst) -> (eqs : Lazy (DimEq' d)) -> DimEq d`
			`checkConst Zero Zero eqs = C eqs`
			`checkConst One One eqs = C eqs`
			`checkConst _ _ _ = ZeroIsOne`

			`export`
			`setConst : Var d -> DimConst -> DimEq' d -> DimEq d`
			`setConst VZ e (eqs :< Nothing) = C $ eqs :< Just (K e)`
			`setConst VZ e (eqs :< Just (K f)) = checkConst e f $ eqs :< Just (K f)`
			`setConst VZ e (eqs :< Just (B i)) = setConst i e eqs :<? Just (K e)`
formatting etc 2022-02-26 19:28:19 -05:00			`setConst (VS i) e (eqs :< p) = setConst i e eqs :<? ifVar i (K e) p`
add DimEq 2021-12-23 13:05:00 -05:00
			`mutual`
			`private`
			setVar' : (i, j : Var d) -> i `LT` j -> DimEq' d -> DimEq d
formatting etc 2022-02-26 19:28:19 -05:00			`setVar' VZ (VS i) LTZ (eqs :< Nothing) =`
			`C $ eqs :< Just (B i)`
			`setVar' VZ (VS i) LTZ (eqs :< Just (K e)) =`
			`setConst i e eqs :<? Just (K e)`
			`setVar' VZ (VS i) LTZ (eqs :< Just (B j)) =`
			`setVar i j eqs :<? Just (B (max i j))`
add DimEq 2021-12-23 13:05:00 -05:00			`setVar' (VS i) (VS j) (LTS lt) (eqs :< p) =`
formatting etc 2022-02-26 19:28:19 -05:00			`setVar' i j lt eqs :<? ifVar i (B j) p`
add DimEq 2021-12-23 13:05:00 -05:00
add %inlines 2022-02-26 19:30:23 -05:00			`export %inline`
add DimEq 2021-12-23 13:05:00 -05:00			`setVar : (i, j : Var d) -> DimEq' d -> DimEq d`
formatting etc 2022-02-26 19:28:19 -05:00			`setVar i j eqs with (compareP i j)`
			`_ \| IsLT lt = setVar' i j lt eqs`
			`setVar i i eqs \| IsEQ = C eqs`
			`_ \| IsGT gt = setVar' j i gt eqs`
add DimEq 2021-12-23 13:05:00 -05:00

add %inlines 2022-02-26 19:30:23 -05:00			`export %inline`
add DimEq 2021-12-23 13:05:00 -05:00			`set : (p, q : Dim d) -> DimEq d -> DimEq d`
			`set _ _ ZeroIsOne = ZeroIsOne`
			`set (K e) (K f) (C eqs) = checkConst e f eqs`
			`set (K e) (B i) (C eqs) = setConst i e eqs`
			`set (B i) (K e) (C eqs) = setConst i e eqs`
			`set (B i) (B j) (C eqs) = setVar i j eqs`


add %inlines 2022-02-26 19:30:23 -05:00			`public export %inline`
add DimEq 2021-12-23 13:05:00 -05:00			`Split : Nat -> Type`
			`Split d = (DimEq' d, DSubst (S d) d)`

add %inlines 2022-02-26 19:30:23 -05:00			`export %inline`
add DimEq 2021-12-23 13:05:00 -05:00			`split1 : DimConst -> DimEq' (S d) -> Maybe (Split d)`
			`split1 e eqs = case setConst VZ e eqs of`
			`ZeroIsOne => Nothing`
			`C (eqs :< _) => Just (eqs, K e ::: id)`

add %inlines 2022-02-26 19:30:23 -05:00			`export %inline`
add DimEq 2021-12-23 13:05:00 -05:00			`split : DimEq' (S d) -> List (Split d)`
			`split eqs = toList (split1 Zero eqs) <+> toList (split1 One eqs)`


			`export`
			`splits' : DimEq' d -> List (DSubst d 0)`
formatting etc 2022-02-26 19:28:19 -05:00			`splits' [<] = [id]`
			`splits' eqs@(_ :< _) = [th . ph \| (eqs', th) <- split eqs, ph <- splits' eqs']`
add DimEq 2021-12-23 13:05:00 -05:00
add %inlines 2022-02-26 19:30:23 -05:00			`export %inline`
add DimEq 2021-12-23 13:05:00 -05:00			`splits : DimEq d -> List (DSubst d 0)`
			`splits ZeroIsOne = []`
formatting etc 2022-02-26 19:28:19 -05:00			`splits (C eqs) = splits' eqs`
some DimEqs properties 2022-02-26 19:45:10 -05:00

			`private`
			`0 newGetShift : (d : Nat) -> (i : Var d) -> (by : Shift d d') ->`
typechecker stuff 2022-04-23 18:21:30 -04:00			`getShift' by (new' {d}) i = Nothing`
some DimEqs properties 2022-02-26 19:45:10 -05:00			`newGetShift (S d) VZ by = Refl`
			`newGetShift (S d) (VS i) by = newGetShift d i (drop1 by)`

			`export`
typechecker stuff 2022-04-23 18:21:30 -04:00			`0 newGet' : (d : Nat) -> (i : Var d) -> get' (new' {d}) i = Nothing`
some DimEqs properties 2022-02-26 19:45:10 -05:00			`newGet' d i = newGetShift d i SZ`

			`export`
typechecker stuff 2022-04-23 18:21:30 -04:00			`0 newGet : (d : Nat) -> (p : Dim d) -> get (new' {d}) p = p`
some DimEqs properties 2022-02-26 19:45:10 -05:00			`newGet d (K e) = Refl`
			`newGet d (B i) = rewrite newGet' d i in Refl`


			`export`
			`0 setSelf : (p : Dim d) -> (eqs : DimEq d) -> set p p eqs = eqs`
			`setSelf p ZeroIsOne = Refl`
			`setSelf (K Zero) (C eqs) = Refl`
			`setSelf (K One) (C eqs) = Refl`
			`setSelf (B i) (C eqs) = rewrite comparePSelf i in Refl`


			`-- [todo] "well formed" dimeqs`
			`-- [todo] operations maintain well-formedness`
			`-- [todo] if 'Wf eqs' then 'equal eqs' is an equivalence`
			`-- [todo] 'set' never breaks existing equalities`