quox/lib/Quox/Syntax/DimEq.idr

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module Quox.Syntax.DimEq
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import public Quox.Var
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import public Quox.Syntax.Dim
import public Quox.Syntax.Subst
import public Quox.Context
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import Quox.Pretty
import Quox.Name
import Quox.FreeVars
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import Data.Maybe
import Data.Nat
import Data.DPair
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import Data.Fun.Graph
import Decidable.Decidable
import Decidable.Equality
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import Derive.Prelude
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%language ElabReflection
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%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
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%runElab deriveIndexed "DimEq" [Eq, Ord, Show]
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public export
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consistent : DimEq d -> Bool
consistent ZeroIsOne = False
consistent (C eqs) = True
public export
data IfConsistent : DimEq d -> Type -> Type where
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Nothing : IfConsistent ZeroIsOne a
Just : a -> IfConsistent (C eqs) a
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export
Functor (IfConsistent eqs) where
map f Nothing = Nothing
map f (Just x) = Just (f x)
export
Foldable (IfConsistent eqs) where
foldr f z Nothing = z
foldr f z (Just x) = f x z
export
Traversable (IfConsistent eqs) where
traverse f Nothing = pure Nothing
traverse f (Just x) = Just <$> f x
public export
ifConsistent : Applicative f => (eqs : DimEq d) -> f a -> f (IfConsistent eqs a)
ifConsistent ZeroIsOne act = pure Nothing
ifConsistent (C _) act = Just <$> act
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public export
toMaybe : IfConsistent eqs a -> Maybe a
toMaybe Nothing = Nothing
toMaybe (Just x) = Just x
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export
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fromGround' : BContext d -> Context' DimConst d -> DimEq' d
fromGround' [<] [<] = [<]
fromGround' (xs :< x) (ctx :< e) = fromGround' xs ctx :< Just (K e x.loc)
export
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fromGround : BContext d -> Context' DimConst d -> DimEq d
fromGround = C .: fromGround'
public export %inline
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zeroEq : DimEq 0
zeroEq = C [<]
public export %inline
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new' : {d : Nat} -> DimEq' d
new' {d = 0} = [<]
new' {d = S d} = new' :< Nothing
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public export %inline
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new : {d : Nat} -> DimEq d
new = C new'
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public export %inline
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get' : DimEq' d -> Var d -> Maybe (Dim d)
get' = getWith $ \p, by => map (// by) p
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public export %inline
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getVar : DimEq' d -> Var d -> Loc -> Dim d
getVar eqs i loc = fromMaybe (B i loc) $ get' eqs i
public export %inline
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getShift' : Shift len out -> DimEq' len -> Var len -> Maybe (Dim out)
getShift' = getShiftWith $ \p, by => map (// by) p
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public export %inline
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get : DimEq' d -> Dim d -> Dim d
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get _ (K e loc) = K e loc
get eqs (B i loc) = getVar eqs i loc
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public export %inline
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equal : DimEq d -> (p, q : Dim d) -> Bool
equal ZeroIsOne p q = True
equal (C eqs) p q = get eqs p == get eqs q
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infixl 7 :<?
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export %inline
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(:<?) : DimEq d -> Maybe (Dim d) -> DimEq (S d)
ZeroIsOne :<? d = ZeroIsOne
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C eqs :<? d = C $ eqs :< map (get eqs) d
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private %inline
ifVar : Var d -> Dim d -> Maybe (Dim d) -> Maybe (Dim d)
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ifVar i p = map $ \q => if q == B i noLoc then p else q
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-- (using decEq instead of (==) because of the proofs below)
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private %inline
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checkConst : (e, f : DimConst) -> (eqs : Lazy (DimEq' d)) -> DimEq d
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checkConst e f eqs = if isYes $ e `decEq` f then C eqs else ZeroIsOne
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export
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setConst : Var d -> DimConst -> Loc -> DimEq' d -> DimEq d
setConst VZ e loc (eqs :< Nothing) =
C $ eqs :< Just (K e loc)
setConst VZ e _ (eqs :< Just (K f loc)) =
checkConst e f $ eqs :< Just (K f loc)
setConst VZ e loc (eqs :< Just (B i _)) =
setConst i e loc eqs :<? Just (K e loc)
setConst (VS i) e loc (eqs :< p) =
setConst i e loc eqs :<? ifVar i (K e loc) p
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mutual
private
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setVar' : (i, j : Var d) -> (0 _ : i `LT` j) -> Loc -> DimEq' d -> DimEq d
setVar' VZ (VS i) LTZ loc (eqs :< Nothing) =
C eqs :<? Just (B i loc)
setVar' VZ (VS i) LTZ loc (eqs :< Just (K e eloc)) =
setConst i e loc eqs :<? Just (K e eloc)
setVar' VZ (VS i) LTZ loc (eqs :< Just (B j jloc)) =
setVar i j loc jloc eqs :<? Just (if j > i then B j jloc else B i loc)
setVar' (VS i) (VS j) (LTS lt) loc (eqs :< p) =
setVar' i j lt loc eqs :<? ifVar i (B j loc) p
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export %inline
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setVar : (i, j : Var d) -> Loc -> Loc -> DimEq' d -> DimEq d
setVar i j li lj eqs with (compareP i j) | (compare i.nat j.nat)
setVar i j li lj eqs | IsLT lt | LT = setVar' i j lt lj eqs
setVar i i li lj eqs | IsEQ | EQ = C eqs
setVar i j li lj eqs | IsGT gt | GT = setVar' j i gt li eqs
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export %inline
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set : (p, q : Dim d) -> DimEq d -> DimEq d
set _ _ ZeroIsOne = ZeroIsOne
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set (K e eloc) (K f floc) (C eqs) = checkConst e f eqs
set (K e eloc) (B i iloc) (C eqs) = setConst i e eloc eqs
set (B i iloc) (K e eloc) (C eqs) = setConst i e eloc eqs
set (B i iloc) (B j jloc) (C eqs) = setVar i j iloc jloc eqs
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public export %inline
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Split : Nat -> Type
Split d = (DimEq' d, DSubst (S d) d)
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export %inline
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split1 : DimConst -> Loc -> DimEq' (S d) -> Maybe (Split d)
split1 e loc eqs = case setConst VZ e loc eqs of
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ZeroIsOne => Nothing
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C (eqs :< _) => Just (eqs, K e loc ::: id)
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export %inline
split1' : DimConst -> Loc -> DimEq' (S d) -> List (Split d)
split1' e loc eqs = toList $ split1 e loc eqs
export %inline
split : Loc -> DimEq' (S d) -> Bool -> List (Split d)
split loc eqs False = split1' Zero loc eqs
split loc eqs True = split1' Zero loc eqs <+> split1' One loc eqs
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export
splits' : Loc -> DimEq' d -> FreeVars d -> List (DSubst d 0)
splits' _ [<] _ = [id]
splits' loc eqs@(_ :< _) us = do
let (us, u) = uncons us
(eqs', th) <- split loc eqs u
ph <- splits' loc eqs' us
pure $ th . ph
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||| the Loc is put into each of the DimConsts
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export %inline
splits : Loc -> DimEq d -> FreeVars d -> List (DSubst d 0)
splits _ ZeroIsOne _ = []
splits loc (C eqs) fvs = splits' loc eqs fvs
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private
0 newGetShift : (d : Nat) -> (i : Var d) -> (by : Shift d d') ->
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getShift' by (new' {d}) i = Nothing
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newGetShift (S d) VZ by = Refl
newGetShift (S d) (VS i) by = newGetShift d i (ssDown by)
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export
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0 newGet' : (d : Nat) -> (i : Var d) -> get' (new' {d}) i = Nothing
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newGet' d i = newGetShift d i SZ
export
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0 newGet : (d : Nat) -> (p : Dim d) -> get (new' {d}) p = p
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newGet d (K e _) = Refl
newGet d (B i _) = rewrite newGet' d i in Refl
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export
0 setSelf : (p : Dim d) -> (eqs : DimEq d) -> set p p eqs = eqs
setSelf p ZeroIsOne = Refl
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setSelf (K Zero _) (C eqs) = Refl
setSelf (K One _) (C eqs) = Refl
setSelf (B i _) (C eqs) with (compareP i i) | (compare i.nat i.nat)
_ | IsLT lt | LT = absurd lt
_ | IsEQ | EQ = Refl
_ | IsGT gt | GT = absurd gt
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private %inline
dimEqPrec : BContext d -> Maybe (DimEq' d) -> PPrec
dimEqPrec vars eqs =
if length vars <= 1 && maybe True null eqs then Arg else Outer
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private
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prettyDVars' : {opts : _} -> BContext d -> Eff Pretty (SnocList (Doc opts))
prettyDVars' = traverse prettyDBind . toSnocList'
export
prettyDVars : {opts : _} -> BContext d -> Eff Pretty (Doc opts)
prettyDVars vars =
parensIfM (dimEqPrec vars Nothing) $
fillSeparateTight !commaD $ !(prettyDVars' vars)
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private
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prettyCst : {opts : _} -> BContext d -> Dim d -> Dim d -> Eff Pretty (Doc opts)
prettyCst dnames p q =
hsep <$> sequence [prettyDim dnames p, cstD, prettyDim dnames q]
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private
prettyCsts : {opts : _} -> BContext d -> DimEq' d ->
Eff Pretty (SnocList (Doc opts))
prettyCsts [<] [<] = pure [<]
prettyCsts dnames (eqs :< Nothing) = prettyCsts (tail dnames) eqs
prettyCsts dnames (eqs :< Just q) =
[|prettyCsts (tail dnames) eqs :< prettyCst dnames (BV 0 noLoc) (weakD 1 q)|]
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export
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prettyDimEq' : {opts : _} -> BContext d -> DimEq' d -> Eff Pretty (Doc opts)
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prettyDimEq' vars eqs = do
vars' <- prettyDVars' vars
eqs' <- prettyCsts vars eqs
parensIfM (dimEqPrec vars (Just eqs)) $
fillSeparateTight !commaD $ vars' ++ eqs'
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export
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prettyDimEq : {opts : _} -> BContext d -> DimEq d -> Eff Pretty (Doc opts)
prettyDimEq dnames ZeroIsOne = do
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vars <- prettyDVars' dnames
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cst <- prettyCst [<] (K Zero noLoc) (K One noLoc)
pure $ separateTight !commaD $ vars :< cst
prettyDimEq dnames (C eqs) = prettyDimEq' dnames eqs
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public export
wf' : DimEq' d -> Bool
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wf' [<] = True
wf' (eqs :< Nothing) = wf' eqs
wf' (eqs :< Just (K e _)) = wf' eqs
wf' (eqs :< Just (B i _)) = isNothing (get' eqs i) && wf' eqs
public export
wf : DimEq d -> Bool
wf ZeroIsOne = True
wf (C eqs) = wf' eqs