{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE DeriveFoldable #-}
{-# LANGUAGE DeriveFunctor #-}
{-# LANGUAGE DeriveGeneric #-}
{-# LANGUAGE DeriveTraversable #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE NoMonomorphismRestriction #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE UndecidableInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE PatternGuards #-}
{-# LANGUAGE PatternSynonyms #-}
module Language.Fixpoint.Types.Refinements (
SymConst (..)
, Constant (..)
, Bop (..)
, Brel (..)
, Expr (..), Pred
, GradInfo (..)
, pattern PTrue, pattern PTop, pattern PFalse, pattern EBot
, pattern ETimes, pattern ERTimes, pattern EDiv, pattern ERDiv
, pattern EEq
, KVar (..)
, Subst (..)
, KVSub (..)
, Reft (..)
, SortedReft (..)
, eVar, elit
, eProp
, pAnd, pOr, pIte
, (&.&), (|.|)
, pExist
, mkEApp
, mkProp
, intKvar
, vv_
, Expression (..)
, Predicate (..)
, Subable (..)
, Reftable (..)
, reft
, trueSortedReft
, trueReft, falseReft
, exprReft
, notExprReft
, uexprReft
, symbolReft
, usymbolReft
, propReft
, predReft
, reftPred
, reftBind
, isFunctionSortedReft, functionSort
, isNonTrivial
, isContraPred
, isTautoPred
, isSingletonExpr
, isSingletonReft
, isFalse
, flattenRefas
, conjuncts
, eApps
, eAppC
, splitEApp
, splitPAnd
, reftConjuncts
, mapPredReft
, pprintReft
, debruijnIndex
, pGAnds, pGAnd
, HasGradual (..)
, srcGradInfo
) where
import Prelude hiding ((<>))
import qualified Data.Binary as B
import Data.Generics (Data)
import Data.Typeable (Typeable)
import Data.Hashable
import GHC.Generics (Generic)
import Data.List (foldl', partition)
import Data.String
import Data.Text (Text)
import qualified Data.Text as T
import qualified Data.HashMap.Strict as M
import Control.DeepSeq
import Data.Maybe (isJust)
import Language.Fixpoint.Types.Names
import Language.Fixpoint.Types.PrettyPrint
import Language.Fixpoint.Types.Spans
import Language.Fixpoint.Types.Sorts
import Language.Fixpoint.Misc
import Text.PrettyPrint.HughesPJ.Compat
instance NFData KVar
instance NFData SrcSpan
instance NFData Subst
instance NFData GradInfo
instance NFData Constant
instance NFData SymConst
instance NFData Brel
instance NFData Bop
instance NFData Expr
instance NFData Reft
instance NFData SortedReft
instance (Hashable k, Eq k, B.Binary k, B.Binary v) => B.Binary (M.HashMap k v) where
put :: HashMap k v -> Put
put = [(k, v)] -> Put
forall t. Binary t => t -> Put
B.put ([(k, v)] -> Put)
-> (HashMap k v -> [(k, v)]) -> HashMap k v -> Put
forall b c a. (b -> c) -> (a -> b) -> a -> c
. HashMap k v -> [(k, v)]
forall k v. HashMap k v -> [(k, v)]
M.toList
get :: Get (HashMap k v)
get = [(k, v)] -> HashMap k v
forall k v. (Eq k, Hashable k) => [(k, v)] -> HashMap k v
M.fromList ([(k, v)] -> HashMap k v) -> Get [(k, v)] -> Get (HashMap k v)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Get [(k, v)]
forall t. Binary t => Get t
B.get
instance (Eq a, Hashable a, B.Binary a) => B.Binary (TCEmb a)
instance B.Binary SrcSpan
instance B.Binary KVar
instance B.Binary Subst
instance B.Binary GradInfo
instance B.Binary Constant
instance B.Binary SymConst
instance B.Binary Brel
instance B.Binary Bop
instance B.Binary Expr
instance B.Binary Reft
instance B.Binary SortedReft
reftConjuncts :: Reft -> [Reft]
reftConjuncts :: Reft -> [Reft]
reftConjuncts (Reft (Symbol
v, Expr
ra)) = [(Symbol, Expr) -> Reft
Reft (Symbol
v, Expr
ra') | Expr
ra' <- [Expr]
ras']
where
ras' :: [Expr]
ras' = if [Expr] -> Bool
forall (t :: * -> *) a. Foldable t => t a -> Bool
null [Expr]
ps then [Expr]
ks else (([Expr] -> Expr
pAnd [Expr]
ps) Expr -> [Expr] -> [Expr]
forall a. a -> [a] -> [a]
: [Expr]
ks)
([Expr]
ks, [Expr]
ps) = (Expr -> Bool) -> [Expr] -> ([Expr], [Expr])
forall a. (a -> Bool) -> [a] -> ([a], [a])
partition (\Expr
p -> Expr -> Bool
isKvar Expr
p Bool -> Bool -> Bool
|| Expr -> Bool
forall a. HasGradual a => a -> Bool
isGradual Expr
p) ([Expr] -> ([Expr], [Expr])) -> [Expr] -> ([Expr], [Expr])
forall a b. (a -> b) -> a -> b
$ Expr -> [Expr]
refaConjuncts Expr
ra
isKvar :: Expr -> Bool
isKvar :: Expr -> Bool
isKvar (PKVar KVar
_ Subst
_) = Bool
True
isKvar Expr
_ = Bool
False
class HasGradual a where
isGradual :: a -> Bool
gVars :: a -> [KVar]
gVars a
_ = []
ungrad :: a -> a
ungrad a
x = a
x
instance HasGradual Expr where
isGradual :: Expr -> Bool
isGradual (PGrad {}) = Bool
True
isGradual (PAnd [Expr]
xs) = (Expr -> Bool) -> [Expr] -> Bool
forall (t :: * -> *) a. Foldable t => (a -> Bool) -> t a -> Bool
any Expr -> Bool
forall a. HasGradual a => a -> Bool
isGradual [Expr]
xs
isGradual Expr
_ = Bool
False
gVars :: Expr -> [KVar]
gVars (PGrad KVar
k Subst
_ GradInfo
_ Expr
_) = [KVar
k]
gVars (PAnd [Expr]
xs) = (Expr -> [KVar]) -> [Expr] -> [KVar]
forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b]
concatMap Expr -> [KVar]
forall a. HasGradual a => a -> [KVar]
gVars [Expr]
xs
gVars Expr
_ = []
ungrad :: Expr -> Expr
ungrad (PGrad {}) = Expr
PTrue
ungrad (PAnd [Expr]
xs) = [Expr] -> Expr
PAnd (Expr -> Expr
forall a. HasGradual a => a -> a
ungrad (Expr -> Expr) -> [Expr] -> [Expr]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> [Expr]
xs )
ungrad Expr
e = Expr
e
instance HasGradual Reft where
isGradual :: Reft -> Bool
isGradual (Reft (Symbol
_,Expr
r)) = Expr -> Bool
forall a. HasGradual a => a -> Bool
isGradual Expr
r
gVars :: Reft -> [KVar]
gVars (Reft (Symbol
_,Expr
r)) = Expr -> [KVar]
forall a. HasGradual a => a -> [KVar]
gVars Expr
r
ungrad :: Reft -> Reft
ungrad (Reft (Symbol
x,Expr
r)) = (Symbol, Expr) -> Reft
Reft(Symbol
x, Expr -> Expr
forall a. HasGradual a => a -> a
ungrad Expr
r)
instance HasGradual SortedReft where
isGradual :: SortedReft -> Bool
isGradual = Reft -> Bool
forall a. HasGradual a => a -> Bool
isGradual (Reft -> Bool) -> (SortedReft -> Reft) -> SortedReft -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. SortedReft -> Reft
sr_reft
gVars :: SortedReft -> [KVar]
gVars = Reft -> [KVar]
forall a. HasGradual a => a -> [KVar]
gVars (Reft -> [KVar]) -> (SortedReft -> Reft) -> SortedReft -> [KVar]
forall b c a. (b -> c) -> (a -> b) -> a -> c
. SortedReft -> Reft
sr_reft
ungrad :: SortedReft -> SortedReft
ungrad SortedReft
r = SortedReft
r {sr_reft :: Reft
sr_reft = Reft -> Reft
forall a. HasGradual a => a -> a
ungrad (SortedReft -> Reft
sr_reft SortedReft
r)}
refaConjuncts :: Expr -> [Expr]
refaConjuncts :: Expr -> [Expr]
refaConjuncts Expr
p = [Expr
p' | Expr
p' <- Expr -> [Expr]
conjuncts Expr
p, Bool -> Bool
not (Bool -> Bool) -> Bool -> Bool
forall a b. (a -> b) -> a -> b
$ Expr -> Bool
isTautoPred Expr
p']
newtype KVar = KV { KVar -> Symbol
kv :: Symbol }
deriving (KVar -> KVar -> Bool
(KVar -> KVar -> Bool) -> (KVar -> KVar -> Bool) -> Eq KVar
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: KVar -> KVar -> Bool
$c/= :: KVar -> KVar -> Bool
== :: KVar -> KVar -> Bool
$c== :: KVar -> KVar -> Bool
Eq, Eq KVar
Eq KVar
-> (KVar -> KVar -> Ordering)
-> (KVar -> KVar -> Bool)
-> (KVar -> KVar -> Bool)
-> (KVar -> KVar -> Bool)
-> (KVar -> KVar -> Bool)
-> (KVar -> KVar -> KVar)
-> (KVar -> KVar -> KVar)
-> Ord KVar
KVar -> KVar -> Bool
KVar -> KVar -> Ordering
KVar -> KVar -> KVar
forall a.
Eq a
-> (a -> a -> Ordering)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> a)
-> (a -> a -> a)
-> Ord a
min :: KVar -> KVar -> KVar
$cmin :: KVar -> KVar -> KVar
max :: KVar -> KVar -> KVar
$cmax :: KVar -> KVar -> KVar
>= :: KVar -> KVar -> Bool
$c>= :: KVar -> KVar -> Bool
> :: KVar -> KVar -> Bool
$c> :: KVar -> KVar -> Bool
<= :: KVar -> KVar -> Bool
$c<= :: KVar -> KVar -> Bool
< :: KVar -> KVar -> Bool
$c< :: KVar -> KVar -> Bool
compare :: KVar -> KVar -> Ordering
$ccompare :: KVar -> KVar -> Ordering
$cp1Ord :: Eq KVar
Ord, Typeable KVar
DataType
Constr
Typeable KVar
-> (forall (c :: * -> *).
(forall d b. Data d => c (d -> b) -> d -> c b)
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-> (forall (c :: * -> *).
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-> ((forall b. Data b => b -> b) -> KVar -> KVar)
-> (forall r r'.
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-> (forall r r'.
(r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> KVar -> r)
-> (forall u. (forall d. Data d => d -> u) -> KVar -> [u])
-> (forall u. Int -> (forall d. Data d => d -> u) -> KVar -> u)
-> (forall (m :: * -> *).
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(forall d. Data d => d -> m d) -> KVar -> m KVar)
-> (forall (m :: * -> *).
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(forall d. Data d => d -> m d) -> KVar -> m KVar)
-> (forall (m :: * -> *).
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-> Data KVar
KVar -> DataType
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forall a.
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Typeable t =>
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-> (forall (m :: * -> *).
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(forall d. Data d => d -> m d) -> a -> m a)
-> (forall (m :: * -> *).
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(forall d. Data d => d -> m d) -> a -> m a)
-> (forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> a -> m a)
-> Data a
forall u. Int -> (forall d. Data d => d -> u) -> KVar -> u
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forall r r'.
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forall (c :: * -> *).
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-> (forall g. g -> c g) -> KVar -> c KVar
forall (t :: * -> *) (c :: * -> *).
Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c KVar)
forall (t :: * -> * -> *) (c :: * -> *).
Typeable t =>
(forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c KVar)
$cKV :: Constr
$tKVar :: DataType
gmapMo :: (forall d. Data d => d -> m d) -> KVar -> m KVar
$cgmapMo :: forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> KVar -> m KVar
gmapMp :: (forall d. Data d => d -> m d) -> KVar -> m KVar
$cgmapMp :: forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> KVar -> m KVar
gmapM :: (forall d. Data d => d -> m d) -> KVar -> m KVar
$cgmapM :: forall (m :: * -> *).
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(forall d. Data d => d -> m d) -> KVar -> m KVar
gmapQi :: Int -> (forall d. Data d => d -> u) -> KVar -> u
$cgmapQi :: forall u. Int -> (forall d. Data d => d -> u) -> KVar -> u
gmapQ :: (forall d. Data d => d -> u) -> KVar -> [u]
$cgmapQ :: forall u. (forall d. Data d => d -> u) -> KVar -> [u]
gmapQr :: (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> KVar -> r
$cgmapQr :: forall r r'.
(r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> KVar -> r
gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> KVar -> r
$cgmapQl :: forall r r'.
(r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> KVar -> r
gmapT :: (forall b. Data b => b -> b) -> KVar -> KVar
$cgmapT :: (forall b. Data b => b -> b) -> KVar -> KVar
dataCast2 :: (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c KVar)
$cdataCast2 :: forall (t :: * -> * -> *) (c :: * -> *).
Typeable t =>
(forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c KVar)
dataCast1 :: (forall d. Data d => c (t d)) -> Maybe (c KVar)
$cdataCast1 :: forall (t :: * -> *) (c :: * -> *).
Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c KVar)
dataTypeOf :: KVar -> DataType
$cdataTypeOf :: KVar -> DataType
toConstr :: KVar -> Constr
$ctoConstr :: KVar -> Constr
gunfold :: (forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c KVar
$cgunfold :: forall (c :: * -> *).
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c KVar
gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> KVar -> c KVar
$cgfoldl :: forall (c :: * -> *).
(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> KVar -> c KVar
$cp1Data :: Typeable KVar
Data, Typeable, (forall x. KVar -> Rep KVar x)
-> (forall x. Rep KVar x -> KVar) -> Generic KVar
forall x. Rep KVar x -> KVar
forall x. KVar -> Rep KVar x
forall a.
(forall x. a -> Rep a x) -> (forall x. Rep a x -> a) -> Generic a
$cto :: forall x. Rep KVar x -> KVar
$cfrom :: forall x. KVar -> Rep KVar x
Generic, String -> KVar
(String -> KVar) -> IsString KVar
forall a. (String -> a) -> IsString a
fromString :: String -> KVar
$cfromString :: String -> KVar
IsString)
intKvar :: Integer -> KVar
intKvar :: Integer -> KVar
intKvar = Symbol -> KVar
KV (Symbol -> KVar) -> (Integer -> Symbol) -> Integer -> KVar
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Symbol -> Integer -> Symbol
forall a. Show a => Symbol -> a -> Symbol
intSymbol Symbol
"k_"
instance Show KVar where
show :: KVar -> String
show (KV Symbol
x) = String
"$" String -> ShowS
forall a. [a] -> [a] -> [a]
++ Symbol -> String
forall a. Show a => a -> String
show Symbol
x
instance Hashable KVar
instance Hashable Brel
instance Hashable Bop
instance Hashable SymConst
instance Hashable Constant
instance Hashable GradInfo
instance Hashable Subst
instance Hashable Expr
instance Hashable Reft
newtype Subst = Su (M.HashMap Symbol Expr)
deriving (Subst -> Subst -> Bool
(Subst -> Subst -> Bool) -> (Subst -> Subst -> Bool) -> Eq Subst
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: Subst -> Subst -> Bool
$c/= :: Subst -> Subst -> Bool
== :: Subst -> Subst -> Bool
$c== :: Subst -> Subst -> Bool
Eq, Typeable Subst
DataType
Constr
Typeable Subst
-> (forall (c :: * -> *).
(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> Subst -> c Subst)
-> (forall (c :: * -> *).
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c Subst)
-> (Subst -> Constr)
-> (Subst -> DataType)
-> (forall (t :: * -> *) (c :: * -> *).
Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c Subst))
-> (forall (t :: * -> * -> *) (c :: * -> *).
Typeable t =>
(forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Subst))
-> ((forall b. Data b => b -> b) -> Subst -> Subst)
-> (forall r r'.
(r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Subst -> r)
-> (forall r r'.
(r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Subst -> r)
-> (forall u. (forall d. Data d => d -> u) -> Subst -> [u])
-> (forall u. Int -> (forall d. Data d => d -> u) -> Subst -> u)
-> (forall (m :: * -> *).
Monad m =>
(forall d. Data d => d -> m d) -> Subst -> m Subst)
-> (forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> Subst -> m Subst)
-> (forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> Subst -> m Subst)
-> Data Subst
Subst -> DataType
Subst -> Constr
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(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> Subst -> c Subst
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c Subst
forall a.
Typeable a
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(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> a -> c a)
-> (forall (c :: * -> *).
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c a)
-> (a -> Constr)
-> (a -> DataType)
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Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c a))
-> (forall (t :: * -> * -> *) (c :: * -> *).
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forall r r'.
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forall r r'.
(r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Subst -> r
forall (m :: * -> *).
Monad m =>
(forall d. Data d => d -> m d) -> Subst -> m Subst
forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> Subst -> m Subst
forall (c :: * -> *).
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c Subst
forall (c :: * -> *).
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forall (t :: * -> * -> *) (c :: * -> *).
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gmapM :: (forall d. Data d => d -> m d) -> Subst -> m Subst
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gmapQi :: Int -> (forall d. Data d => d -> u) -> Subst -> u
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gmapQ :: (forall d. Data d => d -> u) -> Subst -> [u]
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gmapQr :: (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Subst -> r
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gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Subst -> r
$cgmapQl :: forall r r'.
(r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Subst -> r
gmapT :: (forall b. Data b => b -> b) -> Subst -> Subst
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dataCast2 :: (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Subst)
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Typeable t =>
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$cdataCast1 :: forall (t :: * -> *) (c :: * -> *).
Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c Subst)
dataTypeOf :: Subst -> DataType
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toConstr :: Subst -> Constr
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gunfold :: (forall b r. Data b => c (b -> r) -> c r)
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(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c Subst
gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b)
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-> (forall g. g -> c g) -> Subst -> c Subst
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Data, Typeable, (forall x. Subst -> Rep Subst x)
-> (forall x. Rep Subst x -> Subst) -> Generic Subst
forall x. Rep Subst x -> Subst
forall x. Subst -> Rep Subst x
forall a.
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Generic)
instance Show Subst where
show :: Subst -> String
show = Subst -> String
forall a. Fixpoint a => a -> String
showFix
instance Fixpoint Subst where
toFix :: Subst -> Doc
toFix (Su HashMap Symbol Expr
m) = case HashMap Symbol Expr -> [(Symbol, Expr)]
forall a b. Ord a => HashMap a b -> [(a, b)]
hashMapToAscList HashMap Symbol Expr
m of
[] -> Doc
empty
[(Symbol, Expr)]
xys -> [Doc] -> Doc
hcat ([Doc] -> Doc) -> [Doc] -> Doc
forall a b. (a -> b) -> a -> b
$ ((Symbol, Expr) -> Doc) -> [(Symbol, Expr)] -> [Doc]
forall a b. (a -> b) -> [a] -> [b]
map (\(Symbol
x,Expr
y) -> Doc -> Doc
brackets (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$ Symbol -> Doc
forall a. Fixpoint a => a -> Doc
toFix Symbol
x Doc -> Doc -> Doc
<-> String -> Doc
text String
":=" Doc -> Doc -> Doc
<-> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
y) [(Symbol, Expr)]
xys
instance PPrint Subst where
pprintTidy :: Tidy -> Subst -> Doc
pprintTidy Tidy
_ = Subst -> Doc
forall a. Fixpoint a => a -> Doc
toFix
data KVSub = KVS
{ KVSub -> Symbol
ksuVV :: Symbol
, KVSub -> Sort
ksuSort :: Sort
, KVSub -> KVar
ksuKVar :: KVar
, KVSub -> Subst
ksuSubst :: Subst
} deriving (KVSub -> KVSub -> Bool
(KVSub -> KVSub -> Bool) -> (KVSub -> KVSub -> Bool) -> Eq KVSub
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: KVSub -> KVSub -> Bool
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DataType
Constr
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gmapMo :: (forall d. Data d => d -> m d) -> KVSub -> m KVSub
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gmapMp :: (forall d. Data d => d -> m d) -> KVSub -> m KVSub
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gmapQi :: Int -> (forall d. Data d => d -> u) -> KVSub -> u
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gmapQ :: (forall d. Data d => d -> u) -> KVSub -> [u]
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gmapQr :: (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> KVSub -> r
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gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> KVSub -> r
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gmapT :: (forall b. Data b => b -> b) -> KVSub -> KVSub
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dataCast2 :: (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c KVSub)
$cdataCast2 :: forall (t :: * -> * -> *) (c :: * -> *).
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(forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c KVSub)
dataCast1 :: (forall d. Data d => c (t d)) -> Maybe (c KVSub)
$cdataCast1 :: forall (t :: * -> *) (c :: * -> *).
Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c KVSub)
dataTypeOf :: KVSub -> DataType
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toConstr :: KVSub -> Constr
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gunfold :: (forall b r. Data b => c (b -> r) -> c r)
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-> (forall r. r -> c r) -> Constr -> c KVSub
gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b)
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Data, Typeable, (forall x. KVSub -> Rep KVSub x)
-> (forall x. Rep KVSub x -> KVSub) -> Generic KVSub
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Generic, Int -> KVSub -> ShowS
[KVSub] -> ShowS
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-> (KVSub -> String) -> ([KVSub] -> ShowS) -> Show KVSub
forall a.
(Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a
showList :: [KVSub] -> ShowS
$cshowList :: [KVSub] -> ShowS
show :: KVSub -> String
$cshow :: KVSub -> String
showsPrec :: Int -> KVSub -> ShowS
$cshowsPrec :: Int -> KVSub -> ShowS
Show)
instance PPrint KVSub where
pprintTidy :: Tidy -> KVSub -> Doc
pprintTidy Tidy
k KVSub
ksu = Tidy -> (Symbol, KVar, Subst) -> Doc
forall a. PPrint a => Tidy -> a -> Doc
pprintTidy Tidy
k (KVSub -> Symbol
ksuVV KVSub
ksu, KVSub -> KVar
ksuKVar KVSub
ksu, KVSub -> Subst
ksuSubst KVSub
ksu)
data SymConst = SL !Text
deriving (SymConst -> SymConst -> Bool
(SymConst -> SymConst -> Bool)
-> (SymConst -> SymConst -> Bool) -> Eq SymConst
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: SymConst -> SymConst -> Bool
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-> (SymConst -> SymConst -> Bool)
-> (SymConst -> SymConst -> Bool)
-> (SymConst -> SymConst -> Bool)
-> (SymConst -> SymConst -> SymConst)
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-> (a -> a -> Bool)
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min :: SymConst -> SymConst -> SymConst
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max :: SymConst -> SymConst -> SymConst
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data Constant = I !Integer
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srcGradInfo SourcePos
src = SrcSpan -> Maybe SrcSpan -> GradInfo
GradInfo (SourcePos -> SourcePos -> SrcSpan
SS SourcePos
src SourcePos
src) Maybe SrcSpan
forall a. Maybe a
Nothing
mkEApp :: LocSymbol -> [Expr] -> Expr
mkEApp :: LocSymbol -> [Expr] -> Expr
mkEApp = Expr -> [Expr] -> Expr
eApps (Expr -> [Expr] -> Expr)
-> (LocSymbol -> Expr) -> LocSymbol -> [Expr] -> Expr
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Symbol -> Expr
EVar (Symbol -> Expr) -> (LocSymbol -> Symbol) -> LocSymbol -> Expr
forall b c a. (b -> c) -> (a -> b) -> a -> c
. LocSymbol -> Symbol
forall a. Located a -> a
val
eApps :: Expr -> [Expr] -> Expr
eApps :: Expr -> [Expr] -> Expr
eApps Expr
f [Expr]
es = (Expr -> Expr -> Expr) -> Expr -> [Expr] -> Expr
forall (t :: * -> *) b a.
Foldable t =>
(b -> a -> b) -> b -> t a -> b
foldl' Expr -> Expr -> Expr
EApp Expr
f [Expr]
es
splitEApp :: Expr -> (Expr, [Expr])
splitEApp :: Expr -> (Expr, [Expr])
splitEApp = [Expr] -> Expr -> (Expr, [Expr])
go []
where
go :: [Expr] -> Expr -> (Expr, [Expr])
go [Expr]
acc (EApp Expr
f Expr
e) = [Expr] -> Expr -> (Expr, [Expr])
go (Expr
eExpr -> [Expr] -> [Expr]
forall a. a -> [a] -> [a]
:[Expr]
acc) Expr
f
go [Expr]
acc Expr
e = (Expr
e, [Expr]
acc)
splitPAnd :: Expr -> [Expr]
splitPAnd :: Expr -> [Expr]
splitPAnd (PAnd [Expr]
es) = (Expr -> [Expr]) -> [Expr] -> [Expr]
forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b]
concatMap Expr -> [Expr]
splitPAnd [Expr]
es
splitPAnd Expr
e = [Expr
e]
eAppC :: Sort -> Expr -> Expr -> Expr
eAppC :: Sort -> Expr -> Expr -> Expr
eAppC Sort
s Expr
e1 Expr
e2 = Expr -> Sort -> Expr
ECst (Expr -> Expr -> Expr
EApp Expr
e1 Expr
e2) Sort
s
debruijnIndex :: Expr -> Int
debruijnIndex :: Expr -> Int
debruijnIndex = Expr -> Int
forall a. Num a => Expr -> a
go
where
go :: Expr -> a
go (ELam (Symbol, Sort)
_ Expr
e) = a
1 a -> a -> a
forall a. Num a => a -> a -> a
+ Expr -> a
go Expr
e
go (ECst Expr
e Sort
_) = Expr -> a
go Expr
e
go (EApp Expr
e1 Expr
e2) = Expr -> a
go Expr
e1 a -> a -> a
forall a. Num a => a -> a -> a
+ Expr -> a
go Expr
e2
go (ESym SymConst
_) = a
1
go (ECon Constant
_) = a
1
go (EVar Symbol
_) = a
1
go (ENeg Expr
e) = Expr -> a
go Expr
e
go (EBin Bop
_ Expr
e1 Expr
e2) = Expr -> a
go Expr
e1 a -> a -> a
forall a. Num a => a -> a -> a
+ Expr -> a
go Expr
e2
go (EIte Expr
e Expr
e1 Expr
e2) = Expr -> a
go Expr
e a -> a -> a
forall a. Num a => a -> a -> a
+ Expr -> a
go Expr
e1 a -> a -> a
forall a. Num a => a -> a -> a
+ Expr -> a
go Expr
e2
go (ETAbs Expr
e Symbol
_) = Expr -> a
go Expr
e
go (ETApp Expr
e Sort
_) = Expr -> a
go Expr
e
go (PAnd [Expr]
es) = (a -> Expr -> a) -> a -> [Expr] -> a
forall (t :: * -> *) b a.
Foldable t =>
(b -> a -> b) -> b -> t a -> b
foldl (\a
n Expr
e -> a
n a -> a -> a
forall a. Num a => a -> a -> a
+ Expr -> a
go Expr
e) a
0 [Expr]
es
go (POr [Expr]
es) = (a -> Expr -> a) -> a -> [Expr] -> a
forall (t :: * -> *) b a.
Foldable t =>
(b -> a -> b) -> b -> t a -> b
foldl (\a
n Expr
e -> a
n a -> a -> a
forall a. Num a => a -> a -> a
+ Expr -> a
go Expr
e) a
0 [Expr]
es
go (PNot Expr
e) = Expr -> a
go Expr
e
go (PImp Expr
e1 Expr
e2) = Expr -> a
go Expr
e1 a -> a -> a
forall a. Num a => a -> a -> a
+ Expr -> a
go Expr
e2
go (PIff Expr
e1 Expr
e2) = Expr -> a
go Expr
e1 a -> a -> a
forall a. Num a => a -> a -> a
+ Expr -> a
go Expr
e2
go (PAtom Brel
_ Expr
e1 Expr
e2) = Expr -> a
go Expr
e1 a -> a -> a
forall a. Num a => a -> a -> a
+ Expr -> a
go Expr
e2
go (PAll [(Symbol, Sort)]
_ Expr
e) = Expr -> a
go Expr
e
go (PExist [(Symbol, Sort)]
_ Expr
e) = Expr -> a
go Expr
e
go (PKVar KVar
_ Subst
_) = a
1
go (PGrad KVar
_ Subst
_ GradInfo
_ Expr
e) = Expr -> a
go Expr
e
go (ECoerc Sort
_ Sort
_ Expr
e) = Expr -> a
go Expr
e
newtype Reft = Reft (Symbol, Expr)
deriving (Reft -> Reft -> Bool
(Reft -> Reft -> Bool) -> (Reft -> Reft -> Bool) -> Eq Reft
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: Reft -> Reft -> Bool
$c/= :: Reft -> Reft -> Bool
== :: Reft -> Reft -> Bool
$c== :: Reft -> Reft -> Bool
Eq, Typeable Reft
DataType
Constr
Typeable Reft
-> (forall (c :: * -> *).
(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> Reft -> c Reft)
-> (forall (c :: * -> *).
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c Reft)
-> (Reft -> Constr)
-> (Reft -> DataType)
-> (forall (t :: * -> *) (c :: * -> *).
Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c Reft))
-> (forall (t :: * -> * -> *) (c :: * -> *).
Typeable t =>
(forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Reft))
-> ((forall b. Data b => b -> b) -> Reft -> Reft)
-> (forall r r'.
(r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Reft -> r)
-> (forall r r'.
(r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Reft -> r)
-> (forall u. (forall d. Data d => d -> u) -> Reft -> [u])
-> (forall u. Int -> (forall d. Data d => d -> u) -> Reft -> u)
-> (forall (m :: * -> *).
Monad m =>
(forall d. Data d => d -> m d) -> Reft -> m Reft)
-> (forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> Reft -> m Reft)
-> (forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> Reft -> m Reft)
-> Data Reft
Reft -> DataType
Reft -> Constr
(forall b. Data b => b -> b) -> Reft -> Reft
(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> Reft -> c Reft
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c Reft
forall a.
Typeable a
-> (forall (c :: * -> *).
(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> a -> c a)
-> (forall (c :: * -> *).
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c a)
-> (a -> Constr)
-> (a -> DataType)
-> (forall (t :: * -> *) (c :: * -> *).
Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c a))
-> (forall (t :: * -> * -> *) (c :: * -> *).
Typeable t =>
(forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c a))
-> ((forall b. Data b => b -> b) -> a -> a)
-> (forall r r'.
(r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> a -> r)
-> (forall r r'.
(r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> a -> r)
-> (forall u. (forall d. Data d => d -> u) -> a -> [u])
-> (forall u. Int -> (forall d. Data d => d -> u) -> a -> u)
-> (forall (m :: * -> *).
Monad m =>
(forall d. Data d => d -> m d) -> a -> m a)
-> (forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> a -> m a)
-> (forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> a -> m a)
-> Data a
forall u. Int -> (forall d. Data d => d -> u) -> Reft -> u
forall u. (forall d. Data d => d -> u) -> Reft -> [u]
forall r r'.
(r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Reft -> r
forall r r'.
(r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Reft -> r
forall (m :: * -> *).
Monad m =>
(forall d. Data d => d -> m d) -> Reft -> m Reft
forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> Reft -> m Reft
forall (c :: * -> *).
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c Reft
forall (c :: * -> *).
(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> Reft -> c Reft
forall (t :: * -> *) (c :: * -> *).
Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c Reft)
forall (t :: * -> * -> *) (c :: * -> *).
Typeable t =>
(forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Reft)
$cReft :: Constr
$tReft :: DataType
gmapMo :: (forall d. Data d => d -> m d) -> Reft -> m Reft
$cgmapMo :: forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> Reft -> m Reft
gmapMp :: (forall d. Data d => d -> m d) -> Reft -> m Reft
$cgmapMp :: forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> Reft -> m Reft
gmapM :: (forall d. Data d => d -> m d) -> Reft -> m Reft
$cgmapM :: forall (m :: * -> *).
Monad m =>
(forall d. Data d => d -> m d) -> Reft -> m Reft
gmapQi :: Int -> (forall d. Data d => d -> u) -> Reft -> u
$cgmapQi :: forall u. Int -> (forall d. Data d => d -> u) -> Reft -> u
gmapQ :: (forall d. Data d => d -> u) -> Reft -> [u]
$cgmapQ :: forall u. (forall d. Data d => d -> u) -> Reft -> [u]
gmapQr :: (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Reft -> r
$cgmapQr :: forall r r'.
(r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Reft -> r
gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Reft -> r
$cgmapQl :: forall r r'.
(r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Reft -> r
gmapT :: (forall b. Data b => b -> b) -> Reft -> Reft
$cgmapT :: (forall b. Data b => b -> b) -> Reft -> Reft
dataCast2 :: (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Reft)
$cdataCast2 :: forall (t :: * -> * -> *) (c :: * -> *).
Typeable t =>
(forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Reft)
dataCast1 :: (forall d. Data d => c (t d)) -> Maybe (c Reft)
$cdataCast1 :: forall (t :: * -> *) (c :: * -> *).
Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c Reft)
dataTypeOf :: Reft -> DataType
$cdataTypeOf :: Reft -> DataType
toConstr :: Reft -> Constr
$ctoConstr :: Reft -> Constr
gunfold :: (forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c Reft
$cgunfold :: forall (c :: * -> *).
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c Reft
gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> Reft -> c Reft
$cgfoldl :: forall (c :: * -> *).
(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> Reft -> c Reft
$cp1Data :: Typeable Reft
Data, Typeable, (forall x. Reft -> Rep Reft x)
-> (forall x. Rep Reft x -> Reft) -> Generic Reft
forall x. Rep Reft x -> Reft
forall x. Reft -> Rep Reft x
forall a.
(forall x. a -> Rep a x) -> (forall x. Rep a x -> a) -> Generic a
$cto :: forall x. Rep Reft x -> Reft
$cfrom :: forall x. Reft -> Rep Reft x
Generic)
data SortedReft = RR { SortedReft -> Sort
sr_sort :: !Sort, SortedReft -> Reft
sr_reft :: !Reft }
deriving (SortedReft -> SortedReft -> Bool
(SortedReft -> SortedReft -> Bool)
-> (SortedReft -> SortedReft -> Bool) -> Eq SortedReft
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: SortedReft -> SortedReft -> Bool
$c/= :: SortedReft -> SortedReft -> Bool
== :: SortedReft -> SortedReft -> Bool
$c== :: SortedReft -> SortedReft -> Bool
Eq, Typeable SortedReft
DataType
Constr
Typeable SortedReft
-> (forall (c :: * -> *).
(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> SortedReft -> c SortedReft)
-> (forall (c :: * -> *).
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c SortedReft)
-> (SortedReft -> Constr)
-> (SortedReft -> DataType)
-> (forall (t :: * -> *) (c :: * -> *).
Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c SortedReft))
-> (forall (t :: * -> * -> *) (c :: * -> *).
Typeable t =>
(forall d e. (Data d, Data e) => c (t d e))
-> Maybe (c SortedReft))
-> ((forall b. Data b => b -> b) -> SortedReft -> SortedReft)
-> (forall r r'.
(r -> r' -> r)
-> r -> (forall d. Data d => d -> r') -> SortedReft -> r)
-> (forall r r'.
(r' -> r -> r)
-> r -> (forall d. Data d => d -> r') -> SortedReft -> r)
-> (forall u. (forall d. Data d => d -> u) -> SortedReft -> [u])
-> (forall u.
Int -> (forall d. Data d => d -> u) -> SortedReft -> u)
-> (forall (m :: * -> *).
Monad m =>
(forall d. Data d => d -> m d) -> SortedReft -> m SortedReft)
-> (forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> SortedReft -> m SortedReft)
-> (forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> SortedReft -> m SortedReft)
-> Data SortedReft
SortedReft -> DataType
SortedReft -> Constr
(forall b. Data b => b -> b) -> SortedReft -> SortedReft
(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> SortedReft -> c SortedReft
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c SortedReft
forall a.
Typeable a
-> (forall (c :: * -> *).
(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> a -> c a)
-> (forall (c :: * -> *).
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c a)
-> (a -> Constr)
-> (a -> DataType)
-> (forall (t :: * -> *) (c :: * -> *).
Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c a))
-> (forall (t :: * -> * -> *) (c :: * -> *).
Typeable t =>
(forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c a))
-> ((forall b. Data b => b -> b) -> a -> a)
-> (forall r r'.
(r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> a -> r)
-> (forall r r'.
(r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> a -> r)
-> (forall u. (forall d. Data d => d -> u) -> a -> [u])
-> (forall u. Int -> (forall d. Data d => d -> u) -> a -> u)
-> (forall (m :: * -> *).
Monad m =>
(forall d. Data d => d -> m d) -> a -> m a)
-> (forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> a -> m a)
-> (forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> a -> m a)
-> Data a
forall u. Int -> (forall d. Data d => d -> u) -> SortedReft -> u
forall u. (forall d. Data d => d -> u) -> SortedReft -> [u]
forall r r'.
(r -> r' -> r)
-> r -> (forall d. Data d => d -> r') -> SortedReft -> r
forall r r'.
(r' -> r -> r)
-> r -> (forall d. Data d => d -> r') -> SortedReft -> r
forall (m :: * -> *).
Monad m =>
(forall d. Data d => d -> m d) -> SortedReft -> m SortedReft
forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> SortedReft -> m SortedReft
forall (c :: * -> *).
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c SortedReft
forall (c :: * -> *).
(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> SortedReft -> c SortedReft
forall (t :: * -> *) (c :: * -> *).
Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c SortedReft)
forall (t :: * -> * -> *) (c :: * -> *).
Typeable t =>
(forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c SortedReft)
$cRR :: Constr
$tSortedReft :: DataType
gmapMo :: (forall d. Data d => d -> m d) -> SortedReft -> m SortedReft
$cgmapMo :: forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> SortedReft -> m SortedReft
gmapMp :: (forall d. Data d => d -> m d) -> SortedReft -> m SortedReft
$cgmapMp :: forall (m :: * -> *).
MonadPlus m =>
(forall d. Data d => d -> m d) -> SortedReft -> m SortedReft
gmapM :: (forall d. Data d => d -> m d) -> SortedReft -> m SortedReft
$cgmapM :: forall (m :: * -> *).
Monad m =>
(forall d. Data d => d -> m d) -> SortedReft -> m SortedReft
gmapQi :: Int -> (forall d. Data d => d -> u) -> SortedReft -> u
$cgmapQi :: forall u. Int -> (forall d. Data d => d -> u) -> SortedReft -> u
gmapQ :: (forall d. Data d => d -> u) -> SortedReft -> [u]
$cgmapQ :: forall u. (forall d. Data d => d -> u) -> SortedReft -> [u]
gmapQr :: (r' -> r -> r)
-> r -> (forall d. Data d => d -> r') -> SortedReft -> r
$cgmapQr :: forall r r'.
(r' -> r -> r)
-> r -> (forall d. Data d => d -> r') -> SortedReft -> r
gmapQl :: (r -> r' -> r)
-> r -> (forall d. Data d => d -> r') -> SortedReft -> r
$cgmapQl :: forall r r'.
(r -> r' -> r)
-> r -> (forall d. Data d => d -> r') -> SortedReft -> r
gmapT :: (forall b. Data b => b -> b) -> SortedReft -> SortedReft
$cgmapT :: (forall b. Data b => b -> b) -> SortedReft -> SortedReft
dataCast2 :: (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c SortedReft)
$cdataCast2 :: forall (t :: * -> * -> *) (c :: * -> *).
Typeable t =>
(forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c SortedReft)
dataCast1 :: (forall d. Data d => c (t d)) -> Maybe (c SortedReft)
$cdataCast1 :: forall (t :: * -> *) (c :: * -> *).
Typeable t =>
(forall d. Data d => c (t d)) -> Maybe (c SortedReft)
dataTypeOf :: SortedReft -> DataType
$cdataTypeOf :: SortedReft -> DataType
toConstr :: SortedReft -> Constr
$ctoConstr :: SortedReft -> Constr
gunfold :: (forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c SortedReft
$cgunfold :: forall (c :: * -> *).
(forall b r. Data b => c (b -> r) -> c r)
-> (forall r. r -> c r) -> Constr -> c SortedReft
gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> SortedReft -> c SortedReft
$cgfoldl :: forall (c :: * -> *).
(forall d b. Data d => c (d -> b) -> d -> c b)
-> (forall g. g -> c g) -> SortedReft -> c SortedReft
$cp1Data :: Typeable SortedReft
Data, Typeable, (forall x. SortedReft -> Rep SortedReft x)
-> (forall x. Rep SortedReft x -> SortedReft) -> Generic SortedReft
forall x. Rep SortedReft x -> SortedReft
forall x. SortedReft -> Rep SortedReft x
forall a.
(forall x. a -> Rep a x) -> (forall x. Rep a x -> a) -> Generic a
$cto :: forall x. Rep SortedReft x -> SortedReft
$cfrom :: forall x. SortedReft -> Rep SortedReft x
Generic)
elit :: Located Symbol -> Sort -> Expr
elit :: LocSymbol -> Sort -> Expr
elit LocSymbol
l Sort
s = Constant -> Expr
ECon (Constant -> Expr) -> Constant -> Expr
forall a b. (a -> b) -> a -> b
$ Text -> Sort -> Constant
L (Symbol -> Text
symbolText (Symbol -> Text) -> Symbol -> Text
forall a b. (a -> b) -> a -> b
$ LocSymbol -> Symbol
forall a. Located a -> a
val LocSymbol
l) Sort
s
instance Fixpoint Constant where
toFix :: Constant -> Doc
toFix (I Integer
i) = Integer -> Doc
forall a. Fixpoint a => a -> Doc
toFix Integer
i
toFix (R Double
i) = Double -> Doc
forall a. Fixpoint a => a -> Doc
toFix Double
i
toFix (L Text
s Sort
t) = Doc -> Doc
parens (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$ String -> Doc
text String
"lit" Doc -> Doc -> Doc
<+> String -> Doc
text String
"\"" Doc -> Doc -> Doc
<-> Text -> Doc
forall a. Fixpoint a => a -> Doc
toFix Text
s Doc -> Doc -> Doc
<-> String -> Doc
text String
"\"" Doc -> Doc -> Doc
<+> Sort -> Doc
forall a. Fixpoint a => a -> Doc
toFix Sort
t
instance Symbolic SymConst where
symbol :: SymConst -> Symbol
symbol = SymConst -> Symbol
encodeSymConst
encodeSymConst :: SymConst -> Symbol
encodeSymConst :: SymConst -> Symbol
encodeSymConst (SL Text
s) = Symbol -> Symbol
litSymbol (Symbol -> Symbol) -> Symbol -> Symbol
forall a b. (a -> b) -> a -> b
$ Text -> Symbol
forall a. Symbolic a => a -> Symbol
symbol Text
s
instance Fixpoint SymConst where
toFix :: SymConst -> Doc
toFix = Symbol -> Doc
forall a. Fixpoint a => a -> Doc
toFix (Symbol -> Doc) -> (SymConst -> Symbol) -> SymConst -> Doc
forall b c a. (b -> c) -> (a -> b) -> a -> c
. SymConst -> Symbol
encodeSymConst
instance Fixpoint KVar where
toFix :: KVar -> Doc
toFix (KV Symbol
k) = String -> Doc
text String
"$" Doc -> Doc -> Doc
<-> Symbol -> Doc
forall a. Fixpoint a => a -> Doc
toFix Symbol
k
instance Fixpoint Brel where
toFix :: Brel -> Doc
toFix Brel
Eq = String -> Doc
text String
"="
toFix Brel
Ne = String -> Doc
text String
"!="
toFix Brel
Ueq = String -> Doc
text String
"~~"
toFix Brel
Une = String -> Doc
text String
"!~"
toFix Brel
Gt = String -> Doc
text String
">"
toFix Brel
Ge = String -> Doc
text String
">="
toFix Brel
Lt = String -> Doc
text String
"<"
toFix Brel
Le = String -> Doc
text String
"<="
instance Fixpoint Bop where
toFix :: Bop -> Doc
toFix Bop
Plus = String -> Doc
text String
"+"
toFix Bop
Minus = String -> Doc
text String
"-"
toFix Bop
RTimes = String -> Doc
text String
"*."
toFix Bop
Times = String -> Doc
text String
"*"
toFix Bop
Div = String -> Doc
text String
"/"
toFix Bop
RDiv = String -> Doc
text String
"/."
toFix Bop
Mod = String -> Doc
text String
"mod"
instance Fixpoint Expr where
toFix :: Expr -> Doc
toFix (ESym SymConst
c) = Symbol -> Doc
forall a. Fixpoint a => a -> Doc
toFix (Symbol -> Doc) -> Symbol -> Doc
forall a b. (a -> b) -> a -> b
$ SymConst -> Symbol
encodeSymConst SymConst
c
toFix (ECon Constant
c) = Constant -> Doc
forall a. Fixpoint a => a -> Doc
toFix Constant
c
toFix (EVar Symbol
s) = Symbol -> Doc
forall a. Fixpoint a => a -> Doc
toFix Symbol
s
toFix e :: Expr
e@(EApp Expr
_ Expr
_) = Doc -> Doc
parens (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$ [Doc] -> Doc
hcat ([Doc] -> Doc) -> [Doc] -> Doc
forall a b. (a -> b) -> a -> b
$ Doc -> [Doc] -> [Doc]
punctuate Doc
" " ([Doc] -> [Doc]) -> [Doc] -> [Doc]
forall a b. (a -> b) -> a -> b
$ Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix (Expr -> Doc) -> [Expr] -> [Doc]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> (Expr
fExpr -> [Expr] -> [Expr]
forall a. a -> [a] -> [a]
:[Expr]
es) where (Expr
f, [Expr]
es) = Expr -> (Expr, [Expr])
splitEApp Expr
e
toFix (ENeg Expr
e) = Doc -> Doc
parens (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$ String -> Doc
text String
"-" Doc -> Doc -> Doc
<+> Doc -> Doc
parens (Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e)
toFix (EBin Bop
o Expr
e1 Expr
e2) = Doc -> Doc
parens (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$ Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e1 Doc -> Doc -> Doc
<+> Bop -> Doc
forall a. Fixpoint a => a -> Doc
toFix Bop
o Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e2
toFix (EIte Expr
p Expr
e1 Expr
e2) = Doc -> Doc
parens (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$ String -> Doc
text String
"if" Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
p Doc -> Doc -> Doc
<+> String -> Doc
text String
"then" Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e1 Doc -> Doc -> Doc
<+> String -> Doc
text String
"else" Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e2
toFix (ECst Expr
e Sort
so) = Doc -> Doc
parens (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$ Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e Doc -> Doc -> Doc
<+> String -> Doc
text String
" : " Doc -> Doc -> Doc
<+> Sort -> Doc
forall a. Fixpoint a => a -> Doc
toFix Sort
so
toFix Expr
PTrue = String -> Doc
text String
"true"
toFix Expr
PFalse = String -> Doc
text String
"false"
toFix (PNot Expr
p) = Doc -> Doc
parens (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$ String -> Doc
text String
"~" Doc -> Doc -> Doc
<+> Doc -> Doc
parens (Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
p)
toFix (PImp Expr
p1 Expr
p2) = Doc -> Doc
parens (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$ Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
p1 Doc -> Doc -> Doc
<+> String -> Doc
text String
"=>" Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
p2
toFix (PIff Expr
p1 Expr
p2) = Doc -> Doc
parens (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$ Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
p1 Doc -> Doc -> Doc
<+> String -> Doc
text String
"<=>" Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
p2
toFix (PAnd [Expr]
ps) = String -> Doc
text String
"&&" Doc -> Doc -> Doc
<+> [Expr] -> Doc
forall a. Fixpoint a => a -> Doc
toFix [Expr]
ps
toFix (POr [Expr]
ps) = String -> Doc
text String
"||" Doc -> Doc -> Doc
<+> [Expr] -> Doc
forall a. Fixpoint a => a -> Doc
toFix [Expr]
ps
toFix (PAtom Brel
r Expr
e1 Expr
e2) = Doc -> Doc
parens (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$ Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e1 Doc -> Doc -> Doc
<+> Brel -> Doc
forall a. Fixpoint a => a -> Doc
toFix Brel
r Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e2
toFix (PKVar KVar
k Subst
su) = KVar -> Doc
forall a. Fixpoint a => a -> Doc
toFix KVar
k Doc -> Doc -> Doc
<-> Subst -> Doc
forall a. Fixpoint a => a -> Doc
toFix Subst
su
toFix (PAll [(Symbol, Sort)]
xts Expr
p) = Doc
"forall" Doc -> Doc -> Doc
<+> ([(Symbol, Sort)] -> Doc
forall a. Fixpoint a => a -> Doc
toFix [(Symbol, Sort)]
xts
Doc -> Doc -> Doc
$+$ (Doc
"." Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
p))
toFix (PExist [(Symbol, Sort)]
xts Expr
p) = Doc
"exists" Doc -> Doc -> Doc
<+> ([(Symbol, Sort)] -> Doc
forall a. Fixpoint a => a -> Doc
toFix [(Symbol, Sort)]
xts
Doc -> Doc -> Doc
$+$ (Doc
"." Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
p))
toFix (ETApp Expr
e Sort
s) = String -> Doc
text String
"tapp" Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e Doc -> Doc -> Doc
<+> Sort -> Doc
forall a. Fixpoint a => a -> Doc
toFix Sort
s
toFix (ETAbs Expr
e Symbol
s) = String -> Doc
text String
"tabs" Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e Doc -> Doc -> Doc
<+> Symbol -> Doc
forall a. Fixpoint a => a -> Doc
toFix Symbol
s
toFix (PGrad KVar
k Subst
_ GradInfo
_ Expr
e) = Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e Doc -> Doc -> Doc
<+> String -> Doc
text String
"&&" Doc -> Doc -> Doc
<+> KVar -> Doc
forall a. Fixpoint a => a -> Doc
toFix KVar
k
toFix (ECoerc Sort
a Sort
t Expr
e) = Doc -> Doc
parens (String -> Doc
text String
"coerce" Doc -> Doc -> Doc
<+> Sort -> Doc
forall a. Fixpoint a => a -> Doc
toFix Sort
a Doc -> Doc -> Doc
<+> String -> Doc
text String
"~" Doc -> Doc -> Doc
<+> Sort -> Doc
forall a. Fixpoint a => a -> Doc
toFix Sort
t Doc -> Doc -> Doc
<+> String -> Doc
text String
"in" Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e)
toFix (ELam (Symbol
x,Sort
s) Expr
e) = String -> Doc
text String
"lam" Doc -> Doc -> Doc
<+> Symbol -> Doc
forall a. Fixpoint a => a -> Doc
toFix Symbol
x Doc -> Doc -> Doc
<+> Doc
":" Doc -> Doc -> Doc
<+> Sort -> Doc
forall a. Fixpoint a => a -> Doc
toFix Sort
s Doc -> Doc -> Doc
<+> Doc
"." Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e
simplify :: Expr -> Expr
simplify (PAnd []) = Expr
PTrue
simplify (POr []) = Expr
PFalse
simplify (PAnd [Expr
p]) = Expr -> Expr
forall a. Fixpoint a => a -> a
simplify Expr
p
simplify (POr [Expr
p]) = Expr -> Expr
forall a. Fixpoint a => a -> a
simplify Expr
p
simplify (PGrad KVar
k Subst
su GradInfo
i Expr
e)
| Expr -> Bool
isContraPred Expr
e = Expr
PFalse
| Bool
otherwise = KVar -> Subst -> GradInfo -> Expr -> Expr
PGrad KVar
k Subst
su GradInfo
i (Expr -> Expr
forall a. Fixpoint a => a -> a
simplify Expr
e)
simplify (PAnd [Expr]
ps)
| (Expr -> Bool) -> [Expr] -> Bool
forall (t :: * -> *) a. Foldable t => (a -> Bool) -> t a -> Bool
any Expr -> Bool
isContraPred [Expr]
ps = Expr
PFalse
| Bool
otherwise = [Expr] -> Expr
PAnd ([Expr] -> Expr) -> [Expr] -> Expr
forall a b. (a -> b) -> a -> b
$ (Expr -> Bool) -> [Expr] -> [Expr]
forall a. (a -> Bool) -> [a] -> [a]
filter (Bool -> Bool
not (Bool -> Bool) -> (Expr -> Bool) -> Expr -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Expr -> Bool
isTautoPred) ([Expr] -> [Expr]) -> [Expr] -> [Expr]
forall a b. (a -> b) -> a -> b
$ (Expr -> Expr) -> [Expr] -> [Expr]
forall a b. (a -> b) -> [a] -> [b]
map Expr -> Expr
forall a. Fixpoint a => a -> a
simplify [Expr]
ps
simplify (POr [Expr]
ps)
| (Expr -> Bool) -> [Expr] -> Bool
forall (t :: * -> *) a. Foldable t => (a -> Bool) -> t a -> Bool
any Expr -> Bool
isTautoPred [Expr]
ps = Expr
PTrue
| Bool
otherwise = [Expr] -> Expr
POr ([Expr] -> Expr) -> [Expr] -> Expr
forall a b. (a -> b) -> a -> b
$ (Expr -> Bool) -> [Expr] -> [Expr]
forall a. (a -> Bool) -> [a] -> [a]
filter (Bool -> Bool
not (Bool -> Bool) -> (Expr -> Bool) -> Expr -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Expr -> Bool
isContraPred) ([Expr] -> [Expr]) -> [Expr] -> [Expr]
forall a b. (a -> b) -> a -> b
$ (Expr -> Expr) -> [Expr] -> [Expr]
forall a b. (a -> b) -> [a] -> [b]
map Expr -> Expr
forall a. Fixpoint a => a -> a
simplify [Expr]
ps
simplify Expr
p
| Expr -> Bool
isContraPred Expr
p = Expr
PFalse
| Expr -> Bool
isTautoPred Expr
p = Expr
PTrue
| Bool
otherwise = Expr
p
isContraPred :: Expr -> Bool
isContraPred :: Expr -> Bool
isContraPred Expr
z = Expr -> Bool
eqC Expr
z Bool -> Bool -> Bool
|| (Expr
z Expr -> [Expr] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`elem` [Expr]
contras)
where
contras :: [Expr]
contras = [Expr
PFalse]
eqC :: Expr -> Bool
eqC (PAtom Brel
Eq (ECon Constant
x) (ECon Constant
y))
= Constant
x Constant -> Constant -> Bool
forall a. Eq a => a -> a -> Bool
/= Constant
y
eqC (PAtom Brel
Ueq (ECon Constant
x) (ECon Constant
y))
= Constant
x Constant -> Constant -> Bool
forall a. Eq a => a -> a -> Bool
/= Constant
y
eqC (PAtom Brel
Ne Expr
x Expr
y)
= Expr
x Expr -> Expr -> Bool
forall a. Eq a => a -> a -> Bool
== Expr
y
eqC (PAtom Brel
Une Expr
x Expr
y)
= Expr
x Expr -> Expr -> Bool
forall a. Eq a => a -> a -> Bool
== Expr
y
eqC Expr
_ = Bool
False
isTautoPred :: Expr -> Bool
isTautoPred :: Expr -> Bool
isTautoPred Expr
z = Expr
z Expr -> Expr -> Bool
forall a. Eq a => a -> a -> Bool
== Expr
PTop Bool -> Bool -> Bool
|| Expr
z Expr -> Expr -> Bool
forall a. Eq a => a -> a -> Bool
== Expr
PTrue Bool -> Bool -> Bool
|| Expr -> Bool
eqT Expr
z
where
eqT :: Expr -> Bool
eqT (PAnd [])
= Bool
True
eqT (PAtom Brel
Le Expr
x Expr
y)
= Expr
x Expr -> Expr -> Bool
forall a. Eq a => a -> a -> Bool
== Expr
y
eqT (PAtom Brel
Ge Expr
x Expr
y)
= Expr
x Expr -> Expr -> Bool
forall a. Eq a => a -> a -> Bool
== Expr
y
eqT (PAtom Brel
Eq Expr
x Expr
y)
= Expr
x Expr -> Expr -> Bool
forall a. Eq a => a -> a -> Bool
== Expr
y
eqT (PAtom Brel
Ueq Expr
x Expr
y)
= Expr
x Expr -> Expr -> Bool
forall a. Eq a => a -> a -> Bool
== Expr
y
eqT (PAtom Brel
Ne (ECon Constant
x) (ECon Constant
y))
= Constant
x Constant -> Constant -> Bool
forall a. Eq a => a -> a -> Bool
/= Constant
y
eqT (PAtom Brel
Une (ECon Constant
x) (ECon Constant
y))
= Constant
x Constant -> Constant -> Bool
forall a. Eq a => a -> a -> Bool
/= Constant
y
eqT Expr
_ = Bool
False
isEq :: Brel -> Bool
isEq :: Brel -> Bool
isEq Brel
r = Brel
r Brel -> Brel -> Bool
forall a. Eq a => a -> a -> Bool
== Brel
Eq Bool -> Bool -> Bool
|| Brel
r Brel -> Brel -> Bool
forall a. Eq a => a -> a -> Bool
== Brel
Ueq
instance PPrint Constant where
pprintTidy :: Tidy -> Constant -> Doc
pprintTidy Tidy
_ = Constant -> Doc
forall a. Fixpoint a => a -> Doc
toFix
instance PPrint Brel where
pprintTidy :: Tidy -> Brel -> Doc
pprintTidy Tidy
_ Brel
Eq = Doc
"=="
pprintTidy Tidy
_ Brel
Ne = Doc
"/="
pprintTidy Tidy
_ Brel
r = Brel -> Doc
forall a. Fixpoint a => a -> Doc
toFix Brel
r
instance PPrint Bop where
pprintTidy :: Tidy -> Bop -> Doc
pprintTidy Tidy
_ = Bop -> Doc
forall a. Fixpoint a => a -> Doc
toFix
instance PPrint Sort where
pprintTidy :: Tidy -> Sort -> Doc
pprintTidy Tidy
_ = Sort -> Doc
forall a. Fixpoint a => a -> Doc
toFix
instance PPrint a => PPrint (TCEmb a) where
pprintTidy :: Tidy -> TCEmb a -> Doc
pprintTidy Tidy
k = Tidy -> [(a, (Sort, TCArgs))] -> Doc
forall a. PPrint a => Tidy -> a -> Doc
pprintTidy Tidy
k ([(a, (Sort, TCArgs))] -> Doc)
-> (TCEmb a -> [(a, (Sort, TCArgs))]) -> TCEmb a -> Doc
forall b c a. (b -> c) -> (a -> b) -> a -> c
. TCEmb a -> [(a, (Sort, TCArgs))]
forall a. TCEmb a -> [(a, (Sort, TCArgs))]
tceToList
instance PPrint KVar where
pprintTidy :: Tidy -> KVar -> Doc
pprintTidy Tidy
_ (KV Symbol
x) = String -> Doc
text String
"$" Doc -> Doc -> Doc
<-> Symbol -> Doc
forall a. PPrint a => a -> Doc
pprint Symbol
x
instance PPrint SymConst where
pprintTidy :: Tidy -> SymConst -> Doc
pprintTidy Tidy
_ (SL Text
x) = Doc -> Doc
doubleQuotes (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$ String -> Doc
text (String -> Doc) -> String -> Doc
forall a b. (a -> b) -> a -> b
$ Text -> String
T.unpack Text
x
parensIf :: Bool -> Doc -> Doc
parensIf :: Bool -> Doc -> Doc
parensIf Bool
True = Doc -> Doc
parens
parensIf Bool
False = Doc -> Doc
forall a. a -> a
id
opPrec :: Bop -> Int
opPrec :: Bop -> Int
opPrec Bop
Mod = Int
5
opPrec Bop
Plus = Int
6
opPrec Bop
Minus = Int
6
opPrec Bop
Times = Int
7
opPrec Bop
RTimes = Int
7
opPrec Bop
Div = Int
7
opPrec Bop
RDiv = Int
7
instance PPrint Expr where
pprintPrec :: Int -> Tidy -> Expr -> Doc
pprintPrec Int
_ Tidy
k (ESym SymConst
c) = Tidy -> SymConst -> Doc
forall a. PPrint a => Tidy -> a -> Doc
pprintTidy Tidy
k SymConst
c
pprintPrec Int
_ Tidy
k (ECon Constant
c) = Tidy -> Constant -> Doc
forall a. PPrint a => Tidy -> a -> Doc
pprintTidy Tidy
k Constant
c
pprintPrec Int
_ Tidy
k (EVar Symbol
s) = Tidy -> Symbol -> Doc
forall a. PPrint a => Tidy -> a -> Doc
pprintTidy Tidy
k Symbol
s
pprintPrec Int
z Tidy
k (ENeg Expr
e) = Bool -> Doc -> Doc
parensIf (Int
z Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
forall p. Num p => p
zn) (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$
Doc
"-" Doc -> Doc -> Doc
<-> Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
forall p. Num p => p
zn Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1) Tidy
k Expr
e
where zn :: p
zn = p
2
pprintPrec Int
z Tidy
k (EApp Expr
f Expr
es) = Bool -> Doc -> Doc
parensIf (Int
z Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
forall p. Num p => p
za) (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$
Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec Int
forall p. Num p => p
za Tidy
k Expr
f Doc -> Doc -> Doc
<+> Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
forall p. Num p => p
zaInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) Tidy
k Expr
es
where za :: p
za = p
8
pprintPrec Int
z Tidy
k (EBin Bop
o Expr
e1 Expr
e2) = Bool -> Doc -> Doc
parensIf (Int
z Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
zo) (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$
Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
zoInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) Tidy
k Expr
e1 Doc -> Doc -> Doc
<+>
Tidy -> Bop -> Doc
forall a. PPrint a => Tidy -> a -> Doc
pprintTidy Tidy
k Bop
o Doc -> Doc -> Doc
<+>
Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
zoInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) Tidy
k Expr
e2
where zo :: Int
zo = Bop -> Int
opPrec Bop
o
pprintPrec Int
z Tidy
k (EIte Expr
p Expr
e1 Expr
e2) = Bool -> Doc -> Doc
parensIf (Int
z Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
forall p. Num p => p
zi) (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$
Doc
"if" Doc -> Doc -> Doc
<+> Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
forall p. Num p => p
ziInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) Tidy
k Expr
p Doc -> Doc -> Doc
<+>
Doc
"then" Doc -> Doc -> Doc
<+> Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
forall p. Num p => p
ziInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) Tidy
k Expr
e1 Doc -> Doc -> Doc
<+>
Doc
"else" Doc -> Doc -> Doc
<+> Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
forall p. Num p => p
ziInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) Tidy
k Expr
e2
where zi :: p
zi = p
1
pprintPrec Int
z Tidy
k (ECst Expr
e Sort
_) = Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec Int
z Tidy
k Expr
e
pprintPrec Int
_ Tidy
_ Expr
PTrue = Doc
trueD
pprintPrec Int
_ Tidy
_ Expr
PFalse = Doc
falseD
pprintPrec Int
z Tidy
k (PNot Expr
p) = Bool -> Doc -> Doc
parensIf (Int
z Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
forall p. Num p => p
zn) (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$
Doc
"not" Doc -> Doc -> Doc
<+> Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
forall p. Num p => p
znInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) Tidy
k Expr
p
where zn :: p
zn = p
8
pprintPrec Int
z Tidy
k (PImp Expr
p1 Expr
p2) = Bool -> Doc -> Doc
parensIf (Int
z Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
forall p. Num p => p
zi) (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$
(Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
forall p. Num p => p
ziInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) Tidy
k Expr
p1) Doc -> Doc -> Doc
<+>
Doc
"=>" Doc -> Doc -> Doc
<+>
(Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
forall p. Num p => p
ziInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) Tidy
k Expr
p2)
where zi :: p
zi = p
2
pprintPrec Int
z Tidy
k (PIff Expr
p1 Expr
p2) = Bool -> Doc -> Doc
parensIf (Int
z Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
forall p. Num p => p
zi) (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$
(Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
forall p. Num p => p
ziInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) Tidy
k Expr
p1) Doc -> Doc -> Doc
<+>
Doc
"<=>" Doc -> Doc -> Doc
<+>
(Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
forall p. Num p => p
ziInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) Tidy
k Expr
p2)
where zi :: p
zi = p
2
pprintPrec Int
z Tidy
k (PAnd [Expr]
ps) = Bool -> Doc -> Doc
parensIf (Int
z Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
forall p. Num p => p
za) (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$
Int -> Tidy -> Doc -> Doc -> [Expr] -> Doc
forall a. PPrint a => Int -> Tidy -> Doc -> Doc -> [a] -> Doc
pprintBin (Int
forall p. Num p => p
za Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1) Tidy
k Doc
trueD Doc
andD [Expr]
ps
where za :: p
za = p
3
pprintPrec Int
z Tidy
k (POr [Expr]
ps) = Bool -> Doc -> Doc
parensIf (Int
z Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
forall p. Num p => p
zo) (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$
Int -> Tidy -> Doc -> Doc -> [Expr] -> Doc
forall a. PPrint a => Int -> Tidy -> Doc -> Doc -> [a] -> Doc
pprintBin (Int
forall p. Num p => p
zo Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1) Tidy
k Doc
falseD Doc
orD [Expr]
ps
where zo :: p
zo = p
3
pprintPrec Int
z Tidy
k (PAtom Brel
r Expr
e1 Expr
e2) = Bool -> Doc -> Doc
parensIf (Int
z Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
forall p. Num p => p
za) (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$
Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
forall p. Num p => p
zaInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) Tidy
k Expr
e1 Doc -> Doc -> Doc
<+>
Tidy -> Brel -> Doc
forall a. PPrint a => Tidy -> a -> Doc
pprintTidy Tidy
k Brel
r Doc -> Doc -> Doc
<+>
Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec (Int
forall p. Num p => p
zaInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) Tidy
k Expr
e2
where za :: p
za = p
4
pprintPrec Int
_ Tidy
k (PAll [(Symbol, Sort)]
xts Expr
p) = Tidy -> Doc -> [(Symbol, Sort)] -> Expr -> Doc
pprintQuant Tidy
k Doc
"forall" [(Symbol, Sort)]
xts Expr
p
pprintPrec Int
_ Tidy
k (PExist [(Symbol, Sort)]
xts Expr
p) = Tidy -> Doc -> [(Symbol, Sort)] -> Expr -> Doc
pprintQuant Tidy
k Doc
"exists" [(Symbol, Sort)]
xts Expr
p
pprintPrec Int
_ Tidy
k (ELam (Symbol
x,Sort
t) Expr
e) = Doc
"lam" Doc -> Doc -> Doc
<+> Symbol -> Doc
forall a. Fixpoint a => a -> Doc
toFix Symbol
x Doc -> Doc -> Doc
<+> Doc
":" Doc -> Doc -> Doc
<+> Sort -> Doc
forall a. Fixpoint a => a -> Doc
toFix Sort
t Doc -> Doc -> Doc
<+> String -> Doc
text String
"." Doc -> Doc -> Doc
<+> Tidy -> Expr -> Doc
forall a. PPrint a => Tidy -> a -> Doc
pprintTidy Tidy
k Expr
e
pprintPrec Int
_ Tidy
k (ECoerc Sort
a Sort
t Expr
e) = Doc -> Doc
parens (Doc -> Doc) -> Doc -> Doc
forall a b. (a -> b) -> a -> b
$ Doc
"coerce" Doc -> Doc -> Doc
<+> Sort -> Doc
forall a. Fixpoint a => a -> Doc
toFix Sort
a Doc -> Doc -> Doc
<+> Doc
"~" Doc -> Doc -> Doc
<+> Sort -> Doc
forall a. Fixpoint a => a -> Doc
toFix Sort
t Doc -> Doc -> Doc
<+> String -> Doc
text String
"in" Doc -> Doc -> Doc
<+> Tidy -> Expr -> Doc
forall a. PPrint a => Tidy -> a -> Doc
pprintTidy Tidy
k Expr
e
pprintPrec Int
_ Tidy
_ p :: Expr
p@(PKVar {}) = Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
p
pprintPrec Int
_ Tidy
_ (ETApp Expr
e Sort
s) = Doc
"ETApp" Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e Doc -> Doc -> Doc
<+> Sort -> Doc
forall a. Fixpoint a => a -> Doc
toFix Sort
s
pprintPrec Int
_ Tidy
_ (ETAbs Expr
e Symbol
s) = Doc
"ETAbs" Doc -> Doc -> Doc
<+> Expr -> Doc
forall a. Fixpoint a => a -> Doc
toFix Expr
e Doc -> Doc -> Doc
<+> Symbol -> Doc
forall a. Fixpoint a => a -> Doc
toFix Symbol
s
pprintPrec Int
z Tidy
k (PGrad KVar
x Subst
_ GradInfo
_ Expr
e) = Int -> Tidy -> Expr -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec Int
z Tidy
k Expr
e Doc -> Doc -> Doc
<+> Doc
"&&" Doc -> Doc -> Doc
<+> KVar -> Doc
forall a. Fixpoint a => a -> Doc
toFix KVar
x
pprintQuant :: Tidy -> Doc -> [(Symbol, Sort)] -> Expr -> Doc
pprintQuant :: Tidy -> Doc -> [(Symbol, Sort)] -> Expr -> Doc
pprintQuant Tidy
k Doc
d [(Symbol, Sort)]
xts Expr
p = (Doc
d Doc -> Doc -> Doc
<+> [(Symbol, Sort)] -> Doc
forall a. Fixpoint a => a -> Doc
toFix [(Symbol, Sort)]
xts)
Doc -> Doc -> Doc
$+$
(Doc
" ." Doc -> Doc -> Doc
<+> Tidy -> Expr -> Doc
forall a. PPrint a => Tidy -> a -> Doc
pprintTidy Tidy
k Expr
p)
trueD, falseD, andD, orD :: Doc
trueD :: Doc
trueD = Doc
"true"
falseD :: Doc
falseD = Doc
"false"
andD :: Doc
andD = Doc
"&&"
orD :: Doc
orD = Doc
"||"
pprintBin :: (PPrint a) => Int -> Tidy -> Doc -> Doc -> [a] -> Doc
pprintBin :: Int -> Tidy -> Doc -> Doc -> [a] -> Doc
pprintBin Int
_ Tidy
_ Doc
b Doc
_ [] = Doc
b
pprintBin Int
z Tidy
k Doc
_ Doc
o [a]
xs = Doc -> [Doc] -> Doc
vIntersperse Doc
o ([Doc] -> Doc) -> [Doc] -> Doc
forall a b. (a -> b) -> a -> b
$ Int -> Tidy -> a -> Doc
forall a. PPrint a => Int -> Tidy -> a -> Doc
pprintPrec Int
z Tidy
k (a -> Doc) -> [a] -> [Doc]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> [a]
xs
vIntersperse :: Doc -> [Doc] -> Doc
vIntersperse :: Doc -> [Doc] -> Doc
vIntersperse Doc
_ [] = Doc
empty
vIntersperse Doc
_ [Doc
d] = Doc
d
vIntersperse Doc
s (Doc
d:[Doc]
ds) = [Doc] -> Doc
vcat (Doc
d Doc -> [Doc] -> [Doc]
forall a. a -> [a] -> [a]
: ((Doc
s Doc -> Doc -> Doc
<+>) (Doc -> Doc) -> [Doc] -> [Doc]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> [Doc]
ds))
pprintReft :: Tidy -> Reft -> Doc
pprintReft :: Tidy -> Reft -> Doc
pprintReft Tidy
k (Reft (Symbol
_,Expr
ra)) = Int -> Tidy -> Doc -> Doc -> [Expr] -> Doc
forall a. PPrint a => Int -> Tidy -> Doc -> Doc -> [a] -> Doc
pprintBin Int
z Tidy
k Doc
trueD Doc
andD [Expr]
flat
where
flat :: [Expr]
flat = [Expr] -> [Expr]
flattenRefas [Expr
ra]
z :: Int
z = if [Expr] -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length [Expr]
flat Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
1 then Int
3 else Int
0
class Expression a where
expr :: a -> Expr
class Predicate a where
prop :: a -> Expr
instance Expression SortedReft where
expr :: SortedReft -> Expr
expr (RR Sort
_ Reft
r) = Reft -> Expr
forall a. Expression a => a -> Expr
expr Reft
r
instance Expression Reft where
expr :: Reft -> Expr
expr (Reft(Symbol
_, Expr
e)) = Expr
e
instance Expression Expr where
expr :: Expr -> Expr
expr = Expr -> Expr
forall a. a -> a
id
instance Expression Symbol where
expr :: Symbol -> Expr
expr Symbol
s = Symbol -> Expr
forall a. Symbolic a => a -> Expr
eVar Symbol
s
instance Expression Text where
expr :: Text -> Expr
expr = SymConst -> Expr
ESym (SymConst -> Expr) -> (Text -> SymConst) -> Text -> Expr
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Text -> SymConst
SL
instance Expression Integer where
expr :: Integer -> Expr
expr = Constant -> Expr
ECon (Constant -> Expr) -> (Integer -> Constant) -> Integer -> Expr
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Integer -> Constant
I
instance Expression Int where
expr :: Int -> Expr
expr = Integer -> Expr
forall a. Expression a => a -> Expr
expr (Integer -> Expr) -> (Int -> Integer) -> Int -> Expr
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Int -> Integer
forall a. Integral a => a -> Integer
toInteger
instance Predicate Symbol where
prop :: Symbol -> Expr
prop = Symbol -> Expr
forall a. Symbolic a => a -> Expr
eProp
instance Predicate Expr where
prop :: Expr -> Expr
prop = Expr -> Expr
forall a. a -> a
id
instance Predicate Bool where
prop :: Bool -> Expr
prop Bool
True = Expr
PTrue
prop Bool
False = Expr
PFalse
instance Expression a => Expression (Located a) where
expr :: Located a -> Expr
expr = a -> Expr
forall a. Expression a => a -> Expr
expr (a -> Expr) -> (Located a -> a) -> Located a -> Expr
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Located a -> a
forall a. Located a -> a
val
eVar :: Symbolic a => a -> Expr
eVar :: a -> Expr
eVar = Symbol -> Expr
EVar (Symbol -> Expr) -> (a -> Symbol) -> a -> Expr
forall b c a. (b -> c) -> (a -> b) -> a -> c
. a -> Symbol
forall a. Symbolic a => a -> Symbol
symbol
eProp :: Symbolic a => a -> Expr
eProp :: a -> Expr
eProp = Expr -> Expr
mkProp (Expr -> Expr) -> (a -> Expr) -> a -> Expr
forall b c a. (b -> c) -> (a -> b) -> a -> c
. a -> Expr
forall a. Symbolic a => a -> Expr
eVar
isSingletonExpr :: Symbol -> Expr -> Maybe Expr
isSingletonExpr :: Symbol -> Expr -> Maybe Expr
isSingletonExpr Symbol
v (PAtom Brel
r Expr
e1 Expr
e2)
| Expr
e1 Expr -> Expr -> Bool
forall a. Eq a => a -> a -> Bool
== Symbol -> Expr
EVar Symbol
v Bool -> Bool -> Bool
&& Brel -> Bool
isEq Brel
r = Expr -> Maybe Expr
forall a. a -> Maybe a
Just Expr
e2
| Expr
e2 Expr -> Expr -> Bool
forall a. Eq a => a -> a -> Bool
== Symbol -> Expr
EVar Symbol
v Bool -> Bool -> Bool
&& Brel -> Bool
isEq Brel
r = Expr -> Maybe Expr
forall a. a -> Maybe a
Just Expr
e1
isSingletonExpr Symbol
v (PIff Expr
e1 Expr
e2)
| Expr
e1 Expr -> Expr -> Bool
forall a. Eq a => a -> a -> Bool
== Symbol -> Expr
EVar Symbol
v = Expr -> Maybe Expr
forall a. a -> Maybe a
Just Expr
e2
| Expr
e2 Expr -> Expr -> Bool
forall a. Eq a => a -> a -> Bool
== Symbol -> Expr
EVar Symbol
v = Expr -> Maybe Expr
forall a. a -> Maybe a
Just Expr
e1
isSingletonExpr Symbol
_ Expr
_ = Maybe Expr
forall a. Maybe a
Nothing
pAnd, pOr :: ListNE Pred -> Pred
pAnd :: [Expr] -> Expr
pAnd = Expr -> Expr
forall a. Fixpoint a => a -> a
simplify (Expr -> Expr) -> ([Expr] -> Expr) -> [Expr] -> Expr
forall b c a. (b -> c) -> (a -> b) -> a -> c
. [Expr] -> Expr
PAnd
pOr :: [Expr] -> Expr
pOr = Expr -> Expr
forall a. Fixpoint a => a -> a
simplify (Expr -> Expr) -> ([Expr] -> Expr) -> [Expr] -> Expr
forall b c a. (b -> c) -> (a -> b) -> a -> c
. [Expr] -> Expr
POr
(&.&) :: Pred -> Pred -> Pred
&.& :: Expr -> Expr -> Expr
(&.&) Expr
p Expr
q = [Expr] -> Expr
pAnd [Expr
p, Expr
q]
(|.|) :: Pred -> Pred -> Pred
|.| :: Expr -> Expr -> Expr
(|.|) Expr
p Expr
q = [Expr] -> Expr
pOr [Expr
p, Expr
q]
pIte :: Pred -> Expr -> Expr -> Expr
pIte :: Expr -> Expr -> Expr -> Expr
pIte Expr
p1 Expr
p2 Expr
p3 = [Expr] -> Expr
pAnd [Expr
p1 Expr -> Expr -> Expr
`PImp` Expr
p2, (Expr -> Expr
PNot Expr
p1) Expr -> Expr -> Expr
`PImp` Expr
p3]
pExist :: [(Symbol, Sort)] -> Pred -> Pred
pExist :: [(Symbol, Sort)] -> Expr -> Expr
pExist [] Expr
p = Expr
p
pExist [(Symbol, Sort)]
xts Expr
p = [(Symbol, Sort)] -> Expr -> Expr
PExist [(Symbol, Sort)]
xts Expr
p
mkProp :: Expr -> Pred
mkProp :: Expr -> Expr
mkProp = Expr -> Expr
forall a. a -> a
id
isSingletonReft :: Reft -> Maybe Expr
isSingletonReft :: Reft -> Maybe Expr
isSingletonReft (Reft (Symbol
v, Expr
ra)) = (Expr -> Maybe Expr) -> [Expr] -> Maybe Expr
forall a b. (a -> Maybe b) -> [a] -> Maybe b
firstMaybe (Symbol -> Expr -> Maybe Expr
isSingletonExpr Symbol
v) ([Expr] -> Maybe Expr) -> [Expr] -> Maybe Expr
forall a b. (a -> b) -> a -> b
$ Expr -> [Expr]
conjuncts Expr
ra
relReft :: (Expression a) => Brel -> a -> Reft
relReft :: Brel -> a -> Reft
relReft Brel
r a
e = (Symbol, Expr) -> Reft
Reft (Symbol
vv_, Brel -> Expr -> Expr -> Expr
PAtom Brel
r (Symbol -> Expr
forall a. Symbolic a => a -> Expr
eVar Symbol
vv_) (a -> Expr
forall a. Expression a => a -> Expr
expr a
e))
exprReft, notExprReft, uexprReft :: (Expression a) => a -> Reft
exprReft :: a -> Reft
exprReft = Brel -> a -> Reft
forall a. Expression a => Brel -> a -> Reft
relReft Brel
Eq
notExprReft :: a -> Reft
notExprReft = Brel -> a -> Reft
forall a. Expression a => Brel -> a -> Reft
relReft Brel
Ne
uexprReft :: a -> Reft
uexprReft = Brel -> a -> Reft
forall a. Expression a => Brel -> a -> Reft
relReft Brel
Ueq
propReft :: (Predicate a) => a -> Reft
propReft :: a -> Reft
propReft a
p = (Symbol, Expr) -> Reft
Reft (Symbol
vv_, Expr -> Expr -> Expr
PIff (Symbol -> Expr
forall a. Symbolic a => a -> Expr
eProp Symbol
vv_) (a -> Expr
forall a. Predicate a => a -> Expr
prop a
p))
predReft :: (Predicate a) => a -> Reft
predReft :: a -> Reft
predReft a
p = (Symbol, Expr) -> Reft
Reft (Symbol
vv_, a -> Expr
forall a. Predicate a => a -> Expr
prop a
p)
reft :: Symbol -> Expr -> Reft
reft :: Symbol -> Expr -> Reft
reft Symbol
v Expr
p = (Symbol, Expr) -> Reft
Reft (Symbol
v, Expr
p)
mapPredReft :: (Expr -> Expr) -> Reft -> Reft
mapPredReft :: (Expr -> Expr) -> Reft -> Reft
mapPredReft Expr -> Expr
f (Reft (Symbol
v, Expr
p)) = (Symbol, Expr) -> Reft
Reft (Symbol
v, Expr -> Expr
f Expr
p)
isFunctionSortedReft :: SortedReft -> Bool
isFunctionSortedReft :: SortedReft -> Bool
isFunctionSortedReft = Maybe ([Int], [Sort], Sort) -> Bool
forall a. Maybe a -> Bool
isJust (Maybe ([Int], [Sort], Sort) -> Bool)
-> (SortedReft -> Maybe ([Int], [Sort], Sort))
-> SortedReft
-> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Sort -> Maybe ([Int], [Sort], Sort)
functionSort (Sort -> Maybe ([Int], [Sort], Sort))
-> (SortedReft -> Sort)
-> SortedReft
-> Maybe ([Int], [Sort], Sort)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. SortedReft -> Sort
sr_sort
isNonTrivial :: Reftable r => r -> Bool
isNonTrivial :: r -> Bool
isNonTrivial = Bool -> Bool
not (Bool -> Bool) -> (r -> Bool) -> r -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. r -> Bool
forall r. Reftable r => r -> Bool
isTauto
reftPred :: Reft -> Expr
reftPred :: Reft -> Expr
reftPred (Reft (Symbol
_, Expr
p)) = Expr
p
reftBind :: Reft -> Symbol
reftBind :: Reft -> Symbol
reftBind (Reft (Symbol
x, Expr
_)) = Symbol
x
pGAnds :: [Expr] -> Expr
pGAnds :: [Expr] -> Expr
pGAnds = (Expr -> Expr -> Expr) -> Expr -> [Expr] -> Expr
forall (t :: * -> *) b a.
Foldable t =>
(b -> a -> b) -> b -> t a -> b
foldl Expr -> Expr -> Expr
pGAnd Expr
PTrue
pGAnd :: Expr -> Expr -> Expr
pGAnd :: Expr -> Expr -> Expr
pGAnd (PGrad KVar
k Subst
su GradInfo
i Expr
p) Expr
q = KVar -> Subst -> GradInfo -> Expr -> Expr
PGrad KVar
k Subst
su GradInfo
i ([Expr] -> Expr
pAnd [Expr
p, Expr
q])
pGAnd Expr
p (PGrad KVar
k Subst
su GradInfo
i Expr
q) = KVar -> Subst -> GradInfo -> Expr -> Expr
PGrad KVar
k Subst
su GradInfo
i ([Expr] -> Expr
pAnd [Expr
p, Expr
q])
pGAnd Expr
p Expr
q = [Expr] -> Expr
pAnd [Expr
p,Expr
q]
symbolReft :: (Symbolic a) => a -> Reft
symbolReft :: a -> Reft
symbolReft = Expr -> Reft
forall a. Expression a => a -> Reft
exprReft (Expr -> Reft) -> (a -> Expr) -> a -> Reft
forall b c a. (b -> c) -> (a -> b) -> a -> c
. a -> Expr
forall a. Symbolic a => a -> Expr
eVar
usymbolReft :: (Symbolic a) => a -> Reft
usymbolReft :: a -> Reft
usymbolReft = Expr -> Reft
forall a. Expression a => a -> Reft
uexprReft (Expr -> Reft) -> (a -> Expr) -> a -> Reft
forall b c a. (b -> c) -> (a -> b) -> a -> c
. a -> Expr
forall a. Symbolic a => a -> Expr
eVar
vv_ :: Symbol
vv_ :: Symbol
vv_ = Maybe Integer -> Symbol
vv Maybe Integer
forall a. Maybe a
Nothing
trueSortedReft :: Sort -> SortedReft
trueSortedReft :: Sort -> SortedReft
trueSortedReft = (Sort -> Reft -> SortedReft
`RR` Reft
trueReft)
trueReft, falseReft :: Reft
trueReft :: Reft
trueReft = (Symbol, Expr) -> Reft
Reft (Symbol
vv_, Expr
PTrue)
falseReft :: Reft
falseReft = (Symbol, Expr) -> Reft
Reft (Symbol
vv_, Expr
PFalse)
flattenRefas :: [Expr] -> [Expr]
flattenRefas :: [Expr] -> [Expr]
flattenRefas = (Expr -> [Expr]) -> [Expr] -> [Expr]
forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b]
concatMap Expr -> [Expr]
flatP
where
flatP :: Expr -> [Expr]
flatP (PAnd [Expr]
ps) = (Expr -> [Expr]) -> [Expr] -> [Expr]
forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b]
concatMap Expr -> [Expr]
flatP [Expr]
ps
flatP Expr
p = [Expr
p]
conjuncts :: Expr -> [Expr]
conjuncts :: Expr -> [Expr]
conjuncts (PAnd [Expr]
ps) = (Expr -> [Expr]) -> [Expr] -> [Expr]
forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b]
concatMap Expr -> [Expr]
conjuncts [Expr]
ps
conjuncts Expr
p
| Expr -> Bool
isTautoPred Expr
p = []
| Bool
otherwise = [Expr
p]
class Falseable a where
isFalse :: a -> Bool
instance Falseable Expr where
isFalse :: Expr -> Bool
isFalse (Expr
PFalse) = Bool
True
isFalse Expr
_ = Bool
False
instance Falseable Reft where
isFalse :: Reft -> Bool
isFalse (Reft (Symbol
_, Expr
ra)) = Expr -> Bool
forall a. Falseable a => a -> Bool
isFalse Expr
ra
class Subable a where
syms :: a -> [Symbol]
substa :: (Symbol -> Symbol) -> a -> a
substf :: (Symbol -> Expr) -> a -> a
subst :: Subst -> a -> a
subst1 :: a -> (Symbol, Expr) -> a
subst1 a
y (Symbol
x, Expr
e) = Subst -> a -> a
forall a. Subable a => Subst -> a -> a
subst (HashMap Symbol Expr -> Subst
Su (HashMap Symbol Expr -> Subst) -> HashMap Symbol Expr -> Subst
forall a b. (a -> b) -> a -> b
$ [(Symbol, Expr)] -> HashMap Symbol Expr
forall k v. (Eq k, Hashable k) => [(k, v)] -> HashMap k v
M.fromList [(Symbol
x,Expr
e)]) a
y
instance Subable a => Subable (Located a) where
syms :: Located a -> [Symbol]
syms (Loc SourcePos
_ SourcePos
_ a
x) = a -> [Symbol]
forall a. Subable a => a -> [Symbol]
syms a
x
substa :: (Symbol -> Symbol) -> Located a -> Located a
substa Symbol -> Symbol
f (Loc SourcePos
l SourcePos
l' a
x) = SourcePos -> SourcePos -> a -> Located a
forall a. SourcePos -> SourcePos -> a -> Located a
Loc SourcePos
l SourcePos
l' ((Symbol -> Symbol) -> a -> a
forall a. Subable a => (Symbol -> Symbol) -> a -> a
substa Symbol -> Symbol
f a
x)
substf :: (Symbol -> Expr) -> Located a -> Located a
substf Symbol -> Expr
f (Loc SourcePos
l SourcePos
l' a
x) = SourcePos -> SourcePos -> a -> Located a
forall a. SourcePos -> SourcePos -> a -> Located a
Loc SourcePos
l SourcePos
l' ((Symbol -> Expr) -> a -> a
forall a. Subable a => (Symbol -> Expr) -> a -> a
substf Symbol -> Expr
f a
x)
subst :: Subst -> Located a -> Located a
subst Subst
su (Loc SourcePos
l SourcePos
l' a
x) = SourcePos -> SourcePos -> a -> Located a
forall a. SourcePos -> SourcePos -> a -> Located a
Loc SourcePos
l SourcePos
l' (Subst -> a -> a
forall a. Subable a => Subst -> a -> a
subst Subst
su a
x)
class (Monoid r, Subable r) => Reftable r where
isTauto :: r -> Bool
ppTy :: r -> Doc -> Doc
top :: r -> r
top r
_ = r
forall a. Monoid a => a
mempty
bot :: r -> r
meet :: r -> r -> r
meet = r -> r -> r
forall a. Monoid a => a -> a -> a
mappend
toReft :: r -> Reft
ofReft :: Reft -> r
params :: r -> [Symbol]