-- GeNeRaTeD fOr: ../../CBS-beta/Funcons-beta/Computations/Abnormal/Returning/Returning.cbs
{-# LANGUAGE OverloadedStrings #-}

module Funcons.Core.Computations.Abnormal.Returning.Returning where

import Funcons.EDSL

import Funcons.Operations hiding (Values,libFromList)
entities :: [a]
entities = []

types :: TypeRelation
types = [(Name, DataTypeMembers)] -> TypeRelation
typeEnvFromList
    [(Name
"returning",Name -> [TPattern] -> [DataTypeAltt] -> DataTypeMembers
DataTypeMemberss Name
"returning" [] [Name -> [FTerm] -> Maybe [TPattern] -> DataTypeAltt
DataTypeMemberConstructor Name
"returned" [Name -> FTerm
TName Name
"values"] ([TPattern] -> Maybe [TPattern]
forall a. a -> Maybe a
Just [])])]

funcons :: FunconLibrary
funcons = [(Name, EvalFunction)] -> FunconLibrary
libFromList
    [(Name
"returned",StrictFuncon -> EvalFunction
StrictFuncon StrictFuncon
stepReturned),(Name
"finalise-returning",NonStrictFuncon -> EvalFunction
NonStrictFuncon NonStrictFuncon
stepFinalise_returning),(Name
"return",StrictFuncon -> EvalFunction
StrictFuncon StrictFuncon
stepReturn),(Name
"handle-return",NonStrictFuncon -> EvalFunction
NonStrictFuncon NonStrictFuncon
stepHandle_return),(Name
"returning",NullaryFuncon -> EvalFunction
NullaryFuncon NullaryFuncon
stepReturning)]

returned_ :: [Funcons] -> Funcons
returned_ [Funcons]
fargs = Name -> [Funcons] -> Funcons
FApp Name
"returned" ([Funcons]
fargs)
stepReturned :: StrictFuncon
stepReturned [Values]
fargs =
    [NullaryFuncon] -> [MSOS StepRes] -> NullaryFuncon
evalRules [NullaryFuncon
rewrite1] []
    where rewrite1 :: NullaryFuncon
rewrite1 = do
            let env :: Map k a
env = Map k a
forall k a. Map k a
emptyEnv
            Env
env <- [Values] -> [VPattern] -> Env -> Rewrite Env
vsMatch [Values]
fargs [MetaVar -> VPattern
VPMetaVar MetaVar
"_X1"] Env
forall k a. Map k a
env
            Env
env <- SideCondition -> Env -> Rewrite Env
sideCondition (FTerm -> FTerm -> SideCondition
SCIsInSort (MetaVar -> FTerm
TVar MetaVar
"_X1") (FTerm -> SeqSortOp -> FTerm
TSortSeq (Name -> FTerm
TName Name
"values") SeqSortOp
QuestionMarkOp)) Env
env
            FTerm -> Env -> NullaryFuncon
rewriteTermTo (Name -> [FTerm] -> FTerm
TApp Name
"datatype-value" [Funcons -> FTerm
TFuncon (Values -> Funcons
FValue (Name -> [Funcons] -> Values
forall t. Name -> [t] -> Values t
ADTVal Name
"list" [Values -> Funcons
FValue (Name -> [Funcons] -> Values
forall t. Name -> [t] -> Values t
ADTVal Name
"unicode-character" [Values -> Funcons
FValue (Integer -> Values
forall t. Integer -> Values t
Int Integer
114)]),Values -> Funcons
FValue (Name -> [Funcons] -> Values
forall t. Name -> [t] -> Values t
ADTVal Name
"unicode-character" [Values -> Funcons
FValue (Integer -> Values
forall t. Integer -> Values t
Int Integer
101)]),Values -> Funcons
FValue (Name -> [Funcons] -> Values
forall t. Name -> [t] -> Values t
ADTVal Name
"unicode-character" [Values -> Funcons
FValue (Integer -> Values
forall t. Integer -> Values t
Int Integer
116)]),Values -> Funcons
FValue (Name -> [Funcons] -> Values
forall t. Name -> [t] -> Values t
ADTVal Name
"unicode-character" [Values -> Funcons
FValue (Integer -> Values
forall t. Integer -> Values t
Int Integer
117)]),Values -> Funcons
FValue (Name -> [Funcons] -> Values
forall t. Name -> [t] -> Values t
ADTVal Name
"unicode-character" [Values -> Funcons
FValue (Integer -> Values
forall t. Integer -> Values t
Int Integer
114)]),Values -> Funcons
FValue (Name -> [Funcons] -> Values
forall t. Name -> [t] -> Values t
ADTVal Name
"unicode-character" [Values -> Funcons
FValue (Integer -> Values
forall t. Integer -> Values t
Int Integer
110)]),Values -> Funcons
FValue (Name -> [Funcons] -> Values
forall t. Name -> [t] -> Values t
ADTVal Name
"unicode-character" [Values -> Funcons
FValue (Integer -> Values
forall t. Integer -> Values t
Int Integer
101)]),Values -> Funcons
FValue (Name -> [Funcons] -> Values
forall t. Name -> [t] -> Values t
ADTVal Name
"unicode-character" [Values -> Funcons
FValue (Integer -> Values
forall t. Integer -> Values t
Int Integer
100)])])),MetaVar -> FTerm
TVar MetaVar
"_X1"]) Env
env

finalise_returning_ :: [Funcons] -> Funcons
finalise_returning_ [Funcons]
fargs = Name -> [Funcons] -> Funcons
FApp Name
"finalise-returning" ([Funcons]
fargs)
stepFinalise_returning :: NonStrictFuncon
stepFinalise_returning [Funcons]
fargs =
    [NullaryFuncon] -> [MSOS StepRes] -> NullaryFuncon
evalRules [NullaryFuncon
rewrite1] []
    where rewrite1 :: NullaryFuncon
rewrite1 = do
            let env :: Map k a
env = Map k a
forall k a. Map k a
emptyEnv
            Env
env <- [Funcons] -> [FPattern] -> Env -> Rewrite Env
fsMatch [Funcons]
fargs [MetaVar -> FPattern
PMetaVar MetaVar
"X"] Env
forall k a. Map k a
env
            FTerm -> Env -> NullaryFuncon
rewriteTermTo (Name -> [FTerm] -> FTerm
TApp Name
"finalise-abrupting" [MetaVar -> FTerm
TVar MetaVar
"X"]) Env
env

return_ :: [Funcons] -> Funcons
return_ [Funcons]
fargs = Name -> [Funcons] -> Funcons
FApp Name
"return" ([Funcons]
fargs)
stepReturn :: StrictFuncon
stepReturn [Values]
fargs =
    [NullaryFuncon] -> [MSOS StepRes] -> NullaryFuncon
evalRules [NullaryFuncon
rewrite1] []
    where rewrite1 :: NullaryFuncon
rewrite1 = do
            let env :: Map k a
env = Map k a
forall k a. Map k a
emptyEnv
            Env
env <- [Values] -> [VPattern] -> Env -> Rewrite Env
vsMatch [Values]
fargs [VPattern -> FTerm -> VPattern
VPAnnotated (MetaVar -> VPattern
VPMetaVar MetaVar
"V") (Name -> FTerm
TName Name
"values")] Env
forall k a. Map k a
env
            FTerm -> Env -> NullaryFuncon
rewriteTermTo (Name -> [FTerm] -> FTerm
TApp Name
"abrupt" [Name -> [FTerm] -> FTerm
TApp Name
"returned" [MetaVar -> FTerm
TVar MetaVar
"V"]]) Env
env

handle_return_ :: [Funcons] -> Funcons
handle_return_ [Funcons]
fargs = Name -> [Funcons] -> Funcons
FApp Name
"handle-return" ([Funcons]
fargs)
stepHandle_return :: NonStrictFuncon
stepHandle_return [Funcons]
fargs =
    [NullaryFuncon] -> [MSOS StepRes] -> NullaryFuncon
evalRules [NullaryFuncon
rewrite1] [MSOS StepRes
step1,MSOS StepRes
step2,MSOS StepRes
step3]
    where rewrite1 :: NullaryFuncon
rewrite1 = do
            let env :: Map k a
env = Map k a
forall k a. Map k a
emptyEnv
            Env
env <- [Funcons] -> [FPattern] -> Env -> Rewrite Env
fsMatch [Funcons]
fargs [FPattern -> FTerm -> FPattern
PAnnotated (MetaVar -> FPattern
PMetaVar MetaVar
"V") (Name -> FTerm
TName Name
"values")] Env
forall k a. Map k a
env
            FTerm -> Env -> NullaryFuncon
rewriteTermTo (MetaVar -> FTerm
TVar MetaVar
"V") Env
env
          step1 :: MSOS StepRes
step1 = do
            let env :: Map k a
env = Map k a
forall k a. Map k a
emptyEnv
            Env
env <- [Funcons] -> [FPattern] -> Env -> MSOS Env
lifted_fsMatch [Funcons]
fargs [MetaVar -> FPattern
PMetaVar MetaVar
"X"] Env
forall k a. Map k a
env
            Env
env <- Name -> Maybe VPattern -> Env -> MSOS Env
getControlPatt Name
"abrupted" (Maybe VPattern
forall a. Maybe a
Nothing) Env
env
            (Env
env,[Maybe Values
__varabrupted]) <- [Name] -> MSOS Env -> MSOS (Env, [Maybe Values])
forall a. [Name] -> MSOS a -> MSOS (a, [Maybe Values])
receiveSignals [Name
"abrupted"] (Name -> Maybe FTerm -> Env -> MSOS Env -> MSOS Env
forall a. Name -> Maybe FTerm -> Env -> MSOS a -> MSOS a
withControlTerm Name
"abrupted" (Maybe FTerm
forall a. Maybe a
Nothing) Env
env (FTerm -> [FPattern] -> Env -> MSOS Env
premise (MetaVar -> FTerm
TVar MetaVar
"X") [MetaVar -> FPattern
PMetaVar MetaVar
"X'"] Env
env))
            Env
env <- Maybe Values -> Maybe VPattern -> Env -> MSOS Env
receiveSignalPatt Maybe Values
__varabrupted (Maybe VPattern
forall a. Maybe a
Nothing) Env
env
            FTerm -> Env -> MSOS StepRes
stepTermTo (Name -> [FTerm] -> FTerm
TApp Name
"handle-return" [MetaVar -> FTerm
TVar MetaVar
"X'"]) Env
env
          step2 :: MSOS StepRes
step2 = do
            let env :: Map k a
env = Map k a
forall k a. Map k a
emptyEnv
            Env
env <- [Funcons] -> [FPattern] -> Env -> MSOS Env
lifted_fsMatch [Funcons]
fargs [MetaVar -> FPattern
PMetaVar MetaVar
"X"] Env
forall k a. Map k a
env
            Env
env <- Name -> Maybe VPattern -> Env -> MSOS Env
getControlPatt Name
"abrupted" (Maybe VPattern
forall a. Maybe a
Nothing) Env
env
            (Env
env,[Maybe Values
__varabrupted]) <- [Name] -> MSOS Env -> MSOS (Env, [Maybe Values])
forall a. [Name] -> MSOS a -> MSOS (a, [Maybe Values])
receiveSignals [Name
"abrupted"] (Name -> Maybe FTerm -> Env -> MSOS Env -> MSOS Env
forall a. Name -> Maybe FTerm -> Env -> MSOS a -> MSOS a
withControlTerm Name
"abrupted" (FTerm -> Maybe FTerm
forall a. a -> Maybe a
Just (Name -> [FTerm] -> FTerm
TApp Name
"returned" [MetaVar -> FTerm
TVar MetaVar
"V"])) Env
env (FTerm -> [FPattern] -> Env -> MSOS Env
premise (MetaVar -> FTerm
TVar MetaVar
"X") [MetaVar -> FPattern
PMetaVar MetaVar
"X'"] Env
env))
            Env
env <- Maybe Values -> Maybe VPattern -> Env -> MSOS Env
receiveSignalPatt Maybe Values
__varabrupted (VPattern -> Maybe VPattern
forall a. a -> Maybe a
Just (Name -> [VPattern] -> VPattern
PADT Name
"returned" [VPattern -> FTerm -> VPattern
VPAnnotated (MetaVar -> VPattern
VPMetaVar MetaVar
"V") (Name -> FTerm
TName Name
"values")])) Env
env
            FTerm -> Env -> MSOS StepRes
stepTermTo (MetaVar -> FTerm
TVar MetaVar
"V") Env
env
          step3 :: MSOS StepRes
step3 = do
            let env :: Map k a
env = Map k a
forall k a. Map k a
emptyEnv
            Env
env <- [Funcons] -> [FPattern] -> Env -> MSOS Env
lifted_fsMatch [Funcons]
fargs [MetaVar -> FPattern
PMetaVar MetaVar
"X"] Env
forall k a. Map k a
env
            Env
env <- Name -> Maybe VPattern -> Env -> MSOS Env
getControlPatt Name
"abrupted" (VPattern -> Maybe VPattern
forall a. a -> Maybe a
Just (MetaVar -> VPattern
VPMetaVar MetaVar
"V'")) Env
env
            (Env
env,[Maybe Values
__varabrupted]) <- [Name] -> MSOS Env -> MSOS (Env, [Maybe Values])
forall a. [Name] -> MSOS a -> MSOS (a, [Maybe Values])
receiveSignals [Name
"abrupted"] (Name -> Maybe FTerm -> Env -> MSOS Env -> MSOS Env
forall a. Name -> Maybe FTerm -> Env -> MSOS a -> MSOS a
withControlTerm Name
"abrupted" (FTerm -> Maybe FTerm
forall a. a -> Maybe a
Just (MetaVar -> FTerm
TVar MetaVar
"V'")) Env
env (FTerm -> [FPattern] -> Env -> MSOS Env
premise (MetaVar -> FTerm
TVar MetaVar
"X") [MetaVar -> FPattern
PMetaVar MetaVar
"X'"] Env
env))
            Env
env <- Maybe Values -> Maybe VPattern -> Env -> MSOS Env
receiveSignalPatt Maybe Values
__varabrupted (VPattern -> Maybe VPattern
forall a. a -> Maybe a
Just (VPattern -> FTerm -> VPattern
VPAnnotated (MetaVar -> VPattern
VPMetaVar MetaVar
"V'") (FTerm -> FTerm
TSortComplement (Name -> FTerm
TName Name
"returning")))) Env
env
            Name -> FTerm -> Env -> MSOS ()
raiseTerm Name
"abrupted" (MetaVar -> FTerm
TVar MetaVar
"V'") Env
env
            FTerm -> Env -> MSOS StepRes
stepTermTo (Name -> [FTerm] -> FTerm
TApp Name
"handle-return" [MetaVar -> FTerm
TVar MetaVar
"X'"]) Env
env

returning_ :: Funcons
returning_ = Name -> Funcons
FName Name
"returning"
stepReturning :: NullaryFuncon
stepReturning = Name -> StrictFuncon
rewriteType Name
"returning" []