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|
module Test (
Module(..),
Test(..),
TestStep(..),
TestBlock(..),
SourceLine(..),
MonadEval(..),
VarName(..), TypedVarName(..), textVarName, unpackVarName,
ExprType(..), SomeExpr(..),
TypeVar(..), SomeExprType(..), someExprType, textSomeExprType,
FunctionType, DynamicType,
SomeVarValue(..), fromSomeVarValue, textSomeVarValue, someVarValueType,
RecordSelector(..),
ExprListUnpacker(..),
ExprEnumerator(..),
Expr(..), eval, gatherVars, evalSome,
AppAnnotation(..),
ArgumentKeyword(..), FunctionArguments(..),
anull, exprArgs,
SomeArgumentType(..), ArgumentType(..),
Regex(RegexPart, RegexString), regexMatch,
) where
import Control.Monad
import Data.Char
import Data.List
import Data.Map (Map)
import Data.Map qualified as M
import Data.Scientific
import Data.String
import Data.Text (Text)
import Data.Text qualified as T
import Data.Typeable
import Text.Regex.TDFA qualified as RE
import Text.Regex.TDFA.Text qualified as RE
import {-# SOURCE #-} Network
import {-# SOURCE #-} Process
import Util
data Module = Module
{ moduleName :: [ Text ]
, moduleTests :: [ Test ]
, moduleDefinitions :: [ ( VarName, SomeExpr ) ]
}
data Test = Test
{ testName :: Text
, testSteps :: Expr TestBlock
}
newtype TestBlock = TestBlock [ TestStep ]
deriving (Semigroup, Monoid)
data TestStep = forall a. ExprType a => Let SourceLine (TypedVarName a) (Expr a) (Expr TestBlock)
| forall a. ExprType a => For SourceLine (TypedVarName a) (Expr [ a ]) (Expr TestBlock)
| Subnet (TypedVarName Network) (Expr Network) (Expr TestBlock)
| DeclNode (TypedVarName Node) (Expr Network) (Expr TestBlock)
| Spawn (TypedVarName Process) (Either (Expr Network) (Expr Node)) (Expr TestBlock)
| Send (Expr Process) (Expr Text)
| Expect SourceLine (Expr Process) (Expr Regex) [ TypedVarName Text ] (Expr TestBlock)
| Flush (Expr Process) (Maybe (Expr Regex))
| Guard SourceLine (Expr Bool)
| DisconnectNode (Expr Node) (Expr TestBlock)
| DisconnectNodes (Expr Network) (Expr TestBlock)
| DisconnectUpstream (Expr Network) (Expr TestBlock)
| PacketLoss (Expr Scientific) (Expr Node) (Expr TestBlock)
| Wait
newtype SourceLine = SourceLine Text
class MonadFail m => MonadEval m where
lookupVar :: VarName -> m SomeVarValue
rootNetwork :: m Network
withVar :: ExprType e => VarName -> e -> m a -> m a
newtype VarName = VarName Text
deriving (Eq, Ord, Show)
newtype TypedVarName a = TypedVarName { fromTypedVarName :: VarName }
deriving (Eq, Ord)
textVarName :: VarName -> Text
textVarName (VarName name ) = name
unpackVarName :: VarName -> String
unpackVarName = T.unpack . textVarName
class Typeable a => ExprType a where
textExprType :: proxy a -> Text
textExprValue :: a -> Text
recordMembers :: [(Text, RecordSelector a)]
recordMembers = []
exprListUnpacker :: proxy a -> Maybe (ExprListUnpacker a)
exprListUnpacker _ = Nothing
exprEnumerator :: proxy a -> Maybe (ExprEnumerator a)
exprEnumerator _ = Nothing
instance ExprType Integer where
textExprType _ = T.pack "integer"
textExprValue x = T.pack (show x)
exprEnumerator _ = Just $ ExprEnumerator enumFromTo enumFromThenTo
instance ExprType Scientific where
textExprType _ = T.pack "number"
textExprValue x = T.pack (show x)
instance ExprType Bool where
textExprType _ = T.pack "bool"
textExprValue True = T.pack "true"
textExprValue False = T.pack "false"
instance ExprType Text where
textExprType _ = T.pack "string"
textExprValue x = T.pack (show x)
instance ExprType Regex where
textExprType _ = T.pack "regex"
textExprValue _ = T.pack "<regex>"
instance ExprType a => ExprType [a] where
textExprType _ = "[" <> textExprType @a Proxy <> "]"
textExprValue x = "[" <> T.intercalate ", " (map textExprValue x) <> "]"
exprListUnpacker _ = Just $ ExprListUnpacker id (const Proxy)
instance ExprType TestBlock where
textExprType _ = "test block"
textExprValue _ = "<test block>"
data FunctionType a = FunctionType (FunctionArguments SomeExpr -> a)
instance ExprType a => ExprType (FunctionType a) where
textExprType _ = "function type"
textExprValue _ = "<function type>"
data DynamicType
instance ExprType DynamicType where
textExprType _ = "ambiguous type"
textExprValue _ = "<dynamic type>"
data SomeExpr = forall a. ExprType a => SomeExpr (Expr a)
newtype TypeVar = TypeVar Text
deriving (Eq, Ord)
data SomeExprType
= forall a. ExprType a => ExprTypePrim (Proxy a)
| ExprTypeVar TypeVar
| forall a. ExprType a => ExprTypeFunction (FunctionArguments SomeArgumentType) (Proxy a)
someExprType :: SomeExpr -> SomeExprType
someExprType (SomeExpr (DynVariable tvar _ _)) = ExprTypeVar tvar
someExprType (SomeExpr fun@(FunVariable params _ _)) = ExprTypeFunction params (proxyOfFunctionType fun)
where
proxyOfFunctionType :: Expr (FunctionType a) -> Proxy a
proxyOfFunctionType _ = Proxy
someExprType (SomeExpr (_ :: Expr a)) = ExprTypePrim (Proxy @a)
textSomeExprType :: SomeExprType -> Text
textSomeExprType (ExprTypePrim p) = textExprType p
textSomeExprType (ExprTypeVar (TypeVar name)) = name
textSomeExprType (ExprTypeFunction _ r) = "function:" <> textExprType r
data SomeVarValue = forall a. ExprType a => SomeVarValue (FunctionArguments SomeArgumentType) (SourceLine -> FunctionArguments SomeExpr -> a)
fromSomeVarValue :: forall a m. (ExprType a, MonadFail m) => SourceLine -> VarName -> SomeVarValue -> m a
fromSomeVarValue sline name (SomeVarValue args (value :: SourceLine -> args -> b)) = do
maybe (fail err) return $ do
guard $ anull args
cast $ value sline mempty
where
err = T.unpack $ T.concat [ T.pack "expected ", textExprType @a Proxy, T.pack ", but variable '", textVarName name, T.pack "' has type ",
if anull args then textExprType @b Proxy else "function type" ]
textSomeVarValue :: SourceLine -> SomeVarValue -> Text
textSomeVarValue sline (SomeVarValue args value)
| anull args = textExprValue $ value sline mempty
| otherwise = "<function>"
someVarValueType :: SomeVarValue -> SomeExprType
someVarValueType (SomeVarValue args (_ :: SourceLine -> args -> a))
| anull args = ExprTypePrim (Proxy @a)
| otherwise = ExprTypeFunction args (Proxy @a)
data RecordSelector a = forall b. ExprType b => RecordSelector (a -> b)
data ExprListUnpacker a = forall e. ExprType e => ExprListUnpacker (a -> [e]) (Proxy a -> Proxy e)
data ExprEnumerator a = ExprEnumerator (a -> a -> [a]) (a -> a -> a -> [a])
data Expr a where
Variable :: ExprType a => SourceLine -> VarName -> Expr a
DynVariable :: TypeVar -> SourceLine -> VarName -> Expr DynamicType
FunVariable :: ExprType a => FunctionArguments SomeArgumentType -> SourceLine -> VarName -> Expr (FunctionType a)
ArgsApp :: FunctionArguments SomeExpr -> Expr (FunctionType a) -> Expr (FunctionType a)
FunctionEval :: Expr (FunctionType a) -> Expr a
Pure :: a -> Expr a
App :: AppAnnotation b -> Expr (a -> b) -> Expr a -> Expr b
Concat :: [Expr Text] -> Expr Text
Regex :: [Expr Regex] -> Expr Regex
RootNetwork :: Expr Network
Undefined :: String -> Expr a
data AppAnnotation b = AnnNone
| ExprType b => AnnRecord Text
instance Functor Expr where
fmap f x = Pure f <*> x
instance Applicative Expr where
pure = Pure
(<*>) = App AnnNone
instance Semigroup a => Semigroup (Expr a) where
e <> f = (<>) <$> e <*> f
instance Monoid a => Monoid (Expr a) where
mempty = Pure mempty
eval :: MonadEval m => Expr a -> m a
eval (Variable sline name) = fromSomeVarValue sline name =<< lookupVar name
eval (DynVariable _ _ _) = fail "ambiguous type"
eval (FunVariable _ sline name) = funFromSomeVarValue sline name =<< lookupVar name
eval (ArgsApp args efun) = do
FunctionType fun <- eval efun
return $ FunctionType $ \args' -> fun (args <> args')
eval (FunctionEval efun) = do
FunctionType fun <- eval efun
return $ fun mempty
eval (Pure value) = return value
eval (App _ f x) = eval f <*> eval x
eval (Concat xs) = T.concat <$> mapM eval xs
eval (Regex xs) = mapM eval xs >>= \case
[re@RegexCompiled {}] -> return re
parts -> case regexCompile $ T.concat $ map regexSource parts of
Left err -> fail err
Right re -> return re
eval (RootNetwork) = rootNetwork
eval (Undefined err) = fail err
evalSome :: MonadEval m => SomeExpr -> m SomeVarValue
evalSome (SomeExpr expr) = SomeVarValue mempty . const . const <$> eval expr
gatherVars :: forall a m. MonadEval m => Expr a -> m [((VarName, [Text]), SomeVarValue)]
gatherVars = fmap (uniqOn fst . sortOn fst) . helper
where
helper :: forall b. Expr b -> m [((VarName, [Text]), SomeVarValue)]
helper (Variable _ var) = (:[]) . ((var, []),) <$> lookupVar var
helper (DynVariable _ _ var) = (:[]) . ((var, []),) <$> lookupVar var
helper (FunVariable _ _ var) = (:[]) . ((var, []),) <$> lookupVar var
helper (ArgsApp (FunctionArguments args) fun) = do
v <- helper fun
vs <- mapM (\(SomeExpr e) -> helper e) $ M.elems args
return $ concat (v : vs)
helper (FunctionEval efun) = helper efun
helper (Pure _) = return []
helper e@(App (AnnRecord sel) _ x)
| Just (var, sels) <- gatherSelectors x
= do val <- SomeVarValue mempty . const . const <$> eval e
return [((var, sels ++ [sel]), val)]
| otherwise = helper x
helper (App _ f x) = (++) <$> helper f <*> helper x
helper (Concat es) = concat <$> mapM helper es
helper (Regex es) = concat <$> mapM helper es
helper (RootNetwork) = return []
helper (Undefined {}) = return []
gatherSelectors :: forall b. Expr b -> Maybe (VarName, [Text])
gatherSelectors = \case
Variable _ var -> Just (var, [])
App (AnnRecord sel) _ x -> do
(var, sels) <- gatherSelectors x
return (var, sels ++ [sel])
_ -> Nothing
newtype ArgumentKeyword = ArgumentKeyword Text
deriving (Show, Eq, Ord, IsString)
newtype FunctionArguments a = FunctionArguments (Map (Maybe ArgumentKeyword) a)
deriving (Show, Semigroup, Monoid)
anull :: FunctionArguments a -> Bool
anull (FunctionArguments args) = M.null args
exprArgs :: Expr (FunctionType a) -> FunctionArguments SomeArgumentType
exprArgs (FunVariable args _ _) = args
exprArgs (ArgsApp (FunctionArguments applied) expr) =
let FunctionArguments args = exprArgs expr
in FunctionArguments (args `M.difference` applied)
exprArgs _ = error "exprArgs on unexpected type"
funFromSomeVarValue :: forall a m. (ExprType a, MonadFail m) => SourceLine -> VarName -> SomeVarValue -> m (FunctionType a)
funFromSomeVarValue sline name (SomeVarValue args (value :: SourceLine -> args -> b)) = do
maybe (fail err) return $ do
guard $ not $ anull args
FunctionType <$> cast (value sline)
where
err = T.unpack $ T.concat [ T.pack "expected function returning ", textExprType @a Proxy, T.pack ", but variable '", textVarName name, T.pack "' has ",
(if anull args then "type" else "function type returting ") <> textExprType @b Proxy ]
data SomeArgumentType = forall a. ExprType a => SomeArgumentType (ArgumentType a)
data ArgumentType a
= RequiredArgument
| OptionalArgument
| ExprDefault (Expr a)
| ContextDefault
data Regex = RegexCompiled Text RE.Regex
| RegexPart Text
| RegexString Text
regexCompile :: Text -> Either String Regex
regexCompile src = either Left (Right . RegexCompiled src) $ RE.compile RE.defaultCompOpt RE.defaultExecOpt $
T.singleton '^' <> src <> T.singleton '$'
regexMatch :: Regex -> Text -> Either String (Maybe (Text, Text, Text, [Text]))
regexMatch (RegexCompiled _ re) text = RE.regexec re text
regexMatch _ _ = Left "regex not compiled"
regexSource :: Regex -> Text
regexSource (RegexCompiled src _) = src
regexSource (RegexPart src) = src
regexSource (RegexString str) = T.concatMap escapeChar str
where
escapeChar c | isAlphaNum c = T.singleton c
| c `elem` ['`', '\'', '<', '>'] = T.singleton c
| otherwise = T.pack ['\\', c]
|