{-# language DataKinds #-}
{-# language DeriveFunctor, DeriveFoldable, DeriveTraversable #-}
{-# language FunctionalDependencies, MultiParamTypeClasses #-}
{-# language LambdaCase #-}
{-# language TemplateHaskell #-}
module Language.Python.Internal.Syntax.IR where
import Control.Lens.Fold (foldMapOf, folded)
import Control.Lens.Getter ((^.))
import Control.Lens.Lens (Lens', lens)
import Control.Lens.Prism (Prism')
import Control.Lens.Review ((#))
import Control.Lens.Setter (over, mapped)
import Control.Lens.TH (makeLenses)
import Control.Lens.Traversal (traverseOf)
import Control.Lens.Tuple (_1, _2, _3)
import Data.Bifoldable (bifoldMap)
import Data.Bifunctor (bimap)
import Data.Bitraversable (bitraverse)
import Data.List.NonEmpty (NonEmpty)
import Data.Monoid ((<>))
import Data.Validation (Validation(..))
import Language.Python.Syntax.Ann
import Language.Python.Syntax.AugAssign
import Language.Python.Syntax.CommaSep
import Language.Python.Syntax.Comment
import Language.Python.Syntax.Ident
import Language.Python.Syntax.Import
import Language.Python.Syntax.ModuleNames
import Language.Python.Syntax.Numbers
import Language.Python.Syntax.Operator.Binary
import Language.Python.Syntax.Operator.Unary
import Language.Python.Syntax.Punctuation
import Language.Python.Syntax.Strings
import Language.Python.Syntax.Whitespace
import qualified Language.Python.Syntax.Module as Syntax
import qualified Language.Python.Syntax.Expr as Syntax
import qualified Language.Python.Syntax.Statement as Syntax
class AsIRError s a | s -> a where
_InvalidUnpacking :: Prism' s a
data IRError a
= InvalidUnpacking a
deriving (Eq, Show)
fromIRError :: AsIRError s a => IRError a -> s
fromIRError (InvalidUnpacking a) = _InvalidUnpacking # a
data SmallStatement a
= MkSmallStatement
(SimpleStatement a)
[(Semicolon a, SimpleStatement a)]
(Maybe (Semicolon a))
(Maybe (Comment a))
(Maybe Newline)
deriving (Eq, Show, Functor, Foldable, Traversable)
data Statement a
= SmallStatement (Indents a) (SmallStatement a)
| CompoundStatement (CompoundStatement a)
deriving (Eq, Show, Functor, Foldable, Traversable)
data CompoundStatement a
= Fundef
{ _csAnn :: a
, _unsafeCsFundefDecorators :: [Decorator a]
, _csIndents :: Indents a
, _unsafeCsFundefAsync :: Maybe (NonEmpty Whitespace)
, _unsafeCsFundefDef :: NonEmpty Whitespace
, _unsafeCsFundefName :: Ident '[] a
, _unsafeCsFundefLeftParen :: [Whitespace]
, _unsafeCsFundefParameters :: CommaSep (Param a)
, _unsafeCsFundefRightParen :: [Whitespace]
, _unsafeCsFundefReturnType :: Maybe ([Whitespace], Expr a)
, _unsafeCsFundefBody :: Suite a
}
| If
{ _csAnn :: a
, _csIndents :: Indents a
, _unsafeCsIfIf :: [Whitespace]
, _unsafeCsIfCond :: Expr a
, _unsafeCsIfBody :: Suite a
, _unsafeCsIfElifs :: [(Indents a, [Whitespace], Expr a, Suite a)]
, _unsafeCsIfElse :: Maybe (Indents a, [Whitespace], Suite a)
}
| While
{ _csAnn :: a
, _csIndents :: Indents a
, _unsafeCsWhileWhile :: [Whitespace]
, _unsafeCsWhileCond :: Expr a
, _unsafeCsWhileBody :: Suite a
, _unsafeCsWhileElse
:: Maybe (Indents a, [Whitespace], Suite a)
}
| TryExcept
{ _csAnn :: a
, _csIndents :: Indents a
, _unsafeCsTryExceptTry :: [Whitespace]
, _unsafeCsTryExceptBody :: Suite a
, _unsafeCsTryExceptExcepts :: NonEmpty (Indents a, [Whitespace], Maybe (ExceptAs a), Suite a)
, _unsafeCsTryExceptElse :: Maybe (Indents a, [Whitespace], Suite a)
, _unsafeCsTryExceptFinally :: Maybe (Indents a, [Whitespace], Suite a)
}
| TryFinally
{ _csAnn :: a
, _csIndents :: Indents a
, _unsafeCsTryFinallyTry :: [Whitespace]
, _unsafeCsTryFinallyTryBody :: Suite a
, _unsafeCsTryFinallyFinallyIndents :: Indents a
, _unsafeCsTryFinallyFinally :: [Whitespace]
, _unsafeCsTryFinallyFinallyBody :: Suite a
}
| For
{ _csAnn :: a
, _csIndents :: Indents a
, _unsafeCsForAsync :: Maybe (NonEmpty Whitespace)
, _unsafeCsForFor :: [Whitespace]
, _unsafeCsForBinder :: Expr a
, _unsafeCsForIn :: [Whitespace]
, _unsafeCsForCollection :: CommaSep1' (Expr a)
, _unsafeCsForBody :: Suite a
, _unsafeCsForElse :: Maybe (Indents a, [Whitespace], Suite a)
}
| ClassDef
{ _csAnn :: a
, _unsafeCsClassDefDecorators :: [Decorator a]
, _csIndents :: Indents a
, _unsafeCsClassDefClass :: NonEmpty Whitespace
, _unsafeCsClassDefName :: Ident '[] a
, _unsafeCsClassDefArguments :: Maybe ([Whitespace], Maybe (CommaSep1' (Arg a)), [Whitespace])
, _unsafeCsClassDefBody :: Suite a
}
| With
{ _csAnn :: a
, _csIndents :: Indents a
, _unsafeCsWithAsync :: Maybe (NonEmpty Whitespace)
, _unsafeCsWithWith :: [Whitespace]
, _unsafeCsWithItems :: CommaSep1 (WithItem a)
, _unsafeCsWithBody :: Suite a
}
deriving (Eq, Show, Functor, Foldable, Traversable)
data SimpleStatement a
= Return a [Whitespace] (Maybe (Expr a))
| Expr a (Expr a)
| Assign a (Expr a) (NonEmpty (Equals, Expr a))
| AugAssign a (Expr a) (AugAssign a) (Expr a)
| Pass a [Whitespace]
| Break a [Whitespace]
| Continue a [Whitespace]
| Global a (NonEmpty Whitespace) (CommaSep1 (Ident '[] a))
| Nonlocal a (NonEmpty Whitespace) (CommaSep1 (Ident '[] a))
| Del a [Whitespace] (CommaSep1' (Expr a))
| Import
a
(NonEmpty Whitespace)
(CommaSep1 (ImportAs ModuleName '[] a))
| From
a
[Whitespace]
(RelativeModuleName '[] a)
[Whitespace]
(ImportTargets '[] a)
| Raise a
[Whitespace]
(Maybe (Expr a, Maybe ([Whitespace], Expr a)))
| Assert a
[Whitespace]
(Expr a)
(Maybe (Comma, Expr a))
deriving (Eq, Show, Functor, Foldable, Traversable)
data Param a
= PositionalParam
{ _paramAnn :: a
, _paramName :: Ident '[] a
, _paramType :: Maybe (Colon, Expr a)
}
| KeywordParam
{ _paramAnn :: a
, _paramName :: Ident '[] a
, _paramType :: Maybe (Colon, Expr a)
, _unsafeKeywordParamWhitespaceRight :: [Whitespace]
, _unsafeKeywordParamExpr :: Expr a
}
| StarParam
{ _paramAnn :: a
, _unsafeStarParamWhitespace :: [Whitespace]
, _unsafeStarParamName :: Ident '[] a
, _paramType :: Maybe (Colon, Expr a)
}
| UnnamedStarParam
{ _paramAnn :: a
, _unsafeUnnamedStarParamWhitespace :: [Whitespace]
}
| DoubleStarParam
{ _paramAnn :: a
, _unsafeDoubleStarParamWhitespace :: [Whitespace]
, _paramName :: Ident '[] a
, _paramType :: Maybe (Colon, Expr a)
}
deriving (Eq, Show, Functor, Foldable, Traversable)
data CompIf a
= CompIf a [Whitespace] (Expr a)
deriving (Eq, Show, Functor, Foldable, Traversable)
data CompFor a
= CompFor a [Whitespace] (Expr a) [Whitespace] (Expr a)
deriving (Eq, Show, Functor, Foldable, Traversable)
data Comprehension e a
= Comprehension a (e a) (CompFor a) [Either (CompFor a) (CompIf a)]
deriving (Eq, Show)
instance Functor e => Functor (Comprehension e) where
fmap f (Comprehension a b c d) =
Comprehension (f a) (fmap f b) (fmap f c) (fmap (bimap (fmap f) (fmap f)) d)
instance Foldable e => Foldable (Comprehension e) where
foldMap f (Comprehension a b c d) =
f a <> foldMap f b <> foldMap f c <> foldMap (bifoldMap (foldMap f) (foldMap f)) d
instance Traversable e => Traversable (Comprehension e) where
traverse f (Comprehension a b c d) =
Comprehension <$>
f a <*>
traverse f b <*>
traverse f c <*>
traverse (bitraverse (traverse f) (traverse f)) d
data Subscript a
= SubscriptExpr (Expr a)
| SubscriptSlice
(Maybe (Expr a))
Colon
(Maybe (Expr a))
(Maybe (Colon, Maybe (Expr a)))
deriving (Eq, Show, Functor, Foldable, Traversable)
data DictItem a
= DictItem
{ _dictItemAnn :: a
, _unsafeDictItemKey :: Expr a
, _unsafeDictItemColon :: Colon
, _unsafeDictItemvalue :: Expr a
}
| DictUnpack
{ _dictItemAnn :: a
, _unsafeDictItemUnpackWhitespace :: [Whitespace]
, _unsafeDictItemUnpackValue :: Expr a
} deriving (Eq, Show, Functor, Foldable, Traversable)
data Arg a
= PositionalArg
{ _argAnn :: a
, _argExpr :: Expr a
}
| KeywordArg
{ _argAnn :: a
, _unsafeKeywordArgName :: Ident '[] a
, _unsafeKeywordArgWhitespaceRight :: [Whitespace]
, _argExpr :: Expr a
}
| StarArg
{ _argAnn :: a
, _unsafeStarArgWhitespace :: [Whitespace]
, _argExpr :: Expr a
}
| DoubleStarArg
{ _argAnn :: a
, _unsafeDoubleStarArgWhitespace :: [Whitespace]
, _argExpr :: Expr a
}
deriving (Eq, Show, Functor, Foldable, Traversable)
data Expr a
= StarExpr
{ _exprAnn :: a
, _unsafeStarExprWhitespace :: [Whitespace]
, _unsafeStarExprValue :: Expr a
}
| Unit
{ _exprAnn :: a
, _unsafeUnitWhitespaceInner :: [Whitespace]
, _unsafeUnitWhitespaceRight :: [Whitespace]
}
| Lambda
{ _exprAnn :: a
, _unsafeLambdaWhitespace :: [Whitespace]
, _unsafeLambdaArgs :: CommaSep (Param a)
, _unsafeLambdaColon :: Colon
, _unsafeLambdaBody :: Expr a
}
| Yield
{ _exprAnn :: a
, _unsafeYieldWhitespace :: [Whitespace]
, _unsafeYieldValue :: CommaSep (Expr a)
}
| YieldFrom
{ _exprAnn :: a
, _unsafeYieldWhitespace :: [Whitespace]
, _unsafeFromWhitespace :: [Whitespace]
, _unsafeYieldFromValue :: Expr a
}
| Ternary
{ _exprAnn :: a
, _unsafeTernaryValue :: Expr a
, _unsafeTernaryWhitespaceIf :: [Whitespace]
, _unsafeTernaryCond :: Expr a
, _unsafeTernaryWhitespaceElse :: [Whitespace]
, _unsafeTernaryElse :: Expr a
}
| ListComp
{ _exprAnn :: a
, _unsafeListCompWhitespaceLeft :: [Whitespace]
, _unsafeListCompValue :: Comprehension Expr a
, _unsafeListCompWhitespaceRight :: [Whitespace]
}
| List
{ _exprAnn :: a
, _unsafeListWhitespaceLeft :: [Whitespace]
, _unsafeListValues :: Maybe (CommaSep1' (Expr a))
, _unsafeListWhitespaceRight :: [Whitespace]
}
| DictComp
{ _exprAnn :: a
, _unsafeDictCompWhitespaceLeft :: [Whitespace]
, _unsafeDictCompValue :: Comprehension DictItem a
, _unsafeDictCompWhitespaceRight :: [Whitespace]
}
| Dict
{ _exprAnn :: a
, _unsafeDictWhitespaceLeft :: [Whitespace]
, _unsafeDictValues :: Maybe (CommaSep1' (DictItem a))
, _unsafeDictWhitespaceRight :: [Whitespace]
}
| SetComp
{ _exprAnn :: a
, _unsafeSetCompWhitespaceLeft :: [Whitespace]
, _unsafeSetCompValue :: Comprehension Expr a
, _unsafeSetCompWhitespaceRight :: [Whitespace]
}
| Set
{ _exprAnn :: a
, _unsafeSetWhitespaceLeft :: [Whitespace]
, _unsafeSetValues :: CommaSep1' (Expr a)
, _unsafeSetWhitespaceRight :: [Whitespace]
}
| Deref
{ _exprAnn :: a
, _unsafeDerefValueLeft :: Expr a
, _unsafeDerefWhitespaceLeft :: [Whitespace]
, _unsafeDerefValueRight :: Ident '[] a
}
| Subscript
{ _exprAnn :: a
, _unsafeSubscriptValueLeft :: Expr a
, _unsafeSubscriptWhitespaceLeft :: [Whitespace]
, _unsafeSubscriptValueRight :: CommaSep1' (Subscript a)
, _unsafeSubscriptWhitespaceRight :: [Whitespace]
}
| Call
{ _exprAnn :: a
, _unsafeCallFunction :: Expr a
, _unsafeCallWhitespaceLeft :: [Whitespace]
, _unsafeCallArguments :: Maybe (CommaSep1' (Arg a))
, _unsafeCallWhitespaceRight :: [Whitespace]
}
| None
{ _exprAnn :: a
, _unsafeNoneWhitespace :: [Whitespace]
}
| Ellipsis
{ _exprAnn :: a
, _unsafeEllipsisWhitespace :: [Whitespace]
}
| BinOp
{ _exprAnn :: a
, _unsafeBinOpExprLeft :: Expr a
, _unsafeBinOpOp :: BinOp a
, _unsafeBinOpExprRight :: Expr a
}
| UnOp
{ _exprAnn :: a
, _unsafeUnOpOp :: UnOp a
, _unsafeUnOpValue :: Expr a
}
| Parens
{ _exprAnn :: a
, _unsafeParensWhitespaceLeft :: [Whitespace]
, _unsafeParensValue :: Expr a
, _unsafeParensWhitespaceAfter :: [Whitespace]
}
| Ident
{ _exprAnn :: a
, _unsafeIdentValue :: Ident '[] a
}
| Int
{ _exprAnn :: a
, _unsafeIntValue :: IntLiteral a
, _unsafeIntWhitespace :: [Whitespace]
}
| Float
{ _exprAnn :: a
, _unsafeFloatValue :: FloatLiteral a
, _unsafeFloatWhitespace :: [Whitespace]
}
| Imag
{ _exprAnn :: a
, _unsafeImagValue :: ImagLiteral a
, _unsafeImagWhitespace :: [Whitespace]
}
| Bool
{ _exprAnn :: a
, _unsafeBoolValue :: Bool
, _unsafeBoolWhitespace :: [Whitespace]
}
| String
{ _exprAnn :: a
, _unsafeStringLiteralValue :: NonEmpty (StringLiteral a)
}
| Tuple
{ _exprAnn :: a
, _unsafeTupleHead :: Expr a
, _unsafeTupleWhitespace :: Comma
, _unsafeTupleTail :: Maybe (CommaSep1' (Expr a))
}
| Not
{ _exprAnn :: a
, _unsafeNotWhitespace :: [Whitespace]
, _unsafeNotValue :: Expr a
}
| Generator
{ _exprAnn :: a
, _generatorValue :: Comprehension Expr a
}
| Await
{ _exprAnn :: a
, _unsafeAwaitWhitespace :: [Whitespace]
, _unsafeAwaitValue :: Expr a
}
deriving (Eq, Show, Functor, Foldable, Traversable)
exprAnn :: Lens' (Expr a) a
exprAnn =
lens
(\case
Unit a _ _ -> a
StarExpr a _ _ -> a
Lambda a _ _ _ _ -> a
Yield a _ _ -> a
YieldFrom a _ _ _ -> a
Ternary a _ _ _ _ _ -> a
None a _ -> a
Ellipsis a _ -> a
List a _ _ _ -> a
ListComp a _ _ _ -> a
Deref a _ _ _ -> a
Subscript a _ _ _ _ -> a
Call a _ _ _ _ -> a
BinOp a _ _ _ -> a
UnOp a _ _ -> a
Parens a _ _ _ -> a
Ident a _ -> a
Int a _ _ -> a
Float a _ _ -> a
Imag a _ _ -> a
Bool a _ _ -> a
String a _ -> a
Not a _ _ -> a
Tuple a _ _ _ -> a
DictComp a _ _ _ -> a
Dict a _ _ _ -> a
SetComp a _ _ _ -> a
Set a _ _ _ -> a
Generator a _ -> a
Await a _ _ -> a)
(\e ann ->
case e of
Unit _ a b -> Unit ann a b
StarExpr _ a b -> StarExpr ann a b
Lambda _ a b c d -> Lambda ann a b c d
Yield _ a b -> Yield ann a b
YieldFrom ann a b c -> YieldFrom ann a b c
Ternary ann a b c d e -> Ternary ann a b c d e
None _ a -> None ann a
Ellipsis _ a -> Ellipsis ann a
List _ a b c -> List ann a b c
ListComp _ a b c -> ListComp ann a b c
Deref _ a b c -> Deref ann a b c
Subscript _ a b c d -> Subscript ann a b c d
Call _ a b c d -> Call ann a b c d
BinOp _ a b c -> BinOp ann a b c
UnOp _ a b -> UnOp ann a b
Parens _ a b c -> Parens ann a b c
Ident _ b -> Ident ann b
Int _ a b -> Int ann a b
Float _ a b -> Float ann a b
Imag _ a b -> Imag ann a b
Bool _ a b -> Bool ann a b
String _ a -> String ann a
Not _ a b -> Not ann a b
Tuple _ a b c -> Tuple ann a b c
DictComp _ a b c -> DictComp ann a b c
Dict _ a b c -> Dict ann a b c
SetComp _ a b c -> SetComp ann a b c
Set _ a b c -> Set ann a b c
Generator _ a -> Generator ann a
Await _ a b -> Not ann a b)
data Suite a
= SuiteOne a Colon (SmallStatement a)
| SuiteMany a
Colon (Maybe (Comment a)) Newline
(Block a)
deriving (Eq, Show, Functor, Foldable, Traversable)
data Block a
= Block
{ _blockBlankLines :: [(Blank a, Newline)]
, _blockHead :: Statement a
, _blockTail :: [Either (Blank a, Newline) (Statement a)]
} deriving (Eq, Show)
instance Functor Block where
fmap f (Block a b c) =
Block
(over (mapped._1.mapped) f a)
(fmap f b)
(bimap (over (_1.mapped) f) (fmap f) <$> c)
instance Foldable Block where
foldMap f (Block a b c) =
foldMapOf (folded._1.folded) f a <>
foldMap f b <>
foldMap (bifoldMap (foldMapOf (_1.folded) f) (foldMap f)) c
instance Traversable Block where
traverse f (Block a b c) =
Block <$>
traverseOf (traverse._1.traverse) f a <*>
traverse f b <*>
traverse (bitraverse (traverseOf (_1.traverse) f) (traverse f)) c
data WithItem a
= WithItem
{ _withItemAnn :: a
, _withItemValue :: Expr a
, _withItemBinder :: Maybe ([Whitespace], Expr a)
}
deriving (Eq, Show, Functor, Foldable, Traversable)
data Decorator a
= Decorator
{ _decoratorAnn :: a
, _decoratorIndents :: Indents a
, _decoratorAt :: At
, _decoratorExpr :: Expr a
, _decoratorComment :: Maybe (Comment a)
, _decoratorNewline :: Newline
, _decoratorBlankLines :: [(Blank a, Newline)]
}
deriving (Eq, Show, Functor, Foldable, Traversable)
data ExceptAs a
= ExceptAs
{ _exceptAsAnn :: a
, _exceptAsExpr :: Expr a
, _exceptAsName :: Maybe ([Whitespace], Ident '[] a)
}
deriving (Eq, Show, Functor, Foldable, Traversable)
data Module a
= ModuleEmpty
| ModuleBlankFinal (Blank a)
| ModuleBlank (Blank a) Newline (Module a)
| ModuleStatement (Statement a) (Module a)
deriving (Eq, Show, Functor, Foldable, Traversable)
data FromIRContext
= FromIRContext
{ _allowStarred :: Bool
}
makeLenses ''FromIRContext
fromIR_expr
:: AsIRError e a
=> Expr a
-> Validation (NonEmpty e) (Syntax.Expr '[] a)
fromIR_expr ex =
case ex of
StarExpr{} -> Failure $ pure (_InvalidUnpacking # (ex ^. exprAnn))
Unit a b c -> pure $ Syntax.Unit (Ann a) b c
Lambda a b c d e ->
(\c' -> Syntax.Lambda (Ann a) b c' d) <$>
traverse fromIR_param c <*>
fromIR_expr e
Yield a b c -> Syntax.Yield (Ann a) b <$> traverse fromIR_expr c
YieldFrom a b c d -> Syntax.YieldFrom (Ann a) b c <$> fromIR_expr d
Ternary a b c d e f ->
(\b' d' -> Syntax.Ternary (Ann a) b' c d' e) <$>
fromIR_expr b <*>
fromIR_expr d <*>
fromIR_expr f
ListComp a b c d ->
(\c' -> Syntax.ListComp (Ann a) b c' d) <$>
fromIR_comprehension fromIR_expr c
List a b c d ->
(\c' -> Syntax.List (Ann a) b c' d) <$>
traverseOf (traverse.traverse) fromIR_listItem c
DictComp a b c d ->
(\c' -> Syntax.DictComp (Ann a) b c' d) <$>
fromIR_comprehension fromIR_dictItem c
Dict a b c d ->
(\c' -> Syntax.Dict (Ann a) b c' d) <$>
traverseOf (traverse.traverse) fromIR_dictItem c
SetComp a b c d ->
(\c' -> Syntax.SetComp (Ann a) b c' d) <$>
fromIR_comprehension fromIR_setItem c
Set a b c d ->
(\c' -> Syntax.Set (Ann a) b c' d) <$>
traverse fromIR_setItem c
Deref a b c d ->
(\b' -> Syntax.Deref (Ann a) b' c d) <$>
fromIR_expr b
Subscript a b c d e ->
(\b' d' -> Syntax.Subscript (Ann a) b' c d' e) <$>
fromIR_expr b <*>
traverse fromIR_subscript d
Call a b c d e ->
(\b' d' -> Syntax.Call (Ann a) b' c d' e) <$>
fromIR_expr b <*>
traverseOf (traverse.traverse) fromIR_arg d
None a b -> pure $ Syntax.None (Ann a) b
Ellipsis a b -> pure $ Syntax.Ellipsis (Ann a) b
BinOp a b c d ->
(\b' d' -> Syntax.BinOp (Ann a) b' c d') <$>
fromIR_expr b <*>
fromIR_expr d
UnOp a b c ->
Syntax.UnOp (Ann a) b <$> fromIR_expr c
Parens a b c d ->
(\c' -> Syntax.Parens (Ann a) b c' d) <$>
fromIR_expr c
Ident a b -> pure $ Syntax.Ident (Ann a) b
Int a b c -> pure $ Syntax.Int (Ann a) b c
Float a b c -> pure $ Syntax.Float (Ann a) b c
Imag a b c -> pure $ Syntax.Imag (Ann a) b c
Bool a b c -> pure $ Syntax.Bool (Ann a) b c
String a b -> pure $ Syntax.String (Ann a) b
Tuple a b c d ->
(\b' -> Syntax.Tuple (Ann a) b' c) <$>
fromIR_tupleItem b <*>
traverseOf (traverse.traverse) fromIR_tupleItem d
Not a b c -> Syntax.Not (Ann a) b <$> fromIR_expr c
Generator a b -> Syntax.Generator (Ann a) <$> fromIR_comprehension fromIR_expr b
Await a b c -> Syntax.Await (Ann a) b <$> fromIR_expr c
fromIR_suite
:: AsIRError e a
=> Suite a
-> Validation (NonEmpty e) (Syntax.Suite '[] a)
fromIR_suite s =
case s of
SuiteOne a b c ->
Syntax.SuiteOne (Ann a) b <$> fromIR_smallStatement c
SuiteMany a b c d e ->
Syntax.SuiteMany (Ann a) b c d <$> fromIR_block e
fromIR_param
:: AsIRError e a
=> Param a
-> Validation (NonEmpty e) (Syntax.Param '[] a)
fromIR_param p =
case p of
PositionalParam a b c ->
Syntax.PositionalParam (Ann a) b <$> traverseOf (traverse._2) fromIR_expr c
KeywordParam a b c d e ->
Syntax.KeywordParam (Ann a) b <$>
traverseOf (traverse._2) fromIR_expr c <*>
pure d <*>
fromIR_expr e
StarParam a b c d ->
Syntax.StarParam (Ann a) b c <$> traverseOf (traverse._2) fromIR_expr d
UnnamedStarParam a b -> pure $ Syntax.UnnamedStarParam (Ann a) b
DoubleStarParam a b c d ->
Syntax.DoubleStarParam (Ann a) b c <$> traverseOf (traverse._2) fromIR_expr d
fromIR_arg
:: AsIRError e a
=> Arg a
-> Validation (NonEmpty e) (Syntax.Arg '[] a)
fromIR_arg a =
case a of
PositionalArg a b -> Syntax.PositionalArg (Ann a) <$> fromIR_expr b
KeywordArg a b c d -> Syntax.KeywordArg (Ann a) b c <$> fromIR_expr d
StarArg a b c -> Syntax.StarArg (Ann a) b <$> fromIR_expr c
DoubleStarArg a b c -> Syntax.DoubleStarArg (Ann a) b <$> fromIR_expr c
fromIR_decorator
:: AsIRError e a
=> Decorator a
-> Validation (NonEmpty e) (Syntax.Decorator '[] a)
fromIR_decorator (Decorator a b c d e f g) =
(\d' -> Syntax.Decorator (Ann a) b c d' e f g) <$>
fromIR_expr d
fromIR_exceptAs
:: AsIRError e a
=> ExceptAs a
-> Validation (NonEmpty e) (Syntax.ExceptAs '[] a)
fromIR_exceptAs (ExceptAs a b c) =
(\b' -> Syntax.ExceptAs (Ann a) b' c) <$>
fromIR_expr b
fromIR_withItem
:: AsIRError e a
=> WithItem a
-> Validation (NonEmpty e) (Syntax.WithItem '[] a)
fromIR_withItem (WithItem a b c) =
Syntax.WithItem (Ann a) <$>
fromIR_expr b <*>
traverseOf (traverse._2) fromIR_expr c
fromIR_comprehension
:: AsIRError e a
=> (ex a -> Validation (NonEmpty e) (ex' '[] a))
-> Comprehension ex a
-> Validation (NonEmpty e) (Syntax.Comprehension ex' '[] a)
fromIR_comprehension f (Comprehension a b c d) =
Syntax.Comprehension (Ann a) <$>
f b <*>
fromIR_compFor c <*>
traverse (bitraverse fromIR_compFor fromIR_compIf) d
fromIR_dictItem
:: AsIRError e a
=> DictItem a
-> Validation (NonEmpty e) (Syntax.DictItem '[] a)
fromIR_dictItem di =
case di of
DictItem a b c d ->
(\b' -> Syntax.DictItem (Ann a) b' c) <$>
fromIR_expr b <*>
fromIR_expr d
DictUnpack a b c ->
Syntax.DictUnpack (Ann a) b <$> fromIR_expr c
fromIR_subscript
:: AsIRError e a
=> Subscript a
-> Validation (NonEmpty e) (Syntax.Subscript '[] a)
fromIR_subscript s =
case s of
SubscriptExpr a -> Syntax.SubscriptExpr <$> fromIR_expr a
SubscriptSlice a b c d ->
(\a' -> Syntax.SubscriptSlice a' b) <$>
traverse fromIR_expr a <*>
traverse fromIR_expr c <*>
traverseOf (traverse._2.traverse) fromIR_expr d
fromIR_block
:: AsIRError e a
=> Block a
-> Validation (NonEmpty e) (Syntax.Block '[] a)
fromIR_block (Block a b c) =
Syntax.Block a <$>
fromIR_statement b <*>
traverseOf (traverse.traverse) fromIR_statement c
fromIR_compFor
:: AsIRError e a
=> CompFor a
-> Validation (NonEmpty e) (Syntax.CompFor '[] a)
fromIR_compFor (CompFor a b c d e) =
(\c' -> Syntax.CompFor (Ann a) b c' d) <$>
fromIR_expr c <*>
fromIR_expr e
fromIR_compIf
:: AsIRError e a
=> CompIf a
-> Validation (NonEmpty e) (Syntax.CompIf '[] a)
fromIR_compIf (CompIf a b c) =
Syntax.CompIf (Ann a) b <$> fromIR_expr c
fromIR_smallStatement
:: AsIRError e a
=> SmallStatement a
-> Validation (NonEmpty e) (Syntax.SmallStatement '[] a)
fromIR_smallStatement (MkSmallStatement b c d e f) =
(\b' c' -> Syntax.MkSmallStatement b' c' d e f) <$>
fromIR_SimpleStatement b <*>
traverseOf (traverse._2) fromIR_SimpleStatement c
fromIR_statement
:: AsIRError e a
=> Statement a
-> Validation (NonEmpty e) (Syntax.Statement '[] a)
fromIR_statement ex =
case ex of
SmallStatement i a ->
Syntax.SmallStatement i <$> fromIR_smallStatement a
CompoundStatement a ->
Syntax.CompoundStatement <$> fromIR_compoundStatement a
fromIR_SimpleStatement
:: AsIRError e a
=> SimpleStatement a
-> Validation (NonEmpty e) (Syntax.SimpleStatement '[] a)
fromIR_SimpleStatement ex =
case ex of
Assign a b c ->
Syntax.Assign (Ann a) <$>
fromIR_expr b <*>
traverseOf (traverse._2) fromIR_expr c
Return a b c -> Syntax.Return (Ann a) b <$> traverse fromIR_expr c
Expr a b -> Syntax.Expr (Ann a) <$> fromIR_expr b
AugAssign a b c d ->
(\b' d' -> Syntax.AugAssign (Ann a) b' c d') <$>
fromIR_expr b <*>
fromIR_expr d
Pass a ws -> pure $ Syntax.Pass (Ann a) ws
Break a ws -> pure $ Syntax.Break (Ann a) ws
Continue a ws -> pure $ Syntax.Continue (Ann a) ws
Global a b c -> pure $ Syntax.Global (Ann a) b c
Nonlocal a b c -> pure $ Syntax.Nonlocal (Ann a) b c
Del a b c -> Syntax.Del (Ann a) b <$> traverse fromIR_expr c
Import a b c -> pure $ Syntax.Import (Ann a) b c
From a b c d e -> pure $ Syntax.From (Ann a) b c d e
Raise a b c ->
Syntax.Raise (Ann a) b <$>
traverse
(\(a, b) -> (,) <$>
fromIR_expr a <*>
traverseOf (traverse._2) fromIR_expr b)
c
Assert a b c d ->
Syntax.Assert (Ann a) b <$>
fromIR_expr c <*>
traverseOf (traverse._2) fromIR_expr d
fromIR_compoundStatement
:: AsIRError e a
=> CompoundStatement a
-> Validation (NonEmpty e) (Syntax.CompoundStatement '[] a)
fromIR_compoundStatement st =
case st of
Fundef a b asyncWs c d e f g h i j ->
(\b' g' i' -> Syntax.Fundef (Ann a) b' asyncWs c d e f g' h i') <$>
traverse fromIR_decorator b <*>
traverse fromIR_param g <*>
traverseOf (traverse._2) fromIR_expr i <*>
fromIR_suite j
If a b c d e f g ->
Syntax.If (Ann a) b c <$>
fromIR_expr d <*>
fromIR_suite e <*>
traverse (\(a, b, c, d) -> (,,,) a b <$> fromIR_expr c <*> fromIR_suite d) f <*>
traverseOf (traverse._3) fromIR_suite g
While a b c d e f ->
Syntax.While (Ann a) b c <$>
fromIR_expr d <*>
fromIR_suite e <*>
traverseOf (traverse._3) fromIR_suite f
TryExcept a b c d e f g ->
Syntax.TryExcept (Ann a) b c <$>
fromIR_suite d <*>
traverse
(\(a, b, c, d) -> (,,,) a b <$> traverse fromIR_exceptAs c <*> fromIR_suite d)
e <*>
traverseOf (traverse._3) fromIR_suite f <*>
traverseOf (traverse._3) fromIR_suite g
TryFinally a b c d e f g ->
(\d' -> Syntax.TryFinally (Ann a) b c d' e f) <$> fromIR_suite d <*> fromIR_suite g
For a b asyncWs c d e f g h ->
(\d' -> Syntax.For (Ann a) b asyncWs c d' e) <$>
fromIR_expr d <*>
traverse fromIR_expr f <*>
fromIR_suite g <*>
traverseOf (traverse._3) fromIR_suite h
ClassDef a b c d e f g ->
(\b' -> Syntax.ClassDef (Ann a) b' c d e) <$>
traverse fromIR_decorator b <*>
traverseOf (traverse._2.traverse.traverse) fromIR_arg f <*>
fromIR_suite g
With a b asyncWs c d e ->
Syntax.With (Ann a) b asyncWs c <$>
traverse fromIR_withItem d <*>
fromIR_suite e
fromIR_listItem
:: AsIRError e a
=> Expr a
-> Validation (NonEmpty e) (Syntax.ListItem '[] a)
fromIR_listItem (StarExpr a b c) =
Syntax.ListUnpack (Ann a) [] b <$> fromIR_expr c
fromIR_listItem (Parens a b c d) =
(\case
Syntax.ListUnpack w x y z -> Syntax.ListUnpack w ((b, d) : x) y z
Syntax.ListItem x y -> Syntax.ListItem (Ann a) (Syntax.Parens x b y d)) <$>
fromIR_listItem c
fromIR_listItem e = (\x -> Syntax.ListItem (x ^. annot) x) <$> fromIR_expr e
fromIR_tupleItem
:: AsIRError e a
=> Expr a
-> Validation (NonEmpty e) (Syntax.TupleItem '[] a)
fromIR_tupleItem (StarExpr a b c) =
Syntax.TupleUnpack (Ann a) [] b <$> fromIR_expr c
fromIR_tupleItem (Parens a b c d) =
(\case
Syntax.TupleUnpack w x y z -> Syntax.TupleUnpack w ((b, d) : x) y z
Syntax.TupleItem x y -> Syntax.TupleItem (Ann a) (Syntax.Parens x b y d)) <$>
fromIR_tupleItem c
fromIR_tupleItem e =
(\x -> Syntax.TupleItem (x ^. annot) x) <$> fromIR_expr e
fromIR_setItem
:: AsIRError e a
=> Expr a
-> Validation (NonEmpty e) (Syntax.SetItem '[] a)
fromIR_setItem (StarExpr a b c) =
Syntax.SetUnpack (Ann a) [] b <$> fromIR_expr c
fromIR_setItem (Parens a b c d) =
(\case
Syntax.SetUnpack w x y z -> Syntax.SetUnpack w ((b, d) : x) y z
Syntax.SetItem x y -> Syntax.SetItem (Ann a) (Syntax.Parens x b y d)) <$>
fromIR_setItem c
fromIR_setItem e = (\x -> Syntax.SetItem (x ^. annot) x) <$> fromIR_expr e
fromIR
:: AsIRError e a
=> Module a
-> Validation (NonEmpty e) (Syntax.Module '[] a)
fromIR ModuleEmpty = pure Syntax.ModuleEmpty
fromIR (ModuleBlankFinal a) = pure $ Syntax.ModuleBlankFinal a
fromIR (ModuleBlank a b c) = Syntax.ModuleBlank a b <$> fromIR c
fromIR (ModuleStatement a b) = Syntax.ModuleStatement <$> fromIR_statement a <*> fromIR b