{-# LANGUAGE ApplicativeDo #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE InstanceSigs #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE Strict #-}
{-# LANGUAGE StrictData #-}
{-# LANGUAGE TypeFamilies #-}
module Language.Cimple.TraverseAst
( traverseAst
, doFiles, doFile
, doNodes, doNode
, doLexemes, doLexeme
, doText
, astActions, AstActions
) where
import Data.Fix (Fix (..))
import Data.Foldable (traverse_)
import Language.Cimple.Ast (Node, NodeF (..))
import Language.Cimple.Lexer (Lexeme (..))
class TraverseAst text a where
traverseFileAst
:: Applicative f
=> AstActions f text
-> FilePath
-> a
-> f ()
traverseAst
:: (TraverseAst text a, Applicative f)
=> AstActions f text -> a
-> f ()
traverseAst :: AstActions f text -> a -> f ()
traverseAst = (AstActions f text -> FilePath -> a -> f ())
-> FilePath -> AstActions f text -> a -> f ()
forall a b c. (a -> b -> c) -> b -> a -> c
flip AstActions f text -> FilePath -> a -> f ()
forall text a (f :: * -> *).
(TraverseAst text a, Applicative f) =>
AstActions f text -> FilePath -> a -> f ()
traverseFileAst FilePath
"<stdin>"
data AstActions f text = AstActions
{ AstActions f text
-> [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
doFiles :: [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
, AstActions f text
-> (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFile :: (FilePath, [Node (Lexeme text)]) -> f () -> f ()
, AstActions f text
-> FilePath -> [Node (Lexeme text)] -> f () -> f ()
doNodes :: FilePath -> [Node (Lexeme text)] -> f () -> f ()
, AstActions f text -> FilePath -> Node (Lexeme text) -> f () -> f ()
doNode :: FilePath -> Node (Lexeme text) -> f () -> f ()
, AstActions f text -> FilePath -> [Lexeme text] -> f () -> f ()
doLexemes :: FilePath -> [Lexeme text] -> f () -> f ()
, AstActions f text -> FilePath -> Lexeme text -> f () -> f ()
doLexeme :: FilePath -> Lexeme text -> f () -> f ()
, AstActions f text -> FilePath -> text -> f ()
doText :: FilePath -> text -> f ()
}
instance TraverseAst text a
=> TraverseAst text (Maybe a) where
traverseFileAst :: AstActions f text -> FilePath -> Maybe a -> f ()
traverseFileAst AstActions f text
_ FilePath
_ Maybe a
_ = () -> f ()
forall (f :: * -> *) a. Applicative f => a -> f a
pure ()
astActions
:: Applicative f
=> AstActions f text
astActions :: AstActions f text
astActions = AstActions :: forall (f :: * -> *) text.
([(FilePath, [Node (Lexeme text)])] -> f () -> f ())
-> ((FilePath, [Node (Lexeme text)]) -> f () -> f ())
-> (FilePath -> [Node (Lexeme text)] -> f () -> f ())
-> (FilePath -> Node (Lexeme text) -> f () -> f ())
-> (FilePath -> [Lexeme text] -> f () -> f ())
-> (FilePath -> Lexeme text -> f () -> f ())
-> (FilePath -> text -> f ())
-> AstActions f text
AstActions
{ doFiles :: [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
doFiles = (f () -> f ())
-> [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
forall a b. a -> b -> a
const f () -> f ()
forall a. a -> a
id
, doFile :: (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFile = (f () -> f ()) -> (FilePath, [Node (Lexeme text)]) -> f () -> f ()
forall a b. a -> b -> a
const f () -> f ()
forall a. a -> a
id
, doNodes :: FilePath -> [Node (Lexeme text)] -> f () -> f ()
doNodes = ([Node (Lexeme text)] -> f () -> f ())
-> FilePath -> [Node (Lexeme text)] -> f () -> f ()
forall a b. a -> b -> a
const (([Node (Lexeme text)] -> f () -> f ())
-> FilePath -> [Node (Lexeme text)] -> f () -> f ())
-> ([Node (Lexeme text)] -> f () -> f ())
-> FilePath
-> [Node (Lexeme text)]
-> f ()
-> f ()
forall a b. (a -> b) -> a -> b
$ (f () -> f ()) -> [Node (Lexeme text)] -> f () -> f ()
forall a b. a -> b -> a
const f () -> f ()
forall a. a -> a
id
, doNode :: FilePath -> Node (Lexeme text) -> f () -> f ()
doNode = (Node (Lexeme text) -> f () -> f ())
-> FilePath -> Node (Lexeme text) -> f () -> f ()
forall a b. a -> b -> a
const ((Node (Lexeme text) -> f () -> f ())
-> FilePath -> Node (Lexeme text) -> f () -> f ())
-> (Node (Lexeme text) -> f () -> f ())
-> FilePath
-> Node (Lexeme text)
-> f ()
-> f ()
forall a b. (a -> b) -> a -> b
$ (f () -> f ()) -> Node (Lexeme text) -> f () -> f ()
forall a b. a -> b -> a
const f () -> f ()
forall a. a -> a
id
, doLexeme :: FilePath -> Lexeme text -> f () -> f ()
doLexeme = (Lexeme text -> f () -> f ())
-> FilePath -> Lexeme text -> f () -> f ()
forall a b. a -> b -> a
const ((Lexeme text -> f () -> f ())
-> FilePath -> Lexeme text -> f () -> f ())
-> (Lexeme text -> f () -> f ())
-> FilePath
-> Lexeme text
-> f ()
-> f ()
forall a b. (a -> b) -> a -> b
$ (f () -> f ()) -> Lexeme text -> f () -> f ()
forall a b. a -> b -> a
const f () -> f ()
forall a. a -> a
id
, doLexemes :: FilePath -> [Lexeme text] -> f () -> f ()
doLexemes = ([Lexeme text] -> f () -> f ())
-> FilePath -> [Lexeme text] -> f () -> f ()
forall a b. a -> b -> a
const (([Lexeme text] -> f () -> f ())
-> FilePath -> [Lexeme text] -> f () -> f ())
-> ([Lexeme text] -> f () -> f ())
-> FilePath
-> [Lexeme text]
-> f ()
-> f ()
forall a b. (a -> b) -> a -> b
$ (f () -> f ()) -> [Lexeme text] -> f () -> f ()
forall a b. a -> b -> a
const f () -> f ()
forall a. a -> a
id
, doText :: FilePath -> text -> f ()
doText = (text -> f ()) -> FilePath -> text -> f ()
forall a b. a -> b -> a
const ((text -> f ()) -> FilePath -> text -> f ())
-> (text -> f ()) -> FilePath -> text -> f ()
forall a b. (a -> b) -> a -> b
$ f () -> text -> f ()
forall a b. a -> b -> a
const (f () -> text -> f ()) -> f () -> text -> f ()
forall a b. (a -> b) -> a -> b
$ () -> f ()
forall (f :: * -> *) a. Applicative f => a -> f a
pure ()
}
instance TraverseAst text (Lexeme text) where
traverseFileAst :: forall f . Applicative f
=> AstActions f text -> FilePath -> Lexeme text -> f ()
traverseFileAst :: AstActions f text -> FilePath -> Lexeme text -> f ()
traverseFileAst AstActions{FilePath -> text -> f ()
FilePath -> [Node (Lexeme text)] -> f () -> f ()
FilePath -> [Lexeme text] -> f () -> f ()
FilePath -> Node (Lexeme text) -> f () -> f ()
FilePath -> Lexeme text -> f () -> f ()
[(FilePath, [Node (Lexeme text)])] -> f () -> f ()
(FilePath, [Node (Lexeme text)]) -> f () -> f ()
doText :: FilePath -> text -> f ()
doLexeme :: FilePath -> Lexeme text -> f () -> f ()
doLexemes :: FilePath -> [Lexeme text] -> f () -> f ()
doNode :: FilePath -> Node (Lexeme text) -> f () -> f ()
doNodes :: FilePath -> [Node (Lexeme text)] -> f () -> f ()
doFile :: (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFiles :: [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
doText :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> text -> f ()
doLexeme :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> Lexeme text -> f () -> f ()
doLexemes :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> [Lexeme text] -> f () -> f ()
doNode :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> Node (Lexeme text) -> f () -> f ()
doNodes :: forall (f :: * -> *) text.
AstActions f text
-> FilePath -> [Node (Lexeme text)] -> f () -> f ()
doFile :: forall (f :: * -> *) text.
AstActions f text
-> (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFiles :: forall (f :: * -> *) text.
AstActions f text
-> [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
..} FilePath
currentFile = FilePath -> Lexeme text -> f () -> f ()
doLexeme FilePath
currentFile (Lexeme text -> f () -> f ())
-> (Lexeme text -> f ()) -> Lexeme text -> f ()
forall (f :: * -> *) a b. Applicative f => f (a -> b) -> f a -> f b
<*>
\(L AlexPosn
_ LexemeClass
_ text
s) -> FilePath -> text -> f ()
doText FilePath
currentFile text
s
instance TraverseAst text [Lexeme text] where
traverseFileAst :: AstActions f text -> FilePath -> [Lexeme text] -> f ()
traverseFileAst actions :: AstActions f text
actions@AstActions{FilePath -> text -> f ()
FilePath -> [Node (Lexeme text)] -> f () -> f ()
FilePath -> [Lexeme text] -> f () -> f ()
FilePath -> Node (Lexeme text) -> f () -> f ()
FilePath -> Lexeme text -> f () -> f ()
[(FilePath, [Node (Lexeme text)])] -> f () -> f ()
(FilePath, [Node (Lexeme text)]) -> f () -> f ()
doText :: FilePath -> text -> f ()
doLexeme :: FilePath -> Lexeme text -> f () -> f ()
doLexemes :: FilePath -> [Lexeme text] -> f () -> f ()
doNode :: FilePath -> Node (Lexeme text) -> f () -> f ()
doNodes :: FilePath -> [Node (Lexeme text)] -> f () -> f ()
doFile :: (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFiles :: [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
doText :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> text -> f ()
doLexeme :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> Lexeme text -> f () -> f ()
doLexemes :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> [Lexeme text] -> f () -> f ()
doNode :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> Node (Lexeme text) -> f () -> f ()
doNodes :: forall (f :: * -> *) text.
AstActions f text
-> FilePath -> [Node (Lexeme text)] -> f () -> f ()
doFile :: forall (f :: * -> *) text.
AstActions f text
-> (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFiles :: forall (f :: * -> *) text.
AstActions f text
-> [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
..} FilePath
currentFile = FilePath -> [Lexeme text] -> f () -> f ()
doLexemes FilePath
currentFile ([Lexeme text] -> f () -> f ())
-> ([Lexeme text] -> f ()) -> [Lexeme text] -> f ()
forall (f :: * -> *) a b. Applicative f => f (a -> b) -> f a -> f b
<*>
(Lexeme text -> f ()) -> [Lexeme text] -> f ()
forall (t :: * -> *) (f :: * -> *) a b.
(Foldable t, Applicative f) =>
(a -> f b) -> t a -> f ()
traverse_ (AstActions f text -> FilePath -> Lexeme text -> f ()
forall text a (f :: * -> *).
(TraverseAst text a, Applicative f) =>
AstActions f text -> FilePath -> a -> f ()
traverseFileAst AstActions f text
actions FilePath
currentFile)
instance TraverseAst text (Node (Lexeme text)) where
traverseFileAst
:: forall f . Applicative f
=> AstActions f text
-> FilePath
-> Node (Lexeme text)
-> f ()
traverseFileAst :: AstActions f text -> FilePath -> Node (Lexeme text) -> f ()
traverseFileAst actions :: AstActions f text
actions@AstActions{FilePath -> text -> f ()
FilePath -> [Node (Lexeme text)] -> f () -> f ()
FilePath -> [Lexeme text] -> f () -> f ()
FilePath -> Node (Lexeme text) -> f () -> f ()
FilePath -> Lexeme text -> f () -> f ()
[(FilePath, [Node (Lexeme text)])] -> f () -> f ()
(FilePath, [Node (Lexeme text)]) -> f () -> f ()
doText :: FilePath -> text -> f ()
doLexeme :: FilePath -> Lexeme text -> f () -> f ()
doLexemes :: FilePath -> [Lexeme text] -> f () -> f ()
doNode :: FilePath -> Node (Lexeme text) -> f () -> f ()
doNodes :: FilePath -> [Node (Lexeme text)] -> f () -> f ()
doFile :: (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFiles :: [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
doText :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> text -> f ()
doLexeme :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> Lexeme text -> f () -> f ()
doLexemes :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> [Lexeme text] -> f () -> f ()
doNode :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> Node (Lexeme text) -> f () -> f ()
doNodes :: forall (f :: * -> *) text.
AstActions f text
-> FilePath -> [Node (Lexeme text)] -> f () -> f ()
doFile :: forall (f :: * -> *) text.
AstActions f text
-> (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFiles :: forall (f :: * -> *) text.
AstActions f text
-> [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
..} FilePath
currentFile = FilePath -> Node (Lexeme text) -> f () -> f ()
doNode FilePath
currentFile (Node (Lexeme text) -> f () -> f ())
-> (Node (Lexeme text) -> f ()) -> Node (Lexeme text) -> f ()
forall (f :: * -> *) a b. Applicative f => f (a -> b) -> f a -> f b
<*> \Node (Lexeme text)
node -> case Node (Lexeme text) -> NodeF (Lexeme text) (Node (Lexeme text))
forall (f :: * -> *). Fix f -> f (Fix f)
unFix Node (Lexeme text)
node of
PreprocInclude Lexeme text
path ->
Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
path
PreprocDefine Lexeme text
name ->
Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
PreprocDefineConst Lexeme text
name Node (Lexeme text)
value -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
value
pure ()
PreprocDefineMacro Lexeme text
name [Node (Lexeme text)]
params Node (Lexeme text)
body -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
params
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
body
pure ()
PreprocIf Node (Lexeme text)
cond [Node (Lexeme text)]
thenDecls Node (Lexeme text)
elseBranch -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
cond
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
thenDecls
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
elseBranch
pure ()
PreprocIfdef Lexeme text
name [Node (Lexeme text)]
thenDecls Node (Lexeme text)
elseBranch -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
thenDecls
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
elseBranch
pure ()
PreprocIfndef Lexeme text
name [Node (Lexeme text)]
thenDecls Node (Lexeme text)
elseBranch -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
thenDecls
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
elseBranch
pure ()
PreprocElse [Node (Lexeme text)]
decls ->
[Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
decls
PreprocElif Node (Lexeme text)
cond [Node (Lexeme text)]
decls Node (Lexeme text)
elseBranch -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
cond
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
decls
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
elseBranch
pure ()
PreprocUndef Lexeme text
name ->
Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
PreprocDefined Lexeme text
name ->
Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
PreprocScopedDefine Node (Lexeme text)
define [Node (Lexeme text)]
stmts Node (Lexeme text)
undef -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
define
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
stmts
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
undef
pure ()
MacroBodyStmt Node (Lexeme text)
stmts ->
Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
stmts
MacroBodyFunCall Node (Lexeme text)
expr ->
Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
expr
MacroParam Lexeme text
name ->
Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
StaticAssert Node (Lexeme text)
cond Lexeme text
msg -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
cond
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
msg
pure ()
LicenseDecl Lexeme text
license [Node (Lexeme text)]
copyrights -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
license
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
copyrights
pure ()
CopyrightDecl Lexeme text
from Maybe (Lexeme text)
to [Lexeme text]
owner -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
from
()
_ <- Maybe (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Maybe (Lexeme text)
to
()
_ <- [Lexeme text] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Lexeme text]
owner
pure ()
Comment CommentStyle
_doc Lexeme text
start [Lexeme text]
contents Lexeme text
end -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
start
()
_ <- [Lexeme text] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Lexeme text]
contents
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
end
pure ()
CommentSectionEnd Lexeme text
comment -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
comment
pure ()
Commented Node (Lexeme text)
comment Node (Lexeme text)
subject -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
comment
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
subject
pure ()
ExternC [Node (Lexeme text)]
decls ->
[Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
decls
CompoundStmt [Node (Lexeme text)]
stmts ->
[Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
stmts
NodeF (Lexeme text) (Node (Lexeme text))
Break ->
() -> f ()
forall (f :: * -> *) a. Applicative f => a -> f a
pure ()
Goto Lexeme text
label ->
Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
label
NodeF (Lexeme text) (Node (Lexeme text))
Continue ->
() -> f ()
forall (f :: * -> *) a. Applicative f => a -> f a
pure ()
Return Maybe (Node (Lexeme text))
value ->
Maybe (Node (Lexeme text)) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Maybe (Node (Lexeme text))
value
SwitchStmt Node (Lexeme text)
value [Node (Lexeme text)]
cases -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
value
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
cases
pure ()
IfStmt Node (Lexeme text)
cond Node (Lexeme text)
thenStmts Maybe (Node (Lexeme text))
elseStmt -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
cond
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
thenStmts
()
_ <- Maybe (Node (Lexeme text)) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Maybe (Node (Lexeme text))
elseStmt
pure ()
ForStmt Node (Lexeme text)
initStmt Node (Lexeme text)
cond Node (Lexeme text)
next Node (Lexeme text)
stmts -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
initStmt
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
cond
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
next
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
stmts
pure ()
WhileStmt Node (Lexeme text)
cond Node (Lexeme text)
stmts -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
cond
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
stmts
pure ()
DoWhileStmt Node (Lexeme text)
stmts Node (Lexeme text)
cond -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
stmts
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
cond
pure ()
Case Node (Lexeme text)
value Node (Lexeme text)
stmt -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
value
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
stmt
pure ()
Default Node (Lexeme text)
stmt ->
Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
stmt
Label Lexeme text
label Node (Lexeme text)
stmt -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
label
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
stmt
pure ()
ExprStmt Node (Lexeme text)
expr -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
expr
pure ()
VLA Node (Lexeme text)
ty Lexeme text
name Node (Lexeme text)
size -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
ty
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
size
pure ()
VarDeclStmt Node (Lexeme text)
decl Maybe (Node (Lexeme text))
ini -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
decl
()
_ <- Maybe (Node (Lexeme text)) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Maybe (Node (Lexeme text))
ini
pure ()
VarDecl Node (Lexeme text)
ty Lexeme text
name [Node (Lexeme text)]
arrs -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
ty
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
arrs
pure ()
DeclSpecArray Maybe (Node (Lexeme text))
size ->
Maybe (Node (Lexeme text)) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Maybe (Node (Lexeme text))
size
InitialiserList [Node (Lexeme text)]
values ->
[Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
values
UnaryExpr UnaryOp
_op Node (Lexeme text)
expr ->
Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
expr
BinaryExpr Node (Lexeme text)
lhs BinaryOp
_op Node (Lexeme text)
rhs -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
lhs
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
rhs
pure ()
TernaryExpr Node (Lexeme text)
cond Node (Lexeme text)
thenExpr Node (Lexeme text)
elseExpr -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
cond
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
thenExpr
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
elseExpr
pure ()
AssignExpr Node (Lexeme text)
lhs AssignOp
_op Node (Lexeme text)
rhs -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
lhs
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
rhs
pure ()
ParenExpr Node (Lexeme text)
expr ->
Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
expr
CastExpr Node (Lexeme text)
ty Node (Lexeme text)
expr -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
ty
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
expr
pure ()
CompoundExpr Node (Lexeme text)
ty Node (Lexeme text)
expr -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
ty
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
expr
pure ()
CompoundLiteral Node (Lexeme text)
ty Node (Lexeme text)
expr -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
ty
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
expr
pure ()
SizeofExpr Node (Lexeme text)
expr ->
Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
expr
SizeofType Node (Lexeme text)
ty ->
Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
ty
LiteralExpr LiteralType
_ty Lexeme text
value ->
Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
value
VarExpr Lexeme text
name ->
Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
MemberAccess Node (Lexeme text)
name Lexeme text
field -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
name
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
field
pure ()
PointerAccess Node (Lexeme text)
name Lexeme text
field -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
name
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
field
pure ()
ArrayAccess Node (Lexeme text)
arr Node (Lexeme text)
idx -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
arr
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
idx
pure ()
FunctionCall Node (Lexeme text)
callee [Node (Lexeme text)]
args -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
callee
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
args
pure ()
CommentExpr Node (Lexeme text)
comment Node (Lexeme text)
expr -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
comment
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
expr
pure ()
EnumConsts Maybe (Lexeme text)
name [Node (Lexeme text)]
members -> do
()
_ <- Maybe (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Maybe (Lexeme text)
name
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
members
pure ()
EnumDecl Lexeme text
name [Node (Lexeme text)]
members Lexeme text
tyName -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
members
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
tyName
pure ()
Enumerator Lexeme text
name Maybe (Node (Lexeme text))
value -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
()
_ <- Maybe (Node (Lexeme text)) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Maybe (Node (Lexeme text))
value
pure ()
AggregateDecl Node (Lexeme text)
struct -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
struct
pure ()
Typedef Node (Lexeme text)
ty Lexeme text
name -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
ty
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
pure ()
TypedefFunction Node (Lexeme text)
ty ->
Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
ty
Struct Lexeme text
name [Node (Lexeme text)]
members -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
members
pure ()
Union Lexeme text
name [Node (Lexeme text)]
members -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
members
pure ()
MemberDecl Node (Lexeme text)
decl Maybe (Lexeme text)
bits -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
decl
()
_ <- Maybe (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Maybe (Lexeme text)
bits
pure ()
TyConst Node (Lexeme text)
ty ->
Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
ty
TyPointer Node (Lexeme text)
ty ->
Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
ty
TyStruct Lexeme text
name ->
Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
TyFunc Lexeme text
name ->
Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
TyStd Lexeme text
name ->
Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
TyUserDefined Lexeme text
name ->
Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
AttrPrintf Lexeme text
fmt Lexeme text
ellipsis Node (Lexeme text)
fun -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
fmt
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
ellipsis
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
fun
pure ()
FunctionDecl Scope
_scope Node (Lexeme text)
proto ->
Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
proto
FunctionDefn Scope
_scope Node (Lexeme text)
proto Node (Lexeme text)
body -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
proto
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
body
pure ()
FunctionPrototype Node (Lexeme text)
ty Lexeme text
name [Node (Lexeme text)]
params -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
ty
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
()
_ <- [Node (Lexeme text)] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Node (Lexeme text)]
params
pure ()
CallbackDecl Lexeme text
ty Lexeme text
name -> do
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
ty
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
pure ()
NodeF (Lexeme text) (Node (Lexeme text))
Ellipsis ->
() -> f ()
forall (f :: * -> *) a. Applicative f => a -> f a
pure ()
NonNull [Lexeme text]
nonnull [Lexeme text]
nullable Node (Lexeme text)
f -> do
()
_ <- [Lexeme text] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Lexeme text]
nonnull
()
_ <- [Lexeme text] -> f ()
forall a. TraverseAst text a => a -> f ()
recurse [Lexeme text]
nullable
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
f
pure ()
ConstDecl Node (Lexeme text)
ty Lexeme text
name -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
ty
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
pure ()
ConstDefn Scope
_scope Node (Lexeme text)
ty Lexeme text
name Node (Lexeme text)
value -> do
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
ty
()
_ <- Lexeme text -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Lexeme text
name
()
_ <- Node (Lexeme text) -> f ()
forall a. TraverseAst text a => a -> f ()
recurse Node (Lexeme text)
value
pure ()
where
recurse :: TraverseAst text a => a -> f ()
recurse :: a -> f ()
recurse = AstActions f text -> FilePath -> a -> f ()
forall text a (f :: * -> *).
(TraverseAst text a, Applicative f) =>
AstActions f text -> FilePath -> a -> f ()
traverseFileAst AstActions f text
actions FilePath
currentFile
instance TraverseAst text [Node (Lexeme text)] where
traverseFileAst :: AstActions f text -> FilePath -> [Node (Lexeme text)] -> f ()
traverseFileAst actions :: AstActions f text
actions@AstActions{FilePath -> text -> f ()
FilePath -> [Node (Lexeme text)] -> f () -> f ()
FilePath -> [Lexeme text] -> f () -> f ()
FilePath -> Node (Lexeme text) -> f () -> f ()
FilePath -> Lexeme text -> f () -> f ()
[(FilePath, [Node (Lexeme text)])] -> f () -> f ()
(FilePath, [Node (Lexeme text)]) -> f () -> f ()
doText :: FilePath -> text -> f ()
doLexeme :: FilePath -> Lexeme text -> f () -> f ()
doLexemes :: FilePath -> [Lexeme text] -> f () -> f ()
doNode :: FilePath -> Node (Lexeme text) -> f () -> f ()
doNodes :: FilePath -> [Node (Lexeme text)] -> f () -> f ()
doFile :: (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFiles :: [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
doText :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> text -> f ()
doLexeme :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> Lexeme text -> f () -> f ()
doLexemes :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> [Lexeme text] -> f () -> f ()
doNode :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> Node (Lexeme text) -> f () -> f ()
doNodes :: forall (f :: * -> *) text.
AstActions f text
-> FilePath -> [Node (Lexeme text)] -> f () -> f ()
doFile :: forall (f :: * -> *) text.
AstActions f text
-> (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFiles :: forall (f :: * -> *) text.
AstActions f text
-> [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
..} FilePath
currentFile = FilePath -> [Node (Lexeme text)] -> f () -> f ()
doNodes FilePath
currentFile ([Node (Lexeme text)] -> f () -> f ())
-> ([Node (Lexeme text)] -> f ()) -> [Node (Lexeme text)] -> f ()
forall (f :: * -> *) a b. Applicative f => f (a -> b) -> f a -> f b
<*>
(Node (Lexeme text) -> f ()) -> [Node (Lexeme text)] -> f ()
forall (t :: * -> *) (f :: * -> *) a b.
(Foldable t, Applicative f) =>
(a -> f b) -> t a -> f ()
traverse_ (AstActions f text -> FilePath -> Node (Lexeme text) -> f ()
forall text a (f :: * -> *).
(TraverseAst text a, Applicative f) =>
AstActions f text -> FilePath -> a -> f ()
traverseFileAst AstActions f text
actions FilePath
currentFile)
instance TraverseAst text (FilePath, [Node (Lexeme text)]) where
traverseFileAst :: AstActions f text
-> FilePath -> (FilePath, [Node (Lexeme text)]) -> f ()
traverseFileAst actions :: AstActions f text
actions@AstActions{FilePath -> text -> f ()
FilePath -> [Node (Lexeme text)] -> f () -> f ()
FilePath -> [Lexeme text] -> f () -> f ()
FilePath -> Node (Lexeme text) -> f () -> f ()
FilePath -> Lexeme text -> f () -> f ()
[(FilePath, [Node (Lexeme text)])] -> f () -> f ()
(FilePath, [Node (Lexeme text)]) -> f () -> f ()
doText :: FilePath -> text -> f ()
doLexeme :: FilePath -> Lexeme text -> f () -> f ()
doLexemes :: FilePath -> [Lexeme text] -> f () -> f ()
doNode :: FilePath -> Node (Lexeme text) -> f () -> f ()
doNodes :: FilePath -> [Node (Lexeme text)] -> f () -> f ()
doFile :: (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFiles :: [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
doText :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> text -> f ()
doLexeme :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> Lexeme text -> f () -> f ()
doLexemes :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> [Lexeme text] -> f () -> f ()
doNode :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> Node (Lexeme text) -> f () -> f ()
doNodes :: forall (f :: * -> *) text.
AstActions f text
-> FilePath -> [Node (Lexeme text)] -> f () -> f ()
doFile :: forall (f :: * -> *) text.
AstActions f text
-> (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFiles :: forall (f :: * -> *) text.
AstActions f text
-> [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
..} FilePath
_ tu :: (FilePath, [Node (Lexeme text)])
tu@(FilePath
currentFile, [Node (Lexeme text)]
_) = (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFile ((FilePath, [Node (Lexeme text)]) -> f () -> f ())
-> ((FilePath, [Node (Lexeme text)]) -> f ())
-> (FilePath, [Node (Lexeme text)])
-> f ()
forall (f :: * -> *) a b. Applicative f => f (a -> b) -> f a -> f b
<*>
([Node (Lexeme text)] -> f ())
-> (FilePath, [Node (Lexeme text)]) -> f ()
forall (t :: * -> *) (f :: * -> *) a b.
(Foldable t, Applicative f) =>
(a -> f b) -> t a -> f ()
traverse_ (AstActions f text -> FilePath -> [Node (Lexeme text)] -> f ()
forall text a (f :: * -> *).
(TraverseAst text a, Applicative f) =>
AstActions f text -> FilePath -> a -> f ()
traverseFileAst AstActions f text
actions FilePath
currentFile) ((FilePath, [Node (Lexeme text)]) -> f ())
-> (FilePath, [Node (Lexeme text)]) -> f ()
forall a b. (a -> b) -> a -> b
$ (FilePath, [Node (Lexeme text)])
tu
instance TraverseAst text [(FilePath, [Node (Lexeme text)])] where
traverseFileAst :: AstActions f text
-> FilePath -> [(FilePath, [Node (Lexeme text)])] -> f ()
traverseFileAst actions :: AstActions f text
actions@AstActions{FilePath -> text -> f ()
FilePath -> [Node (Lexeme text)] -> f () -> f ()
FilePath -> [Lexeme text] -> f () -> f ()
FilePath -> Node (Lexeme text) -> f () -> f ()
FilePath -> Lexeme text -> f () -> f ()
[(FilePath, [Node (Lexeme text)])] -> f () -> f ()
(FilePath, [Node (Lexeme text)]) -> f () -> f ()
doText :: FilePath -> text -> f ()
doLexeme :: FilePath -> Lexeme text -> f () -> f ()
doLexemes :: FilePath -> [Lexeme text] -> f () -> f ()
doNode :: FilePath -> Node (Lexeme text) -> f () -> f ()
doNodes :: FilePath -> [Node (Lexeme text)] -> f () -> f ()
doFile :: (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFiles :: [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
doText :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> text -> f ()
doLexeme :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> Lexeme text -> f () -> f ()
doLexemes :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> [Lexeme text] -> f () -> f ()
doNode :: forall (f :: * -> *) text.
AstActions f text -> FilePath -> Node (Lexeme text) -> f () -> f ()
doNodes :: forall (f :: * -> *) text.
AstActions f text
-> FilePath -> [Node (Lexeme text)] -> f () -> f ()
doFile :: forall (f :: * -> *) text.
AstActions f text
-> (FilePath, [Node (Lexeme text)]) -> f () -> f ()
doFiles :: forall (f :: * -> *) text.
AstActions f text
-> [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
..} FilePath
currentFile = [(FilePath, [Node (Lexeme text)])] -> f () -> f ()
doFiles ([(FilePath, [Node (Lexeme text)])] -> f () -> f ())
-> ([(FilePath, [Node (Lexeme text)])] -> f ())
-> [(FilePath, [Node (Lexeme text)])]
-> f ()
forall (f :: * -> *) a b. Applicative f => f (a -> b) -> f a -> f b
<*>
((FilePath, [Node (Lexeme text)]) -> f ())
-> [(FilePath, [Node (Lexeme text)])] -> f ()
forall (t :: * -> *) (f :: * -> *) a b.
(Foldable t, Applicative f) =>
(a -> f b) -> t a -> f ()
traverse_ (AstActions f text
-> FilePath -> (FilePath, [Node (Lexeme text)]) -> f ()
forall text a (f :: * -> *).
(TraverseAst text a, Applicative f) =>
AstActions f text -> FilePath -> a -> f ()
traverseFileAst AstActions f text
actions FilePath
currentFile)