Parse enums from headers & generate code (#19)

2024-11-22 16:57:00 +00:00 · 2021-02-05 21:57:17 +01:00 · 2021-02-05 21:57:17 +01:00 · 895f5c1926
commit 895f5c1926
parent 81582ba6eb
10 changed files with 947 additions and 79 deletions
--- a/Main.hs
+++ b/Main.hs
@ -70,7 +70,7 @@ loop w checked color slider r = do
    True  -> putStrLn "Oh hi Mark"
    False -> return ()
-  sameLine >> arrowButton "Arrow" ImGuiDirUp
+  sameLine >> arrowButton "Arrow" ImGuiDir_Up
  sameLine >> checkbox "Check!" checked >>= \case
    True  -> readIORef checked >>= print
--- a/dear-imgui.cabal
+++ b/dear-imgui.cabal
@ -2,6 +2,8 @@ cabal-version: 3.0
 name: dear-imgui
 version: 1.0.0
 build-type: Simple
 data-files:
  imgui/imgui.h
 flag opengl
  description:
@ -27,16 +29,25 @@ flag sdl
  manual:
    False
-library
+common common
-  exposed-modules:
+  build-depends:
-    DearImGui
+      base
-    DearImGui.Context
+        >= 4.12 && < 4.17
  hs-source-dirs:
    src
  default-language:
      Haskell2010
  ghc-options:
      -Wall
 library
  import: common
  hs-source-dirs:
    src
  exposed-modules:
    DearImGui
  other-modules:
    DearImGui.Context
    DearImGui.Enums
    DearImGui.Structs
  cxx-sources:
    imgui/imgui.cpp
    imgui/imgui_demo.cpp
@ -50,7 +61,7 @@ library
  include-dirs:
    imgui
  build-depends:
-      base
+      dear-imgui-generator
    , containers
    , managed
    , inline-c
@ -117,30 +128,55 @@ library
      exposed-modules:
        DearImGui.SDL.Vulkan
 library dear-imgui-generator
  import: common
  hs-source-dirs: generator
  exposed-modules:
      DearImGui.Generator
    , DearImGui.Generator.Parser
    , DearImGui.Generator.Tokeniser
    , DearImGui.Generator.Types
  build-depends:
      template-haskell
        >= 2.15 && < 2.19
    , directory
        >= 1.3 && < 1.4
    , filepath
        >= 1.4 && < 1.5
    , megaparsec
        >= 9.0 && < 9.1
    , parser-combinators
        >= 1.2.0 && < 1.3
    , scientific
        >= 0.3.6.2 && < 0.3.7
    , text
        >= 1.2.4 && < 1.3
    , th-lift
        >= 0.7 && < 0.9
    , transformers
        >= 0.5.6 && < 0.6
    , unordered-containers
        >= 0.2.11 && < 0.2.14
 executable test
  import: common
  main-is: Main.hs
-  default-language: Haskell2010
+  build-depends: sdl2, gl, dear-imgui
  build-depends: base, sdl2, gl, dear-imgui
  ghc-options: -Wall
 executable readme
  import: common
  main-is: Readme.hs
  hs-source-dirs: examples
-  default-language: Haskell2010
+  build-depends: sdl2, gl, dear-imgui, managed
  build-depends: base, sdl2, gl, dear-imgui, managed
  ghc-options: -Wall
 executable vulkan
  import: common
  main-is: Main.hs
  other-modules: Attachments, Backend, Input, Util
  hs-source-dirs: examples/vulkan
  default-language: Haskell2010
  build-depends:
      dear-imgui
    , base
        >= 4.13 && < 4.16
    , bytestring
        >= 0.10.10.0 && < 0.12
    , containers
--- a/generator/DearImGui/Generator.hs
+++ b/generator/DearImGui/Generator.hs
@ -0,0 +1,159 @@
 {-# LANGUAGE BlockArguments #-}
 {-# LANGUAGE CPP #-}
 {-# LANGUAGE NamedFieldPuns #-}
 {-# LANGUAGE OverloadedStrings #-}
 {-# LANGUAGE RecordWildCards #-}
 {-# LANGUAGE TemplateHaskell #-}
 module DearImGui.Generator
  ( declareEnumerations )
  where
 -- base
 import Data.Coerce
  ( coerce )
 import Data.Bits
  ( Bits )
 import Data.Foldable
  ( toList )
 import Data.Traversable
  ( for )
 import Foreign.Storable
  ( Storable )
 -- directory
 import System.Directory
  ( canonicalizePath )
 -- filepath
 import System.FilePath
  ( takeDirectory )
 -- megaparsec
 import qualified Text.Megaparsec as Megaparsec
  ( ParseErrorBundle(bundleErrors), parse, parseErrorPretty )
 -- template-haskell
 import qualified Language.Haskell.TH        as TH
 import qualified Language.Haskell.TH.Syntax as TH
 -- text
 import qualified Data.Text as Text
  ( isInfixOf, null, unpack, unlines )
 import qualified Data.Text.IO as Text
  ( readFile )
 -- dear-imgui-generator
 import qualified DearImGui.Generator.Parser as Parser
  ( headers )
 import DearImGui.Generator.Tokeniser
  ( tokenise )
 import DearImGui.Generator.Types
  ( Comment(..), Enumeration(..), Headers(..) )
 --------------------------------------------------------------------------------
 -- Obtaining parsed header data.
 headers :: Headers
 headers = $( do
  currentPath <- TH.loc_filename <$> TH.location
  TH.lift =<< TH.runIO do
    headersPath  <- canonicalizePath ( takeDirectory currentPath <> "/../../imgui/imgui.h" )
    headersSource <- Text.readFile headersPath
    tokens <- case tokenise headersSource of
      Left  err  -> error ( "Couldn't tokenise Dear ImGui headers:\n\n" <> show err )
      Right toks -> pure toks
    case Megaparsec.parse Parser.headers "" tokens of
      Left  err -> error $
        "Couldn't parse Dear ImGui headers:\n\n" <>
        ( unlines ( map Megaparsec.parseErrorPretty . toList $ Megaparsec.bundleErrors err ) )
      Right res -> pure res
  )
 --------------------------------------------------------------------------------
 -- Generating TH splices.
 declareEnumerations :: TH.Name -> TH.Name -> TH.Q [ TH.Dec ]
 declareEnumerations finiteEnumName countName = do
  concat <$> mapM ( declareEnumeration finiteEnumName countName ) ( enums headers )
 declareEnumeration :: TH.Name -> TH.Name -> Enumeration -> TH.Q [ TH.Dec ]
 declareEnumeration finiteEnumName countName ( Enumeration {..} ) = do
  let
    enumNameStr :: String
    enumNameStr = Text.unpack enumName
    isFlagEnum :: Bool
    isFlagEnum = "Flags" `Text.isInfixOf` enumName
  tyName  <- TH.newName enumNameStr
  conName <- TH.newName enumNameStr
  let
    newtypeCon :: TH.Q TH.Con
    newtypeCon =
      TH.normalC conName
        [ TH.bangType
          ( TH.bang TH.noSourceUnpackedness TH.noSourceStrictness )
          ( TH.conT enumType )
        ]
    classes :: [ TH.Q TH.Type ]
    classes
      | isFlagEnum
      = map TH.conT [ ''Eq, ''Ord, ''Storable, ''Bits ]
      | otherwise
      = map TH.conT [ ''Eq, ''Ord, ''Storable ]
    derivClause :: TH.Q TH.DerivClause
    derivClause = TH.derivClause ( Just TH.NewtypeStrategy ) classes
  newtypeDecl <-
 #if MIN_VERSION_base(4,16,0)
    ( if   null docs
      then TH.newtypeD
      else
        \ ctx name bndrs kd con derivs ->
          TH.newtypeD_doc ctx name ( fmap pure bndrs ) ( fmap pure kd ) ( con, "", [] ) derivs
            ( Text.unpack . Text.unlines . coerce $ docs )
    )
 #else
    TH.newtypeD
 #endif
    ( pure [] ) tyName [] Nothing newtypeCon [ derivClause ]
  mbAddFiniteEnumInst <-
    if hasExplicitCount
    then do
      finiteEnumInst <-
        TH.instanceD ( pure [] ) ( TH.appT ( TH.conT finiteEnumName ) ( TH.conT tyName ) )
          [ TH.tySynInstD ( TH.TySynEqn Nothing
                        <$> TH.appT ( TH.conT countName ) ( TH.conT tyName )
                        <*> TH.litT ( TH.numTyLit enumSize )
                          )
          ]  
      pure ( finiteEnumInst : )
    else pure id
  synonyms <- for patterns \ ( patternName, patternValue, CommentText patDoc ) -> do
    let
      patNameStr :: String
      patNameStr = Text.unpack patternName
    patName   <- TH.newName patNameStr
    patSynSig <- TH.patSynSigD patName ( TH.conT tyName )
    pat       <-
 #if MIN_VERSION_base(4,16,0)
      ( if   Text.null patDoc
        then TH.patSynD
        else
          \ nm args dir pat ->
          TH.patSynD_doc nm args dir pat
            ( Text.unpack patDoc ) []
      )
 #else
      TH.patSynD
 #endif
        patName ( TH.prefixPatSyn [] ) TH.implBidir
        ( TH.conP conName [ TH.litP $ TH.integerL patternValue ] )
    pure ( patSynSig, pat )
  pure ( newtypeDecl : mbAddFiniteEnumInst ( unpairs synonyms ) )
 unpairs :: [ ( a, a ) ] -> [ a ]
 unpairs [] = []
 unpairs ( ( x, y ) : as ) = x : y : unpairs as
--- a/generator/DearImGui/Generator/Parser.hs
+++ b/generator/DearImGui/Generator/Parser.hs
@ -0,0 +1,392 @@
 {-# LANGUAGE BlockArguments #-}
 {-# LANGUAGE DerivingStrategies #-}
 {-# LANGUAGE DuplicateRecordFields #-}
 {-# LANGUAGE FlexibleContexts #-}
 {-# LANGUAGE LambdaCase #-}
 {-# LANGUAGE NamedFieldPuns #-}
 {-# LANGUAGE OverloadedStrings #-}
 {-# LANGUAGE RecordWildCards #-}
 {-# LANGUAGE ScopedTypeVariables #-}
 {-# LANGUAGE TemplateHaskellQuotes #-}
 {-# LANGUAGE TypeApplications #-}
 {-# LANGUAGE ViewPatterns #-}
 module DearImGui.Generator.Parser
  ( CustomParseError(..)
  , headers
  )
  where
 -- base
 import Control.Applicative
  ( (<|>), many, optional, some )
 import Control.Monad
  ( void )
 import Data.Bits
  ( Bits(shiftL) )
 import Data.Char
  ( isSpace, toLower )
 import Data.Either
  ( partitionEithers )
 import Data.Functor
  ( ($>) )
 import Data.Int
  ( Int64 )
 import Data.Maybe
  ( catMaybes, fromMaybe )
 import Foreign.C.Types
  ( CInt )
 -- template-haskell
 import qualified Language.Haskell.TH as TH
  ( Name )
 -- megaparsec
 import Text.Megaparsec
  ( MonadParsec(..), ShowErrorComponent(..)
  , (<?>), anySingle, customFailure, single
  )
 -- parser-combinators
 import Control.Applicative.Combinators
  ( manyTill, option, sepBy1, skipManyTill )
 -- scientific
 import Data.Scientific
  ( floatingOrInteger, toBoundedInteger )
 -- text
 import Data.Text
  ( Text )
 import qualified Data.Text as Text
  ( all, any, breakOn, drop, dropWhile, dropWhileEnd
  , length, stripPrefix, unlines, unpack
  )
 -- transformers
 import Control.Monad.Trans.State.Strict
  ( StateT(..)
  , get, modify'
  )
 -- unordered-containers
 import Data.HashMap.Strict
  ( HashMap )
 import qualified Data.HashMap.Strict as HashMap
  ( fromList, insert, lookup )
 -- dear-imgui-generator 
 import DearImGui.Generator.Tokeniser
  ( Tok(..) )
 import DearImGui.Generator.Types
  ( Comment(..), Enumeration(..), Headers(..) )
 --------------------------------------------------------------------------------
 -- Parse error type.
 data CustomParseError
  = Couldn'tLookupEnumValues
    { enumName :: !Text
    , problems :: ![Text]
    }
  | MissingForwardDeclaration
    { enumName :: !Text }
  | UnexpectedSection
    { sectionName :: !Text
    , problem     :: ![Text]
    }
  deriving stock ( Show, Eq, Ord )
 instance ShowErrorComponent CustomParseError where
  showErrorComponent ( Couldn'tLookupEnumValues { enumName, problems } ) = Text.unpack $
    "Couldn't lookup the following values in enum " <> enumName <> ":\n"
    <> Text.unlines ( map ( " - "  <> ) problems )
  showErrorComponent ( MissingForwardDeclaration { enumName } ) = Text.unpack $
    "Missing forward declaration for enum named " <> enumName
  showErrorComponent ( UnexpectedSection { sectionName, problem } ) = Text.unpack $
    "Unexpected section name.\n\
    \Expected: " <> sectionName <> "\n\
    \  Actual: " <> Text.unlines ( map ( " "  <> ) problem )
 --------------------------------------------------------------------------------
 -- Parsing headers.
 headers :: MonadParsec CustomParseError [Tok] m => m Headers
 headers = do
  _ <- skipManyTill anySingle ( namedSection "Header mess" )
  _ <- skipManyTill anySingle ( namedSection "Forward declarations" )
  ( _structNames, enumNamesAndTypes ) <- forwardDeclarations
  _ <- skipManyTill anySingle ( namedSection "Dear ImGui end-user API functions" )
  _ <- skipManyTill anySingle ( namedSection "Flags & Enumerations" )
  ( _defines, enums ) <- partitionEithers <$>
    manyTill
      (   ( Left  <$> try ignoreDefine )
      <|> ( Right <$> enumeration enumNamesAndTypes )
      )
      ( namedSection "Helpers: Memory allocations macros, ImVector<>" )
  _ <- skipManyTill anySingle ( namedSection "ImGuiStyle" )
  _ <- skipManyTill anySingle ( namedSection "ImGuiIO" )
  _ <- skipManyTill anySingle ( namedSection "Misc data structures" )
  _ <- skipManyTill anySingle ( namedSection "Obsolete functions" )
  _ <- skipManyTill anySingle ( namedSection "Helpers" )
  _ <- skipManyTill anySingle ( namedSection "Drawing API" )
  _ <- skipManyTill anySingle ( namedSection "Font API" )
  pure ( Headers { enums } )
 --------------------------------------------------------------------------------
 -- Parsing forward declarations.
 forwardDeclarations
  :: MonadParsec CustomParseError [Tok] m
  => m ( HashMap Text Comment, HashMap Text ( TH.Name, Comment ) )
 forwardDeclarations = do
  _ <- many comment
  structs <- many do
    keyword "struct"
    structName <- identifier
    reservedSymbol ';'
    doc <- comment
    pure ( structName, doc )
  _ <- many comment
  enums <- many do
    keyword "typedef"
    ty <- enumTypeName
    enumName <- identifier
    reservedSymbol ';'
    doc <- commentText <$> comment
    pure ( enumName, ( ty, CommentText <$> Text.drop 2 . snd $ Text.breakOn "//" doc ) )
  -- Stopping after simple structs and enums for now.
  pure ( HashMap.fromList structs, HashMap.fromList enums )
 enumTypeName :: MonadParsec e [Tok] m => m TH.Name
 enumTypeName = keyword "int" $> ''CInt
 --------------------------------------------------------------------------------
 -- Parsing enumerations.
 data EnumState = EnumState
  { enumValues       :: HashMap Text Integer
  , currEnumTag      :: Integer
  , enumSize         :: Integer
  , hasExplicitCount :: Bool
  }
 enumeration :: MonadParsec CustomParseError [Tok] m => HashMap Text ( TH.Name, Comment ) -> m Enumeration
 enumeration enumNamesAndTypes = do
  inlineDocs <- many comment
  keyword "enum"
  fullEnumName <- identifier
  let
    enumName :: Text
    enumName = Text.dropWhileEnd ( == '_' ) fullEnumName
  ( enumType, forwardDoc ) <- case HashMap.lookup enumName enumNamesAndTypes of
    Just res -> pure res
    Nothing  -> customFailure ( MissingForwardDeclaration { enumName } )
  let
    docs :: [Comment]
    docs = forwardDoc : CommentText "" : inlineDocs
  reservedSymbol '{'
  ( patterns, EnumState { enumSize, hasExplicitCount } ) <- 
    ( `runStateT` EnumState { enumValues = mempty, currEnumTag = 0, enumSize = 0, hasExplicitCount = False } ) $
      catMaybes
          <$> many
               (   some ignoredPatternContent $> Nothing
               <|> enumerationPattern fullEnumName
               )
  reservedSymbol '}'
  reservedSymbol  ';'
  pure ( Enumeration { .. } )
 ignoredPatternContent :: MonadParsec e [Tok] m => m ()
 ignoredPatternContent = void ( try comment ) <|> cppConditional
 enumerationPattern
  :: MonadParsec CustomParseError [ Tok ] m
  => Text
  -> StateT EnumState m ( Maybe ( Text, Integer, Comment ) )
 enumerationPattern enumName = do
  mbPatNameVal <- patternNameAndValue enumName
  _ <- optional $ reservedSymbol ','
  comm <- fromMaybe ( CommentText "" ) <$> optional comment
  pure $
    case mbPatNameVal of
      Nothing                    -> Nothing
      Just ( patName, patValue ) -> Just ( patName, patValue, comm )
 patternNameAndValue
  :: forall m
  .  MonadParsec CustomParseError [ Tok ] m
  => Text
  -> StateT EnumState m ( Maybe ( Text, Integer ) )
 patternNameAndValue enumName =
  try do
      sz <- count
      modify' ( ( \ st -> st { enumSize = sz, hasExplicitCount = True } ) :: EnumState -> EnumState )
      pure Nothing
  <|> do
        pat@( _, val ) <- value
        modify' ( \ st -> st { enumSize = ( enumSize :: EnumState -> Integer ) st + 1, currEnumTag = val + 1} )
        pure ( Just pat )
  where
    count :: StateT EnumState m Integer
    count = do
      _ <- single ( Identifier $ enumName <> "COUNT" )
      mbVal <- optional do
        _ <- reservedSymbol '='
        integerExpression
      case mbVal of
        Nothing -> currEnumTag <$> get
        Just ct -> pure ct
    value :: StateT EnumState m ( Text, Integer )
    value = do
      name <- identifier
      val <- patternRHS
      modify' ( \ st -> st { enumValues = HashMap.insert name val ( enumValues st ) } )
      pure ( name, val )
    patternRHS :: StateT EnumState m Integer
    patternRHS =
      ( do
        reservedSymbol '='
        try integerExpression <|> try disjunction
      )
      <|> ( currEnumTag <$> get )
    disjunction :: StateT EnumState m Integer
    disjunction = do
      ( summands :: [Text] ) <- identifier `sepBy1` symbol "|"
      valsMap <- enumValues <$> get
      let
        res :: Either [ Text ] Integer
        res = foldr
          ( \ summand errsOrVal -> case HashMap.lookup summand valsMap of
            Nothing -> case errsOrVal of { Right _  -> Left [ summand ]; Left errs -> Left ( summand : errs ) }
            Just v  -> case errsOrVal of { Right v' -> Right ( v + v' ); Left errs -> Left errs }
          )
          ( Right 0 )
          summands
      case res of
        Left problems -> customFailure ( Couldn'tLookupEnumValues { enumName, problems } )
        Right v -> pure v
 --------------------------------------------------------------------------------
 -- Simple token parsers.
 comment :: MonadParsec e [ Tok ] m => m Comment
 comment = CommentText <$>
  token ( \ case { Comment comm -> Just comm; _ -> Nothing } ) mempty
    <?> "comment"
 keyword :: MonadParsec e [ Tok ] m => Text -> m ()
 keyword kw = token ( \ case { Keyword kw' | kw == kw' -> Just (); _ -> Nothing } ) mempty
  <?> ( Text.unpack kw <> " (keyword)" )
 identifier :: MonadParsec e [ Tok ] m => m Text
 identifier = token ( \ case { Identifier i -> Just i; _ -> Nothing } ) mempty
  <?> "identifier"
 {-
 prefixedIdentifier :: MonadParsec e [ Tok ] m => Text -> m Text
 prefixedIdentifier prefix =
  token
    ( \ case
      { Identifier i -> Text.dropWhile ( == '_' ) <$> Text.stripPrefix prefix i
      ; _ -> Nothing
      }
    ) mempty
 -}
 reservedSymbol :: MonadParsec e [ Tok ] m => Char -> m ()
 reservedSymbol s = token ( \ case { ReservedSymbol s' | s == s' -> Just (); _ -> Nothing } ) mempty
  <?> ( [s] <> " (reserved symbol)" )
 symbol :: MonadParsec e [ Tok ] m => Text -> m ()
 symbol s = token ( \ case { Symbolic s' | s == s' -> Just (); _ -> Nothing } ) mempty
  <?> ( Text.unpack s <> " (symbol)" )
 integerExpression :: MonadParsec e [ Tok ] m => m Integer
 integerExpression = try integerPower <|> integer
 integerPower :: MonadParsec e [ Tok ] m => m Integer
 integerPower = do
  a <- integer
  _ <- symbol "<<"
  i <- integer
  pure ( a `shiftL` fromIntegral i )
 integer :: forall e m. MonadParsec e [ Tok ] m => m Integer
 integer =
  option id mkSign <*>
    token
      ( \ case {
        Number i suff
          | Just  _  <- toBoundedInteger @Int64 i
          , Right i' <- floatingOrInteger @Float @Integer i
          , not ( Text.any ( (== 'f' ) . toLower ) suff )
          -> Just i';
         _ -> Nothing
        }
      )
      mempty
    <?> "integer"
  where
    mkSign :: m ( Integer -> Integer )
    mkSign = ( symbol "+" $> id ) <|> ( symbol "-" $> negate )
 section :: MonadParsec e [ Tok ] m => m [Text]
 section =
  do
    sectionText <- try do
      separator
      token
        ( \ case
          { Comment txt -> fmap ( Text.dropWhile isSpace )
                         . Text.stripPrefix "[SECTION]"
                         . Text.dropWhile isSpace
                         $ txt
          ; _ -> Nothing
          }
        ) mempty
    rest <- endOfSectionHeader
    pure ( sectionText : filter ( not . Text.all ( \ c -> c == '-' || isSpace c ) ) rest )
  <?> "section"
 separator :: MonadParsec e [ Tok ] m => m ()
 separator = token
  ( \ case
    { Comment hyphens | Text.length hyphens > 10 && Text.all ( == '-') hyphens -> Just ()
    ; _ -> Nothing
    }
  ) mempty
  <?> "separator"
 endOfSectionHeader :: MonadParsec e [ Tok ] m => m [Text]
 endOfSectionHeader =  try ( (:) <$> ( commentText <$> comment ) <*> endOfSectionHeader )
                  <|> ( separator $> [] )
 namedSection :: MonadParsec CustomParseError [ Tok ] m => Text -> m ()
 namedSection sectionName =
  do
    sectionTexts <- section
    case sectionTexts of
      sectionText : _
        | Just _ <- Text.stripPrefix sectionName sectionText
        -> pure ()
      _ -> customFailure ( UnexpectedSection { sectionName, problem = sectionTexts } )
  <?> ( "section named " <> Text.unpack sectionName )
 cppDirective :: MonadParsec e [Tok] m => ( Text -> Maybe a ) -> m a
 cppDirective f = token ( \case { BeginCPP a -> f a; _ -> Nothing } ) mempty
 cppConditional :: MonadParsec e [Tok] m => m ()
 cppConditional = do
  void $ cppDirective ( \case { "ifdef" -> Just True; "ifndef" -> Just False; _ -> Nothing } )
  -- assumes no nesting
  void $ skipManyTill anySingle ( cppDirective ( \case { "endif" -> Just (); _ -> Nothing } ) )
  void $ skipManyTill anySingle ( single EndCPPLine )
 ignoreDefine :: MonadParsec e [Tok] m => m ()
 ignoreDefine = do
  void $ many comment
  void $ cppDirective ( \case { "define" -> Just (); _ -> Nothing } )
  void $ skipManyTill anySingle ( single EndCPPLine )
--- a/generator/DearImGui/Generator/Tokeniser.hs
+++ b/generator/DearImGui/Generator/Tokeniser.hs
@ -0,0 +1,197 @@
 {-# LANGUAGE DerivingStrategies #-}
 {-# LANGUAGE FlexibleContexts #-}
 {-# LANGUAGE FlexibleInstances #-}
 {-# LANGUAGE LambdaCase #-}
 {-# LANGUAGE OverloadedStrings #-}
 {-# LANGUAGE TypeApplications #-}
 {-# LANGUAGE ViewPatterns #-}
 module DearImGui.Generator.Tokeniser where
 -- base
 import Control.Arrow
  ( first, second )
 import Control.Applicative
  ( (<|>), some )
 import Data.Char
  ( isAlpha, isAlphaNum, isDigit, isPunctuation, isSpace, isSymbol, toLower )
 import Data.Function
  ( (&) )
 import Data.Functor
  ( ($>) )
 import Data.Monoid
  ( Sum(..) )
 -- megaparsec
 import Text.Megaparsec
  ( MonadParsec, VisualStream(..)
  , chunk, parseMaybe, satisfy, try
  )
 import Text.Megaparsec.Char.Lexer
  ( hexadecimal, scientific )
 -- parser-combinators
 import Control.Monad.Combinators
  ( optional )
 -- scientific
 import Data.Scientific
  ( Scientific )
 -- text
 import Data.Text
  ( Text )
 import qualified Data.Text as Text
  ( break, breakOn, cons, drop, dropWhile
  , head, last, length
  , pack, snoc, span, strip, tail, take
  , uncons, unpack
  )
 -- unordered-containers
 import Data.HashSet
  ( HashSet )
 import qualified Data.HashSet as HashSet
  ( fromList, member )
 --------------------------------------------------------------------------------
 data TokeniserError
  = Couldn'tParseNumber { problem :: !Text }
  | UnhandledCase { unhandled :: !( Char, Text ) }
  deriving stock ( Eq, Ord, Show )
 data Tok
  = Keyword        !Text
  | ReservedSymbol !Char
  | Symbolic       !Text
  | Identifier     !Text
  | Comment        !Text
  | Char           !Char
  | String         !Text
  | Number         !Scientific !Text
  | BeginCPP       !Text
  | EndCPPLine
  deriving stock ( Show, Eq, Ord )
 showToken :: Tok -> String
 showToken = \case
  Keyword        t -> Text.unpack t
  ReservedSymbol c -> [c]
  Symbolic       t -> Text.unpack t
  Identifier     t -> Text.unpack t
  Comment        t -> Text.unpack t
  Char           c -> [c]
  String         t -> Text.unpack t
  Number       s t -> show s <> Text.unpack t
  BeginCPP       t -> "#" <> Text.unpack t
  EndCPPLine       -> "EndCppLine"
 tokenLength :: Tok -> Int
 tokenLength = \case
  Keyword        t -> Text.length t
  ReservedSymbol _ -> 1
  Symbolic       t -> Text.length t
  Identifier     t -> Text.length t
  Comment        t -> Text.length t
  Char           _ -> 1
  String         t -> Text.length t
  Number       s t -> length ( show s ) + Text.length t
  BeginCPP       t -> 1 + Text.length t
  EndCPPLine       -> length ( "EndCPPLine" :: String )
 instance VisualStream [Tok] where
  showTokens   _ = foldMap showToken
  tokensLength _ = getSum . foldMap ( Sum . tokenLength )
 keywords :: HashSet Text
 keywords = HashSet.fromList
  [ "auto", "break", "case", "char", "const", "continue", "default", "do", "double"
  , "else", "enum", "extern", "float", "for", "goto", "if", "inline", "int", "long"
  , "register", "restrict", "return", "short", "signed", "sizeof", "static", "struct"
  , "switch", "typedef", "union", "unsigned", "void", "volatile", "while"
  ]
 reservedSymbols :: HashSet Char
 reservedSymbols = HashSet.fromList [ '(', ')', '{', '}', ',', ';', '=', '#' ]
 tokenise :: Text -> Either TokeniserError [ Tok ]
 tokenise ( Text.uncons -> Just ( c, cs ) )
  | isSpace c
  = tokenise ( Text.dropWhile isSpace cs )
  | isAlpha c || c == '_'
  , let
      this, rest :: Text
      ( this, rest ) = first ( c `Text.cons` ) $ Text.span ( \ x -> isAlphaNum x || x == '_' ) cs
  = if this `HashSet.member` keywords
    then ( Keyword    this : ) <$> tokenise rest
    else ( Identifier this : ) <$> tokenise rest
  | isDigit c
  , let
      this, rest :: Text
      ( this, rest ) = continuePastExponent $ first ( c `Text.cons` ) $ Text.span ( \ x -> isAlphaNum x || x == '.' ) cs
  = case parseMaybe @() parseNumber this of
      Just numTok -> ( numTok : ) <$> tokenise rest
      Nothing     -> Left ( Couldn'tParseNumber { problem = this } )
  | c == '\''
  , Just ( '\'', rest ) <- Text.uncons ( Text.drop 1 cs )
  = ( Char ( Text.head cs ) : ) <$> tokenise rest
  | c == '\"'
  , let
      this, rest :: Text
      ( this, rest ) = second Text.tail $ Text.break ( == '"') cs
  = ( String this : ) <$> tokenise rest
  | c == '#'
  , let
      directive, line, rest :: Text
      ( directive, ( line, rest ) )
        = cs
        & Text.break ( isSpace )
        & second ( Text.break ( `elem` [ '\n', '\r' ] ) )
  = do
      lineTokens <- tokenise line
      restTokens <- tokenise rest
      pure ( ( BeginCPP directive : lineTokens ) <> ( EndCPPLine : restTokens ) )
  | c `HashSet.member` reservedSymbols
  = ( ReservedSymbol c : ) <$> tokenise cs
  | c == '/'
  = case Text.take 1 cs of
    "/" ->
      let
        comm, rest :: Text
        ( comm, rest ) = first Text.strip $ Text.break ( `elem` [ '\n', '\r' ] ) ( Text.drop 1 cs )
      in ( Comment comm : ) <$> tokenise rest
    "*" ->
      let
        comm, rest :: Text
        ( comm, rest ) = Text.breakOn "*/" ( Text.drop 1 cs )
      in ( Comment comm : ) <$> tokenise rest
    _ ->
      let
        this, rest :: Text
        ( this, rest ) = first ( c `Text.cons` ) $ Text.span ( \ x -> x /= '_' && ( isSymbol x || isPunctuation x ) ) cs
      in ( Symbolic this : ) <$> tokenise rest
  | isSymbol c || isPunctuation c
  , let
      this, rest :: Text
      ( this, rest ) = first ( c `Text.cons` ) $ Text.span ( \ x -> x /= '_' && ( isSymbol x || isPunctuation x ) ) cs
  = ( Symbolic this : ) <$> tokenise rest
  | otherwise
  = Left $ UnhandledCase { unhandled = ( c, cs ) }
 tokenise _ = Right []
 continuePastExponent :: ( Text, Text ) -> ( Text, Text )
 continuePastExponent ( this, rest )
  | toLower ( Text.last this ) `elem` [ 'e', 'p' ]
  , Just ( r, rs ) <- Text.uncons rest
  , r `elem` [ '+', '-' ]
  , ( this', rest' ) <- Text.span isAlphaNum rs
  = ( this `Text.snoc` r <> this', rest' )
  | otherwise
  = ( this, rest )
 parseNumber :: MonadParsec e Text m => m Tok
 parseNumber = try ( chunk "0.f" $> Number 0 "f" ) <|> do
  value <- try ( chunk "0x" *> hexadecimal ) <|> scientific
  mbSuffix <- fmap ( maybe "" Text.pack ) . optional . some $ satisfy ( \ s -> toLower s `elem` ( "uflz" :: String ) )
  pure ( Number value mbSuffix )
--- a/generator/DearImGui/Generator/Types.hs
+++ b/generator/DearImGui/Generator/Types.hs
@ -0,0 +1,42 @@
 {-# LANGUAGE BangPatterns #-}
 {-# LANGUAGE DeriveLift #-}
 {-# LANGUAGE DerivingStrategies #-}
 {-# LANGUAGE GeneralizedNewtypeDeriving #-}
 {-# LANGUAGE RecordWildCards #-}
 {-# LANGUAGE TemplateHaskellQuotes #-}
 module DearImGui.Generator.Types where
 -- template-haskell
 import qualified Language.Haskell.TH.Syntax as TH
  ( Lift(..), Name(..) )
 -- text
 import Data.Text
  ( Text )
 -- th-lift
 import Language.Haskell.TH.Lift
  () -- 'Lift' instance for Name
 --------------------------------------------------------------------------------
 newtype Comment = CommentText { commentText :: Text }
  deriving stock   ( Show, TH.Lift )
  deriving newtype ( Eq, Ord )
 data Enumeration
  = Enumeration
  { docs             :: ![Comment]
  , enumName         :: !Text
  , enumSize         :: !Integer
  , enumType         :: !TH.Name
  , hasExplicitCount :: !Bool
  , patterns         :: [ ( Text, Integer, Comment ) ]
  }
  deriving stock ( Show, TH.Lift )
 data Headers
  = Headers
  { enums :: [ Enumeration ] }
  deriving stock ( Show, TH.Lift )
--- a/src/DearImGui.hs
+++ b/src/DearImGui.hs
@ -122,13 +122,8 @@ module DearImGui
  , isItemHovered
    -- * Types
-  , ImGuiDir
+  , module DearImGui.Enums
-  , pattern ImGuiDirLeft
+  , module DearImGui.Structs
  , pattern ImGuiDirRight
  , pattern ImGuiDirUp
  , pattern ImGuiDirDown
  , ImVec3(..)
  , ImVec4(..)
  )
  where
@ -139,6 +134,9 @@ import Foreign.C
 -- dear-imgui
 import DearImGui.Context
  ( imguiContext )
 import DearImGui.Enums
 import DearImGui.Structs
 -- inline-c
 import qualified Language.C.Inline as C
@ -777,17 +775,6 @@ isItemHovered = liftIO do
  (0 /=) <$> [C.exp| bool { IsItemHovered() } |]
 -- | A cardinal direction.
 newtype ImGuiDir      = ImGuiDir CInt
 pattern ImGuiDirLeft, ImGuiDirRight, ImGuiDirUp, ImGuiDirDown :: ImGuiDir
 pattern ImGuiDirLeft  = ImGuiDir 0
 pattern ImGuiDirRight = ImGuiDir 1
 pattern ImGuiDirUp    = ImGuiDir 2
 pattern ImGuiDirDown  = ImGuiDir 3
 withCStringOrNull :: Maybe String -> (Ptr CChar -> IO a) -> IO a
 withCStringOrNull Nothing k  = k nullPtr
 withCStringOrNull (Just s) k = withCString s k
--- a/src/DearImGui/Context.hs
+++ b/src/DearImGui/Context.hs
@ -1,57 +1,27 @@
 {-# language DerivingStrategies #-}
 {-# language DuplicateRecordFields #-}
 {-# language GeneralizedNewtypeDeriving #-}
 {-# language NamedFieldPuns #-}
 {-# language OverloadedStrings #-}
 {-# language PatternSynonyms #-}
 {-# language TemplateHaskell #-}
 module DearImGui.Context where
-import Language.C.Types
+-- containers
 import Language.C.Inline.Context
 import qualified Data.Map.Strict as Map
 import Foreign
 -- inline-c
 import Language.C.Inline.Context
  ( Context(..) )
 import Language.C.Types
  ( pattern TypeName )
-data ImVec3 = ImVec3 { x, y, z :: {-# unpack #-} !Float }
+-- dear-imgui
-
+import DearImGui.Structs
-
+  ( ImVec3, ImVec4 )
 instance Storable ImVec3 where
  sizeOf ~ImVec3{x, y, z} = sizeOf x + sizeOf y + sizeOf z
  alignment _ = 0
  poke ptr ImVec3{ x, y, z } = do
    poke (castPtr ptr `plusPtr` (sizeOf x * 0)) x
    poke (castPtr ptr `plusPtr` (sizeOf x * 1)) y
    poke (castPtr ptr `plusPtr` (sizeOf x * 2)) z
  peek ptr = do
    x <- peek (castPtr ptr                         )
    y <- peek (castPtr ptr `plusPtr` (sizeOf x * 1))
    z <- peek (castPtr ptr `plusPtr` (sizeOf x * 2))
    return ImVec3{ x, y, z }
 data ImVec4 = ImVec4 { x, y, z, w :: {-# unpack #-} !Float }
 instance Storable ImVec4 where
  sizeOf ~ImVec4{x, y, z, w} = sizeOf x + sizeOf y + sizeOf z + sizeOf w
  alignment _ = 0
  poke ptr ImVec4{ x, y, z, w } = do
    poke (castPtr ptr `plusPtr` (sizeOf x * 0)) x
    poke (castPtr ptr `plusPtr` (sizeOf x * 1)) y
    poke (castPtr ptr `plusPtr` (sizeOf x * 2)) z
    poke (castPtr ptr `plusPtr` (sizeOf x * 3)) w
  peek ptr = do
    x <- peek (castPtr ptr                         )
    y <- peek (castPtr ptr `plusPtr` (sizeOf x * 1))
    z <- peek (castPtr ptr `plusPtr` (sizeOf x * 2))
    w <- peek (castPtr ptr `plusPtr` (sizeOf x * 3))
    return ImVec4{ x, y, z, w }
 --------------------------------------------------------------------------------
 imguiContext :: Context
 imguiContext = mempty
--- a/src/DearImGui/Enums.hs
+++ b/src/DearImGui/Enums.hs
@ -0,0 +1,34 @@
 {-# LANGUAGE AllowAmbiguousTypes #-}
 {-# LANGUAGE DataKinds #-}
 {-# LANGUAGE DerivingStrategies #-}
 {-# LANGUAGE FlexibleContexts #-}
 {-# LANGUAGE GeneralizedNewtypeDeriving #-}
 {-# LANGUAGE MagicHash #-}
 {-# LANGUAGE PatternSynonyms #-}
 {-# LANGUAGE ScopedTypeVariables #-}
 {-# LANGUAGE TemplateHaskell #-}
 {-# LANGUAGE TypeApplications #-}
 {-# LANGUAGE TypeFamilies #-}
 module DearImGui.Enums where
 -- base
 import GHC.Exts
  ( proxy# )
 import GHC.TypeNats
  ( Nat, KnownNat, natVal' )
 import Numeric.Natural
  ( Natural )
 -- dear-imgui-generator
 import DearImGui.Generator
  ( declareEnumerations )
 --------------------------------------------------------------------------------
 class KnownNat ( Count a ) => FiniteEnum a where
  type Count a :: Nat
  count :: Natural
  count = natVal' @( Count a ) proxy#
 declareEnumerations ''FiniteEnum ''Count
--- a/src/DearImGui/Structs.hs
+++ b/src/DearImGui/Structs.hs
@ -0,0 +1,51 @@
 {-# LANGUAGE DuplicateRecordFields #-}
 {-# LANGUAGE NamedFieldPuns #-}
 module DearImGui.Structs where
 -- base
 import Foreign
  ( Storable(..), castPtr, plusPtr )
 --------------------------------------------------------------------------------
 data ImVec3 = ImVec3 { x, y, z :: {-# unpack #-} !Float }
 instance Storable ImVec3 where
  sizeOf ~ImVec3{x, y, z} = sizeOf x + sizeOf y + sizeOf z
  alignment _ = 0
  poke ptr ImVec3{ x, y, z } = do
    poke (castPtr ptr `plusPtr` (sizeOf x * 0)) x
    poke (castPtr ptr `plusPtr` (sizeOf x * 1)) y
    poke (castPtr ptr `plusPtr` (sizeOf x * 2)) z
  peek ptr = do
    x <- peek (castPtr ptr                         )
    y <- peek (castPtr ptr `plusPtr` (sizeOf x * 1))
    z <- peek (castPtr ptr `plusPtr` (sizeOf x * 2))
    return ImVec3{ x, y, z }
 data ImVec4 = ImVec4 { x, y, z, w :: {-# unpack #-} !Float }
 instance Storable ImVec4 where
  sizeOf ~ImVec4{x, y, z, w} = sizeOf x + sizeOf y + sizeOf z + sizeOf w
  alignment _ = 0
  poke ptr ImVec4{ x, y, z, w } = do
    poke (castPtr ptr `plusPtr` (sizeOf x * 0)) x
    poke (castPtr ptr `plusPtr` (sizeOf x * 1)) y
    poke (castPtr ptr `plusPtr` (sizeOf x * 2)) z
    poke (castPtr ptr `plusPtr` (sizeOf x * 3)) w
  peek ptr = do
    x <- peek (castPtr ptr                         )
    y <- peek (castPtr ptr `plusPtr` (sizeOf x * 1))
    z <- peek (castPtr ptr `plusPtr` (sizeOf x * 2))
    w <- peek (castPtr ptr `plusPtr` (sizeOf x * 3))
    return ImVec4{ x, y, z, w }