module Data.GI.GIR.Function
    ( Function(..)
    , parseFunction
    ) where

import Data.Text (Text)

import Data.GI.GIR.Callable (Callable(..), parseCallable)
import Data.GI.GIR.Parser

data Function = Function {
      Function -> Text
fnSymbol   :: Text
    , Function -> Maybe Text
fnMovedTo  :: Maybe Text
    , Function -> Callable
fnCallable :: Callable
    } deriving Int -> Function -> ShowS
[Function] -> ShowS
Function -> String
(Int -> Function -> ShowS)
-> (Function -> String) -> ([Function] -> ShowS) -> Show Function
forall a.
(Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a
showList :: [Function] -> ShowS
$cshowList :: [Function] -> ShowS
show :: Function -> String
$cshow :: Function -> String
showsPrec :: Int -> Function -> ShowS
$cshowsPrec :: Int -> Function -> ShowS
Show

parseFunction :: Parser (Name, Function)
parseFunction :: Parser (Name, Function)
parseFunction = do
  Name
name <- Parser Name
parseName
  Maybe Text
shadows <- Name -> Parser (Maybe Text)
queryAttr "shadows"
  let exposedName :: Name
exposedName = case Maybe Text
shadows of
                      Just n :: Text
n -> Name
name {name :: Text
name = Text
n}
                      Nothing -> Name
name
  Callable
callable <- Parser Callable
parseCallable
  Text
symbol <- GIRXMLNamespace -> Name -> Parser Text
getAttrWithNamespace GIRXMLNamespace
CGIRNS "identifier"
  Maybe Text
movedTo <- Name -> Parser (Maybe Text)
queryAttr "moved-to"
  (Name, Function) -> Parser (Name, Function)
forall (m :: * -> *) a. Monad m => a -> m a
return ((Name, Function) -> Parser (Name, Function))
-> (Name, Function) -> Parser (Name, Function)
forall a b. (a -> b) -> a -> b
$ (Name
exposedName,
            Function :: Text -> Maybe Text -> Callable -> Function
Function {
              fnSymbol :: Text
fnSymbol = Text
symbol
            , fnCallable :: Callable
fnCallable = Callable
callable
            , fnMovedTo :: Maybe Text
fnMovedTo = Maybe Text
movedTo
            })