module Fay.Types
( JsStmt(..)
, JsExp(..)
, JsLit(..)
, JsName(..)
, CompileError(..)
, Compile(..)
, CompileModule
, Printable(..)
, Fay
, CompileReader(..)
, CompileResult(..)
, CompileWriter(..)
, Config(..)
, CompileState(..)
, FundamentalType(..)
, PrintState(..)
, defaultPrintState
, PrintReader(..)
, defaultPrintReader
, PrintWriter(..)
, pwOutputString
, Printer(..)
, execPrinter
, indented
, askIf
, newline
, write
, mapping
, SerializeContext(..)
, ModulePath (unModulePath)
, mkModulePath
, mkModulePaths
, mkModulePathFromQName
) where
import Fay.Compiler.ModuleT
import Fay.Config
import qualified Fay.Exts.NoAnnotation as N
import qualified Fay.Exts.Scoped as S
import Fay.Types.CompileError
import Fay.Types.CompileResult
import Fay.Types.FFI
import Fay.Types.Js
import Fay.Types.ModulePath
import Fay.Types.Printer
#if __GLASGOW_HASKELL__ < 710
import Control.Applicative
#endif
import Control.Monad.Except (ExceptT, MonadError)
import Control.Monad.Identity (Identity)
import Control.Monad.RWS
import Data.Map (Map)
import Data.Set (Set)
import Language.Haskell.Names (Symbols)
data CompileState = CompileState
{ stateInterfaces :: Map N.ModuleName Symbols
, stateRecordTypes :: [(N.QName,[N.QName])]
, stateRecords :: [(N.QName,[N.Name])]
, stateNewtypes :: [(N.QName, Maybe N.QName, N.Type)]
, stateImported :: [(N.ModuleName,FilePath)]
, stateNameDepth :: Integer
, stateModuleName :: N.ModuleName
, stateJsModulePaths :: Set ModulePath
, stateUseFromString :: Bool
, stateTypeSigs :: Map N.QName N.Type
} deriving (Show)
data CompileWriter = CompileWriter
{ writerCons :: [JsStmt]
, writerFayToJs :: [(String,JsExp)]
, writerJsToFay :: [(String,JsExp)]
} deriving (Show)
instance Monoid CompileWriter where
mempty = CompileWriter [] [] []
mappend (CompileWriter a b c) (CompileWriter x y z) =
CompileWriter (a++x) (b++y) (c++z)
data CompileReader = CompileReader
{ readerConfig :: Config
, readerCompileLit :: S.Sign -> S.Literal -> Compile JsExp
, readerCompileDecls :: Bool -> [S.Decl] -> Compile [JsStmt]
}
newtype Compile a = Compile
{ unCompile :: RWST CompileReader CompileWriter CompileState
(ExceptT CompileError (ModuleT (ModuleInfo Compile) IO))
a
} deriving
( Applicative
, Functor
, Monad
, MonadError CompileError
, MonadIO
, MonadReader CompileReader
, MonadState CompileState
, MonadWriter CompileWriter
)
type CompileModule a = ModuleT Symbols IO (Either CompileError (a, CompileState, CompileWriter))
instance MonadModule Compile where
type ModuleInfo Compile = Symbols
lookupInCache = liftModuleT . lookupInCache
insertInCache n m = liftModuleT $ insertInCache n m
readModuleInfo fps n = liftModuleT $ readModuleInfo fps n
liftModuleT :: ModuleT Symbols IO a -> Compile a
liftModuleT = Compile . lift . lift
newtype Fay a = Fay (Identity a)
deriving
( Applicative
, Functor
, Monad
)