ghc-7.10.0.20150316: The GHC API

Safe HaskellNone
LanguageHaskell2010

CoreMonad

Contents

Synopsis

Configuration of the core-to-core passes

data FloatOutSwitches Source

Constructors

FloatOutSwitches 

Fields

floatOutLambdas :: Maybe Int

Just n = float lambdas to top level, if doing so will abstract over n or fewer value variables Nothing = float all lambdas to top level, regardless of how many free variables Just 0 is the vanilla case: float a lambda iff it has no free vars

floatOutConstants :: Bool

True = float constants to top level, even if they do not escape a lambda

floatOutOverSatApps :: Bool

True = float out over-saturated applications based on arity information. See Note [Floating over-saturated applications] in SetLevels

Plugins

type PluginPass = ModGuts -> CoreM ModGuts Source

A description of the plugin pass itself

Counting

The monad

data CoreM a Source

The monad used by Core-to-Core passes to access common state, register simplification statistics and so on

Reading from the monad

getOrigNameCache :: CoreM OrigNameCache Source

The original name cache is the current mapping from Module and OccName to a compiler-wide unique Name

Writing to the monad

Lifting into the monad

liftIO :: MonadIO m => forall a. IO a -> m a Source

Lift a computation from the IO monad.

liftIOWithCount :: IO (SimplCount, a) -> CoreM a Source

Lift an IO operation into CoreM while consuming its SimplCount

liftIO1 :: MonadIO m => (a -> IO b) -> a -> m b Source

Lift an IO operation with 1 argument into another monad

liftIO2 :: MonadIO m => (a -> b -> IO c) -> a -> b -> m c Source

Lift an IO operation with 2 arguments into another monad

liftIO3 :: MonadIO m => (a -> b -> c -> IO d) -> a -> b -> c -> m d Source

Lift an IO operation with 3 arguments into another monad

liftIO4 :: MonadIO m => (a -> b -> c -> d -> IO e) -> a -> b -> c -> d -> m e Source

Lift an IO operation with 4 arguments into another monad

Global initialization

Dealing with annotations

getAnnotations :: Typeable a => ([Word8] -> a) -> ModGuts -> CoreM (UniqFM [a]) Source

Get all annotations of a given type. This happens lazily, that is no deserialization will take place until the [a] is actually demanded and the [a] can also be empty (the UniqFM is not filtered).

This should be done once at the start of a Core-to-Core pass that uses annotations.

See Note [Annotations]

getFirstAnnotations :: Typeable a => ([Word8] -> a) -> ModGuts -> CoreM (UniqFM a) Source

Get at most one annotation of a given type per Unique.

Screen output

putMsg :: SDoc -> CoreM () Source

Output a message to the screen

putMsgS :: String -> CoreM () Source

Output a String message to the screen

errorMsg :: SDoc -> CoreM () Source

Output an error to the screen

errorMsgS :: String -> CoreM () Source

Output a string error to the screen

fatalErrorMsg :: SDoc -> CoreM () Source

Output a fatal error to the screen. Note this does not by itself cause the compiler to die

fatalErrorMsgS :: String -> CoreM () Source

Output a fatal string error to the screen. Note this does not by itself cause the compiler to die

debugTraceMsg :: SDoc -> CoreM () Source

Outputs a debugging message at verbosity level of -v or higher

debugTraceMsgS :: String -> CoreM () Source

Output a string debugging message at verbosity level of -v or higher

dumpIfSet_dyn :: DumpFlag -> String -> SDoc -> CoreM () Source

Show some labelled SDoc if a particular flag is set or at a verbosity level of -v -ddump-most or higher

Getting Names

thNameToGhcName :: Name -> CoreM (Maybe Name) Source

Attempt to convert a Template Haskell name to one that GHC can understand. Original TH names such as those you get when you use the 'foo syntax will be translated to their equivalent GHC name exactly. Qualified or unqualifed TH names will be dynamically bound to names in the module being compiled, if possible. Exact TH names will be bound to the name they represent, exactly.