/* ---------------------------------------------------------------------------- * * (c) The GHC Team, 1998-2004 * * API for invoking Haskell functions via the RTS * * --------------------------------------------------------------------------*/ #ifndef RTSAPI_H #define RTSAPI_H #ifdef __cplusplus extern "C" { #endif #include "HsFFI.h" /* * Running the scheduler */ typedef enum { NoStatus, /* not finished yet */ Success, /* completed successfully */ Killed, /* uncaught exception */ Interrupted, /* stopped in response to a call to interruptStgRts */ HeapExhausted /* out of memory */ } SchedulerStatus; typedef StgClosure *HaskellObj; /* * An abstract type representing the token returned by rts_lock() and * used when allocating objects and threads in the RTS. */ typedef struct Capability_ Capability; /* ---------------------------------------------------------------------------- Starting up and shutting down the Haskell RTS. ------------------------------------------------------------------------- */ extern void startupHaskell ( int argc, char *argv[], void (*init_root)(void) ); extern void shutdownHaskell ( void ); extern void shutdownHaskellAndExit ( int exitCode ); extern void getProgArgv ( int *argc, char **argv[] ); extern void setProgArgv ( int argc, char *argv[] ); extern void getFullProgArgv ( int *argc, char **argv[] ); extern void setFullProgArgv ( int argc, char *argv[] ); #ifndef mingw32_HOST_OS extern void shutdownHaskellAndSignal (int sig); #endif /* exit() override */ extern void (*exitFn)(int); /* ---------------------------------------------------------------------------- Locking. You have to surround all access to the RtsAPI with these calls. ------------------------------------------------------------------------- */ // acquires a token which may be used to create new objects and // evaluate them. Capability *rts_lock (void); // releases the token acquired with rts_lock(). void rts_unlock (Capability *token); /* ---------------------------------------------------------------------------- Building Haskell objects from C datatypes. ------------------------------------------------------------------------- */ HaskellObj rts_mkChar ( Capability *, HsChar c ); HaskellObj rts_mkInt ( Capability *, HsInt i ); HaskellObj rts_mkInt8 ( Capability *, HsInt8 i ); HaskellObj rts_mkInt16 ( Capability *, HsInt16 i ); HaskellObj rts_mkInt32 ( Capability *, HsInt32 i ); HaskellObj rts_mkInt64 ( Capability *, HsInt64 i ); HaskellObj rts_mkWord ( Capability *, HsWord w ); HaskellObj rts_mkWord8 ( Capability *, HsWord8 w ); HaskellObj rts_mkWord16 ( Capability *, HsWord16 w ); HaskellObj rts_mkWord32 ( Capability *, HsWord32 w ); HaskellObj rts_mkWord64 ( Capability *, HsWord64 w ); HaskellObj rts_mkPtr ( Capability *, HsPtr a ); HaskellObj rts_mkFunPtr ( Capability *, HsFunPtr a ); HaskellObj rts_mkFloat ( Capability *, HsFloat f ); HaskellObj rts_mkDouble ( Capability *, HsDouble f ); HaskellObj rts_mkStablePtr ( Capability *, HsStablePtr s ); HaskellObj rts_mkBool ( Capability *, HsBool b ); HaskellObj rts_mkString ( Capability *, char *s ); HaskellObj rts_apply ( Capability *, HaskellObj, HaskellObj ); /* ---------------------------------------------------------------------------- Deconstructing Haskell objects ------------------------------------------------------------------------- */ HsChar rts_getChar ( HaskellObj ); HsInt rts_getInt ( HaskellObj ); HsInt8 rts_getInt8 ( HaskellObj ); HsInt16 rts_getInt16 ( HaskellObj ); HsInt32 rts_getInt32 ( HaskellObj ); HsInt64 rts_getInt64 ( HaskellObj ); HsWord rts_getWord ( HaskellObj ); HsWord8 rts_getWord8 ( HaskellObj ); HsWord16 rts_getWord16 ( HaskellObj ); HsWord32 rts_getWord32 ( HaskellObj ); HsWord64 rts_getWord64 ( HaskellObj ); HsPtr rts_getPtr ( HaskellObj ); HsFunPtr rts_getFunPtr ( HaskellObj ); HsFloat rts_getFloat ( HaskellObj ); HsDouble rts_getDouble ( HaskellObj ); HsStablePtr rts_getStablePtr ( HaskellObj ); HsBool rts_getBool ( HaskellObj ); /* ---------------------------------------------------------------------------- Evaluating Haskell expressions The versions ending in '_' allow you to specify an initial stack size. Note that these calls may cause Garbage Collection, so all HaskellObj references are rendered invalid by these calls. ------------------------------------------------------------------------- */ Capability * rts_eval (Capability *, HaskellObj p, /*out*/HaskellObj *ret); Capability * rts_eval_ (Capability *, HaskellObj p, unsigned int stack_size, /*out*/HaskellObj *ret); Capability * rts_evalIO (Capability *, HaskellObj p, /*out*/HaskellObj *ret); Capability * rts_evalStableIO (Capability *, HsStablePtr s, /*out*/HsStablePtr *ret); Capability * rts_evalLazyIO (Capability *, HaskellObj p, /*out*/HaskellObj *ret); Capability * rts_evalLazyIO_ (Capability *, HaskellObj p, unsigned int stack_size, /*out*/HaskellObj *ret); void rts_checkSchedStatus (char* site, Capability *); SchedulerStatus rts_getSchedStatus (Capability *cap); /* -------------------------------------------------------------------------- Wrapper closures These are used by foreign export and foreign import "wrapper" stubs. ----------------------------------------------------------------------- */ extern StgWord base_GHCziTopHandler_runIO_closure[]; extern StgWord base_GHCziTopHandler_runNonIO_closure[]; #define runIO_closure base_GHCziTopHandler_runIO_closure #define runNonIO_closure base_GHCziTopHandler_runNonIO_closure /* ------------------------------------------------------------------------ */ #ifdef __cplusplus } #endif #endif /* RTSAPI_H */