/* -----------------------------------------------------------------------------
- * $Id: StgMacros.h,v 1.10 1999/05/11 16:47:41 keithw Exp $
+ * $Id: StgMacros.h,v 1.21 2000/03/08 17:48:26 simonmar Exp $
*
* (c) The GHC Team, 1998-1999
*
#define ED_RO_ extern const
#define ID_ extern
#define ID_RO_ extern const
-#define EI_ extern const StgInfoTable
-#define EDI_ extern DLLIMPORT const StgInfoTable
-#define II_ extern const StgInfoTable
+#define EI_ extern INFO_TBL_CONST StgInfoTable
+#define EDI_ extern DLLIMPORT INFO_TBL_CONST StgInfoTable
+#define II_ extern INFO_TBL_CONST StgInfoTable
#define EC_ extern StgClosure
#define EDC_ extern DLLIMPORT StgClosure
#define IC_ extern StgClosure
words in the block.
-------------------------------------------------------------------------- */
-#ifndef DEBUG_EXTRA
#define ARGTAG_MAX 16 /* probably arbitrary */
#define ARG_TAG(n) (n)
-#define ARG_SIZE(n) stgCast(StgWord,n)
+#define ARG_SIZE(n) (StgWord)n
typedef enum {
REALWORLD_TAG = 0,
- INT_TAG = sizeofW(StgInt),
- INT64_TAG = sizeofW(StgInt64),
- WORD_TAG = sizeofW(StgWord),
- ADDR_TAG = sizeofW(StgAddr),
- CHAR_TAG = sizeofW(StgChar),
- FLOAT_TAG = sizeofW(StgFloat),
- DOUBLE_TAG = sizeofW(StgDouble),
- STABLE_TAG = sizeofW(StgWord),
+ INT_TAG = sizeofW(StgInt),
+ INT64_TAG = sizeofW(StgInt64),
+ WORD_TAG = sizeofW(StgWord),
+ ADDR_TAG = sizeofW(StgAddr),
+ CHAR_TAG = sizeofW(StgChar),
+ FLOAT_TAG = sizeofW(StgFloat),
+ DOUBLE_TAG = sizeofW(StgDouble),
+ STABLE_TAG = sizeofW(StgWord),
} StackTag;
-#else /* DEBUG_EXTRA */
-
-typedef enum {
- ILLEGAL_TAG,
- REALWORLD_TAG,
- INT_TAG ,
- INT64_TAG ,
- WORD_TAG ,
- ADDR_TAG ,
- CHAR_TAG ,
- FLOAT_TAG ,
- DOUBLE_TAG ,
- STABLE_TAG ,
- ARGTAG_MAX = DOUBLE_TAG
-} StackTag;
-
-/* putting this in a .h file generates many copies - but its only a
- * debugging build.
- */
-static StgWord stg_arg_size[] = {
- [REALWORLD_TAG] = 0,
- [INT_TAG ] = sizeofW(StgInt),
- [INT64_TAG ] = sizeofW(StgInt64),
- [WORD_TAG ] = sizeofW(StgWord),
- [ADDR_TAG ] = sizeofW(StgAddr),
- [CHAR_TAG ] = sizeofW(StgChar),
- [FLOAT_TAG ] = sizeofW(StgFloat),
- [DOUBLE_TAG] = sizeofW(StgDouble),
- [STABLE_TAG] = sizeofW(StgWord)
-};
-
-#define ARG_SIZE(tag) stg_arg_size[stgCast(StgWord,tag)]
-
-#endif /* DEBUG_EXTRA */
-
static inline int IS_ARG_TAG( StgWord p );
static inline int IS_ARG_TAG( StgWord p ) { return p <= ARGTAG_MAX; }
}
#define HP_CHK(headroom,ret,r,layout,tag_assts) \
+ DO_GRAN_ALLOCATE(headroom) \
if ((Hp += headroom) > HpLim) { \
EXTFUN_RTS(stg_chk_##layout); \
tag_assts \
(r) = (P_)ret; \
JMP_(stg_chk_##layout); \
- } \
- TICK_ALLOC_HEAP(headroom);
+ }
#define HP_STK_CHK(stk_headroom,hp_headroom,ret,r,layout,tag_assts) \
+ DO_GRAN_ALLOCATE(hp_headroom) \
if (Sp - stk_headroom < SpLim || (Hp += hp_headroom) > HpLim) { \
EXTFUN_RTS(stg_chk_##layout); \
tag_assts \
(r) = (P_)ret; \
JMP_(stg_chk_##layout); \
- } \
- TICK_ALLOC_HEAP(hp_headroom);
+ }
/* -----------------------------------------------------------------------------
A Heap Check in a case alternative are much simpler: everything is
functions. In all these cases, node points to a closure that we
can just enter to restart the heap check (the NP stands for 'node points').
+ In the NP case GranSim absolutely has to check whether the current node
+ resides on the current processor. Otherwise a FETCH event has to be
+ scheduled. All that is done in GranSimFetch. -- HWL
+
HpLim points to the LAST WORD of valid allocation space.
-------------------------------------------------------------------------- */
}
#define HP_CHK_NP(headroom,ptrs,tag_assts) \
+ DO_GRAN_ALLOCATE(headroom) \
if ((Hp += (headroom)) > HpLim) { \
EXTFUN_RTS(stg_gc_enter_##ptrs); \
tag_assts \
JMP_(stg_gc_enter_##ptrs); \
- } \
- TICK_ALLOC_HEAP(headroom);
+ }
#define HP_CHK_SEQ_NP(headroom,ptrs,tag_assts) \
+ DO_GRAN_ALLOCATE(headroom) \
if ((Hp += (headroom)) > HpLim) { \
EXTFUN_RTS(stg_gc_seq_##ptrs); \
tag_assts \
JMP_(stg_gc_seq_##ptrs); \
- } \
- TICK_ALLOC_HEAP(headroom);
+ }
#define HP_STK_CHK_NP(stk_headroom, hp_headroom, ptrs, tag_assts) \
+ DO_GRAN_ALLOCATE(hp_headroom) \
if ((Sp - (stk_headroom)) < SpLim || (Hp += (hp_headroom)) > HpLim) { \
EXTFUN_RTS(stg_gc_enter_##ptrs); \
tag_assts \
JMP_(stg_gc_enter_##ptrs); \
- } \
- TICK_ALLOC_HEAP(hp_headroom);
+ }
+
/* Heap checks for branches of a primitive case / unboxed tuple return */
#define GEN_HP_CHK_ALT(headroom,lbl,tag_assts) \
+ DO_GRAN_ALLOCATE(headroom) \
if ((Hp += (headroom)) > HpLim) { \
EXTFUN_RTS(lbl); \
tag_assts \
JMP_(lbl); \
- } \
- TICK_ALLOC_HEAP(headroom);
+ }
#define HP_CHK_NOREGS(headroom,tag_assts) \
GEN_HP_CHK_ALT(headroom,stg_gc_noregs,tag_assts);
#define R6_PTR 1<<5
#define R7_PTR 1<<6
#define R8_PTR 1<<7
+
#define HP_CHK_GEN(headroom,liveness,reentry,tag_assts) \
if ((Hp += (headroom)) > HpLim ) { \
EF_(stg_gen_chk); \
R9.w = (W_)LIVENESS_MASK(liveness); \
R10.w = (W_)reentry; \
JMP_(stg_gen_chk); \
- } \
- TICK_ALLOC_HEAP(headroom);
+ }
+
+#define HP_CHK_GEN_TICKY(headroom,liveness,reentry,tag_assts) \
+ HP_CHK_GEN(headroom,liveness,reentry,tag_assts); \
+ TICK_ALLOC_HEAP_NOCTR(headroom)
#define STK_CHK_GEN(headroom,liveness,reentry,tag_assts) \
if ((Sp - (headroom)) < SpLim) { \
JMP_(stg_block_##ptrs); \
}
+#if defined(PAR)
+/*
+ Similar to BLOCK_NP but separates the saving of the thread state from the
+ actual jump via an StgReturn
+*/
+
+#define SAVE_THREAD_STATE(ptrs) \
+ ASSERT(ptrs==1); \
+ Sp -= 1; \
+ Sp[0] = R1.w; \
+ SaveThreadState();
+
+#define THREAD_RETURN(ptrs) \
+ ASSERT(ptrs==1); \
+ CurrentTSO->whatNext = ThreadEnterGHC; \
+ R1.i = ThreadBlocked; \
+ JMP_(StgReturn);
+#endif
+
/* -----------------------------------------------------------------------------
CCall_GC needs to push a dummy stack frame containing the contents
of volatile registers and variables.
The extra subtraction of one word is because tags start at zero.
-------------------------------------------------------------------------- */
-#ifdef USE_MINIINTERPRETER
-#define RET_VEC(p,t) ((*(stgCast(StgInfoTable*,p)->vector))[t])
-#else
+#ifdef TABLES_NEXT_TO_CODE
#define RET_VEC(p,t) (*((P_)(p) - sizeofW(StgInfoTable) - t - 1))
+#else
+#define RET_VEC(p,t) (((StgInfoTable *)p)->vector[t])
#endif
/* -----------------------------------------------------------------------------
Misc
-------------------------------------------------------------------------- */
+
/* set the tag register (if we have one) */
#define SET_TAG(t) /* nothing */
#ifdef EAGER_BLACKHOLING
-# define UPD_BH_UPDATABLE(thunk) \
- TICK_UPD_BH_UPDATABLE(); \
- SET_INFO((StgClosure *)thunk,&BLACKHOLE_info)
-# define UPD_BH_SINGLE_ENTRY(thunk) \
- TICK_UPD_BH_SINGLE_ENTRY(); \
- SET_INFO((StgClosure *)thunk,&SE_BLACKHOLE_info)
+# ifdef SMP
+# define UPD_BH_UPDATABLE(info) \
+ TICK_UPD_BH_UPDATABLE(); \
+ { \
+ bdescr *bd = Bdescr(R1.p); \
+ if (bd->back != (bdescr *)BaseReg) { \
+ if (bd->gen->no >= 1 || bd->step->no >= 1) { \
+ LOCK_THUNK(info); \
+ } else { \
+ EXTFUN_RTS(stg_gc_enter_1_hponly); \
+ JMP_(stg_gc_enter_1_hponly); \
+ } \
+ } \
+ } \
+ SET_INFO(R1.cl,&BLACKHOLE_info)
+# define UPD_BH_SINGLE_ENTRY(info) \
+ TICK_UPD_BH_SINGLE_ENTRY(); \
+ { \
+ bdescr *bd = Bdescr(R1.p); \
+ if (bd->back != (bdescr *)BaseReg) { \
+ if (bd->gen->no >= 1 || bd->step->no >= 1) { \
+ LOCK_THUNK(info); \
+ } else { \
+ EXTFUN_RTS(stg_gc_enter_1_hponly); \
+ JMP_(stg_gc_enter_1_hponly); \
+ } \
+ } \
+ } \
+ SET_INFO(R1.cl,&BLACKHOLE_info)
+# else
+# define UPD_BH_UPDATABLE(info) \
+ TICK_UPD_BH_UPDATABLE(); \
+ SET_INFO(R1.cl,&BLACKHOLE_info)
+# define UPD_BH_SINGLE_ENTRY(info) \
+ TICK_UPD_BH_SINGLE_ENTRY(); \
+ SET_INFO(R1.cl,&SE_BLACKHOLE_info)
+# endif
#else /* !EAGER_BLACKHOLING */
# define UPD_BH_UPDATABLE(thunk) /* nothing */
# define UPD_BH_SINGLE_ENTRY(thunk) /* nothing */
#endif /* EAGER_BLACKHOLING */
+#define UPD_FRAME_UPDATEE(p) (((StgUpdateFrame *)(p))->updatee)
+#define UPDATE_SU_FROM_UPD_FRAME(p) (Su=((StgUpdateFrame *)(p))->link)
+
/* -----------------------------------------------------------------------------
Moving Floats and Doubles
We save all the STG registers (that is, the ones that are mapped to
machine registers) in their places in the TSO.
- The stack registers go into the current stack object, and the heap
- registers are saved in global locations.
+ The stack registers go into the current stack object, and the
+ current nursery is updated from the heap pointer.
+
+ These functions assume that BaseReg is loaded appropriately (if
+ we have one).
-------------------------------------------------------------------------- */
+#if IN_STG_CODE
+
static __inline__ void
SaveThreadState(void)
{
CurrentTSO->splim = SpLim;
CloseNursery(Hp);
+#ifdef REG_CurrentTSO
+ SAVE_CurrentTSO = CurrentTSO;
+#endif
+#ifdef REG_CurrentNursery
+ SAVE_CurrentNursery = CurrentNursery;
+#endif
#if defined(PROFILING)
CurrentTSO->prof.CCCS = CCCS;
#endif
static __inline__ void
LoadThreadState (void)
{
-#ifdef REG_Base
- BaseReg = (StgRegTable*)&MainRegTable;
-#endif
-
Sp = CurrentTSO->sp;
Su = CurrentTSO->su;
SpLim = CurrentTSO->splim;
OpenNursery(Hp,HpLim);
+#ifdef REG_CurrentTSO
+ CurrentTSO = SAVE_CurrentTSO;
+#endif
+#ifdef REG_CurrentNursery
+ CurrentNursery = SAVE_CurrentNursery;
+#endif
# if defined(PROFILING)
CCCS = CurrentTSO->prof.CCCS;
# endif
}
+#endif
+
+/* -----------------------------------------------------------------------------
+ Module initialisation
+ -------------------------------------------------------------------------- */
+
+extern F_ *init_stack;
+
+#define PUSH_INIT_STACK(reg_function) \
+ *(init_stack++) = (F_)reg_function
+
+#define POP_INIT_STACK() \
+ *(--init_stack)
+
+#define START_MOD_INIT(reg_mod_name) \
+ static int _module_registered = 0; \
+ FN_(reg_mod_name) { \
+ FB_; \
+ if (! _module_registered) { \
+ _module_registered = 1; \
+ {
+ /* extern decls go here, followed by init code */
+
+#define REGISTER_FOREIGN_EXPORT(reg_fe_binder) \
+ STGCALL1(getStablePtr,reg_fe_binder)
+
+#define REGISTER_IMPORT(reg_mod_name) \
+ do { EF_(reg_mod_name); \
+ PUSH_INIT_STACK(reg_mod_name) ; \
+ } while (0)
+
+#define END_MOD_INIT() \
+ }}; \
+ JMP_(POP_INIT_STACK()); \
+ FE_ }
+
+/* -----------------------------------------------------------------------------
+ Support for _ccall_GC_ and _casm_GC.
+ -------------------------------------------------------------------------- */
+
+/*
+ * Suspending/resuming threads for doing external C-calls (_ccall_GC).
+ * These functions are defined in rts/Schedule.c.
+ */
+StgInt suspendThread ( StgRegTable *cap );
+StgRegTable * resumeThread ( StgInt );
+
+#define SUSPEND_THREAD(token) \
+ SaveThreadState(); \
+ token = suspendThread(BaseReg);
+
+#ifdef SMP
+#define RESUME_THREAD(token) \
+ BaseReg = resumeThread(token); \
+ LoadThreadState();
+#else
+#define RESUME_THREAD(token) \
+ (void)resumeThread(token); \
+ LoadThreadState();
+#endif
+
#endif /* STGMACROS_H */