do { \
DO_ASTK_HWM(); /* ticky-ticky profiling */ \
DO_BSTK_HWM(); \
- if (STKS_OVERFLOW_OP((a_headroom) + 1, (b_headroom) + 1)) { \
+ if (STKS_OVERFLOW_OP(((a_headroom) + 1), ((b_headroom) + 1))) { \
STACK_OVERFLOW(liveness_mask,a_headroom,b_headroom,spa,spb,ret_type,reenter);\
} \
}while(0)
#define ZmZh(r,a,b) r=(a)-(b)
#define ZtZh(r,a,b) r=(a)*(b)
#define quotIntZh(r,a,b) r=(a)/(b)
+/* ZdZh not used??? --SDM */
#define ZdZh(r,a,b) r=ULTRASAFESTGCALL2(I_,(void *, I_, I_),stg_div,(a),(b))
#define remIntZh(r,a,b) r=(a)%(b)
#define negateIntZh(r,a) r=-(a)
+/* Ever used ? -- SOF */
+#define absIntZh(a) r=(( (a) >= 0 ) ? (a) : (-(a)))
\end{code}
%************************************************************************
%************************************************************************
\begin{code}
+#define quotWordZh(r,a,b) r=((W_)a)/((W_)b)
+#define remWordZh(r,a,b) r=((W_)a)%((W_)b)
+
#define andZh(r,a,b) r=(a)&(b)
#define orZh(r,a,b) r=(a)|(b)
+#define xorZh(r,a,b) r=(a)^(b)
#define notZh(r,a) r=~(a)
#define shiftLZh(r,a,b) r=(a)<<(b)
|| m68k_TARGET_ARCH \
|| mipsel_TARGET_ARCH \
|| mipseb_TARGET_ARCH \
- || powerpc_TARGET_ARCH
+ || powerpc_TARGET_ARCH \
+ || rs6000_TARGET_ARCH
/* yes, it is IEEE floating point */
#include "ieee-flpt.h"
#define indexFloatArrayZh(r,a,i) indexFloatOffAddrZh(r,BYTE_ARR_CTS(a),i)
#define indexDoubleArrayZh(r,a,i) indexDoubleOffAddrZh(r,BYTE_ARR_CTS(a),i)
+#define indexCharOffForeignObjZh(r,fo,i) indexCharOffAddrZh(r,ForeignObj_CLOSURE_DATA(fo),i)
+#define indexIntOffForeignObjZh(r,fo,i) indexIntOffAddrZh(r,ForeignObj_CLOSURE_DATA(fo),i)
+#define indexAddrOffForeignObjZh(r,fo,i) indexAddrOffAddrZh(r,ForeignObj_CLOSURE_DATA(fo),i)
+#define indexFloatOffForeignObjZh(r,fo,i) indexFloatOffAddrZh(r,ForeignObj_CLOSURE_DATA(fo),i)
+#define indexDoubleOffForeignObjZh(r,fo,i) indexDoubleOffAddrZh(r,ForeignObj_CLOSURE_DATA(fo),i)
+
#define indexCharOffAddrZh(r,a,i) r= ((C_ *)(a))[i]
#define indexIntOffAddrZh(r,a,i) r= ((I_ *)(a))[i]
#define indexAddrOffAddrZh(r,a,i) r= ((PP_)(a))[i]
%************************************************************************
\begin{code}
-ED_(Prelude_Z91Z93_closure);
+ED_(PrelBase_Z91Z93_closure);
#define newSynchVarZh(r, hp) \
{ \
ALLOC_PRIM(MUTUPLE_HS,3,0,MUTUPLE_HS+3) /* ticky ticky */; \
CC_ALLOC(CCC,MUTUPLE_HS+3,ARR_K); /* cc prof */ \
SET_SVAR_HDR(hp,EmptySVar_info,CCC); \
- SVAR_HEAD(hp) = SVAR_TAIL(hp) = SVAR_VALUE(hp) = Prelude_Z91Z93_closure; \
+ SVAR_HEAD(hp) = SVAR_TAIL(hp) = SVAR_VALUE(hp) = PrelBase_Z91Z93_closure; \
r = hp; \
}
\end{code}
#define takeMVarZh(r, liveness, node) \
{ \
while (INFO_PTR(node) != (W_) FullSVar_info) { \
- if (SVAR_HEAD(node) == Prelude_Z91Z93_closure) \
+ if (SVAR_HEAD(node) == PrelBase_Z91Z93_closure) \
SVAR_HEAD(node) = CurrentTSO; \
else \
TSO_LINK(SVAR_TAIL(node)) = CurrentTSO; \
- TSO_LINK(CurrentTSO) = (P_) Prelude_Z91Z93_closure; \
+ TSO_LINK(CurrentTSO) = (P_) PrelBase_Z91Z93_closure; \
SVAR_TAIL(node) = CurrentTSO; \
DO_YIELD(liveness << 1); \
} \
SET_INFO_PTR(node, EmptySVar_info); \
r = SVAR_VALUE(node); \
- SVAR_VALUE(node) = Prelude_Z91Z93_closure; \
+ SVAR_VALUE(node) = PrelBase_Z91Z93_closure; \
}
#else
} \
SET_INFO_PTR(node, EmptySVar_info); \
r = SVAR_VALUE(node); \
- SVAR_VALUE(node) = Prelude_Z91Z93_closure; \
+ SVAR_VALUE(node) = PrelBase_Z91Z93_closure; \
}
#endif
SET_INFO_PTR(node, FullSVar_info); \
SVAR_VALUE(node) = value; \
tso = SVAR_HEAD(node); \
- if (tso != (P_) Prelude_Z91Z93_closure) { \
+ if (tso != (P_) PrelBase_Z91Z93_closure) { \
if (DO_QP_PROF) \
STGCALL3(void,(void *, char *, P_, P_),QP_Event2,do_qp_prof > 1 ? "RA" : "RG",tso,CurrentTSO); \
- if (ThreadQueueHd == Prelude_Z91Z93_closure) \
+ if (ThreadQueueHd == PrelBase_Z91Z93_closure) \
ThreadQueueHd = tso; \
else \
TSO_LINK(ThreadQueueTl) = tso; \
ThreadQueueTl = tso; \
SVAR_HEAD(node) = TSO_LINK(tso); \
- TSO_LINK(tso) = (P_) Prelude_Z91Z93_closure; \
- if(SVAR_HEAD(node) == (P_) Prelude_Z91Z93_closure) \
- SVAR_TAIL(node) = (P_) Prelude_Z91Z93_closure; \
+ TSO_LINK(tso) = (P_) PrelBase_Z91Z93_closure; \
+ if(SVAR_HEAD(node) == (P_) PrelBase_Z91Z93_closure) \
+ SVAR_TAIL(node) = (P_) PrelBase_Z91Z93_closure; \
} \
}
SET_INFO_PTR(node, FullSVar_info); \
SVAR_VALUE(node) = value; \
tso = SVAR_HEAD(node); \
- if (tso != (P_) Prelude_Z91Z93_closure) { \
+ if (tso != (P_) PrelBase_Z91Z93_closure) { \
if (DO_QP_PROF) \
STGCALL3(void,(void *, char *, P_, P_),QP_Event2,do_qp_prof > 1 ? "RA" : "RG",tso,CurrentTSO); \
- if (RunnableThreadsHd == Prelude_Z91Z93_closure) \
+ if (RunnableThreadsHd == PrelBase_Z91Z93_closure) \
RunnableThreadsHd = tso; \
else \
TSO_LINK(RunnableThreadsTl) = tso; \
RunnableThreadsTl = tso; \
SVAR_HEAD(node) = TSO_LINK(tso); \
- TSO_LINK(tso) = (P_) Prelude_Z91Z93_closure; \
- if(SVAR_HEAD(node) == (P_) Prelude_Z91Z93_closure) \
- SVAR_TAIL(node) = (P_) Prelude_Z91Z93_closure; \
+ TSO_LINK(tso) = (P_) PrelBase_Z91Z93_closure; \
+ if(SVAR_HEAD(node) == (P_) PrelBase_Z91Z93_closure) \
+ SVAR_TAIL(node) = (P_) PrelBase_Z91Z93_closure; \
} \
}
#define readIVarZh(r, liveness, node) \
{ \
if (INFO_PTR(node) != (W_) ImMutArrayOfPtrs_info) { \
- if (SVAR_HEAD(node) == Prelude_Z91Z93_closure) \
+ if (SVAR_HEAD(node) == PrelBase_Z91Z93_closure) \
SVAR_HEAD(node) = CurrentTSO; \
else \
TSO_LINK(SVAR_TAIL(node)) = CurrentTSO; \
- TSO_LINK(CurrentTSO) = (P_) Prelude_Z91Z93_closure; \
+ TSO_LINK(CurrentTSO) = (P_) PrelBase_Z91Z93_closure; \
SVAR_TAIL(node) = CurrentTSO; \
DO_YIELD(liveness << 1); \
} \
EXIT(EXIT_FAILURE); \
} \
tso = SVAR_HEAD(node); \
- if (tso != (P_) Prelude_Z91Z93_closure) { \
- if (ThreadQueueHd == Prelude_Z91Z93_closure) \
+ if (tso != (P_) PrelBase_Z91Z93_closure) { \
+ if (ThreadQueueHd == PrelBase_Z91Z93_closure) \
ThreadQueueHd = tso; \
else \
TSO_LINK(ThreadQueueTl) = tso; \
- while(TSO_LINK(tso) != Prelude_Z91Z93_closure) { \
+ while(TSO_LINK(tso) != PrelBase_Z91Z93_closure) { \
if (DO_QP_PROF) \
STGCALL3(void,(void *, char *, P_, P_),QP_Event2,do_qp_prof > 1 ? "RA" : "RG",tso,CurrentTSO); \
tso = TSO_LINK(tso); \
EXIT(EXIT_FAILURE); \
} \
tso = SVAR_HEAD(node); \
- if (tso != (P_) Prelude_Z91Z93_closure) { \
- if (RunnableThreadsHd == Prelude_Z91Z93_closure) \
+ if (tso != (P_) PrelBase_Z91Z93_closure) { \
+ if (RunnableThreadsHd == PrelBase_Z91Z93_closure) \
RunnableThreadsHd = tso; \
else \
TSO_LINK(RunnableThreadsTl) = tso; \
- while(TSO_LINK(tso) != Prelude_Z91Z93_closure) { \
+ while(TSO_LINK(tso) != PrelBase_Z91Z93_closure) { \
if (DO_QP_PROF) \
STGCALL3(void,(void *, char *, P_, P_),QP_Event2,do_qp_prof > 1 ? "RA" : "RG",tso,CurrentTSO); \
tso = TSO_LINK(tso); \
#define delayZh(liveness, us) \
{ \
- if (WaitingThreadsTl == Prelude_Z91Z93_closure) \
+ if (WaitingThreadsTl == PrelBase_Z91Z93_closure) \
WaitingThreadsHd = CurrentTSO; \
else \
TSO_LINK(WaitingThreadsTl) = CurrentTSO; \
WaitingThreadsTl = CurrentTSO; \
- TSO_LINK(CurrentTSO) = Prelude_Z91Z93_closure; \
+ TSO_LINK(CurrentTSO) = PrelBase_Z91Z93_closure; \
TSO_EVENT(CurrentTSO) = (W_) ((us) < 1 ? 1 : (us)); \
DO_YIELD(liveness << 1); \
}
#define waitReadZh(liveness, fd) \
{ \
- if (WaitingThreadsTl == Prelude_Z91Z93_closure) \
+ if (WaitingThreadsTl == PrelBase_Z91Z93_closure) \
WaitingThreadsHd = CurrentTSO; \
else \
TSO_LINK(WaitingThreadsTl) = CurrentTSO; \
WaitingThreadsTl = CurrentTSO; \
- TSO_LINK(CurrentTSO) = Prelude_Z91Z93_closure; \
+ TSO_LINK(CurrentTSO) = PrelBase_Z91Z93_closure; \
TSO_EVENT(CurrentTSO) = (W_) (-(fd)); \
DO_YIELD(liveness << 1); \
}
#define waitWriteZh(liveness, fd) \
{ \
- if (WaitingThreadsTl == Prelude_Z91Z93_closure) \
+ if (WaitingThreadsTl == PrelBase_Z91Z93_closure) \
WaitingThreadsHd = CurrentTSO; \
else \
TSO_LINK(WaitingThreadsTl) = CurrentTSO; \
WaitingThreadsTl = CurrentTSO; \
- TSO_LINK(CurrentTSO) = Prelude_Z91Z93_closure; \
+ TSO_LINK(CurrentTSO) = PrelBase_Z91Z93_closure; \
TSO_EVENT(CurrentTSO) = (W_) (-(fd+FD_SETSIZE)); \
DO_YIELD(liveness << 1); \
}
IF_RTS(void unblockVtAlrmSignal(STG_NO_ARGS);)
IF_RTS(void AwaitEvent(I_ delta);)
-#ifdef _POSIX_SOURCE
+#if defined(_POSIX_SOURCE) && !defined(nextstep3_TARGET_OS)
+ /* For nextstep3_TARGET_OS comment see stgdefs.h. CaS */
extern I_ sig_install PROTO((I_, I_, sigset_t *));
#define stg_sig_ignore(s,m) SAFESTGCALL3(I_,(void *, I_, I_),sig_install,s,STG_SIG_IGN,(sigset_t *)m)
#define stg_sig_default(s,m) SAFESTGCALL3(I_,(void *, I_, I_),sig_install,s,STG_SIG_DFL,(sigset_t *)m)
\begin{code}
#ifdef CONCURRENT
-ED_(Prelude_Z91Z93_closure);
+ED_(PrelBase_Z91Z93_closure);
ED_(True_closure);
#if defined(GRAN)
extern I_ required_thread_count;
#ifdef PAR
-#define COUNT_SPARK TSO_GLOBALSPARKS(CurrentTSO)++
+#define COUNT_SPARK TSO_GLOBALSPARKS(CurrentTSO)++; sparksCreated++
#else
#define COUNT_SPARK
#endif
}
#endif /* GRAN */
+
+#endif /* CONCURRENT */
\end{code}
The following seq# code should only be used in unoptimized code.
r = 1; /* Should be unnecessary */ \
})
-#endif /* CONCURRENT */
\end{code}
%************************************************************************
ForeignObj_CLOSURE_LINK(result) = StorageMgrInfo.ForeignObjList; \
StorageMgrInfo.ForeignObjList = result; \
\
-/* \
- printf("DEBUG: ForeignObj(0x%x) = <0x%x, 0x%x, 0x%x, 0x%x>\n", \
+ \
+ /*fprintf(stderr,"DEBUG: ForeignObj(0x%x) = <0x%x, 0x%x, 0x%x, 0x%x>\n", \
result, \
result[0],result[1], \
- result[2],result[3]); \
-*/ \
+ result[2],result[3]);*/ \
+ \
CHECK_ForeignObj_CLOSURE( result ); \
VALIDATE_ForeignObjList( StorageMgrInfo.ForeignObjList ); \
\
(r) = (P_) result; \
} while (0)
+#define writeForeignObjZh(res,datum) ((PP_) ForeignObj_CLOSURE_DATA(res)) = ((P_)datum)
+
#else
#define makeForeignObjZh(r, liveness, mptr, finalise) \
do { \
EXIT(EXIT_FAILURE); \
} while(0)
+#define writeForeignObjZh(res,datum) \
+do { \
+ fflush(stdout); \
+ fprintf(stderr, "writeForeignObj#: no foreign object support.\n");\
+ EXIT(EXIT_FAILURE); \
+} while(0)
+
#endif /* !PAR */
\end{code}