* Copyright (c) 1994-1998.
*
* $RCSfile: Evaluator.c,v $
- * $Revision: 1.24 $
- * $Date: 1999/11/01 18:19:41 $
+ * $Revision: 1.33 $
+ * $Date: 2000/02/15 13:16:20 $
* ---------------------------------------------------------------------------*/
#include "Rts.h"
for a given function by name. Useful but a hack. Sigh.
*/
extern void* getHugs_AsmObject_for ( char* s );
-
+extern int /*Bool*/ combined;
/* --------------------------------------------------------------------------
* Crude profiling stuff (mainly to assess effect of optimiser)
}
}
-/* --------------------------------------------------------------------------
- * RTS Hooks
- *
- * ToDo: figure out why these are being used and crush them!
- * ------------------------------------------------------------------------*/
-#if 0
-void OnExitHook (void)
-{
-}
-void StackOverflowHook (unsigned long stack_size)
-{
- fprintf(stderr,"Stack Overflow\n");
- exit(1);
-}
-void OutOfHeapHook (unsigned long request_size, unsigned long heap_size)
-{
- fprintf(stderr,"Out Of Heap\n");
- exit(1);
-}
-void MallocFailHook (unsigned long request_size /* in bytes */, char *msg)
-{
- fprintf(stderr,"Malloc Fail\n");
- exit(1);
-}
-void defaultsHook (void)
-{
- /* do nothing */
-}
-#endif
/* --------------------------------------------------------------------------
* Entering-objects and bytecode interpreter part of evaluator
/* Forward decls ... */
static void* enterBCO_primop1 ( int );
-static void* enterBCO_primop2 ( int , int* /*StgThreadReturnCode* */, StgBCO** );
+static void* enterBCO_primop2 ( int , int* /*StgThreadReturnCode* */,
+ StgBCO**, Capability* );
static inline void PopUpdateFrame ( StgClosure* obj );
static inline void PopCatchFrame ( void );
static inline void PopSeqFrame ( void );
static inline void PopStopFrame( StgClosure* obj );
static inline void PushTaggedRealWorld( void );
-static inline void PushTaggedInteger ( mpz_ptr );
+/* static inline void PushTaggedInteger ( mpz_ptr ); */
static inline StgPtr grabHpUpd( nat size );
static inline StgPtr grabHpNonUpd( nat size );
-static StgClosure* raiseAnError ( StgClosure* errObj );
+static StgClosure* raiseAnError ( StgClosure* exception );
static int enterCountI = 0;
+#define gSp MainRegTable.rSp
+#define gSu MainRegTable.rSu
+#define gSpLim MainRegTable.rSpLim
+
+
/* Macros to save/load local state. */
#ifdef DEBUG
-#define SSS { tSp=Sp = xSp; tSu=Su = xSu; tSpLim=SpLim = xSpLim; }
-#define LLL { tSp=xSp = Sp; tSu=xSu = Su; tSpLim=xSpLim = SpLim; }
+#define SSS { tSp=gSp = xSp; tSu=gSu = xSu; tSpLim=gSpLim = xSpLim; }
+#define LLL { tSp=xSp = gSp; tSu=xSu = gSu; tSpLim=xSpLim = gSpLim; }
#else
-#define SSS { Sp = xSp; Su = xSu; SpLim = xSpLim; }
-#define LLL { xSp = Sp; xSu = Su; xSpLim = SpLim; }
+#define SSS { gSp = xSp; gSu = xSu; gSpLim = xSpLim; }
+#define LLL { xSp = gSp; xSu = gSu; xSpLim = gSpLim; }
#endif
-#define RETURN(vvv) { \
- StgThreadReturnCode retVal=(vvv); SSS; \
- /* SaveThreadState() is done by the scheduler. */ \
- return retVal; \
+#define RETURN(vvv) { \
+ StgThreadReturnCode retVal=(vvv); \
+ SSS; \
+ cap->rCurrentTSO->sp = gSp; \
+ cap->rCurrentTSO->su = gSu; \
+ cap->rCurrentTSO->splim = gSpLim; \
+ return retVal; \
}
the macros, in particular xPopTagged*, do not make the tag
sanity checks that their non-x cousins do, and (2) some of
the macros depend critically on the semantics of C comma
- expressions to work properly
+ expressions to work properly.
*/
#define xPushPtr(ppp) { xSp--; *xSp=(StgWord)(ppp); }
#define xPopPtr() ((StgPtr)(*xSp++))
PK_DBL(xSp-sizeofW(StgDouble))))
+#define xPushUpdateFrame(target, xSp_offset) \
+{ \
+ StgUpdateFrame *__frame; \
+ __frame = (StgUpdateFrame *)(xSp + (xSp_offset)) - 1; \
+ SET_INFO(__frame, (StgInfoTable *)&Upd_frame_info); \
+ __frame->link = xSu; \
+ __frame->updatee = (StgClosure *)(target); \
+ xSu = __frame; \
+}
+
#define xPopUpdateFrame(ooo) \
{ \
/* NB: doesn't assume that Sp == Su */ \
#define PC (bciPtr - &(bcoInstr(bco,0)))
-StgThreadReturnCode enter( StgClosure* obj0 )
+/* State on entry to enter():
+ * - current thread is in cap->rCurrentTSO;
+ * - allocation area is in cap->rCurrentNursery & cap->rNursery
+ */
+
+StgThreadReturnCode enter( Capability* cap, StgClosure* obj0 )
{
/* use of register here is primarily to make it clear to compilers
that these entities are non-aliasable.
char eCount; /* enter counter, for context switching */
#ifdef DEBUG
- /* use the t values to check that Su/Sp/SpLim do not change unexpectedly */
StgPtr tSp; StgUpdateFrame* tSu; StgPtr tSpLim;
#endif
- /* LoadThreadState() is done by the scheduler. */
+
+ gSp = cap->rCurrentTSO->sp;
+ gSu = cap->rCurrentTSO->su;
+ gSpLim = cap->rCurrentTSO->splim;
+
#ifdef DEBUG
- tSp = Sp; tSu = Su; tSpLim = SpLim;
+ /* use the t values to check that Su/Sp/SpLim do not change unexpectedly */
+ tSp = gSp; tSu = gSu; tSpLim = gSpLim;
#endif
obj = obj0;
enterLoop:
#ifdef DEBUG
- assert(Sp == tSp);
- assert(Su == tSu);
- assert(SpLim == tSpLim);
+ assert(gSp == tSp);
+ assert(gSu == tSu);
+ assert(gSpLim == tSpLim);
IF_DEBUG(evaluator,
SSS;
enterCountI++;
fprintf(stderr,"(%d) Entering: ",enterCountI); printObj(obj);
fprintf(stderr,"xSp = %p\txSu = %p\n", xSp, xSu);
fprintf(stderr, "\n" );
- printStack(xSp,CurrentTSO->stack+CurrentTSO->stack_size,xSu);
+ printStack(xSp,cap->rCurrentTSO->stack+cap->rCurrentTSO->stack_size,xSu);
fprintf(stderr, "\n\n");
LLL;
);
if (
#ifdef DEBUG
- 1 ||
+ ((++eCount) & 0x0F) == 0
+#else
+ ++eCount == 0
#endif
- ++eCount == 0) {
+ ) {
if (context_switch) {
xPushCPtr(obj); /* code to restart with */
RETURN(ThreadYielding);
LoopTopLabel
- ASSERT(PC < bco->n_instrs);
+ ASSERT((StgWord)(PC) < bco->n_instrs);
IF_DEBUG(evaluator,
fprintf(stderr,"Sp = %p\tSu = %p\tpc = %d\t", xSp, xSu, PC);
SSS;
if (0) { int i;
fprintf(stderr,"\n");
for (i = 8; i >= 0; i--)
- fprintf(stderr, "%d %p\n", i, (StgPtr)(*(Sp+i)));
+ fprintf(stderr, "%d %p\n", i, (StgPtr)(*(gSp+i)));
}
fprintf(stderr,"\n");
LLL;
xPushPtr(p);
Continue;
}
+ Case(i_ALLOC_CONSTR_big):
+ {
+ StgPtr p;
+ int x = BCO_INSTR_16;
+ StgInfoTable* info = bcoConstAddr(bco,x);
+ SSS; p = grabHpNonUpd(sizeW_fromITBL(info)); LLL;
+ SET_HDR((StgClosure*)p,info,??);
+ xPushPtr(p);
+ Continue;
+ }
Case(i_MKAP):
{
int x = BCO_INSTR_8; /* ToDo: Word not Int! */
{
int tag = BCO_INSTR_8;
StgWord offset = BCO_INSTR_16;
- if (constrTag(stgCast(StgClosure*,xStackPtr(0))) != tag) {
+ if (constrTag( (StgClosure*)xStackPtr(0) ) != tag) {
bciPtr += offset;
}
Continue;
}
Case(i_PRIMOP2):
{
- /* Remember to save */
int i, trc, pc_saved;
void* p;
StgBCO* bco_tmp;
pc_saved = PC;
bco_tmp = bco;
SSS;
- p = enterBCO_primop2 ( i, &trc, &bco_tmp );
+ p = enterBCO_primop2 ( i, &trc, &bco_tmp, cap );
LLL;
bco = bco_tmp;
bciPtr = &(bcoInstr(bco,pc_saved));
/* we want to enter p */
obj = p; goto enterLoop;
} else {
- /* p is the the StgThreadReturnCode for this thread */
- RETURN((StgThreadReturnCode)p);
+ /* trc is the the StgThreadReturnCode for this thread */
+ RETURN((StgThreadReturnCode)trc);
};
}
Continue;
Case(i_VAR_CHAR_big):
Case(i_CONST_ADDR_big):
Case(i_VAR_ADDR_big):
+ Case(i_VAR_STABLE_big):
Case(i_CONST_INTEGER_big):
Case(i_CONST_INT_big):
Case(i_VAR_INT_big):
if (caf->mut_link == NULL) {
SSS; recordOldToNewPtrs((StgMutClosure*)caf); LLL;
}
- SSS; PUSH_UPD_FRAME(bh,0); LLL;
+ xPushUpdateFrame(bh,0);
xSp -= sizeofW(StgUpdateFrame);
caf->link = enteredCAFs;
enteredCAFs = caf;
case CAF_BLACKHOLE:
case SE_CAF_BLACKHOLE:
{
- /*was StgBlackHole* */
- StgBlockingQueue* bh = (StgBlockingQueue*)obj;
- /* Put ourselves on the blocking queue for this black hole and block */
- CurrentTSO->link = bh->blocking_queue;
- bh->blocking_queue = CurrentTSO;
- xPushCPtr(obj); /* code to restart with */
- barf("enter: CAF_BLACKHOLE unexpected!");
- RETURN(ThreadBlocked);
+ /* Let the scheduler figure out what to do :-) */
+ cap->rCurrentTSO->whatNext = ThreadEnterGHC;
+ xPushCPtr(obj);
+ RETURN(ThreadYielding);
}
case AP_UPD:
{
}
/* ToDo: look for xSp==xSu && stackInt(0) == UPD_FRAME
and insert an indirection immediately */
- SSS; PUSH_UPD_FRAME(ap,0); LLL;
+ xPushUpdateFrame(ap,0);
xSp -= sizeofW(StgUpdateFrame);
while (--i >= 0) {
xPushWord(payloadWord(ap,i));
fprintf(stderr, "hit a STOP_FRAME\n");
printObj(obj);
fprintf(stderr,"xSp = %p\txSu = %p\n", xSp, xSu);
- printStack(xSp,CurrentTSO->stack+CurrentTSO->stack_size,xSu);
+ printStack(xSp,cap->rCurrentTSO->stack
+ + cap->rCurrentTSO->stack_size,xSu);
LLL;
);
SSS; PopStopFrame(obj); LLL;
case RET_VEC_SMALL:
case RET_BIG:
case RET_VEC_BIG:
- // barf("todo: RET_[VEC_]{BIG,SMALL}");
+ cap->rCurrentTSO->whatNext = ThreadEnterGHC;
+ xPushCPtr(obj);
+ RETURN(ThreadYielding);
default:
belch("entered CONSTR with invalid continuation on stack");
IF_DEBUG(evaluator,
//fprintf(stderr, "entering unknown closure -- yielding to sched\n");
//printObj(obj);
//LLL;
- CurrentTSO->whatNext = ThreadEnterGHC;
+ cap->rCurrentTSO->whatNext = ThreadEnterGHC;
xPushCPtr(obj); /* code to restart with */
RETURN(ThreadYielding);
}
#undef xPushTaggedDouble
#undef xTaggedStackDouble
#undef xPopTaggedDouble
-
+#undef xPopUpdateFrame
+#undef xPushUpdateFrame
/* --------------------------------------------------------------------------
* ------------------------------------------------------------------------*/
static inline void PushTag ( StackTag t )
- { *(--Sp) = t; }
+ { *(--gSp) = t; }
inline void PushPtr ( StgPtr x )
- { *(--stgCast(StgPtr*,Sp)) = x; }
+ { *(--stgCast(StgPtr*,gSp)) = x; }
static inline void PushCPtr ( StgClosure* x )
- { *(--stgCast(StgClosure**,Sp)) = x; }
+ { *(--stgCast(StgClosure**,gSp)) = x; }
static inline void PushInt ( StgInt x )
- { *(--stgCast(StgInt*,Sp)) = x; }
+ { *(--stgCast(StgInt*,gSp)) = x; }
static inline void PushWord ( StgWord x )
- { *(--stgCast(StgWord*,Sp)) = x; }
+ { *(--stgCast(StgWord*,gSp)) = x; }
static inline void checkTag ( StackTag t1, StackTag t2 )
{ ASSERT(t1 == t2);}
static inline void PopTag ( StackTag t )
- { checkTag(t,*(Sp++)); }
+ { checkTag(t,*(gSp++)); }
inline StgPtr PopPtr ( void )
- { return *stgCast(StgPtr*,Sp)++; }
+ { return *stgCast(StgPtr*,gSp)++; }
static inline StgClosure* PopCPtr ( void )
- { return *stgCast(StgClosure**,Sp)++; }
+ { return *stgCast(StgClosure**,gSp)++; }
static inline StgInt PopInt ( void )
- { return *stgCast(StgInt*,Sp)++; }
+ { return *stgCast(StgInt*,gSp)++; }
static inline StgWord PopWord ( void )
- { return *stgCast(StgWord*,Sp)++; }
+ { return *stgCast(StgWord*,gSp)++; }
static inline StgPtr stackPtr ( StgStackOffset i )
- { return *stgCast(StgPtr*, Sp+i); }
+ { return *stgCast(StgPtr*, gSp+i); }
static inline StgInt stackInt ( StgStackOffset i )
- { return *stgCast(StgInt*, Sp+i); }
+ { return *stgCast(StgInt*, gSp+i); }
static inline StgWord stackWord ( StgStackOffset i )
- { return *stgCast(StgWord*,Sp+i); }
+ { return *stgCast(StgWord*,gSp+i); }
static inline void setStackWord ( StgStackOffset i, StgWord w )
- { Sp[i] = w; }
+ { gSp[i] = w; }
static inline void PushTaggedRealWorld( void )
{ PushTag(REALWORLD_TAG); }
inline void PushTaggedInt ( StgInt x )
- { Sp -= sizeofW(StgInt); *Sp = x; PushTag(INT_TAG); }
+ { gSp -= sizeofW(StgInt); *gSp = x; PushTag(INT_TAG); }
inline void PushTaggedWord ( StgWord x )
- { Sp -= sizeofW(StgWord); *Sp = x; PushTag(WORD_TAG); }
+ { gSp -= sizeofW(StgWord); *gSp = x; PushTag(WORD_TAG); }
inline void PushTaggedAddr ( StgAddr x )
- { Sp -= sizeofW(StgAddr); *Sp = (W_)x; PushTag(ADDR_TAG); }
+ { gSp -= sizeofW(StgAddr); *gSp = (W_)x; PushTag(ADDR_TAG); }
inline void PushTaggedChar ( StgChar x )
- { Sp -= sizeofW(StgChar); *Sp = stgCast(StgWord,x); PushTag(CHAR_TAG); }
+ { gSp -= sizeofW(StgChar); *gSp = stgCast(StgWord,x); PushTag(CHAR_TAG); }
inline void PushTaggedFloat ( StgFloat x )
- { Sp -= sizeofW(StgFloat); ASSIGN_FLT(Sp,x); PushTag(FLOAT_TAG); }
+ { gSp -= sizeofW(StgFloat); ASSIGN_FLT(gSp,x); PushTag(FLOAT_TAG); }
inline void PushTaggedDouble ( StgDouble x )
- { Sp -= sizeofW(StgDouble); ASSIGN_DBL(Sp,x); PushTag(DOUBLE_TAG); }
+ { gSp -= sizeofW(StgDouble); ASSIGN_DBL(gSp,x); PushTag(DOUBLE_TAG); }
inline void PushTaggedStablePtr ( StgStablePtr x )
- { Sp -= sizeofW(StgStablePtr); *Sp = x; PushTag(STABLE_TAG); }
+ { gSp -= sizeofW(StgStablePtr); *gSp = x; PushTag(STABLE_TAG); }
static inline void PushTaggedBool ( int x )
{ PushTaggedInt(x); }
static inline void PopTaggedRealWorld ( void )
{ PopTag(REALWORLD_TAG); }
inline StgInt PopTaggedInt ( void )
- { StgInt r; PopTag(INT_TAG); r = *stgCast(StgInt*, Sp);
- Sp += sizeofW(StgInt); return r;}
+ { StgInt r; PopTag(INT_TAG); r = *stgCast(StgInt*, gSp);
+ gSp += sizeofW(StgInt); return r;}
inline StgWord PopTaggedWord ( void )
- { StgWord r; PopTag(WORD_TAG); r = *stgCast(StgWord*, Sp);
- Sp += sizeofW(StgWord); return r;}
+ { StgWord r; PopTag(WORD_TAG); r = *stgCast(StgWord*, gSp);
+ gSp += sizeofW(StgWord); return r;}
inline StgAddr PopTaggedAddr ( void )
- { StgAddr r; PopTag(ADDR_TAG); r = *stgCast(StgAddr*, Sp);
- Sp += sizeofW(StgAddr); return r;}
+ { StgAddr r; PopTag(ADDR_TAG); r = *stgCast(StgAddr*, gSp);
+ gSp += sizeofW(StgAddr); return r;}
inline StgChar PopTaggedChar ( void )
- { StgChar r; PopTag(CHAR_TAG); r = stgCast(StgChar, *Sp);
- Sp += sizeofW(StgChar); return r;}
+ { StgChar r; PopTag(CHAR_TAG); r = stgCast(StgChar, *gSp);
+ gSp += sizeofW(StgChar); return r;}
inline StgFloat PopTaggedFloat ( void )
- { StgFloat r; PopTag(FLOAT_TAG); r = PK_FLT(Sp);
- Sp += sizeofW(StgFloat); return r;}
+ { StgFloat r; PopTag(FLOAT_TAG); r = PK_FLT(gSp);
+ gSp += sizeofW(StgFloat); return r;}
inline StgDouble PopTaggedDouble ( void )
- { StgDouble r; PopTag(DOUBLE_TAG); r = PK_DBL(Sp);
- Sp += sizeofW(StgDouble); return r;}
+ { StgDouble r; PopTag(DOUBLE_TAG); r = PK_DBL(gSp);
+ gSp += sizeofW(StgDouble); return r;}
inline StgStablePtr PopTaggedStablePtr ( void )
- { StgInt r; PopTag(STABLE_TAG); r = *stgCast(StgStablePtr*, Sp);
- Sp += sizeofW(StgStablePtr); return r;}
+ { StgInt r; PopTag(STABLE_TAG); r = *stgCast(StgStablePtr*, gSp);
+ gSp += sizeofW(StgStablePtr); return r;}
static inline StgInt taggedStackInt ( StgStackOffset i )
- { checkTag(INT_TAG,Sp[i]); return *stgCast(StgInt*, Sp+1+i); }
+ { checkTag(INT_TAG,gSp[i]); return *stgCast(StgInt*, gSp+1+i); }
static inline StgWord taggedStackWord ( StgStackOffset i )
- { checkTag(WORD_TAG,Sp[i]); return *stgCast(StgWord*, Sp+1+i); }
+ { checkTag(WORD_TAG,gSp[i]); return *stgCast(StgWord*, gSp+1+i); }
static inline StgAddr taggedStackAddr ( StgStackOffset i )
- { checkTag(ADDR_TAG,Sp[i]); return *stgCast(StgAddr*, Sp+1+i); }
+ { checkTag(ADDR_TAG,gSp[i]); return *stgCast(StgAddr*, gSp+1+i); }
static inline StgChar taggedStackChar ( StgStackOffset i )
- { checkTag(CHAR_TAG,Sp[i]); return stgCast(StgChar, *(Sp+1+i)) ; }
+ { checkTag(CHAR_TAG,gSp[i]); return stgCast(StgChar, *(gSp+1+i)) ; }
static inline StgFloat taggedStackFloat ( StgStackOffset i )
- { checkTag(FLOAT_TAG,Sp[i]); return PK_FLT(Sp+1+i); }
+ { checkTag(FLOAT_TAG,gSp[i]); return PK_FLT(gSp+1+i); }
static inline StgDouble taggedStackDouble ( StgStackOffset i )
- { checkTag(DOUBLE_TAG,Sp[i]); return PK_DBL(Sp+1+i); }
+ { checkTag(DOUBLE_TAG,gSp[i]); return PK_DBL(gSp+1+i); }
static inline StgStablePtr taggedStackStable ( StgStackOffset i )
- { checkTag(STABLE_TAG,Sp[i]); return *stgCast(StgStablePtr*, Sp+1+i); }
+ { checkTag(STABLE_TAG,gSp[i]); return *stgCast(StgStablePtr*, gSp+1+i); }
/* --------------------------------------------------------------------------
* o Stop frames
* ------------------------------------------------------------------------*/
-static inline void PopUpdateFrame( StgClosure* obj )
+static inline void PopUpdateFrame ( StgClosure* obj )
{
- /* NB: doesn't assume that Sp == Su */
+ /* NB: doesn't assume that gSp == gSu */
IF_DEBUG(evaluator,
fprintf(stderr, "Updating ");
- printPtr(stgCast(StgPtr,Su->updatee));
+ printPtr(stgCast(StgPtr,gSu->updatee));
fprintf(stderr, " with ");
printObj(obj);
- fprintf(stderr,"Sp = %p\tSu = %p\n\n", Sp, Su);
+ fprintf(stderr,"gSp = %p\tgSu = %p\n\n", gSp, gSu);
);
#ifdef EAGER_BLACKHOLING
#warn LAZY_BLACKHOLING is default for StgHugs
#error Dont know if EAGER_BLACKHOLING works in StgHugs
- ASSERT(get_itbl(Su->updatee)->type == BLACKHOLE
- || get_itbl(Su->updatee)->type == SE_BLACKHOLE
- || get_itbl(Su->updatee)->type == CAF_BLACKHOLE
- || get_itbl(Su->updatee)->type == SE_CAF_BLACKHOLE
+ ASSERT(get_itbl(gSu->updatee)->type == BLACKHOLE
+ || get_itbl(gSu->updatee)->type == SE_BLACKHOLE
+ || get_itbl(gSu->updatee)->type == CAF_BLACKHOLE
+ || get_itbl(gSu->updatee)->type == SE_CAF_BLACKHOLE
);
#endif /* EAGER_BLACKHOLING */
- UPD_IND(Su->updatee,obj);
- Sp = stgCast(StgStackPtr,Su) + sizeofW(StgUpdateFrame);
- Su = Su->link;
+ UPD_IND(gSu->updatee,obj);
+ gSp = stgCast(StgStackPtr,gSu) + sizeofW(StgUpdateFrame);
+ gSu = gSu->link;
}
-static inline void PopStopFrame( StgClosure* obj )
+static inline void PopStopFrame ( StgClosure* obj )
{
- /* Move Su just off the end of the stack, we're about to spam the
+ /* Move gSu just off the end of the stack, we're about to gSpam the
* STOP_FRAME with the return value.
*/
- Su = stgCast(StgUpdateFrame*,Sp+1);
- *stgCast(StgClosure**,Sp) = obj;
+ gSu = stgCast(StgUpdateFrame*,gSp+1);
+ *stgCast(StgClosure**,gSp) = obj;
}
-static inline void PushCatchFrame( StgClosure* handler )
+static inline void PushCatchFrame ( StgClosure* handler )
{
StgCatchFrame* fp;
/* ToDo: stack check! */
- Sp -= sizeofW(StgCatchFrame);
- fp = stgCast(StgCatchFrame*,Sp);
+ gSp -= sizeofW(StgCatchFrame);
+ fp = stgCast(StgCatchFrame*,gSp);
SET_HDR(fp,(StgInfoTable*)&catch_frame_info,CCCS);
fp->handler = handler;
- fp->link = Su;
- Su = stgCast(StgUpdateFrame*,fp);
+ fp->link = gSu;
+ gSu = stgCast(StgUpdateFrame*,fp);
}
-static inline void PopCatchFrame( void )
+static inline void PopCatchFrame ( void )
{
- /* NB: doesn't assume that Sp == Su */
+ /* NB: doesn't assume that gSp == gSu */
/* fprintf(stderr,"Popping catch frame\n"); */
- Sp = stgCast(StgStackPtr,Su) + sizeofW(StgCatchFrame);
- Su = stgCast(StgCatchFrame*,Su)->link;
+ gSp = stgCast(StgStackPtr,gSu) + sizeofW(StgCatchFrame);
+ gSu = stgCast(StgCatchFrame*,gSu)->link;
}
-static inline void PushSeqFrame( void )
+static inline void PushSeqFrame ( void )
{
StgSeqFrame* fp;
/* ToDo: stack check! */
- Sp -= sizeofW(StgSeqFrame);
- fp = stgCast(StgSeqFrame*,Sp);
+ gSp -= sizeofW(StgSeqFrame);
+ fp = stgCast(StgSeqFrame*,gSp);
SET_HDR(fp,(StgInfoTable*)&seq_frame_info,CCCS);
- fp->link = Su;
- Su = stgCast(StgUpdateFrame*,fp);
+ fp->link = gSu;
+ gSu = stgCast(StgUpdateFrame*,fp);
}
-static inline void PopSeqFrame( void )
+static inline void PopSeqFrame ( void )
{
- /* NB: doesn't assume that Sp == Su */
- Sp = stgCast(StgStackPtr,Su) + sizeofW(StgSeqFrame);
- Su = stgCast(StgSeqFrame*,Su)->link;
+ /* NB: doesn't assume that gSp == gSu */
+ gSp = stgCast(StgStackPtr,gSu) + sizeofW(StgSeqFrame);
+ gSu = stgCast(StgSeqFrame*,gSu)->link;
}
-static inline StgClosure* raiseAnError( StgClosure* errObj )
+static inline StgClosure* raiseAnError ( StgClosure* exception )
{
- StgClosure *raise_closure;
-
- /* This closure represents the expression 'raise# E' where E
- * is the exception raised. It is used to overwrite all the
- * thunks which are currently under evaluataion.
+ /* This closure represents the expression 'primRaise E' where E
+ * is the exception raised (:: Exception).
+ * It is used to overwrite all the
+ * thunks which are currently under evaluation.
*/
- raise_closure = (StgClosure *)allocate(sizeofW(StgClosure)+1);
- raise_closure->header.info = &raise_info;
- raise_closure->payload[0] = R1.cl;
-
+ HaskellObj primRaiseClosure
+ = asmClosureOfObject(getHugs_AsmObject_for("primRaise"));
+ HaskellObj reraiseClosure
+ = rts_apply ( primRaiseClosure, exception );
+
while (1) {
- switch (get_itbl(Su)->type) {
+ switch (get_itbl(gSu)->type) {
case UPDATE_FRAME:
- UPD_IND(Su->updatee,raise_closure);
- Sp = stgCast(StgStackPtr,Su) + sizeofW(StgUpdateFrame);
- Su = Su->link;
+ UPD_IND(gSu->updatee,reraiseClosure);
+ gSp = stgCast(StgStackPtr,gSu) + sizeofW(StgUpdateFrame);
+ gSu = gSu->link;
break;
case SEQ_FRAME:
PopSeqFrame();
break;
case CATCH_FRAME: /* found it! */
{
- StgCatchFrame* fp = stgCast(StgCatchFrame*,Su);
+ StgCatchFrame* fp = stgCast(StgCatchFrame*,gSu);
StgClosure *handler = fp->handler;
- Su = fp->link;
- Sp += sizeofW(StgCatchFrame); /* Pop */
- PushCPtr(errObj);
+ gSu = fp->link;
+ gSp += sizeofW(StgCatchFrame); /* Pop */
+ PushCPtr(exception);
return handler;
}
case STOP_FRAME:
}
-void myStackCheck ( void )
+void myStackCheck ( Capability* cap )
{
- //StgPtr sp = (StgPtr)Sp;
- StgPtr su = (StgPtr)Su;
- //fprintf(stderr, "myStackCheck\n");
- if (!(SpLim <= Sp && Sp <= stgCast(StgPtr,Su))) {
- fprintf(stderr, "myStackCheck: invalid initial Sp/Su \n" );
+ /* fprintf(stderr, "myStackCheck\n"); */
+ if (!(gSpLim <= gSp && gSp <= stgCast(StgPtr,gSu))) {
+ fprintf(stderr, "myStackCheck: invalid initial gSp/gSu \n" );
assert(0);
}
while (1) {
- if (!(su >= CurrentTSO->stack && su <= CurrentTSO->stack + CurrentTSO->stack_size)) {
- fprintf ( stderr, "myStackCheck: su out of stack\n" );
+ if (!(gSu >= cap->rCurrentTSO->stack
+ && gSu <= cap->rCurrentTSO->stack
+ + cap->rCurrentTSO->stack_size)) {
+ fprintf ( stderr, "myStackCheck: gSu out of stack\n" );
assert(0);
}
- switch (get_itbl(stgCast(StgClosure*,su))->type) {
+ switch (get_itbl(stgCast(StgClosure*,gSu))->type) {
case CATCH_FRAME:
- su = (StgPtr) ((StgCatchFrame*)(su))->link;
+ gSu = (StgPtr) ((StgCatchFrame*)(gSu))->link;
break;
case UPDATE_FRAME:
- su = (StgPtr) ((StgUpdateFrame*)(su))->link;
+ gSu = (StgPtr) ((StgUpdateFrame*)(gSu))->link;
break;
case SEQ_FRAME:
- su = (StgPtr) ((StgSeqFrame*)(su))->link;
+ gSu = (StgPtr) ((StgSeqFrame*)(gSu))->link;
break;
case STOP_FRAME:
goto postloop;
*/
static void* enterBCO_primop1 ( int primop1code )
{
+ if (combined)
+ barf("enterBCO_primop1 in combined mode");
+
switch (primop1code) {
case i_pushseqframe:
{
*/
static void* enterBCO_primop2 ( int primop2code,
int* /*StgThreadReturnCode* */ return2,
- StgBCO** bco )
+ StgBCO** bco,
+ Capability* cap )
{
+ if (combined)
+ barf("enterBCO_primop1 in combined mode");
+
switch (primop2code) {
case i_raise: /* raise#{err} */
{
break;
}
-#ifdef PROVIDE_CONCURRENT
- case i_fork:
- {
- StgClosure* c = PopCPtr();
- StgTSO* t = createGenThread(RtsFlags.GcFlags.initialStkSize,c);
- PushPtr(stgCast(StgPtr,t));
-
- /* switch at the earliest opportunity */
- context_switch = 1;
- /* but don't automatically switch to GHC - or you'll waste your
- * time slice switching back.
- *
- * Actually, there's more to it than that: the default
- * (ThreadEnterGHC) causes the thread to crash - don't
- * understand why. - ADR
- */
- t->whatNext = ThreadEnterHugs;
- break;
- }
- case i_killThread:
- {
- StgTSO* tso = stgCast(StgTSO*,PopPtr());
- deleteThread(tso);
- if (tso == CurrentTSO) { /* suicide */
- *return2 = ThreadFinished;
- return (void*)(1+(NULL));
- }
- break;
- }
- case i_sameMVar:
- { /* identical to i_sameRef */
- StgPtr x = PopPtr();
- StgPtr y = PopPtr();
- PushTaggedBool(x==y);
- break;
- }
case i_newMVar:
{
StgMVar *mvar = stgCast(StgMVar*,allocate(sizeofW(StgMVar)));
SET_INFO(mvar,&EMPTY_MVAR_info);
- mvar->head = mvar->tail = EndTSOQueue;
- /* ToDo: this is a little strange */
+ mvar->head = mvar->tail = (StgTSO *)&END_TSO_QUEUE_closure;
mvar->value = stgCast(StgClosure*,&END_TSO_QUEUE_closure);
PushPtr(stgCast(StgPtr,mvar));
break;
}
-#if 1
-#if 0
-ToDo: another way out of the problem might be to add an explicit
-continuation to primTakeMVar: takeMVar v = primTakeMVar v takeMVar.
-The problem with this plan is that now I dont know how much to chop
-off the stack.
-#endif
case i_takeMVar:
{
- StgMVar *mvar = stgCast(StgMVar*,PopPtr());
- /* If the MVar is empty, put ourselves
- * on its blocking queue, and wait
- * until we're woken up.
- */
- if (GET_INFO(mvar) != &FULL_MVAR_info) {
- if (mvar->head == EndTSOQueue) {
- mvar->head = CurrentTSO;
+ StgMVar *mvar = (StgMVar*)PopCPtr();
+ if (GET_INFO(mvar) == &EMPTY_MVAR_info) {
+
+ /* The MVar is empty. Attach ourselves to the TSO's
+ blocking queue.
+ */
+ if (mvar->head == (StgTSO *)&END_TSO_QUEUE_closure) {
+ mvar->head = cap->rCurrentTSO;
} else {
- mvar->tail->link = CurrentTSO;
+ mvar->tail->link = cap->rCurrentTSO;
}
- CurrentTSO->link = EndTSOQueue;
- mvar->tail = CurrentTSO;
-
- /* Hack, hack, hack.
- * When we block, we push a restart closure
- * on the stack - but which closure?
- * We happen to know that the BCO we're
- * executing looks like this:
- *
- * 0: STK_CHECK 4
- * 2: HP_CHECK 3
- * 4: TEST 0 29
- * 7: UNPACK
- * 8: VAR 3
- * 10: VAR 1
- * 12: primTakeMVar
- * 14: ALLOC_CONSTR 0x8213a80
- * 16: VAR 2
- * 18: VAR 2
- * 20: PACK 2
- * 22: VAR 0
- * 24: SLIDE 1 7
- * 27: ENTER
- * 28: PANIC
- * 29: PANIC
- *
- * so we rearrange the stack to look the
- * way it did when we entered this BCO
- * and push ths BCO.
- * What a disgusting hack!
- */
-
- PopPtr();
- PopPtr();
- PushCPtr(obj);
+ cap->rCurrentTSO->link = (StgTSO *)&END_TSO_QUEUE_closure;
+ cap->rCurrentTSO->why_blocked = BlockedOnMVar;
+ cap->rCurrentTSO->block_info.closure = (StgClosure *)mvar;
+ mvar->tail = cap->rCurrentTSO;
+
+ /* At this point, the top-of-stack holds the MVar,
+ and underneath is the world token (). So the
+ stack is in the same state as when primTakeMVar
+ was entered (primTakeMVar is handwritten bytecode).
+ Push obj, which is this BCO, and return to the
+ scheduler. When the MVar is filled, the scheduler
+ will re-enter primTakeMVar, with the args still on
+ the top of the stack.
+ */
+ PushCPtr((StgClosure*)(*bco));
*return2 = ThreadBlocked;
return (void*)(1+(NULL));
} else {
PushCPtr(mvar->value);
+ mvar->value = (StgClosure *)&END_TSO_QUEUE_closure;
SET_INFO(mvar,&EMPTY_MVAR_info);
- /* ToDo: this is a little strange */
- mvar->value = (StgClosure*)&END_TSO_QUEUE_closure;
}
break;
}
-#endif
case i_putMVar:
{
StgMVar* mvar = stgCast(StgMVar*,PopPtr());
StgClosure* value = PopCPtr();
if (GET_INFO(mvar) == &FULL_MVAR_info) {
- return (raisePrim("putMVar {full MVar}"));
+ return (makeErrorCall("putMVar {full MVar}"));
} else {
/* wake up the first thread on the
* queue, it will continue with the
* takeMVar operation and mark the
* MVar empty again.
*/
- StgTSO* tso = mvar->head;
- SET_INFO(mvar,&FULL_MVAR_info);
mvar->value = value;
- if (tso != EndTSOQueue) {
- PUSH_ON_RUN_QUEUE(tso);
- mvar->head = tso->link;
- tso->link = EndTSOQueue;
- if (mvar->head == EndTSOQueue) {
- mvar->tail = EndTSOQueue;
- }
+
+ if (mvar->head != (StgTSO *)&END_TSO_QUEUE_closure) {
+ ASSERT(mvar->head->why_blocked == BlockedOnMVar);
+ mvar->head = unblockOne(mvar->head);
+ if (mvar->head == (StgTSO *)&END_TSO_QUEUE_closure) {
+ mvar->tail = (StgTSO *)&END_TSO_QUEUE_closure;
+ }
}
+
+ /* unlocks the MVar in the SMP case */
+ SET_INFO(mvar,&FULL_MVAR_info);
+
+ /* yield for better communication performance */
+ context_switch = 1;
}
- /* yield for better communication performance */
+ break;
+ }
+ case i_sameMVar:
+ { /* identical to i_sameRef */
+ StgMVar* x = (StgMVar*)PopPtr();
+ StgMVar* y = (StgMVar*)PopPtr();
+ PushTaggedBool(x==y);
+ break;
+ }
+ case i_getThreadId:
+ {
+ StgWord tid = cap->rCurrentTSO->id;
+ PushTaggedWord(tid);
+ break;
+ }
+ case i_cmpThreadIds:
+ {
+ StgWord tid1 = PopTaggedWord();
+ StgWord tid2 = PopTaggedWord();
+ if (tid1 < tid2) PushTaggedInt(-1);
+ else if (tid1 > tid2) PushTaggedInt(1);
+ else PushTaggedInt(0);
+ break;
+ }
+ case i_forkIO:
+ {
+ StgClosure* closure;
+ StgTSO* tso;
+ StgWord tid;
+ closure = PopCPtr();
+ tso = createGenThread (RtsFlags.GcFlags.initialStkSize,closure);
+ tid = tso->id;
+ scheduleThread(tso);
context_switch = 1;
+ PushTaggedWord(tid);
+ break;
+ }
+
+#ifdef PROVIDE_CONCURRENT
+ case i_killThread:
+ {
+ StgTSO* tso = stgCast(StgTSO*,PopPtr());
+ deleteThread(tso);
+ if (tso == cap->rCurrentTSO) { /* suicide */
+ *return2 = ThreadFinished;
+ return (void*)(1+(NULL));
+ }
break;
}
+
+#if 1
+#if 0
+ToDo: another way out of the problem might be to add an explicit
+continuation to primTakeMVar: takeMVar v = primTakeMVar v takeMVar.
+The problem with this plan is that now I dont know how much to chop
+off the stack.
+#endif
+#endif
case i_delay:
case i_waitRead:
case i_waitWrite:
ASSERT(0);
break;
#endif /* PROVIDE_CONCURRENT */
+
case i_ccall_ccall_Id:
case i_ccall_ccall_IO:
case i_ccall_stdcall_Id:
case i_ccall_stdcall_IO:
{
int r;
- CFunDescriptor* descriptor = PopTaggedAddr();
- void (*funPtr)(void) = PopTaggedAddr();
- char cc = (primop2code == i_ccall_stdcall_Id ||
+ CFunDescriptor* descriptor;
+ void (*funPtr)(void);
+ char cc;
+ descriptor = PopTaggedAddr();
+ funPtr = PopTaggedAddr();
+ cc = (primop2code == i_ccall_stdcall_Id ||
primop2code == i_ccall_stdcall_IO)
? 's' : 'c';
- r = ccall(descriptor,funPtr,bco,cc);
+ r = ccall(descriptor,funPtr,bco,cc,cap);
if (r == 0) break;
if (r == 1)
return makeErrorCall(
* ccall support code:
* marshall moves args from C stack to Haskell stack
* unmarshall moves args from Haskell stack to C stack
- * argSize calculates how much space you need on the C stack
+ * argSize calculates how much gSpace you need on the C stack
* ---------------------------------------------------------------------------*/
/* Pop arguments off the C stack and Push them onto the Hugs stack.
- * Used when preparing for C calling Haskell or in response to
+ * Used when preparing for C calling Haskell or in regSponse to
* Haskell calling C.
*/
nat marshall(char arg_ty, void* arg)
}
/* Pop arguments off the Hugs stack and Push them onto the C stack.
- * Used when preparing for Haskell calling C or in response to
+ * Used when preparing for Haskell calling C or in regSponse to
* C calling Haskell.
*/
nat unmarshall(char res_ty, void* res)