/* -----------------------------------------------------------------------------
- * $Id: Exception.hc,v 1.15 2000/11/13 14:40:37 simonmar Exp $
+ * $Id: Exception.hc,v 1.29 2003/06/26 20:47:08 panne Exp $
*
* (c) The GHC Team, 1998-2000
*
*
* ---------------------------------------------------------------------------*/
+#include "Stg.h"
#include "Rts.h"
#include "Exception.h"
#include "Schedule.h"
{
FB_
/* Args: R1 :: IO a */
- STK_CHK_GEN( 2/* worst case */, R1_PTR, blockAsyncExceptionszh_fast, );
+ STK_CHK_GEN( 2/* worst case */, R1_PTR, blockAsyncExceptionszh_fast);
if (CurrentTSO->blocked_exceptions == NULL) {
CurrentTSO->blocked_exceptions = END_TSO_QUEUE;
}
}
Sp--;
- Sp[0] = ARG_TAG(0);
- JMP_(GET_ENTRY(R1.cl));
+ JMP_(stg_ap_v_ret);
FE_
}
-INFO_TABLE_SRT_BITMAP(stg_unblockAsyncExceptionszh_ret_info, stg_unblockAsyncExceptionszh_ret_entry, 0, 0, 0, 0, RET_SMALL, , EF_, 0, 0);
+INFO_TABLE_RET( \
+ stg_unblockAsyncExceptionszh_ret_info, \
+ stg_unblockAsyncExceptionszh_ret_entry, \
+ MK_SMALL_BITMAP(0/*framesize*/, 0/*bitmap*/), \
+ 0, 0, 0, RET_SMALL, , EF_, 0, 0 \
+);
+
FN_(stg_unblockAsyncExceptionszh_ret_entry)
{
FB_
ASSERT(CurrentTSO->blocked_exceptions != NULL);
#if defined(GRAN)
awakenBlockedQueue(CurrentTSO->blocked_exceptions,
- CurrentTSO->block_info.closure);
+ (StgClosure*)NULL);
#elif defined(PAR)
- // is CurrentTSO->block_info.closure always set to the node
- // holding the blocking queue !? -- HWL
+ /* we don't need node info (2nd arg) in this case
+ (note that CurrentTSO->block_info.closure isn't always set) */
awakenBlockedQueue(CurrentTSO->blocked_exceptions,
- CurrentTSO->block_info.closure);
+ (StgClosure*)NULL);
#else
awakenBlockedQueue(CurrentTSO->blocked_exceptions);
#endif
{
FB_
/* Args: R1 :: IO a */
- STK_CHK_GEN(2, R1_PTR, unblockAsyncExceptionszh_fast, );
+ STK_CHK_GEN(2, R1_PTR, unblockAsyncExceptionszh_fast);
if (CurrentTSO->blocked_exceptions != NULL) {
#if defined(GRAN)
}
}
Sp--;
- Sp[0] = ARG_TAG(0);
- JMP_(GET_ENTRY(R1.cl));
+ JMP_(stg_ap_v_ret);
FE_
}
-INFO_TABLE_SRT_BITMAP(stg_blockAsyncExceptionszh_ret_info, stg_blockAsyncExceptionszh_ret_entry, 0, 0, 0, 0, RET_SMALL, , EF_, 0, 0);
+INFO_TABLE_RET( \
+ stg_blockAsyncExceptionszh_ret_info, \
+ stg_blockAsyncExceptionszh_ret_entry, \
+ MK_SMALL_BITMAP(0/*framesize*/, 0/*bitmap*/), \
+ 0, 0, 0, RET_SMALL, , EF_, 0, 0 \
+);
+
FN_(stg_blockAsyncExceptionszh_ret_entry)
{
FB_
*/
if (R1.t == CurrentTSO) {
SaveThreadState(); /* inline! */
- STGCALL2(raiseAsync, R1.t, R2.cl);
+ STGCALL2(raiseAsyncWithLock, R1.t, R2.cl);
if (CurrentTSO->what_next == ThreadKilled) {
R1.w = ThreadFinished;
JMP_(StgReturn);
- }
- LoadThreadState();
- if (CurrentTSO->what_next == ThreadEnterGHC) {
- R1.w = Sp[0];
- Sp++;
- JMP_(GET_ENTRY(R1.cl));
} else {
- barf("killThreadzh_fast");
+ LoadThreadState();
+ ASSERT(CurrentTSO->what_next == ThreadRunGHC);
+ JMP_(ENTRY_CODE(Sp[0]));
}
} else {
- STGCALL2(raiseAsync, R1.t, R2.cl);
+ STGCALL2(raiseAsyncWithLock, R1.t, R2.cl);
}
JMP_(ENTRY_CODE(Sp[0]));
FE_
}
+
/* -----------------------------------------------------------------------------
Catch frames
-------------------------------------------------------------------------- */
FN_(label) \
{ \
FB_ \
- Su = ((StgCatchFrame *)Sp)->link; \
Sp += sizeofW(StgCatchFrame); \
JMP_(ret); \
FE_ \
FB_ \
rval = Sp[0]; \
Sp++; \
- Su = ((StgCatchFrame *)Sp)->link; \
Sp += sizeofW(StgCatchFrame) - 1; \
Sp[0] = rval; \
JMP_(ret); \
#define SP_OFF 1
#endif
-CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_entry,ENTRY_CODE(Sp[SP_OFF]));
-CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_0_entry,RET_VEC(Sp[SP_OFF],0));
-CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_1_entry,RET_VEC(Sp[SP_OFF],1));
-CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_2_entry,RET_VEC(Sp[SP_OFF],2));
-CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_3_entry,RET_VEC(Sp[SP_OFF],3));
-CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_4_entry,RET_VEC(Sp[SP_OFF],4));
-CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_5_entry,RET_VEC(Sp[SP_OFF],5));
-CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_6_entry,RET_VEC(Sp[SP_OFF],6));
-CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_7_entry,RET_VEC(Sp[SP_OFF],7));
-
-#ifdef PROFILING
+CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_ret,ENTRY_CODE(Sp[SP_OFF]));
+CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_0_ret,RET_VEC(Sp[SP_OFF],0));
+CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_1_ret,RET_VEC(Sp[SP_OFF],1));
+CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_2_ret,RET_VEC(Sp[SP_OFF],2));
+CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_3_ret,RET_VEC(Sp[SP_OFF],3));
+CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_4_ret,RET_VEC(Sp[SP_OFF],4));
+CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_5_ret,RET_VEC(Sp[SP_OFF],5));
+CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_6_ret,RET_VEC(Sp[SP_OFF],6));
+CATCH_FRAME_ENTRY_TEMPLATE(stg_catch_frame_7_ret,RET_VEC(Sp[SP_OFF],7));
+
+#if defined(PROFILING)
#define CATCH_FRAME_BITMAP 7
+#define CATCH_FRAME_WORDS 4
#else
-#define CATCH_FRAME_BITMAP 3
+#define CATCH_FRAME_BITMAP 1
+#define CATCH_FRAME_WORDS 2
#endif
/* Catch frames are very similar to update frames, but when entering
* kind of return to the activation record underneath us on the stack.
*/
-VEC_POLY_INFO_TABLE(stg_catch_frame, CATCH_FRAME_BITMAP, NULL/*srt*/, 0/*srt_off*/, 0/*srt_len*/, CATCH_FRAME,, EF_);
+VEC_POLY_INFO_TABLE(stg_catch_frame, \
+ MK_SMALL_BITMAP(CATCH_FRAME_WORDS, CATCH_FRAME_BITMAP), \
+ NULL/*srt*/, 0/*srt_off*/, 0/*srt_bitmap*/, CATCH_FRAME,, EF_);
/* -----------------------------------------------------------------------------
* The catch infotable
* It is used in deleteThread when reverting blackholes.
* -------------------------------------------------------------------------- */
-INFO_TABLE(catch_info,catch_entry,2,0,FUN,,EF_,0,0);
-STGFUN(catch_entry)
+INFO_TABLE(stg_catch_info,stg_catch_entry,2,0,FUN,,EF_,0,0);
+STGFUN(stg_catch_entry)
{
FB_
R2.cl = R1.cl->payload[1]; /* h */
FB_
/* args: R1 = m :: IO a, R2 = handler :: Exception -> IO a */
- STK_CHK_GEN(sizeofW(StgCatchFrame) + 1, R1_PTR | R2_PTR, catchzh_fast, );
+ STK_CHK_GEN(sizeofW(StgCatchFrame) + 1, R1_PTR | R2_PTR, catchzh_fast);
/* Set up the catch frame */
Sp -= sizeofW(StgCatchFrame);
SET_HDR(fp,(StgInfoTable *)&stg_catch_frame_info,CCCS);
fp -> handler = R2.cl;
fp -> exceptions_blocked = (CurrentTSO->blocked_exceptions != NULL);
- fp -> link = Su;
- Su = (StgUpdateFrame *)fp;
TICK_CATCHF_PUSHED();
- /* Push realworld token and enter R1. */
+
+/* Apply R1 to the realworld token */
Sp--;
- Sp[0] = ARG_TAG(0);
- TICK_ENT_VIA_NODE();
- JMP_(GET_ENTRY(R1.cl));
-
+ JMP_(stg_ap_v_ret);
FE_
}
* It is used in raisezh_fast to update thunks on the update list
* -------------------------------------------------------------------------- */
-INFO_TABLE(stg_raise_info,raise_entry,1,0,THUNK,,EF_,0,0);
-STGFUN(raise_entry)
+INFO_TABLE(stg_raise_info,stg_raise_entry,1,0,THUNK,,EF_,0,0);
+STGFUN(stg_raise_entry)
{
FB_
R1.cl = R1.cl->payload[0];
FN_(raisezh_fast)
{
StgClosure *handler;
- StgUpdateFrame *p;
+ StgPtr p;
StgClosure *raise_closure;
FB_
- /* args : R1 = exception */
+ /* args : R1.p :: Exception */
#if defined(PROFILING)
-
/* Debugging tool: on raising an exception, show where we are. */
/* ToDo: currently this is a hack. Would be much better if
* the info was only displayed for an *uncaught* exception.
*/
if (RtsFlags.ProfFlags.showCCSOnException) {
- STGCALL2(print_ccs,stderr,CCCS);
+ STGCALL2(fprintCCS,stderr,CCCS);
}
-
#endif
- p = Su;
-
/* This closure represents the expression 'raise# E' where E
* is the exception raise. It is used to overwrite all the
* thunks which are currently under evaluataion.
*/
+ /*
+ // @LDV profiling
+ // stg_raise_info has THUNK as its closure type. Since a THUNK takes at least
+ // MIN_UPD_SIZE words in its payload, MIN_UPD_SIZE is more approprate than 1.
+ // It seems that 1 does not cause any problem unless profiling is performed.
+ // However, when LDV profiling goes on, we need to linearly scan small object pool,
+ // where raise_closure is stored, so we should use MIN_UPD_SIZE.
raise_closure = (StgClosure *)RET_STGCALL1(P_,allocate,
sizeofW(StgClosure)+1);
- raise_closure->header.info = &stg_raise_info;
+ */
+ raise_closure = (StgClosure *)RET_STGCALL1(P_,allocate,
+ sizeofW(StgClosure)+MIN_UPD_SIZE);
+ SET_HDR(raise_closure, &stg_raise_info, CCCS);
raise_closure->payload[0] = R1.cl;
- while (1) {
-
- switch (get_itbl(p)->type) {
-
- case UPDATE_FRAME:
- UPD_IND(p->updatee,raise_closure);
- p = p->link;
- continue;
-
- case SEQ_FRAME:
- p = ((StgSeqFrame *)p)->link;
- continue;
-
- case CATCH_FRAME:
- /* found it! */
- break;
-
- case STOP_FRAME:
- /* We've stripped the entire stack, the thread is now dead. */
- Sp = CurrentTSO->stack + CurrentTSO->stack_size - 1;
- Sp[0] = R1.w; /* save the exception */
- Su = (StgUpdateFrame *)(Sp+1);
- CurrentTSO->what_next = ThreadKilled;
- SaveThreadState(); /* inline! */
- R1.w = ThreadFinished;
- JMP_(StgReturn);
-
- default:
- barf("raisezh_fast: weird activation record");
- }
+ // Walk up the stack, looking for the catch frame. On the way,
+ // we update any closures pointed to from update frames with the
+ // raise closure that we just built.
+ {
+ StgPtr next;
+ StgRetInfoTable *info;
+
+ p = Sp;
+ while(1) {
+
+ info = get_ret_itbl((StgClosure *)p);
+ next = p + stack_frame_sizeW((StgClosure *)p);
+ switch (info->i.type) {
+
+ case UPDATE_FRAME:
+ UPD_IND(((StgUpdateFrame *)p)->updatee,raise_closure);
+ p = next;
+ continue;
+
+ case CATCH_FRAME:
+ /* found it! */
+ break;
+
+ case STOP_FRAME:
+ /* We've stripped the entire stack, the thread is now dead. */
+ Sp = CurrentTSO->stack + CurrentTSO->stack_size - 1;
+ Sp[0] = R1.w; /* save the exception */
+ CurrentTSO->what_next = ThreadKilled;
+ SaveThreadState(); /* inline! */
+ R1.w = ThreadFinished;
+ JMP_(StgReturn);
+
+ default:
+ p = next;
+ continue;
+ }
- break;
-
+ break;
+ }
}
/* Ok, p points to the enclosing CATCH_FRAME. Pop everything down to
* and including this frame, update Su, push R1, and enter the handler.
*/
- Su = ((StgCatchFrame *)p)->link;
handler = ((StgCatchFrame *)p)->handler;
Sp = (P_)p + sizeofW(StgCatchFrame);
CurrentTSO->blocked_exceptions = END_TSO_QUEUE;
}
- /* Enter the handler, passing the exception value and a realworld
+ /* Call the handler, passing the exception value and a realworld
* token as arguments.
*/
Sp -= 2;
+ Sp[1] = (W_)&stg_ap_v_info;
Sp[0] = R1.w;
- Sp[1] = ARG_TAG(0);
- TICK_ENT_VIA_NODE();
R1.cl = handler;
- JMP_(GET_ENTRY(R1.cl));
+ Sp--;
+ JMP_(stg_ap_p_ret);
+ FE_
+}
+FN_(raiseIOzh_fast)
+{
+ FB_
+ /* Args :: R1.p :: Exception */
+ JMP_(raisezh_fast);
FE_
}