jump %GET_ENTRY(R1);
}
-INFO_TABLE(stg_IND_PERM,1,1,IND_PERM,"IND_PERM","IND_PERM")
+INFO_TABLE(stg_IND_PERM,1,0,IND_PERM,"IND_PERM","IND_PERM")
{
/* Don't add INDs to granularity cost */
}
-INFO_TABLE(stg_IND_OLDGEN,1,1,IND_OLDGEN,"IND_OLDGEN","IND_OLDGEN")
+INFO_TABLE(stg_IND_OLDGEN,1,0,IND_OLDGEN,"IND_OLDGEN","IND_OLDGEN")
{
TICK_ENT_STATIC_IND(); /* tick */
R1 = StgInd_indirectee(R1);
jump %GET_ENTRY(R1);
}
-INFO_TABLE(stg_IND_OLDGEN_PERM,1,1,IND_OLDGEN_PERM,"IND_OLDGEN_PERM","IND_OLDGEN_PERM")
+INFO_TABLE(stg_IND_OLDGEN_PERM,1,0,IND_OLDGEN_PERM,"IND_OLDGEN_PERM","IND_OLDGEN_PERM")
{
/* Don't: TICK_ENT_STATIC_IND(Node); for ticky-ticky;
this ind is here only to help profiling */
waiting for the evaluation of the closure to finish.
------------------------------------------------------------------------- */
-/* Note: a BLACKHOLE and BLACKHOLE_BQ must be big enough to be
+/* Note: a BLACKHOLE must be big enough to be
* overwritten with an indirection/evacuee/catch. Thus we claim it
- * has 1 non-pointer word of payload (in addition to the pointer word
- * for the blocking queue in a BQ), which should be big enough for an
- * old-generation indirection.
+ * has 1 non-pointer word of payload.
*/
-INFO_TABLE(stg_BLACKHOLE,0,2,BLACKHOLE,"BLACKHOLE","BLACKHOLE")
+INFO_TABLE(stg_BLACKHOLE,0,1,BLACKHOLE,"BLACKHOLE","BLACKHOLE")
{
#if defined(GRAN)
/* Before overwriting TSO_LINK */
TICK_ENT_BH();
- /* Actually this is not necessary because R1 is about to be destroyed. */
- LDV_ENTER(R1);
-
- /* Put ourselves on the blocking queue for this black hole */
- StgTSO_link(CurrentTSO) = stg_END_TSO_QUEUE_closure;
- StgBlockingQueue_blocking_queue(R1) = CurrentTSO;
-
- /* jot down why and on what closure we are blocked */
- StgTSO_why_blocked(CurrentTSO) = BlockedOnBlackHole::I16;
- StgTSO_block_info(CurrentTSO) = R1;
-
- /* Change the BLACKHOLE into a BLACKHOLE_BQ */
-#ifdef PROFILING
- /* The size remains the same, so we call LDV_recordDead() -
- no need to fill slop. */
- foreign "C" LDV_recordDead(R1 "ptr", BYTES_TO_WDS(SIZEOF_StgBlockingQueue));
+#ifdef THREADED_RTS
+ // foreign "C" debugBelch("BLACKHOLE entry\n");
#endif
- /*
- * Todo: maybe use SET_HDR() and remove LDV_RECORD_CREATE()?
- */
- StgHeader_info(R1) = stg_BLACKHOLE_BQ_info;
-#ifdef PROFILING
- foreign "C" LDV_RECORD_CREATE(R1);
-#endif
-
- /* closure is mutable since something has just been added to its BQ */
- foreign "C" recordMutable(R1 "ptr");
- /* PAR: dumping of event now done in blockThread -- HWL */
-
- /* stg_gen_block is too heavyweight, use a specialised one */
- jump stg_block_1;
-}
+ /* Actually this is not necessary because R1 is about to be destroyed. */
+ LDV_ENTER(R1);
-INFO_TABLE(stg_BLACKHOLE_BQ,1,1,BLACKHOLE_BQ,"BLACKHOLE_BQ","BLACKHOLE_BQ")
-{
-#if defined(GRAN)
- /* Before overwriting TSO_LINK */
- STGCALL3(GranSimBlock,CurrentTSO,CurrentProc,(StgClosure *)R1 /*Node*/);
+#if defined(THREADED_RTS)
+ foreign "C" ACQUIRE_LOCK(sched_mutex "ptr");
+ // released in stg_block_blackhole_finally
#endif
- TICK_ENT_BH();
- LDV_ENTER(R1);
-
- /* Put ourselves on the blocking queue for this black hole */
- StgTSO_link(CurrentTSO) = StgBlockingQueue_blocking_queue(R1);
- StgBlockingQueue_blocking_queue(R1) = CurrentTSO;
+ /* Put ourselves on the blackhole queue */
+ StgTSO_link(CurrentTSO) = W_[blackhole_queue];
+ W_[blackhole_queue] = CurrentTSO;
/* jot down why and on what closure we are blocked */
StgTSO_why_blocked(CurrentTSO) = BlockedOnBlackHole::I16;
StgTSO_block_info(CurrentTSO) = R1;
- /* PAR: dumping of event now done in blockThread -- HWL */
-
- /* stg_gen_block is too heavyweight, use a specialised one */
- jump stg_block_1;
+ jump stg_block_blackhole;
}
-/*
- Revertible black holes are needed in the parallel world, to handle
- negative acknowledgements of messages containing updatable closures.
- The idea is that when the original message is transmitted, the closure
- is turned into a revertible black hole...an object which acts like a
- black hole when local threads try to enter it, but which can be reverted
- back to the original closure if necessary.
-
- It's actually a lot like a blocking queue (BQ) entry, because revertible
- black holes are initially set up with an empty blocking queue.
-*/
-
#if defined(PAR) || defined(GRAN)
INFO_TABLE(stg_RBH,1,1,RBH,"RBH","RBH")
#endif /* defined(PAR) || defined(GRAN) */
/* identical to BLACKHOLEs except for the infotag */
-INFO_TABLE(stg_CAF_BLACKHOLE,0,2,CAF_BLACKHOLE,"CAF_BLACKHOLE","CAF_BLACKHOLE")
+INFO_TABLE(stg_CAF_BLACKHOLE,0,1,CAF_BLACKHOLE,"CAF_BLACKHOLE","CAF_BLACKHOLE")
{
#if defined(GRAN)
/* mainly statistics gathering for GranSim simulation */
TICK_ENT_BH();
LDV_ENTER(R1);
- /* Put ourselves on the blocking queue for this black hole */
- StgTSO_link(CurrentTSO) = stg_END_TSO_QUEUE_closure;
- StgBlockingQueue_blocking_queue(R1) = CurrentTSO;
+#if defined(THREADED_RTS)
+ // foreign "C" debugBelch("BLACKHOLE entry\n");
+#endif
+
+#if defined(THREADED_RTS)
+ foreign "C" ACQUIRE_LOCK(sched_mutex "ptr");
+ // released in stg_block_blackhole_finally
+#endif
+
+ /* Put ourselves on the blackhole queue */
+ StgTSO_link(CurrentTSO) = W_[blackhole_queue];
+ W_[blackhole_queue] = CurrentTSO;
/* jot down why and on what closure we are blocked */
StgTSO_why_blocked(CurrentTSO) = BlockedOnBlackHole::I16;
StgTSO_block_info(CurrentTSO) = R1;
- /* Change the CAF_BLACKHOLE into a BLACKHOLE_BQ_STATIC */
- StgHeader_info(R1) = stg_BLACKHOLE_BQ_info;
-
- /* closure is mutable since something has just been added to its BQ */
- foreign "C" recordMutable(R1 "ptr");
-
- /* PAR: dumping of event now done in blockThread -- HWL */
-
- /* stg_gen_block is too heavyweight, use a specialised one */
- jump stg_block_1;
+ jump stg_block_blackhole;
}
#ifdef EAGER_BLACKHOLING
-INFO_TABLE(stg_SE_BLACKHOLE_info, stg_SE_BLACKHOLE_entry,0,2,SE_BLACKHOLE,,IF_,"SE_BLACKHOLE","SE_BLACKHOLE");
-IF_(stg_SE_BLACKHOLE_entry)
-{
- STGCALL3(fprintf,stderr,"SE_BLACKHOLE at %p entered!\n",R1);
- STGCALL1(shutdownHaskellAndExit,EXIT_FAILURE);
-}
+INFO_TABLE(stg_SE_BLACKHOLE,0,1,SE_BLACKHOLE,"SE_BLACKHOLE","SE_BLACKHOLE")
+{ foreign "C" barf("SE_BLACKHOLE object entered!"); }
-INFO_TABLE(stg_SE_CAF_BLACKHOLE_info, SE_CAF_BLACKHOLE_entry,0,2,SE_CAF_BLACKHOLE,,IF_,"CAF_BLACKHOLE","CAF_BLACKHOLE");
-IF_(stg_SE_CAF_BLACKHOLE_entry)
-{
- STGCALL3(fprintf,stderr,"SE_CAF_BLACKHOLE at %p entered!\n",R1);
- STGCALL1(shutdownHaskellAndExit,EXIT_FAILURE);
-}
+INFO_TABLE(stg_SE_CAF_BLACKHOLE,0,1,SE_CAF_BLACKHOLE,"SE_CAF_BLACKHOLE","SE_CAF_BLACKHOLE")
+{ foreign "C" barf("SE_CAF_BLACKHOLE object entered!"); }
#endif
/* ----------------------------------------------------------------------------
+ Whiteholes are used for the "locked" state of a closure (see lockClosure())
+
+ The closure type is BLAKCHOLE, just because we need a valid closure type
+ for sanity checking.
+ ------------------------------------------------------------------------- */
+
+INFO_TABLE(stg_WHITEHOLE, 0,0, BLACKHOLE, "WHITEHOLE", "WHITEHOLE")
+{ foreign "C" barf("WHITEHOLE object entered!"); }
+
+/* ----------------------------------------------------------------------------
Some static info tables for things that don't get entered, and
therefore don't need entry code (i.e. boxed but unpointed objects)
NON_ENTERABLE_ENTRY_CODE now defined at the beginning of the file
CLOSURE(stg_NO_FINALIZER_closure,stg_NO_FINALIZER);
/* ----------------------------------------------------------------------------
- Foreign Objects are unlifted and therefore never entered.
- ------------------------------------------------------------------------- */
-
-INFO_TABLE(stg_FOREIGN,0,1,FOREIGN,"FOREIGN","FOREIGN")
-{ foreign "C" barf("FOREIGN object entered!"); }
-
-/* ----------------------------------------------------------------------------
Stable Names are unlifted too.
------------------------------------------------------------------------- */
and entry code for each type.
------------------------------------------------------------------------- */
-INFO_TABLE(stg_FULL_MVAR,4,0,MVAR,"MVAR","MVAR")
+INFO_TABLE(stg_FULL_MVAR,3,0,MVAR,"MVAR","MVAR")
{ foreign "C" barf("FULL_MVAR object entered!"); }
-INFO_TABLE(stg_EMPTY_MVAR,4,0,MVAR,"MVAR","MVAR")
+INFO_TABLE(stg_EMPTY_MVAR,3,0,MVAR,"MVAR","MVAR")
{ foreign "C" barf("EMPTY_MVAR object entered!"); }
+/* -----------------------------------------------------------------------------
+ STM
+ -------------------------------------------------------------------------- */
+
+INFO_TABLE(stg_TVAR, 0, 0, TVAR, "TVAR", "TVAR")
+{ foreign "C" barf("TVAR object entered!"); }
+
+INFO_TABLE(stg_TVAR_WAIT_QUEUE, 0, 0, TVAR_WAIT_QUEUE, "TVAR_WAIT_QUEUE", "TVAR_WAIT_QUEUE")
+{ foreign "C" barf("TVAR_WAIT_QUEUE object entered!"); }
+
+INFO_TABLE(stg_TREC_CHUNK, 0, 0, TREC_CHUNK, "TREC_CHUNK", "TREC_CHUNK")
+{ foreign "C" barf("TREC_CHUNK object entered!"); }
+
+INFO_TABLE(stg_TREC_HEADER, 0, 0, TREC_HEADER, "TREC_HEADER", "TREC_HEADER")
+{ foreign "C" barf("TREC_HEADER object entered!"); }
+
+INFO_TABLE_CONSTR(stg_END_STM_WAIT_QUEUE,0,0,0,CONSTR_NOCAF_STATIC,"END_STM_WAIT_QUEUE","END_STM_WAIT_QUEUE")
+{ foreign "C" barf("END_STM_WAIT_QUEUE object entered!"); }
+
+INFO_TABLE_CONSTR(stg_END_STM_CHUNK_LIST,0,0,0,CONSTR_NOCAF_STATIC,"END_STM_CHUNK_LIST","END_STM_CHUNK_LIST")
+{ foreign "C" barf("END_STM_CHUNK_LIST object entered!"); }
+
+INFO_TABLE_CONSTR(stg_NO_TREC,0,0,0,CONSTR_NOCAF_STATIC,"NO_TREC","NO_TREC")
+{ foreign "C" barf("NO_TREC object entered!"); }
+
+CLOSURE(stg_END_STM_WAIT_QUEUE_closure,stg_END_STM_WAIT_QUEUE);
+
+CLOSURE(stg_END_STM_CHUNK_LIST_closure,stg_END_STM_CHUNK_LIST);
+
+CLOSURE(stg_NO_TREC_closure,stg_NO_TREC);
+
/* ----------------------------------------------------------------------------
END_TSO_QUEUE
CLOSURE(stg_END_TSO_QUEUE_closure,stg_END_TSO_QUEUE);
/* ----------------------------------------------------------------------------
- Mutable lists
-
- Mutable lists (used by the garbage collector) consist of a chain of
- StgMutClosures connected through their mut_link fields, ending in
- an END_MUT_LIST closure.
- ------------------------------------------------------------------------- */
-
-INFO_TABLE_CONSTR(stg_END_MUT_LIST,0,0,0,CONSTR_NOCAF_STATIC,"END_MUT_LIST","END_MUT_LIST")
-{ foreign "C" barf("END_MUT_LIST object entered!"); }
-
-CLOSURE(stg_END_MUT_LIST_closure,stg_END_MUT_LIST);
-
-INFO_TABLE(stg_MUT_CONS, 1, 1, MUT_CONS, "MUT_CONS", "MUT_CONS")
-{ foreign "C" barf("MUT_CONS object entered!"); }
-
-/* ----------------------------------------------------------------------------
Exception lists
------------------------------------------------------------------------- */
INFO_TABLE(stg_ARR_WORDS, 0, 0, ARR_WORDS, "ARR_WORDS", "ARR_WORDS")
{ foreign "C" barf("ARR_WORDS object entered!"); }
-INFO_TABLE(stg_MUT_ARR_PTRS, 0, 0, MUT_ARR_PTRS, "MUT_ARR_PTRS", "MUT_ARR_PTRS")
-{ foreign "C" barf("MUT_ARR_PTRS object entered!"); }
+INFO_TABLE(stg_MUT_ARR_PTRS_CLEAN, 0, 0, MUT_ARR_PTRS_CLEAN, "MUT_ARR_PTRS_CLEAN", "MUT_ARR_PTRS_CLEAN")
+{ foreign "C" barf("MUT_ARR_PTRS_CLEAN object entered!"); }
+
+INFO_TABLE(stg_MUT_ARR_PTRS_DIRTY, 0, 0, MUT_ARR_PTRS_DIRTY, "MUT_ARR_PTRS_DIRTY", "MUT_ARR_PTRS_DIRTY")
+{ foreign "C" barf("MUT_ARR_PTRS_DIRTY object entered!"); }
INFO_TABLE(stg_MUT_ARR_PTRS_FROZEN, 0, 0, MUT_ARR_PTRS_FROZEN, "MUT_ARR_PTRS_FROZEN", "MUT_ARR_PTRS_FROZEN")
{ foreign "C" barf("MUT_ARR_PTRS_FROZEN object entered!"); }
+INFO_TABLE(stg_MUT_ARR_PTRS_FROZEN0, 0, 0, MUT_ARR_PTRS_FROZEN0, "MUT_ARR_PTRS_FROZEN0", "MUT_ARR_PTRS_FROZEN0")
+{ foreign "C" barf("MUT_ARR_PTRS_FROZEN0 object entered!"); }
+
/* ----------------------------------------------------------------------------
Mutable Variables
------------------------------------------------------------------------- */
-INFO_TABLE(stg_MUT_VAR, 1, 1, MUT_VAR, "MUT_VAR", "MUT_VAR")
-{ foreign "C" barf("MUT_VAR object entered!"); }
+INFO_TABLE(stg_MUT_VAR_CLEAN, 1, 0, MUT_VAR_CLEAN, "MUT_VAR_CLEAN", "MUT_VAR_CLEAN")
+{ foreign "C" barf("MUT_VAR_CLEAN object entered!"); }
+INFO_TABLE(stg_MUT_VAR_DIRTY, 1, 0, MUT_VAR_DIRTY, "MUT_VAR_DIRTY", "MUT_VAR_DIRTY")
+{ foreign "C" barf("MUT_VAR_DIRTY object entered!"); }
/* ----------------------------------------------------------------------------
Dummy return closure