/* -----------------------------------------------------------------------------
- * $Id: TSO.h,v 1.15 2000/03/31 03:09:35 hwloidl Exp $
+ * $Id: TSO.h,v 1.27 2002/06/26 08:18:41 stolz Exp $
*
* (c) The GHC Team, 1998-1999
*
#if defined(GRAN) || defined(PAR)
-#if DEBUG // && PARANOIA_LEVEL>999
-// magic marker for TSOs; debugging only
+#if DEBUG
#define TSO_MAGIC 4321
#endif
} StgTSOParInfo;
#endif /* PAR */
+#if defined(DIST)
+typedef struct {
+ StgThreadPriority priority;
+ StgInt revalTid; /* ToDo: merge both into 1 word */
+ StgInt revalSlot;
+} StgTSODistInfo;
+#else /* !DIST */
+typedef struct {
+} StgTSODistInfo;
+#endif /* DIST */
+
#if defined(GRAN)
typedef StgTSOStatBuf StgTSOGranInfo;
#else /* !GRAN */
typedef enum {
ThreadEnterGHC, /* enter top thunk on stack */
ThreadRunGHC, /* return to address on top of stack */
- ThreadEnterHugs, /* enter top thunk on stack (w/ interpreter) */
+ ThreadEnterInterp, /* enter top thunk on stack (w/ interpreter) */
ThreadKilled, /* thread has died, don't run it */
ThreadRelocated, /* thread has moved, link points to new locn */
ThreadComplete /* thread has finished */
} StgTSOWhatNext;
/*
- * We are completely paranoid and make thread IDs 64 bits to avoid
- * having to worry about overflow. A little calculation shows that
- * even doing 10^6 forks per second would take 35 million years to
- * overflow a 64 bit thread ID :-)
- *
+ * Thread IDs are 32 bits.
*/
typedef StgWord32 StgThreadID;
ThreadFinished
} StgThreadReturnCode;
+/*
+ * We distinguish between the various classes of threads in the system.
+ */
+
+typedef enum {
+ AdvisoryPriority,
+ MandatoryPriority,
+ RevalPriority
+} StgThreadPriority;
+
/*
* Threads may be blocked for several reasons. A blocked thread will
* have the reason in the why_blocked field of the TSO, and some
, BlockedOnGA // blocked on a remote closure represented by a Global Address
, BlockedOnGA_NoSend // same as above but without sending a Fetch message
#endif
+#if defined(RTS_SUPPORTS_THREADS)
+ , BlockedOnCCall
+#endif
} StgTSOBlockReason;
typedef union {
StgClosure *closure;
struct StgTSO_ *tso;
int fd;
-#if defined(INTERPRETER) && !defined(HAVE_SETITIMER)
unsigned int target;
-#else
- unsigned int delay;
-#endif
} StgTSOBlockInfo;
/*
* storage manager, and won't be copied during garbage collection.
*/
+/*
+ * ToDo: make this structure sensible on a non-32-bit arch.
+ */
+
typedef struct StgTSO_ {
StgHeader header;
StgMutClosure * mut_link; /* TSO's are mutable of course! */
struct StgTSO_* global_link; /* Links all threads together */
- StgTSOWhatNext what_next;
- StgTSOBlockReason why_blocked;
+ StgTSOWhatNext what_next : 16;
+ StgTSOBlockReason why_blocked : 16;
StgTSOBlockInfo block_info;
struct StgTSO_* blocked_exceptions;
StgThreadID id;
+
StgTSOTickyInfo ticky;
StgTSOProfInfo prof;
StgTSOParInfo par;
StgTSOGranInfo gran;
-
+ StgTSODistInfo dist;
+
/* The thread stack... */
StgWord stack_size; /* stack size in *words* */
StgWord max_stack_size; /* maximum stack size in *words* */
StgPtr sp;
StgUpdateFrame* su;
- StgPtr splim;
- StgWord stack[0];
+ StgWord stack[FLEXIBLE_ARRAY];
} StgTSO;
/* -----------------------------------------------------------------------------
tso->stack < tso->sp < tso->stack+tso->stack_size
tso->stack_size <= tso->max_stack_size
- tso->splim == tso->stack + RESERVED_STACK_WORDS;
RESERVED_STACK_WORDS is large enough for any heap-check or
stack-check failure.
extern StgTSO dummy_tso;
#define TSO_STRUCT_SIZE \
- ((int)&(dummy_tso).stack - (int)&(dummy_tso).header)
+ ((char *)&dummy_tso.stack - (char *)&dummy_tso.header)
#define TSO_STRUCT_SIZEW (TSO_STRUCT_SIZE / sizeof(W_))