+#else
+char *info_type(StgClosure *closure); // dummy
+char *info_type_by_ip(StgInfoTable *ip); // dummy
+void awaken_blocked_queue(StgTSO *q);
+void initThread(StgTSO *tso, nat stack_size);
+#endif
+
+/* Context switch flag.
+ * Locks required : none (conflicts are harmless)
+ */
+extern int RTS_VAR(context_switch);
+
+/* Interrupted flag.
+ * Locks required : none (makes one transition from false->true)
+ */
+extern rtsBool RTS_VAR(interrupted);
+
+/* Shutdown flag.
+ * Locks required : none (makes one transition from false->true)
+ */
+extern rtsBool shutting_down_scheduler;
+
+/*
+ * flag that tracks whether we have done any execution in this time slice.
+ */
+#define ACTIVITY_YES 0 /* there has been activity in the current slice */
+#define ACTIVITY_MAYBE_NO 1 /* no activity in the current slice */
+#define ACTIVITY_INACTIVE 2 /* a complete slice has passed with no activity */
+#define ACTIVITY_DONE_GC 3 /* like 2, but we've done a GC too */
+
+/* Recent activity flag.
+ * Locks required : Transition from MAYBE_NO to INACTIVE
+ * happens in the timer signal, so it is atomic. Trnasition from
+ * INACTIVE to DONE_GC happens under sched_mutex. No lock required
+ * to set it to ACTIVITY_YES.
+ */
+extern nat recent_activity;
+
+/* Thread queues.
+ * Locks required : sched_mutex
+ *
+ * In GranSim we have one run/blocked_queue per PE.
+ */
+#if defined(GRAN)
+// run_queue_hds defined in GranSim.h
+#else
+extern StgTSO *RTS_VAR(blackhole_queue);
+#if !defined(THREADED_RTS)
+extern StgTSO *RTS_VAR(blocked_queue_hd), *RTS_VAR(blocked_queue_tl);
+extern StgTSO *RTS_VAR(sleeping_queue);
+#endif
+#endif
+
+/* Linked list of all threads.
+ * Locks required : sched_mutex
+ */
+extern StgTSO *RTS_VAR(all_threads);
+
+/* Set to rtsTrue if there are threads on the blackhole_queue, and
+ * it is possible that one or more of them may be available to run.
+ * This flag is set to rtsFalse after we've checked the queue, and
+ * set to rtsTrue just before we run some Haskell code. It is used
+ * to decide whether we should yield the Capability or not.
+ * Locks required : none (see scheduleCheckBlackHoles()).
+ */
+extern rtsBool blackholes_need_checking;
+
+#if defined(THREADED_RTS)
+extern Mutex RTS_VAR(sched_mutex);
+#endif
+
+StgBool isThreadBound(StgTSO *tso);
+
+SchedulerStatus rts_mainLazyIO(HaskellObj p, /*out*/HaskellObj *ret);
+
+/* Called by shutdown_handler(). */
+void interruptStgRts (void);
+
+nat run_queue_len (void);
+
+void resurrectThreads (StgTSO *);
+
+void printAllThreads(void);
+
+/* debugging only
+ */
+#ifdef DEBUG
+void print_bq (StgClosure *node);
+#endif
+#if defined(PAR)
+void print_bqe (StgBlockingQueueElement *bqe);
+#endif
+
+void labelThread(StgPtr tso, char *label);
+
+/* -----------------------------------------------------------------------------
+ * Some convenient macros/inline functions...
+ */
+
+#if !IN_STG_CODE
+
+/* END_TSO_QUEUE and friends now defined in includes/StgMiscClosures.h */
+
+/* Add a thread to the end of the run queue.
+ * NOTE: tso->link should be END_TSO_QUEUE before calling this macro.
+ * ASSUMES: cap->running_task is the current task.
+ */
+STATIC_INLINE void
+appendToRunQueue (Capability *cap, StgTSO *tso)
+{
+ ASSERT(tso->link == END_TSO_QUEUE);
+ if (cap->run_queue_hd == END_TSO_QUEUE) {
+ cap->run_queue_hd = tso;
+ } else {
+ cap->run_queue_tl->link = tso;
+ }
+ cap->run_queue_tl = tso;
+}
+
+/* Push a thread on the beginning of the run queue. Used for
+ * newly awakened threads, so they get run as soon as possible.
+ * ASSUMES: cap->running_task is the current task.
+ */
+STATIC_INLINE void
+pushOnRunQueue (Capability *cap, StgTSO *tso)
+{
+ tso->link = cap->run_queue_hd;
+ cap->run_queue_hd = tso;
+ if (cap->run_queue_tl == END_TSO_QUEUE) {
+ cap->run_queue_tl = tso;
+ }
+}
+
+/* Pop the first thread off the runnable queue.
+ */
+STATIC_INLINE StgTSO *
+popRunQueue (Capability *cap)
+{
+ StgTSO *t = cap->run_queue_hd;
+ ASSERT(t != END_TSO_QUEUE);
+ cap->run_queue_hd = t->link;
+ t->link = END_TSO_QUEUE;
+ if (cap->run_queue_hd == END_TSO_QUEUE) {
+ cap->run_queue_tl = END_TSO_QUEUE;
+ }
+ return t;
+}
+
+/* Add a thread to the end of the blocked queue.
+ */
+#if !defined(THREADED_RTS)
+STATIC_INLINE void
+appendToBlockedQueue(StgTSO *tso)
+{
+ ASSERT(tso->link == END_TSO_QUEUE);
+ if (blocked_queue_hd == END_TSO_QUEUE) {
+ blocked_queue_hd = tso;
+ } else {
+ blocked_queue_tl->link = tso;
+ }
+ blocked_queue_tl = tso;
+}
+#endif
+
+/* Check whether various thread queues are empty
+ */
+STATIC_INLINE rtsBool
+emptyQueue (StgTSO *q)
+{
+ return (q == END_TSO_QUEUE);
+}
+
+STATIC_INLINE rtsBool
+emptyRunQueue(Capability *cap)
+{
+ return emptyQueue(cap->run_queue_hd);
+}