// where objects to be scavenged go
bdescr * todo_bd;
+ StgPtr todo_free; // free ptr for todo_bd
+ StgPtr todo_lim; // lim for todo_bd
+
bdescr * buffer_todo_bd; // buffer to reduce contention
// on the step's todos list
#endif
nat thread_index; // a zero based index identifying the thread
- step_workspace ** steps; // 2-d array (gen,step) of workspaces
-
bdescr * free_blocks; // a buffer of free blocks for this thread
// during GC without accessing the block
// allocators spin lock.
// optimise it into a per-thread
// variable).
- rtsBool failed_to_evac; // failue to evacuate an object typically
- // causes it to be recorded in the mutable
- // object list
+ rtsBool failed_to_evac; // failure to evacuate an object typically
+ // causes it to be recorded in the mutable
+ // object list
rtsBool eager_promotion; // forces promotion to the evac gen
// instead of the to-space
#ifdef USE_PAPI
int papi_events;
#endif
-
+
+ // -------------------
+ // workspaces
+
+ // array of workspaces, indexed by stp->abs_no. This is placed
+ // directly at the end of the gc_thread structure so that we can get from
+ // the gc_thread pointer to a workspace using only pointer
+ // arithmetic, no memory access. This happens in the inner loop
+ // of the GC, see Evac.c:alloc_for_copy().
+ step_workspace steps[];
} gc_thread;
extern nat N;
extern rtsBool major_gc;
-extern gc_thread *gc_threads;
+extern gc_thread **gc_threads;
register gc_thread *gct __asm__("%rbx");
// extern gc_thread *gct; // this thread's gct TODO: make thread-local
extern StgPtr oldgen_scan;
extern long copied;
-extern long scavd_copied;
#ifdef THREADED_RTS
extern SpinLock static_objects_sync;