X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=rts%2FSparks.h;h=cffe99dd390f82c0dccad5b1911c3b84c25826f2;hp=e2c60e96251d54d1200b2f7ad626aa9b39455c35;hb=HEAD;hpb=c373ebdb90edee470ad6fa8277cbe7aa369f23f8

diff --git a/rts/Sparks.h b/rts/Sparks.h
index e2c60e9..cffe99d 100644
--- a/rts/Sparks.h
+++ b/rts/Sparks.h
@@ -1,6 +1,6 @@
 /* -----------------------------------------------------------------------------
  *
- * (c) The GHC Team, 2000-2006
+ * (c) The GHC Team, 2000-2009
  *
  * Sparking support for GRAN, PAR and THREADED_RTS versions of the RTS.
  * 
@@ -9,108 +9,62 @@
 #ifndef SPARKS_H
 #define SPARKS_H
 
-#if defined(PARALLEL_HASKELL)
-#error Sparks.c using new internal structure, needs major overhaul!
-#endif
+#include "WSDeque.h"
+
+#include "BeginPrivate.h"
 
 /* typedef for SparkPool in RtsTypes.h */
 
 #if defined(THREADED_RTS)
 
-/* Spark pools: used to store pending sparks 
- *  (THREADED_RTS & PARALLEL_HASKELL only)
- * Implementation uses a DeQue to enable concurrent read accesses at
- * the top end.
- */
-typedef struct  SparkPool_ {
-  /* Size of elements array. Used for modulo calculation: we round up
-     to powers of 2 and use the dyadic log (modulo == bitwise &) */
-  StgWord size; 
-  StgWord moduloSize; /* bitmask for modulo */
-
-  /* top, index where multiple readers steal() (protected by a cas) */
-  volatile StgWord top;
-
-  /* bottom, index of next free place where one writer can push
-     elements. This happens unsynchronised. */
-  volatile StgWord bottom;
-  /* both position indices are continuously incremented, and used as
-     an index modulo the current array size. */
-  
-  /* lower bound on the current top value. This is an internal
-     optimisation to avoid unnecessarily accessing the top field
-     inside pushBottom */
-  volatile StgWord topBound;
-
-  /* The elements array */
-  StgClosurePtr* elements;
-  /*  Please note: the dataspace cannot follow the admin fields
-      immediately, as it should be possible to enlarge it without
-      disposing the old one automatically (as realloc would)! */
-
-} SparkPool;
-
-
-/* INVARIANTS, in this order: reasonable size,
-   topBound consistent, space pointer, space accessible to us.
-   
-   NB. This is safe to use only (a) on a spark pool owned by the
-   current thread, or (b) when there's only one thread running, or no
-   stealing going on (e.g. during GC).
-*/
-#define ASSERT_SPARK_POOL_INVARIANTS(p)         \
-  ASSERT((p)->size > 0);                        \
-  ASSERT((p)->topBound <= (p)->top);            \
-  ASSERT((p)->elements != NULL);                \
-  ASSERT(*((p)->elements) || 1);                \
-  ASSERT(*((p)->elements - 1  + ((p)->size)) || 1);
-
-// No: it is possible that top > bottom when using reclaimSpark()
-//  ASSERT((p)->bottom >= (p)->top);           
-//  ASSERT((p)->size > (p)->bottom - (p)->top);
+typedef WSDeque SparkPool;
 
 // Initialisation
 void initSparkPools (void);
 
 // Take a spark from the "write" end of the pool.  Can be called
 // by the pool owner only.
-StgClosure* reclaimSpark(SparkPool *pool);
+INLINE_HEADER StgClosure* reclaimSpark(SparkPool *pool);
 
 // Returns True if the spark pool is empty (can give a false positive
 // if the pool is almost empty).
-rtsBool looksEmpty(SparkPool* deque);
+INLINE_HEADER rtsBool looksEmpty(SparkPool* deque);
 
 StgClosure * tryStealSpark     (Capability *cap);
 void         freeSparkPool     (SparkPool *pool);
 void         createSparkThread (Capability *cap);
 void         traverseSparkQueue(evac_fn evac, void *user, Capability *cap);
-void         pruneSparkQueue   (evac_fn evac, void *user, Capability *cap);
+void         pruneSparkQueue   (Capability *cap);
 
 INLINE_HEADER void discardSparks  (SparkPool *pool);
-INLINE_HEADER nat  sparkPoolSize  (SparkPool *pool);
-#endif
+INLINE_HEADER long sparkPoolSize  (SparkPool *pool);
 
 /* -----------------------------------------------------------------------------
  * PRIVATE below here
  * -------------------------------------------------------------------------- */
 
-#if defined(PARALLEL_HASKELL) || defined(THREADED_RTS)
+INLINE_HEADER StgClosure* reclaimSpark(SparkPool *pool)
+{
+    return popWSDeque(pool);
+}
 
-INLINE_HEADER rtsBool  
-emptySparkPool (SparkPool *pool) 
-{ return looksEmpty(pool); }
+INLINE_HEADER rtsBool looksEmpty(SparkPool* deque)
+{
+    return looksEmptyWSDeque(deque);
+}
 
-INLINE_HEADER nat
-sparkPoolSize (SparkPool *pool) 
-{ return (pool->bottom - pool->top); }
+INLINE_HEADER long sparkPoolSize (SparkPool *pool) 
+{ 
+    return dequeElements(pool);
+}
 
-INLINE_HEADER void
-discardSparks (SparkPool *pool)
+INLINE_HEADER void discardSparks (SparkPool *pool)
 {
-    pool->top = pool->bottom;
-//    pool->topBound = pool->top;
+    discardElements(pool);
 }
 
-#endif
+#endif // THREADED_RTS
+
+#include "EndPrivate.h"
 
 #endif /* SPARKS_H */