replace sparc-specific Int64 code with calls to platform-independent macros

[ghc-hetmet.git] / includes / Block.h

diff --git a/includes/Block.h b/includes/Block.h
index 7721765..ec894da 100644 (file)
--- a/includes/Block.h
+++ b/includes/Block.h
@@ -54,6 +54,7 @@ typedef struct bdescr_ {
   union { 
       struct bdescr_ *back;    /* used (occasionally) for doubly-linked lists*/
       StgWord *bitmap;
+      StgPtr  scan;             /* scan pointer for copying GC */
   } u;
   unsigned int gen_no;         /* generation */
   struct step_ *step;          /* step */
@@ -83,12 +84,16 @@ typedef struct bdescr_ {
 #define BF_LARGE     2
 /* Block is pinned */
 #define BF_PINNED    4
-/* Block is part of a compacted generation */
-#define BF_COMPACTED 8
+/* Block is to be marked, not copied */
+#define BF_MARKED    8
 /* Block is free, and on the free list  (TODO: is this used?) */
 #define BF_FREE      16
 /* Block is executable */
 #define BF_EXEC             32
+/* Block contains only a small amount of live data */
+#define BF_FRAGMENTED 64
+/* we know about this block (for finding leaks) */
+#define BF_KNOWN     128
 
 /* Finding the block descriptor for a given block -------------------------- */
 
@@ -227,21 +232,39 @@ void freeChain(bdescr *p);
 void freeGroup_lock(bdescr *p);
 void freeChain_lock(bdescr *p);
 
-/* Round a value to megablocks --------------------------------------------- */
+bdescr * splitBlockGroup (bdescr *bd, nat blocks);
 
-#define WORDS_PER_MBLOCK  (BLOCKS_PER_MBLOCK * BLOCK_SIZE_W)
+/* Round a value to megablocks --------------------------------------------- */
 
+// We want to allocate an object around a given size, round it up or
+// down to the nearest size that will fit in an mblock group.
 INLINE_HEADER StgWord
 round_to_mblocks(StgWord words)
 {
-  if (words > WORDS_PER_MBLOCK) {
-    if ((words % WORDS_PER_MBLOCK) < (WORDS_PER_MBLOCK / 2)) {
-      words = (words / WORDS_PER_MBLOCK) * WORDS_PER_MBLOCK;
-    } else {
-      words = ((words / WORDS_PER_MBLOCK) + 1) * WORDS_PER_MBLOCK;
+    if (words > BLOCKS_PER_MBLOCK * BLOCK_SIZE_W) {
+        // first, ignore the gap at the beginning of the first mblock by
+        // adding it to the total words.  Then we can pretend we're
+        // dealing in a uniform unit of megablocks.
+        words += FIRST_BLOCK_OFF/sizeof(W_);
+
+        if ((words % MBLOCK_SIZE_W) < (MBLOCK_SIZE_W / 2)) {
+            words = (words / MBLOCK_SIZE_W) * MBLOCK_SIZE_W;
+        } else {
+            words = ((words / MBLOCK_SIZE_W) + 1) * MBLOCK_SIZE_W;
+        }
+
+        words -= FIRST_BLOCK_OFF/sizeof(W_);
     }
-  }
-  return words;
+    return words;
+}
+
+INLINE_HEADER StgWord
+round_up_to_mblocks(StgWord words)
+{
+    words += FIRST_BLOCK_OFF/sizeof(W_);
+    words = ((words / MBLOCK_SIZE_W) + 1) * MBLOCK_SIZE_W;
+    words -= FIRST_BLOCK_OFF/sizeof(W_);
+    return words;
 }
 
 #endif /* !CMINUSMINUS */