+#if SIZEOF_VOID_P == 4
+/* On a 32-bit machine a 4KB table is always sufficient */
+# define MBLOCK_MAP_SIZE 4096
+# define MBLOCK_MAP_ENTRY(p) ((StgWord)(p) >> MBLOCK_SHIFT)
+# define HEAP_ALLOCED(p) mblock_map[MBLOCK_MAP_ENTRY(p)]
+# define MARK_HEAP_ALLOCED(p) (mblock_map[MBLOCK_MAP_ENTRY(p)] = 1)
+
+#elif defined(ia64_TARGET_ARCH)
+/* Instead of trying to cover the whole 64-bit address space (which would
+ * require a better data structure), we assume that mmap allocates mappings
+ * from the bottom of region 1, and track some portion of address space from
+ * there upwards (currently 4GB). */
+# define MBLOCK_MAP_SIZE 4096
+# define MBLOCK_MAP_ENTRY(p) (((StgWord)(p) - (1UL << 61)) >> MBLOCK_SHIFT)
+# define HEAP_ALLOCED(p) ((MBLOCK_MAP_ENTRY(p) < MBLOCK_MAP_SIZE) \
+ && mblock_map[MBLOCK_MAP_ENTRY(p)])
+# define MARK_HEAP_ALLOCED(p) ((MBLOCK_MAP_ENTRY(p) < MBLOCK_MAP_SIZE) \
+ && (mblock_map[MBLOCK_MAP_ENTRY(p)] = 1))
+
+#elif SIZEOF_VOID_P == 8
+/* XXX: This is a HACK, and will not work in general! We just use the
+ * lower 32 bits of the address, and do the same as for the 32-bit
+ * version. As long as the OS gives us memory in a roughly linear
+ * fashion, it won't go wrong until we've allocated 4G. */
+# define MBLOCK_MAP_SIZE 4096
+# define MBLOCK_MAP_ENTRY(p) (((StgWord)(p) & 0xffffffff) >> MBLOCK_SHIFT)
+# define HEAP_ALLOCED(p) (mblock_map[MBLOCK_MAP_ENTRY(p)])
+# define MARK_HEAP_ALLOCED(p) (mblock_map[MBLOCK_MAP_ENTRY(p)] = 1)