/* ----------------------------------------------------------------------------
- * $Id: InfoTables.h,v 1.17 1999/07/16 09:41:12 panne Exp $
*
- * (c) The GHC Team, 1998-1999
+ * (c) The GHC Team, 1998-2002
*
* Info Tables
*
Profiling info
-------------------------------------------------------------------------- */
-#ifdef PROFILING
-
-#define PROF_INFO_WORDS n
-
-typedef struct {
- /* nothing yet */
-} StgProfInfo;
-
-#else /* !PROFILING */
-
-#define PROF_INFO_WORDS 0
-
typedef struct {
- /* empty */
+ char *closure_type;
+ char *closure_desc;
} StgProfInfo;
-#endif /* PROFILING */
-
/* -----------------------------------------------------------------------------
Parallelism info
-------------------------------------------------------------------------- */
-#ifdef PAR
+#if 0 && (defined(PAR) || defined(GRAN))
-#define PAR_INFO_WORDS 0
+/* CURRENTLY UNUSED
+ ToDo: use this in StgInfoTable (mutually recursive) -- HWL */
typedef struct {
- /* empty */
+ StgInfoTable *rbh_infoptr; /* infoptr to the RBH */
} StgParInfo;
-#else /* !PAR */
+#endif /* 0 */
-#define PAR_INFO_WORDS 0
+/*
+ Copied from ghc-0.29; ToDo: check this code -- HWL
-typedef struct {
- /* empty */
-} StgParInfo;
+ In the parallel system, all updatable closures have corresponding
+ revertible black holes. When we are assembly-mangling, we guarantee
+ that the revertible black hole code precedes the normal entry code, so
+ that the RBH info table resides at a fixed offset from the normal info
+ table. Otherwise, we add the RBH info table pointer to the end of the
+ normal info table and vice versa.
+
+ Currently has to use a !RBH_MAGIC_OFFSET setting.
+ Still todo: init of par.infoptr field in all infotables!!
+*/
+
+#if defined(PAR) || defined(GRAN)
+
+# ifdef RBH_MAGIC_OFFSET
+
+# error magic offset not yet implemented
-#endif /* PAR */
+# define RBH_INFO_WORDS 0
+# define INCLUDE_RBH_INFO(infoptr)
+
+# define RBH_INFOPTR(infoptr) (((P_)infoptr) - RBH_MAGIC_OFFSET)
+# define REVERT_INFOPTR(infoptr) (((P_)infoptr) + RBH_MAGIC_OFFSET)
+
+# else
+
+# define RBH_INFO_WORDS 1
+# define INCLUDE_RBH_INFO(info) rbh_infoptr : &(info)
+
+# define RBH_INFOPTR(infoptr) (((StgInfoTable *)(infoptr))->rbh_infoptr)
+# define REVERT_INFOPTR(infoptr) (((StgInfoTable *)(infoptr))->rbh_infoptr)
+
+# endif
+
+/* see ParallelRts.h */
+/*
+EXTFUN(RBH_entry);
+StgClosure *convertToRBH(StgClosure *closure);
+#if defined(GRAN)
+void convertFromRBH(StgClosure *closure);
+#elif defined(PAR)
+void convertToFetchMe(StgPtr closure, globalAddr *ga);
+#endif
+*/
+
+#endif
+
+/* -----------------------------------------------------------------------------
+ Ticky info
+
+ There is no ticky-specific stuff in an info table at this time.
+ -------------------------------------------------------------------------- */
/* -----------------------------------------------------------------------------
Debugging info
#ifdef DEBUG_CLOSURE
-#define DEBUG_INFO_WORDS n
-
typedef struct {
... whatever ...
} StgDebugInfo;
#else /* !DEBUG_CLOSURE */
-#define DEBUG_INFO_WORDS 0
-
-typedef struct {
- /* empty */
-} StgDebugInfo;
+/* There is no DEBUG-specific stuff in an info table at this time. */
#endif /* DEBUG_CLOSURE */
+/* -----------------------------------------------------------------------------
+ Closure flags
+ -------------------------------------------------------------------------- */
+
/* The type flags provide quick access to certain properties of a closure. */
-#define _HNF (1<<0) /* head normal form? */
+#define _HNF (1<<0) /* head normal form? */
#define _BTM (1<<1) /* bitmap-style layout? */
-#define _NS (1<<2) /* non-sparkable */
-#define _STA (1<<3) /* static? */
-#define _THU (1<<4) /* thunk? */
-#define _MUT (1<<5) /* mutable? */
-#define _UPT (1<<6) /* unpointed? */
-#define _SRT (1<<7) /* has an SRT? */
+#define _NS (1<<2) /* non-sparkable */
+#define _STA (1<<3) /* static? */
+#define _THU (1<<4) /* thunk? */
+#define _MUT (1<<5) /* mutable? */
+#define _UPT (1<<6) /* unpointed? */
+#define _SRT (1<<7) /* has an SRT? */
+#define _IND (1<<8) /* is an indirection? */
#define isSTATIC(flags) ((flags) &_STA)
#define isMUTABLE(flags) ((flags) &_MUT)
#define closureFlags(c) (closure_flags[get_itbl(c)->type])
-#define closure_STATIC(c) ( closureFlags(c) & _STA)
+#define closure_HNF(c) ( closureFlags(c) & _HNF)
+#define closure_BITMAP(c) ( closureFlags(c) & _BTM)
+#define closure_NON_SPARK(c) ( (closureFlags(c) & _NS))
#define closure_SHOULD_SPARK(c) (!(closureFlags(c) & _NS))
+#define closure_STATIC(c) ( closureFlags(c) & _STA)
+#define closure_THUNK(c) ( closureFlags(c) & _THU)
#define closure_MUTABLE(c) ( closureFlags(c) & _MUT)
#define closure_UNPOINTED(c) ( closureFlags(c) & _UPT)
-
+#define closure_SRT(c) ( closureFlags(c) & _SRT)
+#define closure_IND(c) ( closureFlags(c) & _IND)
+
+/* same as above but for info-ptr rather than closure */
+#define ipFlags(ip) (closure_flags[ip->type])
+
+#define ip_HNF(ip) ( ipFlags(ip) & _HNF)
+#define ip_BITMAP(ip) ( ipFlags(ip) & _BTM)
+#define ip_SHOULD_SPARK(ip) (!(ipFlags(ip) & _NS))
+#define ip_STATIC(ip) ( ipFlags(ip) & _STA)
+#define ip_THUNK(ip) ( ipFlags(ip) & _THU)
+#define ip_MUTABLE(ip) ( ipFlags(ip) & _MUT)
+#define ip_UNPOINTED(ip) ( ipFlags(ip) & _UPT)
+#define ip_SRT(ip) ( ipFlags(ip) & _SRT)
+#define ip_IND(ip) ( ipFlags(ip) & _IND)
/* -----------------------------------------------------------------------------
- Info Tables
+ Bitmaps
+
+ These are used to describe the pointerhood of a sequence of words
+ (usually on the stack) to the garbage collector. The two primary
+ uses are for stack frames, and functions (where we need to describe
+ the layout of a PAP to the GC).
+
+ In these bitmaps: 0 == ptr, 1 == non-ptr.
-------------------------------------------------------------------------- */
-/* A large bitmap. Small 32-bit ones live in the info table, but sometimes
- * 32 bits isn't enough and we have to generate a larger one. (sizes
- * differ for 64-bit machines.
+/*
+ * Small bitmaps: for a small bitmap, we store the size and bitmap in
+ * the same word, using the following macros. If the bitmap doesn't
+ * fit in a single word, we use a pointer to an StgLargeBitmap below.
*/
+#define MK_SMALL_BITMAP(size,bits) (((bits)<<BITMAP_BITS_SHIFT) | (size))
+#define BITMAP_SIZE(bitmap) ((bitmap) & BITMAP_SIZE_MASK)
+#define BITMAP_BITS(bitmap) ((bitmap) >> BITMAP_BITS_SHIFT)
+
+/*
+ * A large bitmap.
+ */
typedef struct {
StgWord size;
- StgWord bitmap[0];
+ StgWord bitmap[FLEXIBLE_ARRAY];
} StgLargeBitmap;
+/* -----------------------------------------------------------------------------
+ SRTs (Static Reference Tables)
+
+ These tables are used to keep track of the static objects referred
+ to by the code for a closure or stack frame, so that we can follow
+ static data references from code and thus accurately
+ garbage-collect CAFs.
+ -------------------------------------------------------------------------- */
+
+/* An SRT is just an array of closure pointers: */
+typedef StgClosure* StgSRT[];
+
/*
- * Stuff describing the closure layout. Well, actually, it might
- * contain the selector index for a THUNK_SELECTOR. If we're on a
- * 64-bit architecture then we can enlarge some of these fields, since
- * the union contains a pointer field.
+ * Each info table refers to some subset of the closure pointers in an
+ * SRT. It does this using a pair of an StgSRT pointer and a
+ * half-word bitmap. If the half-word bitmap isn't large enough, then
+ * we fall back to a large SRT, including an unbounded bitmap. If the
+ * half-word bitmap is set to all ones (0xffff), then the StgSRT
+ * pointer instead points to an StgLargeSRT:
*/
+typedef struct StgLargeSRT_ {
+ StgSRT *srt;
+ StgLargeBitmap l;
+} StgLargeSRT;
+
+/* ----------------------------------------------------------------------------
+ Relative pointers
+
+ Several pointer fields in info tables are expressed as offsets
+ relative to the info pointer, so that we can generate
+ position-independent code.
+
+ There is a complication on the x86_64 platform, where pointeres are
+ 64 bits, but the tools don't support 64-bit relative relocations.
+ However, the default memory model (small) ensures that all symbols
+ have values in the lower 2Gb of the address space, so offsets all
+ fit in 32 bits. Hence we can use 32-bit offset fields.
+ ------------------------------------------------------------------------- */
+
+#if x86_64_TARGET_ARCH
+#define OFFSET_FIELD(n) StgHalfInt n; StgHalfWord __pad_##n;
+#else
+#define OFFSET_FIELD(n) StgInt n;
+#endif
+
+/* ----------------------------------------------------------------------------
+ Info Tables
+ ------------------------------------------------------------------------- */
+/*
+ * Stuff describing the closure layout. Well, actually, it might
+ * contain the selector index for a THUNK_SELECTOR. This union is one
+ * word long.
+ */
typedef union {
- struct {
-#if SIZEOF_VOID_P == 8
- StgWord32 ptrs; /* number of pointers */
- StgWord32 nptrs; /* number of non-pointers */
+ struct { /* Heap closure payload layout: */
+ StgHalfWord ptrs; /* number of pointers */
+ StgHalfWord nptrs; /* number of non-pointers */
+ } payload;
+
+ StgWord bitmap; /* word-sized bit pattern describing */
+ /* a stack frame: see below */
+
+#ifndef TABLES_NEXT_TO_CODE
+ StgLargeBitmap* large_bitmap; /* pointer to large bitmap structure */
#else
- StgWord16 ptrs; /* number of pointers */
- StgWord16 nptrs; /* number of non-pointers */
+ OFFSET_FIELD( large_bitmap_offset ); /* offset from info table to large bitmap structure */
#endif
- } payload;
+
+ StgWord selector_offset; /* used in THUNK_SELECTORs */
- StgWord bitmap; /* bit pattern, 1 = pointer, 0 = non-pointer */
- StgWord selector_offset; /* used in THUNK_SELECTORs */
- StgLargeBitmap* large_bitmap; /* pointer to large bitmap structure */
-
} StgClosureInfo;
+
/*
- * Info tables. All info tables are the same type, to simplify code
- * generation. However, the mangler removes any unused SRT fields
- * from the asm to save space (convention: if srt_len is zero, or the
- * type is a CONSTR_ type, then the SRT field isn't present.
+ * The "standard" part of an info table. Every info table has this bit.
*/
+typedef struct _StgInfoTable {
-typedef StgClosure* StgSRT[];
+#ifndef TABLES_NEXT_TO_CODE
+ StgFunPtr entry; /* pointer to the entry code */
+#endif
-typedef struct _StgInfoTable {
- StgSRT *srt; /* pointer to the SRT table */
-#ifdef PAR
- StgParInfo par;
+#if defined(PAR) || defined(GRAN)
+ struct _StgInfoTable *rbh_infoptr;
#endif
#ifdef PROFILING
- /* StgProfInfo prof; */
+ StgProfInfo prof;
+#endif
+#ifdef TICKY
+ /* Ticky-specific stuff would go here. */
#endif
#ifdef DEBUG_CLOSURE
- StgDebugInfo debug;
+ /* Debug-specific stuff would go here. */
+#endif
+
+ StgClosureInfo layout; /* closure layout info (one word) */
+
+ StgHalfWord type; /* closure type */
+ StgHalfWord srt_bitmap; /* number of entries in SRT (or constructor tag) */
+
+#ifdef TABLES_NEXT_TO_CODE
+ StgCode code[FLEXIBLE_ARRAY];
+#endif
+} StgInfoTable;
+
+
+/* -----------------------------------------------------------------------------
+ Function info tables
+
+ This is the general form of function info tables. The compiler
+ will omit some of the fields in common cases:
+
+ - If fun_type is not ARG_GEN or ARG_GEN_BIG, then the slow_apply
+ and bitmap fields may be left out (they are at the end, so omitting
+ them doesn't affect the layout).
+
+ - If srt_bitmap (in the std info table part) is zero, then the srt
+ field may be omitted. This only applies if the slow_apply and
+ bitmap fields have also been omitted.
+ -------------------------------------------------------------------------- */
+
+typedef struct _StgFunInfoExtraRev {
+ OFFSET_FIELD ( slow_apply_offset ); /* apply to args on the stack */
+ union {
+ StgWord bitmap;
+ OFFSET_FIELD ( bitmap_offset ); /* arg ptr/nonptr bitmap */
+ } b;
+ OFFSET_FIELD ( srt_offset ); /* pointer to the SRT table */
+ StgHalfWord fun_type; /* function type */
+ StgHalfWord arity; /* function arity */
+} StgFunInfoExtraRev;
+
+typedef struct _StgFunInfoExtraFwd {
+ StgHalfWord fun_type; /* function type */
+ StgHalfWord arity; /* function arity */
+ StgSRT *srt; /* pointer to the SRT table */
+ union { /* union for compat. with TABLES_NEXT_TO_CODE version */
+ StgWord bitmap; /* arg ptr/nonptr bitmap */
+ } b;
+ StgFun *slow_apply; /* apply to args on the stack */
+} StgFunInfoExtraFwd;
+
+typedef struct {
+#if defined(TABLES_NEXT_TO_CODE)
+ StgFunInfoExtraRev f;
+ StgInfoTable i;
+#else
+ StgInfoTable i;
+ StgFunInfoExtraFwd f;
#endif
- StgClosureInfo layout; /* closure layout info (pointer-sized) */
-#if SIZEOF_VOID_P == 8
- StgWord32 type; /* } These 2 elements fit into 64 bits */
- StgWord32 srt_len; /* } */
+} StgFunInfoTable;
+
+/* -----------------------------------------------------------------------------
+ Return info tables
+ -------------------------------------------------------------------------- */
+
+/*
+ * When info tables are laid out backwards, we can omit the SRT
+ * pointer iff srt_bitmap is zero.
+ */
+
+typedef struct {
+#if defined(TABLES_NEXT_TO_CODE)
+ OFFSET_FIELD( srt_offset ); /* offset to the SRT table */
+ StgInfoTable i;
#else
- StgWord type : 16; /* } These 2 elements fit into 32 bits */
- StgWord srt_len : 16; /* } */
+ StgInfoTable i;
+ StgSRT *srt; /* pointer to the SRT table */
+ StgFunPtr vector[FLEXIBLE_ARRAY];
#endif
+} StgRetInfoTable;
+
+/* -----------------------------------------------------------------------------
+ Thunk info tables
+ -------------------------------------------------------------------------- */
+
+/*
+ * When info tables are laid out backwards, we can omit the SRT
+ * pointer iff srt_bitmap is zero.
+ */
+
+typedef struct _StgThunkInfoTable {
+#if !defined(TABLES_NEXT_TO_CODE)
+ StgInfoTable i;
+#endif
+#if defined(TABLES_NEXT_TO_CODE)
+ OFFSET_FIELD( srt_offset ); /* offset to the SRT table */
+#else
+ StgSRT *srt; /* pointer to the SRT table */
+#endif
+#if defined(TABLES_NEXT_TO_CODE)
+ StgInfoTable i;
+#endif
+} StgThunkInfoTable;
+
+
+/* -----------------------------------------------------------------------------
+ Accessor macros for fields that might be offsets (C version)
+ -------------------------------------------------------------------------- */
+
+/*
+ * GET_SRT(info)
+ * info must be a Stg[Ret|Thunk]InfoTable* (an info table that has a SRT)
+ */
#ifdef TABLES_NEXT_TO_CODE
- StgCode code[0];
+#define GET_SRT(info) ((StgSRT*) (((StgWord) ((info)+1)) + (info)->srt_offset))
#else
- StgFunPtr entry;
- StgFunPtr vector[0];
+#define GET_SRT(info) ((info)->srt)
#endif
-} StgInfoTable;
-/* Info tables are read-only, therefore we uniformly declare them with
- * C's const attribute. This isn't just a nice thing to do: it's
- * necessary because the garbage collector has to distinguish between
- * closure pointers and info table pointers when traversing the
- * stack. We distinguish the two by checking whether the pointer is
- * into text-space or not.
+/*
+ * GET_FUN_SRT(info)
+ * info must be a StgFunInfoTable*
*/
-
-#define INFO_TBL_CONST const
+#ifdef TABLES_NEXT_TO_CODE
+#define GET_FUN_SRT(info) ((StgSRT*) (((StgWord) ((info)+1)) + (info)->f.srt_offset))
+#else
+#define GET_FUN_SRT(info) ((info)->f.srt)
+#endif
+
+#ifdef TABLES_NEXT_TO_CODE
+#define GET_LARGE_BITMAP(info) ((StgLargeBitmap*) (((StgWord) ((info)+1)) \
+ + (info)->layout.large_bitmap_offset))
+#else
+#define GET_LARGE_BITMAP(info) ((info)->layout.large_bitmap)
+#endif
+
+#ifdef TABLES_NEXT_TO_CODE
+#define GET_FUN_LARGE_BITMAP(info) ((StgLargeBitmap*) (((StgWord) ((info)+1)) \
+ + (info)->f.b.bitmap_offset))
+#else
+#define GET_FUN_LARGE_BITMAP(info) ((StgLargeBitmap*) ((info)->f.b.bitmap))
+#endif
+
#endif /* INFOTABLES_H */