/* -----------------------------------------------------------------------------
- * $Id: Regs.h,v 1.5 1999/11/02 15:05:51 simonmar Exp $
+ * $Id: Regs.h,v 1.14 2003/11/14 14:28:08 stolz Exp $
*
* (c) The GHC Team, 1998-1999
*
* 2) caller-saves registers are saved across a CCall
*/
+typedef struct StgSparkPool_ {
+ StgClosure **base;
+ StgClosure **lim;
+ StgClosure **hd;
+ StgClosure **tl;
+} StgSparkPool;
+
+typedef struct {
+ StgFunPtr stgGCEnter1;
+ StgFunPtr stgGCFun;
+} StgFunTable;
+
typedef struct StgRegTable_ {
StgUnion rR1;
StgUnion rR2;
StgUnion rR6;
StgUnion rR7;
StgUnion rR8;
- StgUnion rR9; /* used occasionally by heap/stack checks */
- StgUnion rR10; /* used occasionally by heap/stack checks */
+ StgUnion rR9; // used occasionally by heap/stack checks
+ StgUnion rR10; // used occasionally by heap/stack checks
StgFloat rF1;
StgFloat rF2;
StgFloat rF3;
StgDouble rD2;
StgWord64 rL1;
StgPtr rSp;
- StgUpdateFrame *rSu;
StgPtr rSpLim;
StgPtr rHp;
StgPtr rHpLim;
StgTSO *rCurrentTSO;
- bdescr *rNursery;
- bdescr *rCurrentNursery;
-#ifdef SMP
- struct StgRegTable_ *link;
+ struct _bdescr *rNursery;
+ struct _bdescr *rCurrentNursery;
+ StgWord rHpAlloc; // number of words being allocated in heap
+#if defined(SMP) || defined(PAR)
+ StgSparkPool rSparks; // per-task spark pool
#endif
} StgRegTable;
+
+/* A capability is a combination of a FunTable and a RegTable. In STG
+ * code, BaseReg normally points to the RegTable portion of this
+ * structure, so that we can index both forwards and backwards to take
+ * advantage of shorter instruction forms on some archs (eg. x86).
+ */
+typedef struct Capability_ {
+ StgFunTable f;
+ StgRegTable r;
+#if defined(SMP)
+ struct Capability_ *link; /* per-task register tables are linked together */
+#endif
+} Capability;
+
/* No such thing as a MainRegTable under SMP - each thread must
* have its own MainRegTable.
*/
#ifndef SMP
-extern DLL_IMPORT_RTS StgRegTable MainRegTable;
+extern DLL_IMPORT_RTS Capability MainCapability;
#endif
-#ifdef IN_STG_CODE
+#if IN_STG_CODE
/*
* Registers Hp and HpLim are global across the entire system, and are
* copied into the RegTable before executing a thread.
*
- * Registers Sp, Su, and SpLim are saved in the TSO for the
+ * Registers Sp and SpLim are saved in the TSO for the
* thread, but are copied into the RegTable before executing a thread.
*
* All other registers are "general purpose", and are used for passing
*/
#define SAVE_Sp (CurrentTSO->sp)
-#define SAVE_Su (CurrentTSO->su)
#define SAVE_SpLim (CurrentTSO->splim)
#define SAVE_Hp (BaseReg->rHp)
#define SAVE_CurrentTSO (BaseReg->rCurrentTSO)
#define SAVE_CurrentNursery (BaseReg->rCurrentNursery)
+#define SAVE_HpAlloc (BaseReg->rHpAlloc)
+#if defined(SMP) || defined(PAR)
+#define SAVE_SparkHd (BaseReg->rSparks.hd)
+#define SAVE_SparkTl (BaseReg->rSparks.tl)
+#define SAVE_SparkBase (BaseReg->rSparks.base)
+#define SAVE_SparkLim (BaseReg->rSparks.lim)
+#endif
/* We sometimes need to save registers across a C-call, eg. if they
* are clobbered in the standard calling convention. We define the
#ifdef SMP
#error BaseReg must be in a register for SMP
#endif
-#define BaseReg (&MainRegTable)
+#define BaseReg (&MainCapability.r)
#endif
#ifdef REG_Sp
#define Sp (BaseReg->rSp)
#endif
-#ifdef REG_Su
-GLOBAL_REG_DECL(StgUpdateFrame *,Su,REG_Su)
-#else
-#define Su (BaseReg->rSu)
-#endif
-
#ifdef REG_SpLim
GLOBAL_REG_DECL(P_,SpLim,REG_SpLim)
#else
#define CurrentNursery (BaseReg->rCurrentNursery)
#endif
+#ifdef REG_HpAlloc
+GLOBAL_REG_DECL(bdescr *,HpAlloc,REG_HpAlloc)
+#else
+#define HpAlloc (BaseReg->rHpAlloc)
+#endif
+
+#ifdef REG_SparkHd
+GLOBAL_REG_DECL(bdescr *,SparkHd,REG_SparkHd)
+#else
+#define SparkHd (BaseReg->rSparks.hd)
+#endif
+
+#ifdef REG_SparkTl
+GLOBAL_REG_DECL(bdescr *,SparkTl,REG_SparkTl)
+#else
+#define SparkTl (BaseReg->rSparks.tl)
+#endif
+
+#ifdef REG_SparkBase
+GLOBAL_REG_DECL(bdescr *,SparkBase,REG_SparkBase)
+#else
+#define SparkBase (BaseReg->rSparks.base)
+#endif
+
+#ifdef REG_SparkLim
+GLOBAL_REG_DECL(bdescr *,SparkLim,REG_SparkLim)
+#else
+#define SparkLim (BaseReg->rSparks.lim)
+#endif
+
+/* -----------------------------------------------------------------------------
+ Get absolute function pointers from the register table, to save
+ code space. On x86,
+
+ jmp *-12(%ebx)
+
+ is shorter than
+
+ jmp absolute_address
+
+ as long as the offset is within the range of a signed byte
+ (-128..+127). So we pick some common absolute_addresses and put
+ them in the register table. As a bonus, linking time should also
+ be reduced.
+
+ Other possible candidates in order of importance:
+
+ stg_upd_frame_info
+ stg_CAF_BLACKHOLE_info
+ stg_IND_STATIC_info
+
+ anything else probably isn't worth the effort.
+
+ -------------------------------------------------------------------------- */
+
+
+#define FunReg ((StgFunTable *)((void *)BaseReg - sizeof(StgFunTable)))
+
+#define stg_gc_enter_1 (FunReg->stgGCEnter1)
+#define stg_gc_fun (FunReg->stgGCFun)
+
/* -----------------------------------------------------------------------------
For any registers which are denoted "caller-saves" by the C calling
convention, we have to emit code to save and restore them across C
#define CALLER_RESTORE_Sp /* nothing */
#endif
-#ifdef CALLER_SAVES_Su
-#define CALLER_SAVE_Su SAVE_Su = Su;
-#define CALLER_RESTORE_Su Su = SAVE_Su;
-#else
-#define CALLER_SAVE_Su /* nothing */
-#define CALLER_RESTORE_Su /* nothing */
-#endif
-
#ifdef CALLER_SAVES_SpLim
#define CALLER_SAVE_SpLim SAVE_SpLim = SpLim;
#define CALLER_RESTORE_SpLim SpLim = SAVE_SpLim;
#define CALLER_RESTORE_CurrentNursery /* nothing */
#endif
+#ifdef CALLER_SAVES_HpAlloc
+#define CALLER_SAVE_HpAlloc SAVE_HpAlloc = HpAlloc;
+#define CALLER_RESTORE_HpAlloc HpAlloc = SAVE_HpAlloc;
+#else
+#define CALLER_SAVE_HpAlloc /* nothing */
+#define CALLER_RESTORE_HpAlloc /* nothing */
+#endif
+
+#ifdef CALLER_SAVES_SparkHd
+#define CALLER_SAVE_SparkHd SAVE_SparkHd = SparkHd;
+#define CALLER_RESTORE_SparkHd SparkHd = SAVE_SparkHd;
+#else
+#define CALLER_SAVE_SparkHd /* nothing */
+#define CALLER_RESTORE_SparkHd /* nothing */
+#endif
+
+#ifdef CALLER_SAVES_SparkTl
+#define CALLER_SAVE_SparkTl SAVE_SparkTl = SparkTl;
+#define CALLER_RESTORE_SparkTl SparkTl = SAVE_SparkTl;
+#else
+#define CALLER_SAVE_SparkTl /* nothing */
+#define CALLER_RESTORE_SparkTl /* nothing */
+#endif
+
+#ifdef CALLER_SAVES_SparkBase
+#define CALLER_SAVE_SparkBase SAVE_SparkBase = SparkBase;
+#define CALLER_RESTORE_SparkBase SparkBase = SAVE_SparkBase;
+#else
+#define CALLER_SAVE_SparkBase /* nothing */
+#define CALLER_RESTORE_SparkBase /* nothing */
+#endif
+
+#ifdef CALLER_SAVES_SparkLim
+#define CALLER_SAVE_SparkLim SAVE_SparkLim = SparkLim;
+#define CALLER_RESTORE_SparkLim SparkLim = SAVE_SparkLim;
+#else
+#define CALLER_SAVE_SparkLim /* nothing */
+#define CALLER_RESTORE_SparkLim /* nothing */
+#endif
+
#endif /* IN_STG_CODE */
/* ----------------------------------------------------------------------------
Handy bunches of saves/restores
------------------------------------------------------------------------ */
-#ifdef IN_STG_CODE
+#if IN_STG_CODE
#define CALLER_SAVE_USER \
CALLER_SAVE_R1 \
CALLER_SAVE_D2 \
CALLER_SAVE_L1
+ /* Save Base last, since the others may
+ be addressed relative to it */
#define CALLER_SAVE_SYSTEM \
CALLER_SAVE_Sp \
- CALLER_SAVE_Su \
CALLER_SAVE_SpLim \
CALLER_SAVE_Hp \
CALLER_SAVE_HpLim \
CALLER_SAVE_CurrentTSO \
- CALLER_SAVE_CurrentNursery
+ CALLER_SAVE_CurrentNursery \
+ CALLER_SAVE_SparkHd \
+ CALLER_SAVE_SparkTl \
+ CALLER_SAVE_SparkBase \
+ CALLER_SAVE_SparkLim \
+ CALLER_SAVE_Base
#define CALLER_RESTORE_USER \
CALLER_RESTORE_R1 \
CALLER_RESTORE_D2 \
CALLER_RESTORE_L1
+ /* Restore Base first, since the others may
+ be addressed relative to it */
#define CALLER_RESTORE_SYSTEM \
CALLER_RESTORE_Base \
CALLER_RESTORE_Sp \
- CALLER_RESTORE_Su \
CALLER_RESTORE_SpLim \
CALLER_RESTORE_Hp \
CALLER_RESTORE_HpLim \
CALLER_RESTORE_CurrentTSO \
- CALLER_RESTORE_CurrentNursery
+ CALLER_RESTORE_CurrentNursery \
+ CALLER_RESTORE_SparkHd \
+ CALLER_RESTORE_SparkTl \
+ CALLER_RESTORE_SparkBase \
+ CALLER_RESTORE_SparkLim
#else /* not IN_STG_CODE */