X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Fincludes%2FClosures.h;h=152213ba5df15fac5caf3d0074a891a09ec6c807;hb=beb5737b7ee42c4e9373a505e7d957206d69a30e;hp=541c6addd18e667041ed47a6bc5297f0e7537ca0;hpb=eb407ca1d21a43ff86ad731868f71e994afafe78;p=ghc-hetmet.git diff --git a/ghc/includes/Closures.h b/ghc/includes/Closures.h index 541c6ad..152213b 100644 --- a/ghc/includes/Closures.h +++ b/ghc/includes/Closures.h @@ -1,7 +1,6 @@ /* ---------------------------------------------------------------------------- - * $Id: Closures.h,v 1.13 1999/05/11 16:47:40 keithw Exp $ * - * (c) The GHC Team, 1998-1999 + * (c) The GHC Team, 1998-2004 * * Closures * @@ -19,70 +18,38 @@ The profiling header -------------------------------------------------------------------------- */ -#ifdef PROFILING - typedef struct { - CostCentreStack *ccs; + CostCentreStack *ccs; + union { + struct _RetainerSet *rs; /* Retainer Set */ + StgWord ldvw; /* Lag/Drag/Void Word */ + } hp; } StgProfHeader; -#else /* !PROFILING */ - -typedef struct { - /* empty */ -} StgProfHeader; - -#endif /* PROFILING */ - /* ----------------------------------------------------------------------------- - The parallel header + The GranSim header -------------------------------------------------------------------------- */ -#ifdef GRAN - typedef struct { - W_ procs; + StgWord procs; /* bitmask indicating on which PEs this closure resides */ } StgGranHeader; -#else /* !PAR */ - -typedef struct { - /* empty */ -} StgGranHeader; - -#endif /* PAR */ - /* ----------------------------------------------------------------------------- - The ticky-ticky header - - Comment from old Ticky.h: - - This is used to record if a closure has been updated but not yet - entered. It is set when the closure is updated and cleared when - subsequently entered. + The SMP header - NB: It is {\em not} an ``entry count'', it is an - ``entries-after-update count.'' + A thunk has a padding word to take the updated value. This is so + that the update doesn't overwrite the payload, so we can avoid + needing to lock the thunk during entry and update. - The commoning up of @CONST@, @CHARLIKE@ and @INTLIKE@ closures is - turned off(?) if this is required. This has only been done for 2s - collection. It is done using a nasty hack which defines the - @_Evacuate@ and @_Scavenge@ code for @CONST@, @CHARLIKE@ and @INTLIKE@ - info tables to be @_Evacuate_1@ and @_Scavenge_1_0@. - -------------------------------------------------------------------------- */ - -#ifdef TICKY_TICKY + Note: this doesn't apply to THUNK_STATICs, which have no payload. -typedef struct { - /* old: W_ updated; */ -} StgTickyHeader; - -#else /* !TICKY_TICKY */ + Note: we leave this padding word in all ways, rather than just SMP, + so that we don't have to recompile all our libraries for SMP. + -------------------------------------------------------------------------- */ typedef struct { - /* empty */ -} StgTickyHeader; - -#endif /* TICKY_TICKY */ + StgWord pad; +} StgSMPThunkHeader; /* ----------------------------------------------------------------------------- The full fixed-size closure header @@ -92,19 +59,27 @@ typedef struct { -------------------------------------------------------------------------- */ typedef struct { - const struct _StgInfoTable* info; + const struct _StgInfoTable* info; #ifdef PROFILING - StgProfHeader prof; + StgProfHeader prof; #endif #ifdef GRAN - StgGranHeader par; -#endif -#ifdef TICKY_TICKY - StgTickyHeader ticky; + StgGranHeader gran; #endif } StgHeader; -#define FIXED_HS (sizeof(StgHeader)) +typedef struct { + const struct _StgInfoTable* info; +#ifdef PROFILING + StgProfHeader prof; +#endif +#ifdef GRAN + StgGranHeader gran; +#endif + StgSMPThunkHeader smp; +} StgThunkHeader; + +#define THUNK_EXTRA_HEADER_W (sizeofW(StgThunkHeader)-sizeofW(StgHeader)) /* ----------------------------------------------------------------------------- Closure Types @@ -116,51 +91,43 @@ typedef struct { /* All closures follow the generic format */ -typedef struct StgClosure_ { +struct StgClosure_ { StgHeader header; - struct StgClosure_ *payload[0]; -} StgClosure; - -/* What a stroke of luck - all our mutable closures follow the same - * basic layout, with the mutable link field as the second field after - * the header. This means the following structure is the supertype of - * mutable closures. - */ + struct StgClosure_ *payload[FLEXIBLE_ARRAY]; +}; -typedef struct StgMutClosure_ { - StgHeader header; - StgPtr *padding; - struct StgMutClosure_ *mut_link; - struct StgClosure_ *payload[0]; -} StgMutClosure; +typedef struct { + StgThunkHeader header; + struct StgClosure_ *payload[FLEXIBLE_ARRAY]; +} StgThunk; typedef struct { - StgHeader header; + StgThunkHeader header; StgClosure *selectee; } StgSelector; typedef struct { StgHeader header; - StgWord n_args; - StgClosure *fun; - StgPtr payload[0]; + StgHalfWord arity; /* zero if it is an AP */ + StgHalfWord n_args; + StgClosure *fun; /* really points to a fun */ + StgClosure *payload[FLEXIBLE_ARRAY]; } StgPAP; typedef struct { - StgHeader header; - StgWord n_args; - StgClosure *fun; - StgPtr payload[0]; -} StgAP_UPD; + StgThunkHeader header; + StgHalfWord arity; /* zero if it is an AP */ + StgHalfWord n_args; + StgClosure *fun; /* really points to a fun */ + StgClosure *payload[FLEXIBLE_ARRAY]; +} StgAP; typedef struct { - StgHeader header; - StgWord n_ptrs; - StgWord n_words; - StgWord n_instrs; - StgWord stgexpr; - StgPtr payload[0]; -} StgBCO; + StgThunkHeader header; + StgWord size; /* number of words in payload */ + StgClosure *fun; + StgClosure *payload[FLEXIBLE_ARRAY]; /* contains a chunk of *stack* */ +} StgAP_STACK; typedef struct { StgHeader header; @@ -168,64 +135,37 @@ typedef struct { } StgInd; typedef struct { - StgHeader header; - StgClosure *indirectee; - StgMutClosure *mut_link; -} StgIndOldGen; - -typedef struct { - StgHeader header; - StgClosure *indirectee; - StgClosure *static_link; -} StgIndStatic; - -typedef struct StgCAF_ { StgHeader header; - StgClosure *body; - StgMutClosure *mut_link; - StgClosure *value; - struct StgCAF_ *link; -} StgCAF; - -typedef struct { - StgHeader header; - struct StgTSO_ *blocking_queue; - StgMutClosure *mut_link; -} StgBlockingQueue; + StgClosure *indirectee; + StgClosure *static_link; + struct _StgInfoTable *saved_info; +} StgIndStatic; typedef struct { StgHeader header; StgWord words; - StgWord payload[0]; + StgWord payload[FLEXIBLE_ARRAY]; } StgArrWords; typedef struct { StgHeader header; StgWord ptrs; - StgMutClosure *mut_link; /* mutable list */ - StgClosure *payload[0]; + StgClosure *payload[FLEXIBLE_ARRAY]; } StgMutArrPtrs; typedef struct { StgHeader header; StgClosure *var; - StgMutClosure *mut_link; } StgMutVar; typedef struct _StgUpdateFrame { StgHeader header; - struct _StgUpdateFrame *link; StgClosure *updatee; } StgUpdateFrame; typedef struct { StgHeader header; - struct _StgUpdateFrame *link; -} StgSeqFrame; - -typedef struct { - StgHeader header; - struct _StgUpdateFrame *link; + StgInt exceptions_blocked; StgClosure *handler; } StgCatchFrame; @@ -248,16 +188,11 @@ typedef struct { StgHeader header; } StgRetry; -typedef struct _StgForeignObj { - StgHeader header; - StgAddr data; /* pointer to data in non-haskell-land */ -} StgForeignObj; - typedef struct _StgStableName { StgHeader header; StgWord sn; } StgStableName; - + typedef struct _StgWeak { /* Weak v */ StgHeader header; StgClosure *key; @@ -271,34 +206,275 @@ typedef struct _StgDeadWeak { /* Weak v */ struct _StgWeak *link; } StgDeadWeak; -/* Dynamic stack frames - these have a liveness mask in the object - * itself, rather than in the info table. Useful for generic heap - * check code. +/* Byte code objects. These are fixed size objects with pointers to + * four arrays, designed so that a BCO can be easily "re-linked" to + * other BCOs, to facilitate GHC's intelligent recompilation. The + * array of instructions is static and not re-generated when the BCO + * is re-linked, but the other 3 arrays will be regenerated. + * + * A BCO represents either a function or a stack frame. In each case, + * it needs a bitmap to describe to the garbage collector the + * pointerhood of its arguments/free variables respectively, and in + * the case of a function it also needs an arity. These are stored + * directly in the BCO, rather than in the instrs array, for two + * reasons: + * (a) speed: we need to get at the bitmap info quickly when + * the GC is examining APs and PAPs that point to this BCO + * (b) a subtle interaction with the compacting GC. In compacting + * GC, the info that describes the size/layout of a closure + * cannot be in an object more than one level of indirection + * away from the current object, because of the order in + * which pointers are updated to point to their new locations. */ - + +typedef struct { + StgHeader header; + StgArrWords *instrs; /* a pointer to an ArrWords */ + StgArrWords *literals; /* a pointer to an ArrWords */ + StgMutArrPtrs *ptrs; /* a pointer to a MutArrPtrs */ + StgArrWords *itbls; /* a pointer to an ArrWords */ + StgHalfWord arity; /* arity of this BCO */ + StgHalfWord size; /* size of this BCO (in words) */ + StgWord bitmap[FLEXIBLE_ARRAY]; /* an StgLargeBitmap */ +} StgBCO; + +#define BCO_BITMAP(bco) ((StgLargeBitmap *)((StgBCO *)(bco))->bitmap) +#define BCO_BITMAP_SIZE(bco) (BCO_BITMAP(bco)->size) +#define BCO_BITMAP_BITS(bco) (BCO_BITMAP(bco)->bitmap) +#define BCO_BITMAP_SIZEW(bco) ((BCO_BITMAP_SIZE(bco) + BITS_IN(StgWord) - 1) \ + / BITS_IN(StgWord)) + +/* ----------------------------------------------------------------------------- + Dynamic stack frames for generic heap checks. + + These generic heap checks are slow, but have the advantage of being + usable in a variety of situations. + + The one restriction is that any relevant SRTs must already be pointed + to from the stack. The return address doesn't need to have an info + table attached: hence it can be any old code pointer. + + The liveness mask contains a 1 at bit n, if register Rn contains a + non-pointer. The contents of all 8 vanilla registers are always saved + on the stack; the liveness mask tells the GC which ones contain + pointers. + + Good places to use a generic heap check: + + - case alternatives (the return address with an SRT is already + on the stack). + + - primitives (no SRT required). + + The stack frame layout for a RET_DYN is like this: + + some pointers |-- RET_DYN_PTRS(liveness) words + some nonpointers |-- RET_DYN_NONPTRS(liveness) words + + L1 \ + D1-2 |-- RET_DYN_NONPTR_REGS_SIZE words + F1-4 / + + R1-8 |-- RET_DYN_BITMAP_SIZE words + + return address \ + liveness mask |-- StgRetDyn structure + stg_gen_chk_info / + + we assume that the size of a double is always 2 pointers (wasting a + word when it is only one pointer, but avoiding lots of #ifdefs). + + See Liveness.h for the macros (RET_DYN_PTRS() etc.). + + NOTE: if you change the layout of RET_DYN stack frames, then you + might also need to adjust the value of RESERVED_STACK_WORDS in + Constants.h. + -------------------------------------------------------------------------- */ + typedef struct { - const struct _StgInfoTable* info; - StgWord liveness; - StgWord ret_addr; - StgWord payload[0]; + const struct _StgInfoTable* info; + StgWord liveness; + StgWord ret_addr; + StgClosure * payload[FLEXIBLE_ARRAY]; } StgRetDyn; +/* A function return stack frame: used when saving the state for a + * garbage collection at a function entry point. The function + * arguments are on the stack, and we also save the function (its + * info table describes the pointerhood of the arguments). + * + * The stack frame size is also cached in the frame for convenience. + */ +typedef struct { + const struct _StgInfoTable* info; + StgWord size; + StgClosure * fun; + StgClosure * payload[FLEXIBLE_ARRAY]; +} StgRetFun; + /* Concurrent communication objects */ typedef struct { StgHeader header; struct StgTSO_ *head; - StgMutClosure *mut_link; struct StgTSO_ *tail; StgClosure* value; } StgMVar; -/* Parallel FETCH_ME closures */ -#ifdef PAR + +/* STM data structures + * + * StgTVar defines the only type that can be updated through the STM + * interface. + * + * Note that various optimisations may be possible in order to use less + * space for these data structures at the cost of more complexity in the + * implementation: + * + * - In StgTVar, current_value and first_wait_queue_entry could be held in + * the same field: if any thread is waiting then its expected_value for + * the tvar is the current value. + * + * - In StgTRecHeader, it might be worthwhile having separate chunks + * of read-only and read-write locations. This would save a + * new_value field in the read-only locations. + * + * - In StgAtomicallyFrame, we could combine the waiting bit into + * the header (maybe a different info tbl for a waiting transaction). + * This means we can specialise the code for the atomically frame + * (it immediately switches on frame->waiting anyway). + */ + +typedef struct StgTVarWaitQueue_ { + StgHeader header; + struct StgTSO_ *waiting_tso; + struct StgTVarWaitQueue_ *next_queue_entry; + struct StgTVarWaitQueue_ *prev_queue_entry; +} StgTVarWaitQueue; + +typedef struct { + StgHeader header; + StgClosure *volatile current_value; + StgTVarWaitQueue *volatile first_wait_queue_entry; +#if defined(SMP) + StgInt volatile num_updates; +#endif +} StgTVar; + +/* new_value == expected_value for read-only accesses */ +/* new_value is a StgTVarWaitQueue entry when trec in state TREC_WAITING */ +typedef struct { + StgTVar *tvar; + StgClosure *expected_value; + StgClosure *new_value; +#if defined(SMP) + StgInt num_updates; +#endif +} TRecEntry; + +#define TREC_CHUNK_NUM_ENTRIES 16 + +typedef struct StgTRecChunk_ { + StgHeader header; + struct StgTRecChunk_ *prev_chunk; + StgWord next_entry_idx; + TRecEntry entries[TREC_CHUNK_NUM_ENTRIES]; +} StgTRecChunk; + +typedef enum { + TREC_ACTIVE, /* Transaction in progress, outcome undecided */ + TREC_CONDEMNED, /* Transaction in progress, inconsistent / out of date reads */ + TREC_COMMITTED, /* Transaction has committed, now updating tvars */ + TREC_ABORTED, /* Transaction has aborted, now reverting tvars */ + TREC_WAITING, /* Transaction currently waiting */ +} TRecState; + +typedef struct StgTRecHeader_ { + StgHeader header; + TRecState state; + struct StgTRecHeader_ *enclosing_trec; + StgTRecChunk *current_chunk; +} StgTRecHeader; + +typedef struct { + StgHeader header; + StgClosure *code; +} StgAtomicallyFrame; + typedef struct { + StgHeader header; + StgClosure *handler; +} StgCatchSTMFrame; + +typedef struct { + StgHeader header; + StgBool running_alt_code; + StgClosure *first_code; + StgClosure *alt_code; + StgTRecHeader *first_code_trec; +} StgCatchRetryFrame; + +#if defined(PAR) || defined(GRAN) +/* + StgBlockingQueueElement is a ``collective type'' representing the types + of closures that can be found on a blocking queue: StgTSO, StgRBHSave, + StgBlockedFetch. (StgRBHSave can only appear at the end of a blocking + queue). Logically, this is a union type, but defining another struct + with a common layout is easier to handle in the code. + Note that in the standard setup only StgTSOs can be on a blocking queue. + This is one of the main reasons for slightly different code in files + such as Schedule.c. +*/ +typedef struct StgBlockingQueueElement_ { + StgHeader header; + struct StgBlockingQueueElement_ *link; /* next elem in BQ */ + struct StgClosure_ *payload[FLEXIBLE_ARRAY];/* contents of the closure */ +} StgBlockingQueueElement; + +/* only difference to std code is type of the elem in the BQ */ +typedef struct StgBlockingQueue_ { + StgHeader header; + struct StgBlockingQueueElement_ *blocking_queue; /* start of the BQ */ +} StgBlockingQueue; + +/* this closure is hanging at the end of a blocking queue in (see RBH.c) */ +typedef struct StgRBHSave_ { StgHeader header; - void *ga; /* type globalAddr is abstract here */ + StgClosure *payload[FLEXIBLE_ARRAY]; /* 2 words ripped out of the guts of the */ +} StgRBHSave; /* closure holding the blocking queue */ + +typedef struct StgRBH_ { + StgHeader header; + struct StgBlockingQueueElement_ *blocking_queue; /* start of the BQ */ +} StgRBH; + +#endif + +#if defined(PAR) +/* global indirections aka FETCH_ME closures */ +typedef struct StgFetchMe_ { + StgHeader header; + globalAddr *ga; /* ptr to unique id for a closure */ } StgFetchMe; + +/* same contents as an ordinary StgBlockingQueue */ +typedef struct StgFetchMeBlockingQueue_ { + StgHeader header; + struct StgBlockingQueueElement_ *blocking_queue; /* start of the BQ */ +} StgFetchMeBlockingQueue; + +/* This is an entry in a blocking queue. It indicates a fetch request from a + TSO on another PE demanding the value of this closur. Note that a + StgBlockedFetch can only occur in a BQ. Once the node is evaluated and + updated with the result, the result will be sent back (the PE is encoded + in the globalAddr) and the StgBlockedFetch closure will be nuked. +*/ +typedef struct StgBlockedFetch_ { + StgHeader header; + struct StgBlockingQueueElement_ *link; /* next elem in the BQ */ + StgClosure *node; /* node to fetch */ + globalAddr ga; /* where to send the result to */ +} StgBlockedFetch; /* NB: not just a ptr to a GA */ #endif #endif /* CLOSURES_H */