wneuper/isa: src/Pure/Concurrent/future.ML@13d00799fe49 (annotated)

wenzelm@28156	1	(* Title: Pure/Concurrent/future.ML
wenzelm@28156	2	Author: Makarius
wenzelm@28156	3
wenzelm@32250	4	Future values, see also
wenzelm@32250	5	http://www4.in.tum.de/~wenzelm/papers/parallel-isabelle.pdf
wenzelm@28201	6
wenzelm@28201	7	Notes:
wenzelm@28201	8
wenzelm@28201	9	* Futures are similar to delayed evaluation, i.e. delay/force is
wenzelm@28201	10	generalized to fork/join (and variants). The idea is to model
wenzelm@28201	11	parallel value-oriented computations, but not communicating
wenzelm@28201	12	processes.
wenzelm@28201	13
wenzelm@28201	14	* Futures are grouped; failure of one group member causes the whole
wenzelm@32220	15	group to be interrupted eventually. Groups are block-structured.
wenzelm@28201	16
wenzelm@28201	17	* Forked futures are evaluated spontaneously by a farm of worker
wenzelm@28201	18	threads in the background; join resynchronizes the computation and
wenzelm@28201	19	delivers results (values or exceptions).
wenzelm@28201	20
wenzelm@28201	21	* The pool of worker threads is limited, usually in correlation with
wenzelm@28201	22	the number of physical cores on the machine. Note that allocation
wenzelm@28201	23	of runtime resources is distorted either if workers yield CPU time
wenzelm@28201	24	(e.g. via system sleep or wait operations), or if non-worker
wenzelm@28201	25	threads contend for significant runtime resources independently.
wenzelm@28156	26	*)
wenzelm@28156	27
wenzelm@28156	28	signature FUTURE =
wenzelm@28156	29	sig
wenzelm@29120	30	type task = Task_Queue.task
wenzelm@29120	31	type group = Task_Queue.group
wenzelm@32074	32	val is_worker: unit -> bool
wenzelm@32823	33	val worker_task: unit -> Task_Queue.task option
wenzelm@32122	34	val worker_group: unit -> Task_Queue.group option
wenzelm@28972	35	type 'a future
wenzelm@28972	36	val task_of: 'a future -> task
wenzelm@28972	37	val group_of: 'a future -> group
wenzelm@28972	38	val peek: 'a future -> 'a Exn.result option
wenzelm@28972	39	val is_finished: 'a future -> bool
wenzelm@29002	40	val value: 'a -> 'a future
wenzelm@28979	41	val fork_group: group -> (unit -> 'a) -> 'a future
wenzelm@32729	42	val fork_deps_pri: 'b future list -> int -> (unit -> 'a) -> 'a future
wenzelm@28979	43	val fork_deps: 'b future list -> (unit -> 'a) -> 'a future
wenzelm@29120	44	val fork_pri: int -> (unit -> 'a) -> 'a future
wenzelm@32729	45	val fork: (unit -> 'a) -> 'a future
wenzelm@28972	46	val join_results: 'a future list -> 'a Exn.result list
wenzelm@28972	47	val join_result: 'a future -> 'a Exn.result
wenzelm@28972	48	val join: 'a future -> 'a
wenzelm@28972	49	val map: ('a -> 'b) -> 'a future -> 'b future
wenzelm@30621	50	val interruptible_task: ('a -> 'b) -> 'a -> 'b
wenzelm@29431	51	val cancel_group: group -> unit
wenzelm@28972	52	val cancel: 'a future -> unit
wenzelm@28203	53	val shutdown: unit -> unit
wenzelm@28156	54	end;
wenzelm@28156	55
wenzelm@28156	56	structure Future: FUTURE =
wenzelm@28156	57	struct
wenzelm@28156	58
wenzelm@28177	59	( future values )
wenzelm@28177	60
wenzelm@28167	61	(* identifiers *)
wenzelm@28167	62
wenzelm@29120	63	type task = Task_Queue.task;
wenzelm@29120	64	type group = Task_Queue.group;
wenzelm@28167	65
wenzelm@32074	66	local
wenzelm@33429	67	val tag = Universal.tag () : (task * group) option Universal.tag;
wenzelm@32074	68	in
wenzelm@28177	69	fun thread_data () = the_default NONE (Thread.getLocal tag);
wenzelm@32074	70	fun setmp_thread_data data f x =
wenzelm@32074	71	Library.setmp_thread_data tag (thread_data ()) (SOME data) f x;
wenzelm@28167	72	end;
wenzelm@28167	73
wenzelm@32074	74	val is_worker = is_some o thread_data;
wenzelm@33429	75	val worker_task = Option.map #1 o thread_data;
wenzelm@33429	76	val worker_group = Option.map #2 o thread_data;
wenzelm@32074	77
wenzelm@28167	78
wenzelm@28167	79	(* datatype future *)
wenzelm@28167	80
wenzelm@28972	81	datatype 'a future = Future of
wenzelm@28167	82	{task: task,
wenzelm@28177	83	group: group,
wenzelm@32257	84	result: 'a Exn.result option Synchronized.var};
wenzelm@28167	85
wenzelm@28167	86	fun task_of (Future {task, ...}) = task;
wenzelm@28167	87	fun group_of (Future {group, ...}) = group;
wenzelm@32257	88	fun result_of (Future {result, ...}) = result;
wenzelm@28167	89
wenzelm@32592	90	fun peek x = Synchronized.value (result_of x);
wenzelm@28558	91	fun is_finished x = is_some (peek x);
wenzelm@28320	92
wenzelm@29002	93	fun value x = Future
wenzelm@29120	94	{task = Task_Queue.new_task 0,
wenzelm@32122	95	group = Task_Queue.new_group NONE,
wenzelm@32257	96	result = Synchronized.var "future" (SOME (Exn.Result x))};
wenzelm@29002	97
wenzelm@28167	98
wenzelm@28177	99
wenzelm@28177	100	( scheduling )
wenzelm@28177	101
wenzelm@28177	102	(* synchronization *)
wenzelm@28156	103
wenzelm@32219	104	val scheduler_event = ConditionVar.conditionVar ();
wenzelm@32219	105	val work_available = ConditionVar.conditionVar ();
wenzelm@32219	106	val work_finished = ConditionVar.conditionVar ();
wenzelm@32219	107
wenzelm@28156	108	local
wenzelm@28156	109	val lock = Mutex.mutex ();
wenzelm@28156	110	in
wenzelm@28156	111
wenzelm@28575	112	fun SYNCHRONIZED name = SimpleThread.synchronized name lock;
wenzelm@28156	113
wenzelm@32219	114	fun wait cond = (requires SYNCHRONIZED)
wenzelm@32298	115	Multithreading.sync_wait NONE NONE cond lock;
wenzelm@28206	116
wenzelm@32298	117	fun wait_timeout timeout cond = (requires SYNCHRONIZED)
wenzelm@32298	118	Multithreading.sync_wait NONE (SOME (Time.+ (Time.now (), timeout))) cond lock;
wenzelm@28166	119
wenzelm@32219	120	fun signal cond = (requires SYNCHRONIZED)
wenzelm@32219	121	ConditionVar.signal cond;
wenzelm@32219	122
wenzelm@32219	123	fun broadcast cond = (requires SYNCHRONIZED)
wenzelm@28166	124	ConditionVar.broadcast cond;
wenzelm@28156	125
wenzelm@32252	126	fun broadcast_work () = (requires SYNCHRONIZED)
wenzelm@32252	127	(ConditionVar.broadcast work_available;
wenzelm@32225	128	ConditionVar.broadcast work_finished);
wenzelm@32225	129
wenzelm@28156	130	end;
wenzelm@28156	131
wenzelm@28156	132
wenzelm@33431	133	(* global state *)
wenzelm@33431	134
wenzelm@33431	135	val queue = Unsynchronized.ref Task_Queue.empty;
wenzelm@33431	136	val next = Unsynchronized.ref 0;
wenzelm@33431	137	val scheduler = Unsynchronized.ref (NONE: Thread.thread option);
wenzelm@33431	138	val canceled = Unsynchronized.ref ([]: Task_Queue.group list);
wenzelm@33431	139	val do_shutdown = Unsynchronized.ref false;
wenzelm@33431	140	val max_workers = Unsynchronized.ref 0;
wenzelm@33431	141	val max_active = Unsynchronized.ref 0;
wenzelm@33432	142	val worker_trend = Unsynchronized.ref 0;
wenzelm@33431	143
wenzelm@33431	144	datatype worker_state = Working \| Waiting \| Sleeping;
wenzelm@33431	145	val workers = Unsynchronized.ref ([]: (Thread.thread * worker_state Unsynchronized.ref) list);
wenzelm@33431	146
wenzelm@33431	147	fun count_workers state = (requires SYNCHRONIZED)
wenzelm@33431	148	fold (fn (_, state_ref) => fn i => if ! state_ref = state then i + 1 else i) (! workers) 0;
wenzelm@33431	149
wenzelm@33431	150
wenzelm@32119	151	(* execute future jobs *)
wenzelm@32119	152
wenzelm@32119	153	fun future_job group (e: unit -> 'a) =
wenzelm@32119	154	let
wenzelm@32257	155	val result = Synchronized.var "future" (NONE: 'a Exn.result option);
wenzelm@32127	156	fun job ok =
wenzelm@32127	157	let
wenzelm@32127	158	val res =
wenzelm@32127	159	if ok then
wenzelm@32230	160	Exn.capture (fn () =>
wenzelm@32298	161	Multithreading.with_attributes Multithreading.private_interrupts (fn _ => e ())) ()
wenzelm@32127	162	else Exn.Exn Exn.Interrupt;
wenzelm@33068	163	val _ = Synchronized.assign result (K (SOME res));
wenzelm@32127	164	in
wenzelm@32127	165	(case res of
wenzelm@32127	166	Exn.Exn exn => (Task_Queue.cancel_group group exn; false)
wenzelm@32127	167	\| Exn.Result _ => true)
wenzelm@32127	168	end;
wenzelm@32119	169	in (result, job) end;
wenzelm@28156	170
wenzelm@29341	171	fun do_cancel group = (requires SYNCHRONIZED)
wenzelm@32738	172	(Unsynchronized.change canceled (insert Task_Queue.eq_group group);
wenzelm@32738	173	broadcast scheduler_event);
wenzelm@29341	174
wenzelm@33429	175	fun execute (task, group, jobs) =
wenzelm@28167	176	let
wenzelm@32122	177	val valid = not (Task_Queue.is_canceled group);
wenzelm@33429	178	val ok = setmp_thread_data (task, group) (fn () =>
wenzelm@29384	179	fold (fn job => fn ok => job valid andalso ok) jobs true) ();
wenzelm@32250	180	val _ = SYNCHRONIZED "finish" (fn () =>
wenzelm@32219	181	let
wenzelm@32738	182	val maximal = Unsynchronized.change_result queue (Task_Queue.finish task);
wenzelm@32219	183	val _ =
wenzelm@32219	184	if ok then ()
wenzelm@32219	185	else if Task_Queue.cancel (! queue) group then ()
wenzelm@32219	186	else do_cancel group;
wenzelm@32219	187	val _ = broadcast work_finished;
wenzelm@33434	188	val _ = if maximal then () else signal work_available;
wenzelm@32219	189	in () end);
wenzelm@28167	190	in () end;
wenzelm@28167	191
wenzelm@28167	192
wenzelm@28167	193	(* worker threads *)
wenzelm@28167	194
wenzelm@33431	195	fun worker_wait active cond = (requires SYNCHRONIZED)
wenzelm@33427	196	let
wenzelm@33431	197	val state =
wenzelm@33431	198	(case AList.lookup Thread.equal (! workers) (Thread.self ()) of
wenzelm@33431	199	SOME state => state
wenzelm@33431	200	\| NONE => raise Fail "Unregistered worker thread");
wenzelm@33431	201	val _ = state := (if active then Waiting else Sleeping);
wenzelm@33427	202	val _ = wait cond;
wenzelm@33431	203	val _ = state := Working;
wenzelm@33427	204	in () end;
wenzelm@28162	205
wenzelm@33436	206	fun worker_next () = (requires SYNCHRONIZED)
wenzelm@33427	207	if length (! workers) > ! max_workers then
wenzelm@33427	208	(Unsynchronized.change workers (AList.delete Thread.equal (Thread.self ()));
wenzelm@33436	209	signal work_available;
wenzelm@28167	210	NONE)
wenzelm@33431	211	else if count_workers Working > ! max_active then
wenzelm@33436	212	(worker_wait false work_available; worker_next ())
wenzelm@28166	213	else
wenzelm@32738	214	(case Unsynchronized.change_result queue (Task_Queue.dequeue (Thread.self ())) of
wenzelm@33436	215	NONE => (worker_wait false work_available; worker_next ())
wenzelm@33434	216	\| some => (signal work_available; some));
wenzelm@28156	217
wenzelm@28167	218	fun worker_loop name =
wenzelm@33436	219	(case SYNCHRONIZED name (fn () => worker_next ()) of
wenzelm@29120	220	NONE => ()
wenzelm@33429	221	\| SOME work => (execute work; worker_loop name));
wenzelm@28156	222
wenzelm@33428	223	fun worker_start name = (requires SYNCHRONIZED)
wenzelm@33428	224	Unsynchronized.change workers (cons (SimpleThread.fork false (fn () => worker_loop name),
wenzelm@33431	225	Unsynchronized.ref Working));
wenzelm@28156	226
wenzelm@28156	227
wenzelm@28156	228	(* scheduler *)
wenzelm@28156	229
wenzelm@33428	230	val status_ticks = Unsynchronized.ref 0;
wenzelm@33428	231
wenzelm@33428	232	val last_round = Unsynchronized.ref Time.zeroTime;
wenzelm@32252	233	val next_round = Time.fromMilliseconds 50;
wenzelm@32226	234
wenzelm@28206	235	fun scheduler_next () = (requires SYNCHRONIZED)
wenzelm@28156	236	let
wenzelm@33428	237	val now = Time.now ();
wenzelm@33428	238	val tick = Time.<= (Time.+ (! last_round, next_round), now);
wenzelm@33428	239	val _ = if tick then last_round := now else ();
wenzelm@33428	240
wenzelm@33436	241
wenzelm@33436	242	(* queue and worker status *)
wenzelm@33436	243
wenzelm@32226	244	val _ =
wenzelm@33428	245	if tick then Unsynchronized.change status_ticks (fn i => (i + 1) mod 10) else ();
wenzelm@33428	246	val _ =
wenzelm@33428	247	if tick andalso ! status_ticks = 0 then
wenzelm@33428	248	Multithreading.tracing 1 (fn () =>
wenzelm@33428	249	let
wenzelm@33428	250	val {ready, pending, running} = Task_Queue.status (! queue);
wenzelm@33428	251	val total = length (! workers);
wenzelm@33431	252	val active = count_workers Working;
wenzelm@33431	253	val waiting = count_workers Waiting;
wenzelm@33428	254	in
wenzelm@33428	255	"SCHEDULE " ^ Time.toString now ^ ": " ^
wenzelm@33428	256	string_of_int ready ^ " ready, " ^
wenzelm@33428	257	string_of_int pending ^ " pending, " ^
wenzelm@33428	258	string_of_int running ^ " running; " ^
wenzelm@33428	259	string_of_int total ^ " workers, " ^
wenzelm@33431	260	string_of_int active ^ " active, " ^
wenzelm@33431	261	string_of_int waiting ^ " waiting "
wenzelm@33428	262	end)
wenzelm@33428	263	else ();
wenzelm@32053	264
wenzelm@28191	265	val _ =
wenzelm@32219	266	if forall (Thread.isActive o #1) (! workers) then ()
wenzelm@32115	267	else
wenzelm@33430	268	let
wenzelm@33430	269	val (alive, dead) = List.partition (Thread.isActive o #1) (! workers);
wenzelm@33430	270	val _ = workers := alive;
wenzelm@33430	271	in
wenzelm@33430	272	Multithreading.tracing 0 (fn () =>
wenzelm@33430	273	"SCHEDULE: disposed " ^ string_of_int (length dead) ^ " dead worker threads")
wenzelm@33430	274	end;
wenzelm@28191	275
wenzelm@33436	276
wenzelm@33436	277	(* worker pool adjustments *)
wenzelm@33436	278
wenzelm@33436	279	val max_active0 = ! max_active;
wenzelm@33436	280	val max_workers0 = ! max_workers;
wenzelm@33436	281
wenzelm@28206	282	val m = if ! do_shutdown then 0 else Multithreading.max_threads_value ();
wenzelm@33427	283	val _ = max_active := m;
wenzelm@33427	284
wenzelm@33432	285	val mm =
wenzelm@33432	286	if ! do_shutdown then 0
wenzelm@33432	287	else if m = 9999 then 1
wenzelm@33434	288	else Int.min (Int.max (count_workers Working + 2 * count_workers Waiting, m), 4 * m);
wenzelm@33432	289	val _ =
wenzelm@33432	290	if tick andalso mm > ! max_workers then
wenzelm@33432	291	Unsynchronized.change worker_trend (fn w => if w < 0 then 0 else w + 1)
wenzelm@33432	292	else if tick andalso mm < ! max_workers then
wenzelm@33432	293	Unsynchronized.change worker_trend (fn w => if w > 0 then 0 else w - 1)
wenzelm@33432	294	else ();
wenzelm@33432	295	val _ =
wenzelm@33436	296	if mm = 0 orelse ! worker_trend > 50 orelse ! worker_trend < ~50 then
wenzelm@33436	297	max_workers := mm
wenzelm@33436	298	else if ! worker_trend > 5 andalso ! max_workers < 2 * m then
wenzelm@33436	299	max_workers := Int.min (mm, 2 * m)
wenzelm@33432	300	else ();
wenzelm@33427	301
wenzelm@33428	302	val missing = ! max_workers - length (! workers);
wenzelm@28203	303	val _ =
wenzelm@33428	304	if missing > 0 then
wenzelm@33436	305	funpow missing (fn () =>
wenzelm@33436	306	ignore (worker_start ("worker " ^ string_of_int (Unsynchronized.inc next)))) ()
wenzelm@28203	307	else ();
wenzelm@28206	308
wenzelm@33436	309	val _ =
wenzelm@33436	310	if ! max_active = max_active0 andalso ! max_workers = max_workers0 then ()
wenzelm@33436	311	else signal work_available;
wenzelm@33436	312
wenzelm@33436	313
wenzelm@33436	314	(* canceled groups *)
wenzelm@33436	315
wenzelm@32225	316	val _ =
wenzelm@32225	317	if null (! canceled) then ()
wenzelm@32293	318	else
wenzelm@32293	319	(Multithreading.tracing 1 (fn () =>
wenzelm@32293	320	string_of_int (length (! canceled)) ^ " canceled groups");
wenzelm@32738	321	Unsynchronized.change canceled (filter_out (Task_Queue.cancel (! queue)));
wenzelm@32293	322	broadcast_work ());
wenzelm@28206	323
wenzelm@33436	324
wenzelm@33436	325	(* delay loop *)
wenzelm@33436	326
wenzelm@32298	327	val _ = Exn.release (wait_timeout next_round scheduler_event);
wenzelm@32219	328
wenzelm@33436	329
wenzelm@33436	330	(* shutdown *)
wenzelm@33436	331
wenzelm@32228	332	val _ = if Task_Queue.is_empty (! queue) then do_shutdown := true else ();
wenzelm@32219	333	val continue = not (! do_shutdown andalso null (! workers));
wenzelm@28206	334	val _ = if continue then () else scheduler := NONE;
wenzelm@33436	335
wenzelm@32219	336	val _ = broadcast scheduler_event;
wenzelm@32298	337	in continue end
wenzelm@32298	338	handle Exn.Interrupt =>
wenzelm@32298	339	(Multithreading.tracing 1 (fn () => "Interrupt");
wenzelm@33437	340	List.app do_cancel (Task_Queue.cancel_all (! queue)); true);
wenzelm@32298	341
wenzelm@28206	342	fun scheduler_loop () =
wenzelm@33437	343	while
wenzelm@33437	344	Multithreading.with_attributes
wenzelm@33437	345	(Multithreading.sync_interrupts Multithreading.public_interrupts)
wenzelm@33437	346	(fn _ => SYNCHRONIZED "scheduler" (fn () => scheduler_next ()))
wenzelm@33437	347	do ();
wenzelm@28191	348
wenzelm@28203	349	fun scheduler_active () = (requires SYNCHRONIZED)
wenzelm@28203	350	(case ! scheduler of NONE => false \| SOME thread => Thread.isActive thread);
wenzelm@28203	351
wenzelm@32228	352	fun scheduler_check () = (requires SYNCHRONIZED)
wenzelm@32228	353	(do_shutdown := false;
wenzelm@32252	354	if scheduler_active () then ()
wenzelm@32252	355	else scheduler := SOME (SimpleThread.fork false scheduler_loop));
wenzelm@28191	356
wenzelm@28191	357
wenzelm@28191	358
wenzelm@29370	359	( futures )
wenzelm@29370	360
wenzelm@29370	361	(* fork *)
wenzelm@29370	362
wenzelm@29370	363	fun fork_future opt_group deps pri e =
wenzelm@29370	364	let
wenzelm@32122	365	val group =
wenzelm@32122	366	(case opt_group of
wenzelm@32122	367	SOME group => group
wenzelm@32122	368	\| NONE => Task_Queue.new_group (worker_group ()));
wenzelm@29370	369	val (result, job) = future_job group e;
wenzelm@32250	370	val task = SYNCHRONIZED "enqueue" (fn () =>
wenzelm@32219	371	let
wenzelm@32738	372	val (task, minimal) =
wenzelm@32738	373	Unsynchronized.change_result queue (Task_Queue.enqueue group deps pri job);
wenzelm@32219	374	val _ = if minimal then signal work_available else ();
wenzelm@32228	375	val _ = scheduler_check ();
wenzelm@32219	376	in task end);
wenzelm@28166	377	in Future {task = task, group = group, result = result} end;
wenzelm@28162	378
wenzelm@29370	379	fun fork_group group e = fork_future (SOME group) [] 0 e;
wenzelm@32729	380	fun fork_deps_pri deps pri e = fork_future NONE (map task_of deps) pri e;
wenzelm@32729	381	fun fork_deps deps e = fork_deps_pri deps 0 e;
wenzelm@32729	382	fun fork_pri pri e = fork_deps_pri [] pri e;
wenzelm@32729	383	fun fork e = fork_deps [] e;
wenzelm@28162	384
wenzelm@28186	385
wenzelm@29370	386	(* join *)
wenzelm@28186	387
wenzelm@29551	388	local
wenzelm@29551	389
wenzelm@32119	390	fun get_result x =
wenzelm@32119	391	(case peek x of
wenzelm@32122	392	NONE => Exn.Exn (SYS_ERROR "unfinished future")
wenzelm@32122	393	\| SOME (Exn.Exn Exn.Interrupt) =>
wenzelm@32122	394	Exn.Exn (Exn.EXCEPTIONS (Exn.flatten_list (Task_Queue.group_status (group_of x))))
wenzelm@32122	395	\| SOME res => res);
wenzelm@28177	396
wenzelm@33430	397	fun passive_wait x =
wenzelm@33068	398	Synchronized.readonly_access (result_of x) (fn NONE => NONE \| SOME _ => SOME ());
wenzelm@32224	399
wenzelm@32115	400	fun join_next deps = (requires SYNCHRONIZED)
wenzelm@32224	401	if null deps then NONE
wenzelm@32224	402	else
wenzelm@32738	403	(case Unsynchronized.change_result queue (Task_Queue.dequeue_towards (Thread.self ()) deps) of
wenzelm@32224	404	(NONE, []) => NONE
wenzelm@33431	405	\| (NONE, deps') => (worker_wait true work_finished; join_next deps')
wenzelm@32224	406	\| (SOME work, deps') => SOME (work, deps'));
wenzelm@32115	407
wenzelm@32823	408	fun execute_work NONE = ()
wenzelm@33429	409	\| execute_work (SOME (work, deps')) = (execute work; join_work deps')
wenzelm@32823	410	and join_work deps =
wenzelm@32823	411	execute_work (SYNCHRONIZED "join" (fn () => join_next deps));
wenzelm@32823	412
wenzelm@32823	413	fun join_depend task deps =
wenzelm@32823	414	execute_work (SYNCHRONIZED "join" (fn () =>
wenzelm@32823	415	(Unsynchronized.change queue (Task_Queue.depend task deps); join_next deps)));
wenzelm@29551	416
wenzelm@29551	417	in
wenzelm@29551	418
wenzelm@29370	419	fun join_results xs =
wenzelm@29370	420	if forall is_finished xs then map get_result xs
wenzelm@32250	421	else if Multithreading.self_critical () then
wenzelm@32250	422	error "Cannot join future values within critical section"
wenzelm@32823	423	else
wenzelm@32823	424	(case worker_task () of
wenzelm@32823	425	SOME task => join_depend task (map task_of xs)
wenzelm@33430	426	\| NONE => List.app passive_wait xs;
wenzelm@32823	427	map get_result xs);
wenzelm@28186	428
wenzelm@29551	429	end;
wenzelm@29551	430
wenzelm@28647	431	fun join_result x = singleton join_results x;
wenzelm@28647	432	fun join x = Exn.release (join_result x);
wenzelm@28156	433
wenzelm@28979	434
wenzelm@29370	435	(* map *)
wenzelm@28191	436
wenzelm@29384	437	fun map_future f x =
wenzelm@29370	438	let
wenzelm@29384	439	val task = task_of x;
wenzelm@32122	440	val group = Task_Queue.new_group (SOME (group_of x));
wenzelm@29384	441	val (result, job) = future_job group (fn () => f (join x));
wenzelm@29384	442
wenzelm@32250	443	val extended = SYNCHRONIZED "extend" (fn () =>
wenzelm@29370	444	(case Task_Queue.extend task job (! queue) of
wenzelm@29370	445	SOME queue' => (queue := queue'; true)
wenzelm@29370	446	\| NONE => false));
wenzelm@29370	447	in
wenzelm@29384	448	if extended then Future {task = task, group = group, result = result}
wenzelm@32119	449	else fork_future (SOME group) [task] (Task_Queue.pri_of_task task) (fn () => f (join x))
wenzelm@29370	450	end;
wenzelm@29370	451
wenzelm@29370	452
wenzelm@29431	453	(* cancellation *)
wenzelm@28202	454
wenzelm@30621	455	fun interruptible_task f x =
wenzelm@30621	456	if Multithreading.available then
wenzelm@30621	457	Multithreading.with_attributes
wenzelm@32074	458	(if is_worker ()
wenzelm@32298	459	then Multithreading.private_interrupts
wenzelm@32298	460	else Multithreading.public_interrupts)
wenzelm@32298	461	(fn _ => f x)
wenzelm@30621	462	else interruptible f x;
wenzelm@30621	463
wenzelm@32228	464	(cancel: present and future group members will be interrupted eventually)
wenzelm@32228	465	fun cancel_group group = SYNCHRONIZED "cancel" (fn () => do_cancel group);
wenzelm@29431	466	fun cancel x = cancel_group (group_of x);
wenzelm@28206	467
wenzelm@29370	468
wenzelm@32228	469	(* shutdown *)
wenzelm@29370	470
wenzelm@28203	471	fun shutdown () =
wenzelm@28276	472	if Multithreading.available then
wenzelm@28276	473	SYNCHRONIZED "shutdown" (fn () =>
wenzelm@32228	474	while scheduler_active () do
wenzelm@32252	475	(wait scheduler_event; broadcast_work ()))
wenzelm@28276	476	else ();
wenzelm@28203	477
wenzelm@29370	478
wenzelm@29370	479	(final declarations of this structure!)
wenzelm@29370	480	val map = map_future;
wenzelm@29370	481
wenzelm@28156	482	end;
wenzelm@28972	483
wenzelm@28972	484	type 'a future = 'a Future.future;
wenzelm@28972	485

author	wenzelm
	Thu, 05 Nov 2009 13:16:22 +0100
changeset 33437	13d00799fe49
parent 33436	352fe8e9162d
child 34277	7325a5e3587f
permissions	-rw-r--r--