* de.po: Update.
[official-gcc.git] / libcilkrts / runtime / full_frame.h
blob327a3337afe2d5b24473399fa103c11cbf156dea
1 /* full_frame.h -*-C++-*-
3 *************************************************************************
5 * @copyright
6 * Copyright (C) 2009-2013, Intel Corporation
7 * All rights reserved.
8 *
9 * @copyright
10 * Redistribution and use in source and binary forms, with or without
11 * modification, are permitted provided that the following conditions
12 * are met:
14 * * Redistributions of source code must retain the above copyright
15 * notice, this list of conditions and the following disclaimer.
16 * * Redistributions in binary form must reproduce the above copyright
17 * notice, this list of conditions and the following disclaimer in
18 * the documentation and/or other materials provided with the
19 * distribution.
20 * * Neither the name of Intel Corporation nor the names of its
21 * contributors may be used to endorse or promote products derived
22 * from this software without specific prior written permission.
24 * @copyright
25 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
26 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
27 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
28 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
29 * HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
30 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
31 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
32 * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
33 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
34 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY
35 * WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
36 * POSSIBILITY OF SUCH DAMAGE.
37 **************************************************************************/
39 #ifndef INCLUDED_FULL_FRAME_DOT_H
40 #define INCLUDED_FULL_FRAME_DOT_H
43 #include "rts-common.h"
44 #include "worker_mutex.h"
46 #include <cilk/common.h>
47 #include <internal/abi.h>
48 #include <stddef.h>
49 #include "cilk_fiber.h"
51 __CILKRTS_BEGIN_EXTERN_C
53 /** Magic numbers for full_frame, used for debugging */
54 typedef unsigned long long ff_magic_t;
56 /* COMMON_SYSDEP */ struct pending_exception_info; /* opaque */
58 /*************************************************************
59 Full frames
60 *************************************************************/
62 /**
63 * @file full_frame.h
64 * @brief A full frame includes additional information such as a join
65 * counter and parent frame.
66 * @defgroup FullFrames Full Frames
67 * A full frame includes additional information such as a join
68 * counter and parent frame.
69 * @{
72 /**
73 * Convenience typedef so we don't have to specify "struct full_frame"
74 * all over the code. Putting it before the structure definition allows
75 * us to use the typedef within the structure itself
77 typedef struct full_frame full_frame;
79 /**
80 * @brief A full frame includes additional information such as a join
81 * counter and parent frame.
83 * The frame at the top of a worker's stack is promoted into a "full"
84 * frame, which carries additional information, such as join counter
85 * and parent frame. Full frames can be suspended at a sync, in which
86 * case they lie somewhere in memory and do not belong to any
87 * worker.
89 * Full frames are in contrast to the entries in the worker's deque which
90 * are only represented by a pointer to their __cilkrts_stack_frame.
92 * At any instant, we say that a full frame ff is either "suspended",
93 * or "owned" by some worker w.
95 * More precisely, we say that a worker w owns a frame ff under one of
96 * the following conditions:
98 * 1. Creation: Worker w has just created ff, but not yet linked ff
99 * into the tree of full frames. This situation can occur when a
100 * worker is unrolling a call stack to promote a
101 * __cilkrts_stack_frame to a full_frame.
102 * 2. Executing frame: We have w->l->frame_ff == ff, i.e,. ff is the
103 * currently executing frame for w.
104 * 3. Next frame: We have w->l->next_frame_ff == ff, i.e,. ff is the
105 * next frame that w is about to execute.
106 * 4. Resume execution: Worker w has popped ff from
107 * w->l->next_frame_ff, and is about to resume execution of ff.
108 * 5. Dying leaf: Worker w has finished executing a frame ff
109 * that is a leaf the tree of full frames, and is in the process
110 * of unlinking "ff" from the tree.
112 * Otherwise, the frame ff is suspended, and has no owner.
113 * Note that work-stealing changes the owner of a full frame from the
114 * victim to the thief.
116 * Using this notion of ownership, we classify the fields of a full
117 * frame into one of several categories:
119 * 1. Local:
120 * These fields are accessed only by the owner of the full frame.
121 * Because a frame can have only one owner at a time, these fields
122 * can be modified without any (additional) locking or
123 * synchronization, assuming the correct synchronization for
124 * changing the ownership of full frame (e.g., on a successful
125 * steal) is already in place.
127 * 2. Constant (i.e., read-only):
128 * This field is constant for the lifetime of the full frame.
129 * No locks are needed to access this field.
130 * Technically, a field could be read-only and local, but we assume
131 * it is shared.
133 * 3. Self-locked:
134 * To access this field in the frame ff, a worker should acquire
135 * the lock on ff.
136 * A self-locked field is conceptually "shared" between the worker
137 * that owns frame ff (which is a child) and the worker that
138 * owns the frame ff->parent (which is the parent of ff).
140 * 4. Parent-locked:
141 * To access this field in the frame ff, a worker should
142 * acquire the lock on ff->parent.
143 * A parent-locked field is conceptually "shared" between the worker
144 * that owns frame ff, and a worker that is either owns the
145 * parent frame (ff->parent) or owns a sibling frame of ff (i.e.,
146 * any child of ff->parent).
148 * 5. Synchronization
149 * A field used explicitly for synchronization (i.e., locks).
152 /* COMMON_PORTABLE */
153 struct full_frame
156 * Value to detect writes off the beginning of a full_frame.
158 # define FULL_FRAME_MAGIC_0 ((ff_magic_t)0x361e710b9597d553ULL)
161 * Field to detect writes off the beginning of a full_frame. Must be
162 * FULL_FRAME_MAGIC_0.
163 * [constant]
165 ff_magic_t full_frame_magic_0;
168 * Used to serialize access to this full_frame
169 * [synchronization]
171 struct mutex lock;
174 * Count of outstanding children running in parallel
175 * [self-locked]
177 int join_counter;
180 * If TRUE: frame was called by the parent.
181 * If FALSE: frame was spawned by parent.
182 * [constant]
184 int is_call_child;
187 * TRUE if this frame is the loot of a simulated steal.
189 * This situation never happens in normal execution. However,
190 * when running under cilkscreen, a worker may promote frames and
191 * then immediately suspend them, in order to simulate an
192 * execution on an infinite number of processors where all spawns
193 * are stolen. In this case, the frame is marked as the loot of a fake
194 * steal.
195 * [local]
197 int simulated_stolen;
200 * Caller of this full_frame
201 * [constant]
203 full_frame *parent;
206 * Doubly-linked list of children. The serial execution order is
207 * by definition from left to right. Because of how we do work
208 * stealing, the parent is always to the right of all its
209 * children.
211 * For a frame ff, we lock the ff->parent to follow the sibling
212 * links for ff.
214 * [parent-locked]
216 full_frame *left_sibling;
219 * @copydoc left_sibling
221 full_frame *right_sibling;
224 * Pointer to rightmost child
226 * [self-locked]
228 full_frame *rightmost_child;
231 * Call stack associated with this frame.
232 * Set and reset in make_unrunnable and make_runnable
234 * [self-locked]
236 __cilkrts_stack_frame *call_stack;
239 * Accumulated reducers of children
241 * [self-locked]
243 struct cilkred_map *children_reducer_map;
246 * Accumulated reducers of right siblings that have already
247 * terminated
249 * [parent-locked]
251 struct cilkred_map *right_reducer_map;
254 * Exception that needs to be pass to our parent
256 * [local]
258 * TBD: verify that the exception code satisfies this requirement.
260 struct pending_exception_info *pending_exception;
263 * Exception from one of our children
265 * [self-locked]
267 struct pending_exception_info *child_pending_exception;
270 * Exception from any right siblings
272 * [parent-locked]
274 struct pending_exception_info *right_pending_exception;
277 * Stack pointer to restore on sync.
278 * [local]
280 char *sync_sp;
282 #ifdef _WIN32
284 * Stack pointer to restore on exception.
285 * [local]
287 char *exception_sp;
290 * Exception trylevel at steal
291 * [local]
293 * TBD: this field is set but not read?
295 unsigned long trylevel;
298 * Exception registration head pointer to restore on sync.
299 * [local]
301 unsigned long registration;
302 #endif
305 * Size of frame to match sync sp
306 * [local]
307 * TBD: obsolete field only used in debugging?
309 ptrdiff_t frame_size;
312 * Allocated fibers that need to be freed. The fibers work
313 * like a reducer. The leftmost frame may have @c fiber_self
314 * null and owner non-null.
316 * [local]
317 * TBD: verify exception code satisfies this requirement.
319 cilk_fiber *fiber_self;
322 * Allocated fibers that need to be freed. The fibers work
323 * like a reducer. The leftmost frame may have @c fiber_self
324 * null and owner non-null.
326 * [self-locked]
328 cilk_fiber *fiber_child;
331 * If the sync_master is set, this function can only be sync'd by the team
332 * leader, who first entered Cilk. This is set by the first worker to steal
333 * from the user worker.
335 * [self-locked]
337 __cilkrts_worker *sync_master;
340 * Value to detect writes off the end of a full_frame.
342 # define FULL_FRAME_MAGIC_1 ((ff_magic_t)0x189986dcc7aee1caULL)
345 * Field to detect writes off the end of a full_frame. Must be
346 * FULL_FRAME_MAGIC_1.
348 * [constant]
350 ff_magic_t full_frame_magic_1;
353 /* The functions __cilkrts_put_stack and __cilkrts_take_stack keep track of
354 * changes in the stack's depth between when the point at which a frame is
355 * stolen and when it is resumed at a sync. A stolen frame typically goes
356 * through the following phase changes:
358 * 1. Suspend frame while stealing it.
359 * 2. Resume stolen frame at begining of continuation
360 * 3. Suspend stolen frame at a sync
361 * 4. Resume frame (no longer marked stolen) after the sync
363 * When the frame is suspended (steps 1 and 3), __cilkrts_put_stack is called to
364 * establish the stack pointer for the sync. When the frame is resumed (steps
365 * 2 and 4), __cilkrts_take_stack is called to indicate the stack pointer
366 * (which may be on a different stack) at
367 * the point of resume. If the stack pointer changes between steps 2 and 3,
368 * e.g., as a result of pushing 4 bytes onto the stack,
369 * the offset is reflected in the value of ff->sync_sp after step 3 relative to
370 * its value after step 1 (e.g., the value of ff->sync_sp after step 3 would be
371 * 4 less than its value after step 1, for a down-growing stack).
373 * Imp detail: The actual call chains for each of these phase-change events is:
375 * 1. unroll_call_stack -> make_unrunnable -> __cilkrts_put_stack
376 * 2. do_work -> __cilkrts_resume -> __cilkrts_take_stack
377 * 3. do_sync -> disown -> make_runnable -> __cilkrts_put_stack
378 * 4. __cilkrts_resume -> __cilkrts_take_stack
380 * (The above is a changeable implementation detail. The resume, sequence, in
381 * particular, is more complex on some operating systems.)
385 * @brief Records the stack pointer within the @c sf stack frame as the
386 * current stack pointer at the point of suspending full frame @c ff.
388 * @pre @c ff->sync_sp must be either null or contain the result of a prior call to
389 * @c __cilkrts_take_stack().
390 * @pre If @c ff->sync_sp is not null, then @c SP(sf) must refer to the same stack as
391 * the @c sp argument to the prior call to @c __cilkrts_take_stack().
394 * @post If @c ff->sync_sp was null before the call, then @c
395 * ff->sync_sp will be set to @c SP(sf).
396 * @post Otherwise, @c ff->sync_sp will be restored to the value it had just prior
397 * to the last call to @c __cilkrts_take_stack(), except offset by any change
398 * in the stack pointer between the call to @c __cilkrts_take_stack() and
399 * this call to @c __cilkrts_put_stack().
401 * @param ff The full frame that is being suspended.
402 * @param sf The @c __cilkrts_stack_frame that is being suspended. The stack
403 * pointer will be taken from the jmpbuf contained within this
404 * @c __cilkrts_stack_frame.
406 COMMON_PORTABLE void __cilkrts_put_stack(full_frame *ff,
407 __cilkrts_stack_frame *sf);
410 * @brief Records the stack pointer @c sp as the stack pointer at the point of
411 * resuming execution on full frame @c ff.
413 * The value of @c sp may be on a different stack than the original
414 * value recorded for the stack pointer using __cilkrts_put_stack().
416 * @pre @c ff->sync_sp must contain a value set by @c __cilkrts_put_stack().
418 * @post @c ff->sync_sp contains an *integer* value used to compute a change in the
419 * stack pointer upon the next call to @c __cilkrts_take_stack().
420 * @post If @c sp equals @c ff->sync_sp, then @c ff->sync_sp is set to null.
422 * @param ff The full frame that is being resumed.
423 * @param sp The stack pointer for the stack the function is being resumed on.
425 COMMON_PORTABLE void __cilkrts_take_stack(full_frame *ff, void *sp);
428 * @brief Adjust the stack for to deallocate a Variable Length Array
430 * @param ff The full frame that is being adjusted.
431 * @param size The size of the array being deallocated from the stack
433 COMMON_PORTABLE void __cilkrts_adjust_stack(full_frame *ff, size_t size);
436 * @brief Allocates and initailizes a full_frame.
438 * @param w The memory for the full_frame will be allocated out of the
439 * worker's pool.
440 * @param sf The @c __cilkrts_stack_frame which will be saved as the call_stack
441 * for this full_frame.
443 * @return The newly allocated and initialized full_frame.
445 COMMON_PORTABLE
446 full_frame *__cilkrts_make_full_frame(__cilkrts_worker *w,
447 __cilkrts_stack_frame *sf);
450 * @brief Deallocates a full_frame.
452 * @param w The memory for the full_frame will be returned to the worker's pool.
453 * @param ff The full_frame to be deallocated.
455 COMMON_PORTABLE
456 void __cilkrts_destroy_full_frame(__cilkrts_worker *w, full_frame *ff);
459 * @brief Performs sanity checks to check the integrity of a full_frame.
461 * @param ff The full_frame to be validated.
463 COMMON_PORTABLE void validate_full_frame(full_frame *ff);
466 * @brief Locks the mutex contained in a full_frame.
468 * The full_frame is validated before the runtime attempts to lock it.
470 * @post @c ff->lock will be owned by @c w.
472 * @param w The worker that will own the full_frame. If the runtime is
473 * collecting stats, the intervals will be attributed to the worker.
474 * @param ff The full_frame containing the mutex to be locked.
476 COMMON_PORTABLE void __cilkrts_frame_lock(__cilkrts_worker *w,
477 full_frame *ff);
480 * @brief Unlocks the mutex contained in a full_frame.
482 * @pre @c ff->lock must must be owned by @c w.
484 * @param w The worker that currently owns the full_frame.
485 * @param ff The full_frame containing the mutex to be unlocked.
487 COMMON_PORTABLE void __cilkrts_frame_unlock(__cilkrts_worker *w,
488 full_frame *ff);
489 /** @} */
491 __CILKRTS_END_EXTERN_C
493 #endif // ! defined(INCLUDED_FULL_FRAME_DOT_H)