source: libcfa/src/concurrency/channel.hfa @ 6d5790d

Last change on this file since 6d5790d was 7a2c6b18, checked in by caparsons <caparson@…>, 16 months ago

did some cleanup in locks.hfa and fixed seg fault bug in channel waituntil remove()

  • Property mode set to 100644
File size: 20.8 KB
RevLine 
[629c95a]1//
2// Cforall Version 1.0.0 Copyright (C) 2021 University of Waterloo
3//
4// The contents of this file are covered under the licence agreement in the
5// file "LICENCE" distributed with Cforall.
6//
7// channel.hfa -- LIBCFATHREAD
8// Runtime locks that used with the runtime thread system.
9//
10// Author           : Colby Alexander Parsons
11// Created On       : Thu Jan 21 19:46:50 2022
12// Last Modified By :
13// Last Modified On :
14// Update Count     :
15//
16
[5e4a830]17#pragma once
18
[4a962d8]19#include <locks.hfa>
[d30e3eb]20#include <list.hfa>
[beeff61e]21#include "select.hfa"
[a45e21c]22
23// returns true if woken due to shutdown
24// blocks thread on list and releases passed lock
[beeff61e]25static inline bool block( dlist( select_node ) & queue, void * elem_ptr, go_mutex & lock ) {
26    select_node sn{ active_thread(), elem_ptr };
27    insert_last( queue, sn );
[a45e21c]28    unlock( lock );
29    park();
[beeff61e]30    return sn.extra == 0p;
31}
32
33// Waituntil support (un)register_select helper routine
34// Sets select node avail if not special OR case and then unlocks
35static inline void __set_avail_then_unlock( select_node & node, go_mutex & mutex_lock ) {
36    if ( node.park_counter ) __make_select_node_available( node );
37    unlock( mutex_lock );
[a45e21c]38}
39
40// void * used for some fields since exceptions don't work with parametric polymorphism currently
41exception channel_closed {
42    // on failed insert elem is a ptr to the element attempting to be inserted
43    // on failed remove elem ptr is 0p
44    // on resumption of a failed insert this elem will be inserted
45    // so a user may modify it in the resumption handler
46    void * elem;
47
48    // pointer to chan that is closed
49    void * closed_chan;
50};
51vtable(channel_closed) channel_closed_vt;
52
[ded6c2a6]53static inline bool is_insert( channel_closed & e ) { return e.elem != 0p; }
54static inline bool is_remove( channel_closed & e ) { return e.elem == 0p; }
[3eeeb88]55
[a45e21c]56// #define CHAN_STATS // define this to get channel stats printed in dtor
57
[4a962d8]58forall( T ) {
[d30e3eb]59
[a45e21c]60struct __attribute__((aligned(128))) channel {
61    size_t size, front, back, count;
[4a962d8]62    T * buffer;
[beeff61e]63    dlist( select_node ) prods, cons; // lists of blocked threads
[629c95a]64    go_mutex mutex_lock;              // MX lock
65    bool closed;                      // indicates channel close/open
[a45e21c]66    #ifdef CHAN_STATS
[88b49bb]67    size_t p_blocks, p_ops, c_blocks, c_ops;      // counts total ops and ops resulting in a blocked thd
[a45e21c]68    #endif
[4a962d8]69};
[7a2c6b18]70static inline void ?{}( channel(T) & this, channel(T) this2 ) = void;
71static inline void ?=?( channel(T) & this, channel(T) this2 ) = void;
[4a962d8]72
73static inline void ?{}( channel(T) &c, size_t _size ) with(c) {
74    size = _size;
75    front = back = count = 0;
[beeff61e]76    if ( size != 0 ) buffer = aalloc( size );
[4a962d8]77    prods{};
78    cons{};
79    mutex_lock{};
[a45e21c]80    closed = false;
81    #ifdef CHAN_STATS
[88b49bb]82    p_blocks = 0;
83    p_ops = 0;
84    c_blocks = 0;
85    c_ops = 0;
[a45e21c]86    #endif
[4a962d8]87}
88
89static inline void ?{}( channel(T) &c ){ ((channel(T) &)c){ 0 }; }
[a45e21c]90static inline void ^?{}( channel(T) &c ) with(c) {
91    #ifdef CHAN_STATS
[88b49bb]92    printf("Channel %p Blocks: %lu,\t\tOperations: %lu,\t%.2f%% of ops blocked\n", &c, p_blocks + c_blocks, p_ops + c_ops, ((double)p_blocks + c_blocks)/(p_ops + c_ops) * 100);
93    printf("Channel %p Consumer Blocks: %lu,\tConsumer Ops: %lu,\t%.2f%% of Consumer ops blocked\n", &c, p_blocks, p_ops, ((double)p_blocks)/p_ops * 100);
94    printf("Channel %p Producer Blocks: %lu,\tProducer Ops: %lu,\t%.2f%% of Producer ops blocked\n", &c, c_blocks, c_ops, ((double)c_blocks)/c_ops * 100);
[a45e21c]95    #endif
[88b49bb]96    verifyf( __handle_waituntil_OR( cons ) || __handle_waituntil_OR( prods ) || cons`isEmpty && prods`isEmpty,
97        "Attempted to delete channel with waiting threads (Deadlock).\n" );
[beeff61e]98    if ( size != 0 ) delete( buffer );
[a45e21c]99}
[5908fb4]100static inline size_t get_count( channel(T) & chan ) with(chan) { return __atomic_load_n( &count, __ATOMIC_RELAXED ); }
101static inline size_t get_size( channel(T) & chan ) with(chan) { return __atomic_load_n( &size, __ATOMIC_RELAXED ); }
[d30e3eb]102static inline bool has_waiters( channel(T) & chan ) with(chan) { return !cons`isEmpty || !prods`isEmpty; }
103static inline bool has_waiting_consumers( channel(T) & chan ) with(chan) { return !cons`isEmpty; }
104static inline bool has_waiting_producers( channel(T) & chan ) with(chan) { return !prods`isEmpty; }
[4a962d8]105
[a45e21c]106// closes the channel and notifies all blocked threads
107static inline void close( channel(T) & chan ) with(chan) {
108    lock( mutex_lock );
109    closed = true;
110
111    // flush waiting consumers and producers
112    while ( has_waiting_consumers( chan ) ) {
[beeff61e]113        if( !__handle_waituntil_OR( cons ) ) // ensure we only signal special OR case threads when they win the race
114            break;  // if __handle_waituntil_OR returns false cons is empty so break
115        cons`first.extra = 0p;
[a45e21c]116        wake_one( cons );
117    }
118    while ( has_waiting_producers( chan ) ) {
[beeff61e]119        if( !__handle_waituntil_OR( prods ) ) // ensure we only signal special OR case threads when they win the race
120            break;  // if __handle_waituntil_OR returns false prods is empty so break
121        prods`first.extra = 0p;
[a45e21c]122        wake_one( prods );
123    }
124    unlock(mutex_lock);
125}
126
127static inline void is_closed( channel(T) & chan ) with(chan) { return closed; }
128
[beeff61e]129// used to hand an element to a blocked consumer and signal it
130static inline void __cons_handoff( channel(T) & chan, T & elem ) with(chan) {
131    memcpy( cons`first.extra, (void *)&elem, sizeof(T) ); // do waiting consumer work
132    wake_one( cons );
133}
134
135// used to hand an element to a blocked producer and signal it
136static inline void __prods_handoff( channel(T) & chan, T & retval ) with(chan) {
137    memcpy( (void *)&retval, prods`first.extra, sizeof(T) );
138    wake_one( prods );
139}
140
[a45e21c]141static inline void flush( channel(T) & chan, T elem ) with(chan) {
142    lock( mutex_lock );
143    while ( count == 0 && !cons`isEmpty ) {
[beeff61e]144        __cons_handoff( chan, elem );
[a45e21c]145    }
146    unlock( mutex_lock );
147}
148
149// handles buffer insert
150static inline void __buf_insert( channel(T) & chan, T & elem ) with(chan) {
[beeff61e]151    memcpy( (void *)&buffer[back], (void *)&elem, sizeof(T) );
[4a962d8]152    count += 1;
153    back++;
154    if ( back == size ) back = 0;
155}
156
[a45e21c]157// needed to avoid an extra copy in closed case
158static inline bool __internal_try_insert( channel(T) & chan, T & elem ) with(chan) {
159    lock( mutex_lock );
160    #ifdef CHAN_STATS
[88b49bb]161    p_ops++;
[a45e21c]162    #endif
[beeff61e]163
164    ConsEmpty: if ( !cons`isEmpty ) {
165        if ( !__handle_waituntil_OR( cons ) ) break ConsEmpty;
166        __cons_handoff( chan, elem );
167        unlock( mutex_lock );
168        return true;
169    }
170
[a45e21c]171    if ( count == size ) { unlock( mutex_lock ); return false; }
[beeff61e]172
173    __buf_insert( chan, elem );
[a45e21c]174    unlock( mutex_lock );
175    return true;
176}
177
178// attempts a nonblocking insert
179// returns true if insert was successful, false otherwise
180static inline bool try_insert( channel(T) & chan, T elem ) { return __internal_try_insert( chan, elem ); }
181
182// handles closed case of insert routine
183static inline void __closed_insert( channel(T) & chan, T & elem ) with(chan) {
[beeff61e]184    channel_closed except{ &channel_closed_vt, &elem, &chan };
[a45e21c]185    throwResume except; // throw closed resumption
186    if ( !__internal_try_insert( chan, elem ) ) throw except; // if try to insert fails (would block), throw termination
[d30e3eb]187}
[4a962d8]188
[42b739d7]189static inline void insert( channel(T) & chan, T elem ) with(chan) {
[a45e21c]190    // check for close before acquire mx
191    if ( unlikely(closed) ) {
192        __closed_insert( chan, elem );
193        return;
194    }
195
[4a962d8]196    lock( mutex_lock );
197
[a45e21c]198    #ifdef CHAN_STATS
[88b49bb]199    if ( !closed ) p_ops++;
[a45e21c]200    #endif
201
202    // if closed handle
203    if ( unlikely(closed) ) {
204        unlock( mutex_lock );
205        __closed_insert( chan, elem );
206        return;
207    }
208
[beeff61e]209    // buffer count must be zero if cons are blocked (also handles zero-size case)
210    ConsEmpty: if ( !cons`isEmpty ) {
211        if ( !__handle_waituntil_OR( cons ) ) break ConsEmpty;
212        __cons_handoff( chan, elem );
[5c931e0]213        unlock( mutex_lock );
[beeff61e]214        return;
[5c931e0]215    }
216
[4a962d8]217    // wait if buffer is full, work will be completed by someone else
[d30e3eb]218    if ( count == size ) {
[a45e21c]219        #ifdef CHAN_STATS
[88b49bb]220        p_blocks++;
[a45e21c]221        #endif
222
223        // check for if woken due to close
224        if ( unlikely( block( prods, &elem, mutex_lock ) ) )
225            __closed_insert( chan, elem );
[4a962d8]226        return;
227    } // if
228
[beeff61e]229    __buf_insert( chan, elem );
[4a962d8]230    unlock( mutex_lock );
[a45e21c]231}
[4a962d8]232
[a45e21c]233// does the buffer remove and potentially does waiting producer work
234static inline void __do_remove( channel(T) & chan, T & retval ) with(chan) {
[beeff61e]235    memcpy( (void *)&retval, (void *)&buffer[front], sizeof(T) );
236    count -= 1;
237    front = (front + 1) % size;
[d30e3eb]238    if (count == size - 1 && !prods`isEmpty ) {
[beeff61e]239        if ( !__handle_waituntil_OR( prods ) ) return;
240        __buf_insert( chan, *(T *)prods`first.extra );  // do waiting producer work
[d30e3eb]241        wake_one( prods );
242    }
[4a962d8]243}
[0e16a2d]244
[a45e21c]245// needed to avoid an extra copy in closed case and single return val case
246static inline bool __internal_try_remove( channel(T) & chan, T & retval ) with(chan) {
[0e16a2d]247    lock( mutex_lock );
[a45e21c]248    #ifdef CHAN_STATS
[88b49bb]249    c_ops++;
[a45e21c]250    #endif
[beeff61e]251
252    ZeroSize: if ( size == 0 && !prods`isEmpty ) {
253        if ( !__handle_waituntil_OR( prods ) ) break ZeroSize;
254        __prods_handoff( chan, retval );
255        unlock( mutex_lock );
256        return true;
257    }
258
[a45e21c]259    if ( count == 0 ) { unlock( mutex_lock ); return false; }
[beeff61e]260
[a45e21c]261    __do_remove( chan, retval );
[0e16a2d]262    unlock( mutex_lock );
[a45e21c]263    return true;
[0e16a2d]264}
265
[a45e21c]266// attempts a nonblocking remove
267// returns [T, true] if insert was successful
268// returns [T, false] if insert was successful (T uninit)
269static inline [T, bool] try_remove( channel(T) & chan ) {
[0e16a2d]270    T retval;
[beeff61e]271    bool success = __internal_try_remove( chan, retval );
272    return [ retval, success ];
[a45e21c]273}
[0e16a2d]274
[beeff61e]275static inline T try_remove( channel(T) & chan ) {
[a45e21c]276    T retval;
277    __internal_try_remove( chan, retval );
[0e16a2d]278    return retval;
279}
280
[a45e21c]281// handles closed case of insert routine
282static inline void __closed_remove( channel(T) & chan, T & retval ) with(chan) {
[beeff61e]283    channel_closed except{ &channel_closed_vt, 0p, &chan };
[a45e21c]284    throwResume except; // throw resumption
285    if ( !__internal_try_remove( chan, retval ) ) throw except; // if try to remove fails (would block), throw termination
[0e16a2d]286}
287
[a45e21c]288static inline T remove( channel(T) & chan ) with(chan) {
289    T retval;
290    if ( unlikely(closed) ) {
291        __closed_remove( chan, retval );
292        return retval;
293    }
294    lock( mutex_lock );
[0e16a2d]295
[a45e21c]296    #ifdef CHAN_STATS
[88b49bb]297    if ( !closed ) c_ops++;
[a45e21c]298    #endif
[0e16a2d]299
[a45e21c]300    if ( unlikely(closed) ) {
301        unlock( mutex_lock );
302        __closed_remove( chan, retval );
303        return retval;
304    }
[0e16a2d]305
[a45e21c]306    // have to check for the zero size channel case
[beeff61e]307    ZeroSize: if ( size == 0 && !prods`isEmpty ) {
308        if ( !__handle_waituntil_OR( prods ) ) break ZeroSize;
309        __prods_handoff( chan, retval );
[a45e21c]310        unlock( mutex_lock );
311        return retval;
312    }
[0e16a2d]313
[a45e21c]314    // wait if buffer is empty, work will be completed by someone else
[beeff61e]315    if ( count == 0 ) {
[a45e21c]316        #ifdef CHAN_STATS
[88b49bb]317        c_blocks++;
[a45e21c]318        #endif
319        // check for if woken due to close
320        if ( unlikely( block( cons, &retval, mutex_lock ) ) )
321            __closed_remove( chan, retval );
322        return retval;
323    }
[0e16a2d]324
325    // Remove from buffer
[a45e21c]326    __do_remove( chan, retval );
[0e16a2d]327    unlock( mutex_lock );
328    return retval;
329}
[c44705c]330static inline void remove( channel(T) & chan ) { T elem = (T)remove( chan ); }
331
[ca22a7c]332
[a0b59ed]333///////////////////////////////////////////////////////////////////////////////////////////
334// The following is Go-style operator support for channels
335///////////////////////////////////////////////////////////////////////////////////////////
336
[ca22a7c]337static inline void ?<<?( channel(T) & chan, T elem ) { insert( chan, elem ); }
[bf55f32]338static inline void ?<<?( T & ret, channel(T) & chan ) { ret = remove( chan ); }
[beeff61e]339
340///////////////////////////////////////////////////////////////////////////////////////////
341// The following is support for waituntil (select) statements
342///////////////////////////////////////////////////////////////////////////////////////////
343static inline bool unregister_chan( channel(T) & chan, select_node & node ) with(chan) {
[88b49bb]344    if ( !node`isListed && !node.park_counter ) return false; // handle special OR case
[beeff61e]345    lock( mutex_lock );
346    if ( node`isListed ) { // op wasn't performed
347        remove( node );
348        unlock( mutex_lock );
349        return false;
350    }
351    unlock( mutex_lock );
352
[00b046f]353    // only return true when not special OR case and status is SAT
354    return !node.park_counter ? false : *node.clause_status == __SELECT_SAT;
[beeff61e]355}
356
[6f774be]357// special case of __handle_waituntil_OR, that does some work to avoid starvation/deadlock case
358static inline bool __handle_pending( dlist( select_node ) & queue, select_node & mine ) {
359    while ( !queue`isEmpty ) {
360        // if node not a special OR case or if we win the special OR case race break
361        if ( !queue`first.clause_status || queue`first.park_counter || __pending_set_other( queue`first, mine, ((unsigned long int)(&(queue`first))) ) )
362            return true;
363       
364        // our node lost the race when toggling in __pending_set_other
365        if ( *mine.clause_status != __SELECT_PENDING )
366            return false;
367
368        // otherwise we lost the special OR race so discard node
369        try_pop_front( queue );
370    }
371    return false;
372}
373
[beeff61e]374// type used by select statement to capture a chan read as the selected operation
375struct chan_read {
[7a2c6b18]376    T * ret;
377    channel(T) * chan;
[beeff61e]378};
[bf55f32]379__CFA_SELECT_GET_TYPE( chan_read(T) );
[beeff61e]380
[7a2c6b18]381static inline void ?{}( chan_read(T) & cr, channel(T) * chan, T * ret ) {
382    cr.chan = chan;
383    cr.ret = ret;
[beeff61e]384}
[7a2c6b18]385static inline chan_read(T) ?<<?( T & ret, channel(T) & chan ) { chan_read(T) cr{ &chan, &ret }; return cr; }
[beeff61e]386
[7a2c6b18]387static inline void __handle_select_closed_read( chan_read(T) & this, select_node & node ) with(*this.chan, this) {
388    __closed_remove( *chan, *ret );
[beeff61e]389    // if we get here then the insert succeeded
390    __make_select_node_available( node );
391}
392
[7a2c6b18]393static inline bool register_select( chan_read(T) & this, select_node & node ) with(*this.chan, this) {
[beeff61e]394    lock( mutex_lock );
[7a2c6b18]395    node.extra = ret; // set .extra so that if it == 0p later in on_selected it is due to channel close
[beeff61e]396
397    #ifdef CHAN_STATS
[88b49bb]398    if ( !closed ) c_ops++;
[beeff61e]399    #endif
400
[c4f411e]401    if ( !node.park_counter ) {
402        // are we special case OR and front of cons is also special case OR
403        if ( !unlikely(closed) && !prods`isEmpty && prods`first.clause_status && !prods`first.park_counter ) {
404            if ( !__make_select_node_pending( node ) ) {
405                unlock( mutex_lock );
406                return false;
407            }
[6f774be]408
409            if ( __handle_pending( prods, node ) ) {
[7a2c6b18]410                __prods_handoff( *chan, *ret );
[629c95a]411                __make_select_node_sat( node ); // need to to mark SAT now that we know operation is done or else threads could get stuck in __mark_select_node
[c4f411e]412                unlock( mutex_lock );
413                return true;
414            }
[6f774be]415            if ( *node.clause_status == __SELECT_PENDING )
416                __make_select_node_unsat( node );
[c4f411e]417        }
418        // check if we can complete operation. If so race to establish winner in special OR case
419        if ( count != 0 || !prods`isEmpty || unlikely(closed) ) {
420            if ( !__make_select_node_available( node ) ) { // we didn't win the race so give up on registering
421                unlock( mutex_lock );
422                return false;
423            }
[beeff61e]424        }
425    }
426
427    if ( unlikely(closed) ) {
428        unlock( mutex_lock );
429        __handle_select_closed_read( this, node );
430        return true;
431    }
432
433    // have to check for the zero size channel case
434    ZeroSize: if ( size == 0 && !prods`isEmpty ) {
435        if ( !__handle_waituntil_OR( prods ) ) break ZeroSize;
[7a2c6b18]436        __prods_handoff( *chan, *ret );
[beeff61e]437        __set_avail_then_unlock( node, mutex_lock );
438        return true;
439    }
440
441    // wait if buffer is empty, work will be completed by someone else
442    if ( count == 0 ) {
443        #ifdef CHAN_STATS
[88b49bb]444        c_blocks++;
[beeff61e]445        #endif
446       
447        insert_last( cons, node );
448        unlock( mutex_lock );
449        return false;
450    }
451
452    // Remove from buffer
[7a2c6b18]453    __do_remove( *chan, *ret );
[beeff61e]454    __set_avail_then_unlock( node, mutex_lock );
455    return true;
456}
[7a2c6b18]457static inline bool unregister_select( chan_read(T) & this, select_node & node ) { return unregister_chan( *this.chan, node ); }
[b93bf85]458static inline bool on_selected( chan_read(T) & this, select_node & node ) with(this) {
459    if ( unlikely(node.extra == 0p) ) {
[7a2c6b18]460        if ( !exception_in_flight() ) __closed_remove( *chan, *ret ); // check if woken up due to closed channel
[b93bf85]461        else return false;
462    }
[beeff61e]463    // This is only reachable if not closed or closed exception was handled
[b93bf85]464    return true;
[beeff61e]465}
466
[c44705c]467// type used by select statement to capture a chan read as the selected operation that doesn't have a param to read to
468struct chan_read_no_ret {
[7a2c6b18]469    T retval;
470    chan_read( T ) c_read;
[c44705c]471};
472__CFA_SELECT_GET_TYPE( chan_read_no_ret(T) );
473
474static inline void ?{}( chan_read_no_ret(T) & this, channel(T) & chan ) {
[7a2c6b18]475    this.c_read{ &chan, &this.retval };
476}
477
478static inline chan_read_no_ret(T) remove( channel(T) & chan ) { chan_read_no_ret(T) c_read{ chan }; return c_read; }
479static inline bool register_select( chan_read_no_ret(T) & this, select_node & node ) {
480    this.c_read.ret = &this.retval;
481    return register_select( this.c_read, node );
[c44705c]482}
[7a2c6b18]483static inline bool unregister_select( chan_read_no_ret(T) & this, select_node & node ) { return unregister_select( this.c_read, node ); }
484static inline bool on_selected( chan_read_no_ret(T) & this, select_node & node ) { return on_selected( this.c_read, node ); }
[c44705c]485
[beeff61e]486// type used by select statement to capture a chan write as the selected operation
487struct chan_write {
488    T elem;
[7a2c6b18]489    channel(T) * chan;
[beeff61e]490};
[bf55f32]491__CFA_SELECT_GET_TYPE( chan_write(T) );
[beeff61e]492
[7a2c6b18]493static inline void ?{}( chan_write(T) & cw, channel(T) * chan, T elem ) {
494    cw.chan = chan;
[beeff61e]495    memcpy( (void *)&cw.elem, (void *)&elem, sizeof(T) );
496}
[7a2c6b18]497static inline chan_write(T) ?<<?( channel(T) & chan, T elem ) { chan_write(T) cw{ &chan, elem }; return cw; }
498static inline chan_write(T) insert( T elem, channel(T) & chan) { chan_write(T) cw{ &chan, elem }; return cw; }
[beeff61e]499
[7a2c6b18]500static inline void __handle_select_closed_write( chan_write(T) & this, select_node & node ) with(*this.chan, this) {
501    __closed_insert( *chan, elem );
[beeff61e]502    // if we get here then the insert succeeded
503    __make_select_node_available( node );
504}
505
[7a2c6b18]506static inline bool register_select( chan_write(T) & this, select_node & node ) with(*this.chan, this) {
[beeff61e]507    lock( mutex_lock );
508    node.extra = &elem; // set .extra so that if it == 0p later in on_selected it is due to channel close
509
510    #ifdef CHAN_STATS
[88b49bb]511    if ( !closed ) p_ops++;
[beeff61e]512    #endif
513
[c4f411e]514    // special OR case handling
515    if ( !node.park_counter ) {
516        // are we special case OR and front of cons is also special case OR
517        if ( !unlikely(closed) && !cons`isEmpty && cons`first.clause_status && !cons`first.park_counter ) {
518            if ( !__make_select_node_pending( node ) ) {
519                unlock( mutex_lock );
520                return false;
521            }
[6f774be]522
523            if ( __handle_pending( cons, node ) ) {
[7a2c6b18]524                __cons_handoff( *chan, elem );
[629c95a]525                __make_select_node_sat( node ); // need to to mark SAT now that we know operation is done or else threads could get stuck in __mark_select_node
[c4f411e]526                unlock( mutex_lock );
527                return true;
528            }
[6f774be]529            if ( *node.clause_status == __SELECT_PENDING )
530                __make_select_node_unsat( node );
[c4f411e]531        }
532        // check if we can complete operation. If so race to establish winner in special OR case
533        if ( count != size || !cons`isEmpty || unlikely(closed) ) {
534            if ( !__make_select_node_available( node ) ) { // we didn't win the race so give up on registering
535                unlock( mutex_lock );
536                return false;
537            }
[beeff61e]538        }
539    }
540
541    // if closed handle
542    if ( unlikely(closed) ) {
543        unlock( mutex_lock );
544        __handle_select_closed_write( this, node );
545        return true;
546    }
547
548    // handle blocked consumer case via handoff (buffer is implicitly empty)
549    ConsEmpty: if ( !cons`isEmpty ) {
[cb69fba]550        if ( !__handle_waituntil_OR( cons ) ) break ConsEmpty;
[7a2c6b18]551        __cons_handoff( *chan, elem );
[beeff61e]552        __set_avail_then_unlock( node, mutex_lock );
553        return true;
554    }
555
556    // insert node in list if buffer is full, work will be completed by someone else
557    if ( count == size ) {
558        #ifdef CHAN_STATS
[88b49bb]559        p_blocks++;
[beeff61e]560        #endif
561
562        insert_last( prods, node );
563        unlock( mutex_lock );
564        return false;
565    } // if
566
567    // otherwise carry out write either via normal insert
[7a2c6b18]568    __buf_insert( *chan, elem );
[beeff61e]569    __set_avail_then_unlock( node, mutex_lock );
570    return true;
571}
[7a2c6b18]572static inline bool unregister_select( chan_write(T) & this, select_node & node ) { return unregister_chan( *this.chan, node ); }
[beeff61e]573
[b93bf85]574static inline bool on_selected( chan_write(T) & this, select_node & node ) with(this) {
575    if ( unlikely(node.extra == 0p) ) {
[7a2c6b18]576        if ( !exception_in_flight() ) __closed_insert( *chan, elem ); // check if woken up due to closed channel
[b93bf85]577        else return false;
578    }
[beeff61e]579    // This is only reachable if not closed or closed exception was handled
[b93bf85]580    return true;
[beeff61e]581}
582
[0e16a2d]583} // forall( T )
[beeff61e]584
585
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