[70f8bcd2] | 1 | // |
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| 2 | // Cforall Version 1.0.0 Copyright (C) 2020 University of Waterloo |
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| 3 | // |
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| 4 | // The contents of this file are covered under the licence agreement in the |
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| 5 | // file "LICENCE" distributed with Cforall. |
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| 6 | // |
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[339e30a] | 7 | // concurrency/future.hfa -- |
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[70f8bcd2] | 8 | // |
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[339e30a] | 9 | // Author : Thierry Delisle & Peiran Hong & Colby Parsons |
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[70f8bcd2] | 10 | // Created On : Wed Jan 06 17:33:18 2021 |
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| 11 | // Last Modified By : |
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| 12 | // Last Modified On : |
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| 13 | // Update Count : |
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| 14 | // |
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| 15 | |
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[5e4a830] | 16 | #pragma once |
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[70f8bcd2] | 17 | |
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| 18 | #include "bits/locks.hfa" |
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| 19 | #include "monitor.hfa" |
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[339e30a] | 20 | #include "select.hfa" |
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[beeff61e] | 21 | #include "locks.hfa" |
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[70f8bcd2] | 22 | |
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[339e30a] | 23 | //---------------------------------------------------------------------------- |
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| 24 | // future |
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| 25 | // I don't use future_t here since I need to use a lock for this future |
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| 26 | // since it supports multiple consumers |
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| 27 | // future_t is lockfree and uses atomics which aren't needed given we use locks here |
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[fd54fef] | 28 | forall( T ) { |
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[beeff61e] | 29 | // enum { FUTURE_EMPTY = 0, FUTURE_FULFILLED = 1 }; // Enums seem to be broken so feel free to add this back afterwards |
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[339e30a] | 30 | |
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| 31 | // temporary enum replacement |
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| 32 | const int FUTURE_EMPTY = 0; |
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| 33 | const int FUTURE_FULFILLED = 1; |
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| 34 | |
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[70f8bcd2] | 35 | struct future { |
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[339e30a] | 36 | int state; |
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| 37 | T result; |
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| 38 | dlist( select_node ) waiters; |
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| 39 | futex_mutex lock; |
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| 40 | }; |
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| 41 | |
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| 42 | struct future_node { |
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| 43 | inline select_node; |
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| 44 | T * my_result; |
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| 45 | }; |
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| 46 | |
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| 47 | static inline { |
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| 48 | |
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| 49 | void ?{}( future_node(T) & this, thread$ * blocked_thread, T * my_result ) { |
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| 50 | ((select_node &)this){ blocked_thread }; |
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| 51 | this.my_result = my_result; |
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| 52 | } |
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| 53 | |
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[c0ec8b6] | 54 | void ?{}( future(T) & this ) { |
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[339e30a] | 55 | this.waiters{}; |
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| 56 | this.state = FUTURE_EMPTY; |
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[5e180c2] | 57 | this.lock{}; |
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[339e30a] | 58 | } |
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| 59 | |
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| 60 | // Reset future back to original state |
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[c0ec8b6] | 61 | void reset( future(T) & this ) with(this) |
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[339e30a] | 62 | { |
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| 63 | lock( lock ); |
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| 64 | if( ! waiters`isEmpty ) |
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| 65 | abort("Attempting to reset a future with blocked waiters"); |
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| 66 | state = FUTURE_EMPTY; |
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| 67 | unlock( lock ); |
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| 68 | } |
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| 69 | |
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| 70 | // check if the future is available |
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| 71 | // currently no mutual exclusion because I can't see when you need this call to be synchronous or protected |
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[70a4ed5] | 72 | bool available( future(T) & this ) { return __atomic_load_n( &this.state, __ATOMIC_RELAXED ); } |
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[339e30a] | 73 | |
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| 74 | |
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| 75 | // memcpy wrapper to help copy values |
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| 76 | void copy_T( T & from, T & to ) { |
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| 77 | memcpy((void *)&to, (void *)&from, sizeof(T)); |
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| 78 | } |
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| 79 | |
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| 80 | // internal helper to signal waiters off of the future |
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| 81 | void _internal_flush( future(T) & this ) with(this) { |
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| 82 | while( ! waiters`isEmpty ) { |
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[beeff61e] | 83 | if ( !__handle_waituntil_OR( waiters ) ) // handle special waituntil OR case |
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| 84 | break; // if handle_OR returns false then waiters is empty so break |
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[339e30a] | 85 | select_node &s = try_pop_front( waiters ); |
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| 86 | |
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[c0ec8b6] | 87 | if ( s.clause_status == 0p ) // poke in result so that woken threads do not need to reacquire any locks |
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[339e30a] | 88 | copy_T( result, *(((future_node(T) &)s).my_result) ); |
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| 89 | |
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[c0ec8b6] | 90 | wake_one( waiters, s ); |
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[339e30a] | 91 | } |
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| 92 | } |
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| 93 | |
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| 94 | // Fulfil the future, returns whether or not someone was unblocked |
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[beeff61e] | 95 | bool fulfil( future(T) & this, T val ) with(this) { |
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[339e30a] | 96 | lock( lock ); |
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| 97 | if( state != FUTURE_EMPTY ) |
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| 98 | abort("Attempting to fulfil a future that has already been fulfilled"); |
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| 99 | |
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| 100 | copy_T( val, result ); |
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| 101 | |
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| 102 | bool ret_val = ! waiters`isEmpty; |
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| 103 | state = FUTURE_FULFILLED; |
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| 104 | _internal_flush( this ); |
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| 105 | unlock( lock ); |
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| 106 | return ret_val; |
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| 107 | } |
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| 108 | |
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| 109 | // Wait for the future to be fulfilled |
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| 110 | // Also return whether the thread had to block or not |
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| 111 | [T, bool] get( future(T) & this ) with( this ) { |
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| 112 | lock( lock ); |
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| 113 | T ret_val; |
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| 114 | if( state == FUTURE_FULFILLED ) { |
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| 115 | copy_T( result, ret_val ); |
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| 116 | unlock( lock ); |
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| 117 | return [ret_val, false]; |
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| 118 | } |
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| 119 | |
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| 120 | future_node(T) node = { active_thread(), &ret_val }; |
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| 121 | insert_last( waiters, ((select_node &)node) ); |
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| 122 | unlock( lock ); |
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| 123 | park( ); |
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| 124 | |
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| 125 | return [ret_val, true]; |
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| 126 | } |
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| 127 | |
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| 128 | // Wait for the future to be fulfilled |
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| 129 | T get( future(T) & this ) { |
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| 130 | [T, bool] tt; |
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| 131 | tt = get(this); |
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| 132 | return tt.0; |
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| 133 | } |
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| 134 | |
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| 135 | // Gets value if it is available and returns [ val, true ] |
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| 136 | // otherwise returns [ default_val, false] |
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| 137 | // will not block |
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| 138 | [T, bool] try_get( future(T) & this ) with(this) { |
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| 139 | lock( lock ); |
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| 140 | T ret_val; |
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| 141 | if( state == FUTURE_FULFILLED ) { |
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| 142 | copy_T( result, ret_val ); |
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| 143 | unlock( lock ); |
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| 144 | return [ret_val, true]; |
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| 145 | } |
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| 146 | unlock( lock ); |
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[5e180c2] | 147 | |
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[339e30a] | 148 | return [ret_val, false]; |
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| 149 | } |
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| 150 | |
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[beeff61e] | 151 | bool register_select( future(T) & this, select_node & s ) with(this) { |
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[339e30a] | 152 | lock( lock ); |
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| 153 | |
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[beeff61e] | 154 | // check if we can complete operation. If so race to establish winner in special OR case |
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| 155 | if ( !s.park_counter && state != FUTURE_EMPTY ) { |
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| 156 | if ( !__make_select_node_available( s ) ) { // we didn't win the race so give up on registering |
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| 157 | unlock( lock ); |
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| 158 | return false; |
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| 159 | } |
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[339e30a] | 160 | } |
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| 161 | |
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[beeff61e] | 162 | // future not ready -> insert select node and return |
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| 163 | if( state == FUTURE_EMPTY ) { |
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| 164 | insert_last( waiters, s ); |
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[339e30a] | 165 | unlock( lock ); |
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[beeff61e] | 166 | return false; |
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[339e30a] | 167 | } |
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| 168 | |
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[beeff61e] | 169 | __make_select_node_available( s ); |
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[339e30a] | 170 | unlock( lock ); |
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[beeff61e] | 171 | return true; |
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[339e30a] | 172 | } |
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| 173 | |
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[beeff61e] | 174 | bool unregister_select( future(T) & this, select_node & s ) with(this) { |
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| 175 | if ( ! s`isListed ) return false; |
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[339e30a] | 176 | lock( lock ); |
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| 177 | if ( s`isListed ) remove( s ); |
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| 178 | unlock( lock ); |
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[beeff61e] | 179 | return false; |
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[339e30a] | 180 | } |
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| 181 | |
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[70a4ed5] | 182 | void on_selected( future(T) & this, select_node & node ) {} |
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[339e30a] | 183 | } |
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| 184 | } |
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| 185 | |
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| 186 | //-------------------------------------------------------------------------------------------------------- |
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[70a4ed5] | 187 | // These futures below do not support select statements so they may not have as many features as 'future' |
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[339e30a] | 188 | // however the 'single_future' is cheap and cheerful and is most likely more performant than 'future' |
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[beeff61e] | 189 | // since it uses raw atomics and no locks |
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[339e30a] | 190 | // |
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| 191 | // As far as 'multi_future' goes I can't see many use cases as it will be less performant than 'future' |
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| 192 | // since it is monitor based and also is not compatible with select statements |
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| 193 | //-------------------------------------------------------------------------------------------------------- |
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| 194 | |
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| 195 | forall( T ) { |
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| 196 | struct single_future { |
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[70f8bcd2] | 197 | inline future_t; |
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| 198 | T result; |
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| 199 | }; |
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| 200 | |
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| 201 | static inline { |
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| 202 | // Reset future back to original state |
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[339e30a] | 203 | void reset(single_future(T) & this) { reset( (future_t&)this ); } |
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[70f8bcd2] | 204 | |
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| 205 | // check if the future is available |
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[339e30a] | 206 | bool available( single_future(T) & this ) { return available( (future_t&)this ); } |
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[70f8bcd2] | 207 | |
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| 208 | // Mark the future as abandoned, meaning it will be deleted by the server |
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| 209 | // This doesn't work beause of the potential need for a destructor |
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[339e30a] | 210 | void abandon( single_future(T) & this ); |
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[70f8bcd2] | 211 | |
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| 212 | // Fulfil the future, returns whether or not someone was unblocked |
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[339e30a] | 213 | thread$ * fulfil( single_future(T) & this, T result ) { |
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[70f8bcd2] | 214 | this.result = result; |
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| 215 | return fulfil( (future_t&)this ); |
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| 216 | } |
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| 217 | |
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| 218 | // Wait for the future to be fulfilled |
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| 219 | // Also return whether the thread had to block or not |
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[339e30a] | 220 | [T, bool] wait( single_future(T) & this ) { |
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[70f8bcd2] | 221 | bool r = wait( (future_t&)this ); |
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| 222 | return [this.result, r]; |
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| 223 | } |
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| 224 | |
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| 225 | // Wait for the future to be fulfilled |
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[339e30a] | 226 | T wait( single_future(T) & this ) { |
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[70f8bcd2] | 227 | [T, bool] tt; |
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| 228 | tt = wait(this); |
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| 229 | return tt.0; |
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| 230 | } |
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| 231 | } |
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| 232 | } |
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| 233 | |
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[fd54fef] | 234 | forall( T ) { |
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[70f8bcd2] | 235 | monitor multi_future { |
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| 236 | inline future_t; |
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| 237 | condition blocked; |
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| 238 | bool has_first; |
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| 239 | T result; |
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| 240 | }; |
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| 241 | |
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| 242 | static inline { |
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| 243 | void ?{}(multi_future(T) & this) { |
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| 244 | this.has_first = false; |
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| 245 | } |
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| 246 | |
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| 247 | bool $first( multi_future(T) & mutex this ) { |
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| 248 | if (this.has_first) { |
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| 249 | wait( this.blocked ); |
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| 250 | return false; |
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| 251 | } |
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| 252 | |
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| 253 | this.has_first = true; |
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| 254 | return true; |
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| 255 | } |
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| 256 | |
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| 257 | void $first_done( multi_future(T) & mutex this ) { |
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| 258 | this.has_first = false; |
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| 259 | signal_all( this.blocked ); |
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| 260 | } |
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| 261 | |
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| 262 | // Reset future back to original state |
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| 263 | void reset(multi_future(T) & mutex this) { |
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| 264 | if( this.has_first != false) abort("Attempting to reset a multi_future with at least one blocked threads"); |
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| 265 | if( !is_empty(this.blocked) ) abort("Attempting to reset a multi_future with multiple blocked threads"); |
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| 266 | reset( (future_t&)this ); |
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| 267 | } |
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| 268 | |
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| 269 | // Fulfil the future, returns whether or not someone was unblocked |
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| 270 | bool fulfil( multi_future(T) & this, T result ) { |
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| 271 | this.result = result; |
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[c323837] | 272 | return fulfil( (future_t&)this ) != 0p; |
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[70f8bcd2] | 273 | } |
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| 274 | |
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| 275 | // Wait for the future to be fulfilled |
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| 276 | // Also return whether the thread had to block or not |
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| 277 | [T, bool] wait( multi_future(T) & this ) { |
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| 278 | bool sw = $first( this ); |
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| 279 | bool w = !sw; |
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| 280 | if ( sw ) { |
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| 281 | w = wait( (future_t&)this ); |
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| 282 | $first_done( this ); |
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| 283 | } |
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| 284 | |
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| 285 | return [this.result, w]; |
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| 286 | } |
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| 287 | |
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| 288 | // Wait for the future to be fulfilled |
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| 289 | T wait( multi_future(T) & this ) { |
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| 290 | return wait(this).0; |
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| 291 | } |
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| 292 | } |
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[beeff61e] | 293 | } |
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