mirror of
https://github.com/matrix-construct/construct
synced 2024-11-14 14:01:08 +01:00
193 lines
5.4 KiB
C++
193 lines
5.4 KiB
C++
// Matrix Construct
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//
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// Copyright (C) Matrix Construct Developers, Authors & Contributors
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// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
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//
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// Permission to use, copy, modify, and/or distribute this software for any
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// purpose with or without fee is hereby granted, provided that the above
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// copyright notice and this permission notice is present in all copies. The
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// full license for this software is available in the LICENSE file.
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#pragma once
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#define HAVE_IRCD_CTX_WHEN_H
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namespace ircd::ctx
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{
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template<class it, class F> future<void> when_all(it first, const it &last, F&& closure);
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template<class it> future<void> when_all(it first, const it &last);
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template<class it, class F> future<it> when_any(it first, const it &last, F&& closure);
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template<class it> future<it> when_any(it first, const it &last);
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}
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// Internal interface
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namespace ircd::ctx::when
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{
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template<class T> auto &state(const future<T> &);
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void all_then(promise<void> &p);
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template<class it, class F> void any_then(promise<it> &, it &, F&&);
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template<class it, class F> void set_all_then(promise<void> &, it &, F&&);
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template<class it, class F> void set_any_then(promise<it> &, it &, F&&);
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}
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/// Returns a future which becomes ready when any of the futures in the
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/// iteration become ready or are already ready. The future that when_any()
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/// eventually indicates is then considered "observed" which means you
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/// are required to do nothing when including it in the next invocation of
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/// when_any() and it won't be considered ready or pending again and the
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/// collection does not have to be modified in any way.
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///
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/// The returned future's payload is an iterator into the collection as if
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/// it were the result of an std::find() etc; thus to know its index an
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/// std::distance is often satisfactory.
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template<class it>
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ircd::ctx::future<it>
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ircd::ctx::when_any(it first,
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const it &last)
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{
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return when_any(first, last, []
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(auto &iterator) -> decltype(*iterator) &
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{
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return *iterator;
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});
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}
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/// Implementation of when_any(); this requires a closure from the user which
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/// knows how to use the iterable being passed. The closure must return a
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/// a reference to the future. This allows for complex iterables which may
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/// have pointers to pointers, etc. The default non-closure when_any() overload
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/// supplies a closure that simply dereferences the argument (i.e `return *it;`)
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template<class it,
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class F>
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ircd::ctx::future<it>
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ircd::ctx::when_any(it first,
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const it &last,
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F&& closure)
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{
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const critical_assertion ca;
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promise<it> p;
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future<it> ret(p);
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for(auto f(first); f != last; ++f)
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if(is(state(closure(f)), future_state::READY))
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{
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set(when::state(closure(f)), future_state::OBSERVED);
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p.set_value(f);
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return ret;
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}
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for(; first != last; ++first)
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if(is(state(closure(first)), future_state::PENDING))
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when::set_any_then(p, first, closure);
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assert(promise<it>::refcount(p) >= 1);
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if(promise<it>::refcount(p) == 1)
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p.set_value(last);
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return ret;
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}
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/// Returns a future which becomes ready when all of the futures in the
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/// collection become ready. This future has a void payload to minimize
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/// its cost since this indication is positively unate.
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template<class it>
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ircd::ctx::future<void>
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ircd::ctx::when_all(it first,
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const it &last)
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{
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return when_all(first, last, []
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(auto &iterator) -> decltype(*iterator) &
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{
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return *iterator;
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});
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}
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/// Implementation of when_all(); this requires a closure from the user which
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/// knows how to use the iterable being passed. See related when_any() docs.
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template<class it,
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class F>
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ircd::ctx::future<void>
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ircd::ctx::when_all(it first,
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const it &last,
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F&& closure)
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{
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const critical_assertion ca;
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promise<void> p;
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future<void> ret(p);
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for(; first != last; ++first)
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if(is(state(closure(first)), future_state::PENDING))
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when::set_all_then(p, first, closure);
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assert(promise<void>::refcount(p) >= 1);
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if(promise<void>::refcount(p) == 1)
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p.set_value();
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return ret;
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}
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template<class it,
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class F>
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void
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ircd::ctx::when::set_any_then(promise<it> &p,
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it &f,
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F&& closure)
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{
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when::state(closure(f)).then = [p, f, closure] // TODO: quash this alloc
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(shared_state_base &sb) mutable
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{
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if(sb.then)
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any_then(p, f, closure);
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};
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}
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template<class it,
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class F>
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void
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ircd::ctx::when::set_all_then(promise<void> &p,
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it &f,
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F&& closure)
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{
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when::state(closure(f)).then = [p] // TODO: quash this alloc
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(shared_state_base &sb) mutable
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{
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if(sb.then)
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all_then(p);
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};
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}
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template<class it,
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class F>
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void
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ircd::ctx::when::any_then(promise<it> &p,
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it &f,
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F&& closure)
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{
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if(!p.valid())
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return;
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set(when::state(closure(f)), future_state::OBSERVED);
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p.set_value(f);
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}
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inline void
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ircd::ctx::when::all_then(promise<void> &p)
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{
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if(!p.valid())
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return;
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assert(promise<void>::refcount(p) >= 1);
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if(promise<void>::refcount(p) == 1)
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return p.set_value();
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return p.remove();
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}
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/// In order for this template to be reusable with std::set iterations we
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/// have to make a const_cast at some point; this internal function does that.
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template<class T>
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auto &
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ircd::ctx::when::state(const future<T> &f)
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{
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return const_cast<future<T> &>(f).state();
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}
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