278 lines
7.7 KiB
C++
278 lines
7.7 KiB
C++
// Copyright (c) Microsoft Open Technologies, Inc. All rights reserved. See License.txt in the project root for license information.
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#pragma once
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#if !defined(RXCPP_RX_SUBJECT_HPP)
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#define RXCPP_RX_SUBJECT_HPP
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#include "../rx-includes.hpp"
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namespace rxcpp {
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namespace subjects {
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namespace detail {
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template<class T>
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class multicast_observer
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{
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typedef subscriber<T> observer_type;
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typedef std::vector<observer_type> list_type;
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struct mode
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{
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enum type {
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Invalid = 0,
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Casting,
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Disposed,
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Completed,
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Errored
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};
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};
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struct state_type
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: public std::enable_shared_from_this<state_type>
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{
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explicit state_type(composite_subscription cs)
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: current(mode::Casting)
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, lifetime(cs)
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{
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}
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std::mutex lock;
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typename mode::type current;
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rxu::error_ptr error;
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composite_subscription lifetime;
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};
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struct completer_type
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: public std::enable_shared_from_this<completer_type>
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{
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~completer_type()
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{
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}
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completer_type(std::shared_ptr<state_type> s, const std::shared_ptr<completer_type>& old, observer_type o)
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: state(s)
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{
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retain(old);
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observers.push_back(o);
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}
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completer_type(std::shared_ptr<state_type> s, const std::shared_ptr<completer_type>& old)
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: state(s)
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{
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retain(old);
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}
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void retain(const std::shared_ptr<completer_type>& old) {
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if (old) {
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observers.reserve(old->observers.size() + 1);
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std::copy_if(
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old->observers.begin(), old->observers.end(),
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std::inserter(observers, observers.end()),
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[](const observer_type& o){
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return o.is_subscribed();
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});
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}
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}
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std::shared_ptr<state_type> state;
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list_type observers;
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};
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// this type prevents a circular ref between state and completer
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struct binder_type
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: public std::enable_shared_from_this<binder_type>
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{
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explicit binder_type(composite_subscription cs)
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: state(std::make_shared<state_type>(cs))
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, id(trace_id::make_next_id_subscriber())
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{
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}
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std::shared_ptr<state_type> state;
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trace_id id;
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// used to avoid taking lock in on_next
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mutable std::weak_ptr<completer_type> current_completer;
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// must only be accessed under state->lock
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mutable std::shared_ptr<completer_type> completer;
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};
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std::shared_ptr<binder_type> b;
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public:
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typedef subscriber<T, observer<T, detail::multicast_observer<T>>> input_subscriber_type;
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explicit multicast_observer(composite_subscription cs)
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: b(std::make_shared<binder_type>(cs))
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{
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std::weak_ptr<binder_type> binder = b;
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b->state->lifetime.add([binder](){
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auto b = binder.lock();
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if (b && b->state->current == mode::Casting){
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b->state->current = mode::Disposed;
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b->current_completer.reset();
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b->completer.reset();
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}
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});
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}
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trace_id get_id() const {
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return b->id;
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}
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composite_subscription get_subscription() const {
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return b->state->lifetime;
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}
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input_subscriber_type get_subscriber() const {
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return make_subscriber<T>(get_id(), get_subscription(), observer<T, detail::multicast_observer<T>>(*this));
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}
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bool has_observers() const {
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std::unique_lock<std::mutex> guard(b->state->lock);
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return b->completer && !b->completer->observers.empty();
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}
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template<class SubscriberFrom>
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void add(const SubscriberFrom& sf, observer_type o) const {
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trace_activity().connect(sf, o);
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std::unique_lock<std::mutex> guard(b->state->lock);
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switch (b->state->current) {
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case mode::Casting:
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{
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if (o.is_subscribed()) {
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std::weak_ptr<binder_type> binder = b;
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o.add([=](){
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auto b = binder.lock();
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if (b) {
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std::unique_lock<std::mutex> guard(b->state->lock);
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b->completer = std::make_shared<completer_type>(b->state, b->completer);
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}
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});
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b->completer = std::make_shared<completer_type>(b->state, b->completer, o);
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}
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}
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break;
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case mode::Completed:
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{
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guard.unlock();
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o.on_completed();
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return;
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}
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break;
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case mode::Errored:
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{
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auto e = b->state->error;
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guard.unlock();
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o.on_error(e);
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return;
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}
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break;
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case mode::Disposed:
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{
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guard.unlock();
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o.unsubscribe();
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return;
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}
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break;
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default:
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std::terminate();
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}
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}
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template<class V>
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void on_next(V v) const {
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auto current_completer = b->current_completer.lock();
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if (!current_completer) {
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std::unique_lock<std::mutex> guard(b->state->lock);
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b->current_completer = b->completer;
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current_completer = b->current_completer.lock();
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}
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if (!current_completer || current_completer->observers.empty()) {
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return;
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}
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for (auto& o : current_completer->observers) {
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if (o.is_subscribed()) {
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o.on_next(v);
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}
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}
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}
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void on_error(rxu::error_ptr e) const {
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std::unique_lock<std::mutex> guard(b->state->lock);
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if (b->state->current == mode::Casting) {
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b->state->error = e;
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b->state->current = mode::Errored;
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auto s = b->state->lifetime;
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auto c = std::move(b->completer);
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b->current_completer.reset();
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guard.unlock();
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if (c) {
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for (auto& o : c->observers) {
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if (o.is_subscribed()) {
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o.on_error(e);
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}
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}
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}
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s.unsubscribe();
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}
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}
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void on_completed() const {
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std::unique_lock<std::mutex> guard(b->state->lock);
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if (b->state->current == mode::Casting) {
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b->state->current = mode::Completed;
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auto s = b->state->lifetime;
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auto c = std::move(b->completer);
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b->current_completer.reset();
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guard.unlock();
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if (c) {
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for (auto& o : c->observers) {
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if (o.is_subscribed()) {
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o.on_completed();
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}
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}
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}
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s.unsubscribe();
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}
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}
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};
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}
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template<class T>
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class subject
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{
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detail::multicast_observer<T> s;
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public:
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typedef subscriber<T, observer<T, detail::multicast_observer<T>>> subscriber_type;
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typedef observable<T> observable_type;
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subject()
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: s(composite_subscription())
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{
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}
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explicit subject(composite_subscription cs)
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: s(cs)
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{
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}
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bool has_observers() const {
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return s.has_observers();
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}
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composite_subscription get_subscription() const {
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return s.get_subscription();
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}
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subscriber_type get_subscriber() const {
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return s.get_subscriber();
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}
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observable<T> get_observable() const {
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auto keepAlive = s;
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return make_observable_dynamic<T>([=](subscriber<T> o){
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keepAlive.add(keepAlive.get_subscriber(), std::move(o));
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});
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}
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};
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}
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}
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#endif
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