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// Copyright (c) Microsoft Open Technologies, Inc. All rights reserved. See License.txt in the project root for license information.
#pragma once
#if !defined(RXCPP_RX_PREDEF_HPP)
#define RXCPP_RX_PREDEF_HPP
#include "rx-includes.hpp"
namespace rxcpp {
//
// create a typedef for rxcpp_trace_type to override the default
//
inline auto trace_activity() -> decltype(rxcpp_trace_activity(trace_tag()))& {
static decltype(rxcpp_trace_activity(trace_tag())) trace;
return trace;
}
struct tag_action {};
template<class T, class C = rxu::types_checked>
struct is_action : public std::false_type {};
template<class T>
struct is_action<T, typename rxu::types_checked_from<typename T::action_tag>::type>
: public std::is_convertible<typename T::action_tag*, tag_action*> {};
struct tag_worker {};
template<class T>
class is_worker
{
struct not_void {};
template<class C>
static typename C::worker_tag* check(int);
template<class C>
static not_void check(...);
public:
static const bool value = std::is_convertible<decltype(check<rxu::decay_t<T>>(0)), tag_worker*>::value;
};
struct tag_scheduler {};
template<class T>
class is_scheduler
{
struct not_void {};
template<class C>
static typename C::scheduler_tag* check(int);
template<class C>
static not_void check(...);
public:
static const bool value = std::is_convertible<decltype(check<rxu::decay_t<T>>(0)), tag_scheduler*>::value;
};
struct tag_schedulable {};
template<class T>
class is_schedulable
{
struct not_void {};
template<class C>
static typename C::schedulable_tag* check(int);
template<class C>
static not_void check(...);
public:
static const bool value = std::is_convertible<decltype(check<rxu::decay_t<T>>(0)), tag_schedulable*>::value;
};
namespace detail
{
struct stateless_observer_tag {};
}
// state with optional overrides
template<class T, class State = void, class OnNext = void, class OnError = void, class OnCompleted = void>
class observer;
// no state with optional overrides
template<class T, class OnNext, class OnError, class OnCompleted>
class observer<T, detail::stateless_observer_tag, OnNext, OnError, OnCompleted>;
// virtual functions forward to dynamically allocated shared observer instance.
template<class T>
class observer<T, void, void, void, void>;
struct tag_observer {};
template<class T>
class is_observer
{
template<class C>
static typename C::observer_tag* check(int);
template<class C>
static void check(...);
public:
static const bool value = std::is_convertible<decltype(check<rxu::decay_t<T>>(0)), tag_observer*>::value;
};
struct tag_dynamic_observer {};
template<class T>
class is_dynamic_observer
{
struct not_void {};
template<class C>
static typename C::dynamic_observer_tag* check(int);
template<class C>
static not_void check(...);
public:
static const bool value = std::is_convertible<decltype(check<rxu::decay_t<T>>(0)), tag_dynamic_observer*>::value;
};
struct tag_subscriber {};
template<class T>
class is_subscriber
{
struct not_void {};
template<class C>
static typename C::subscriber_tag* check(int);
template<class C>
static not_void check(...);
public:
static const bool value = std::is_convertible<decltype(check<rxu::decay_t<T>>(0)), tag_subscriber*>::value;
};
struct tag_dynamic_observable {};
template<class T>
class is_dynamic_observable
{
struct not_void {};
template<class C>
static typename C::dynamic_observable_tag* check(int);
template<class C>
static not_void check(...);
public:
static const bool value = std::is_convertible<decltype(check<rxu::decay_t<T>>(0)), tag_dynamic_observable*>::value;
};
template<class T>
class dynamic_observable;
template<
class T = void,
class SourceObservable = typename std::conditional<std::is_same<T, void>::value,
void, dynamic_observable<T>>::type>
class observable;
template<class T, class Source>
observable<T> make_observable_dynamic(Source&&);
template<class Selector, class Default, template<class... TN> class SO, class... AN>
struct defer_observable;
struct tag_observable {};
template<class T>
struct observable_base {
typedef tag_observable observable_tag;
typedef T value_type;
};
namespace detail {
template<class T, class =rxu::types_checked>
struct is_observable : std::false_type
{
};
template<class T>
struct is_observable<T, rxu::types_checked_t<typename T::observable_tag>>
: std::is_convertible<typename T::observable_tag*, tag_observable*>
{
};
}
template<class T, class Decayed = rxu::decay_t<T>>
struct is_observable : detail::is_observable<Decayed>
{
};
template<class Observable, class DecayedObservable = rxu::decay_t<Observable>>
using observable_tag_t = typename DecayedObservable::observable_tag;
// extra indirection for vs2013 support
template<class Types, class =rxu::types_checked>
struct expand_observable_tags { struct type; };
template<class... ObservableN>
struct expand_observable_tags<rxu::types<ObservableN...>, rxu::types_checked_t<typename ObservableN::observable_tag...>>
{
using type = rxu::types<typename ObservableN::observable_tag...>;
};
template<class... ObservableN>
using observable_tags_t = typename expand_observable_tags<rxu::types<ObservableN...>>::type;
template<class... ObservableN>
using all_observables = rxu::all_true_type<is_observable<ObservableN>...>;
struct tag_dynamic_connectable_observable : public tag_dynamic_observable {};
template<class T>
class is_dynamic_connectable_observable
{
struct not_void {};
template<class C>
static typename C::dynamic_observable_tag* check(int);
template<class C>
static not_void check(...);
public:
static const bool value = std::is_convertible<decltype(check<rxu::decay_t<T>>(0)), tag_dynamic_connectable_observable*>::value;
};
template<class T>
class dynamic_connectable_observable;
template<class T,
class SourceObservable = typename std::conditional<std::is_same<T, void>::value,
void, dynamic_connectable_observable<T>>::type>
class connectable_observable;
struct tag_connectable_observable : public tag_observable {};
template<class T>
class is_connectable_observable
{
template<class C>
static typename C::observable_tag check(int);
template<class C>
static void check(...);
public:
static const bool value = std::is_convertible<decltype(check<rxu::decay_t<T>>(0)), tag_connectable_observable>::value;
};
struct tag_dynamic_grouped_observable : public tag_dynamic_observable {};
template<class T>
class is_dynamic_grouped_observable
{
struct not_void {};
template<class C>
static typename C::dynamic_observable_tag* check(int);
template<class C>
static not_void check(...);
public:
static const bool value = std::is_convertible<decltype(check<rxu::decay_t<T>>(0)), tag_dynamic_grouped_observable*>::value;
};
template<class K, class T>
class dynamic_grouped_observable;
template<class K, class T,
class SourceObservable = typename std::conditional<std::is_same<T, void>::value,
void, dynamic_grouped_observable<K, T>>::type>
class grouped_observable;
template<class K, class T, class Source>
grouped_observable<K, T> make_dynamic_grouped_observable(Source&& s);
struct tag_grouped_observable : public tag_observable {};
template<class T>
class is_grouped_observable
{
template<class C>
static typename C::observable_tag check(int);
template<class C>
static void check(...);
public:
static const bool value = std::is_convertible<decltype(check<rxu::decay_t<T>>(0)), tag_grouped_observable>::value;
};
template<class Source, class Function>
struct is_operator_factory_for {
using function_type = rxu::decay_t<Function>;
using source_type = rxu::decay_t<Source>;
// check methods instead of void_t for vs2013 support
struct tag_not_valid;
template<class CS, class CO>
static auto check(int) -> decltype((*(CS*)nullptr)((*(CO*)nullptr)));
template<class CS, class CO>
static tag_not_valid check(...);
using type = decltype(check<function_type, source_type>(0));
static const bool value = !std::is_same<type, tag_not_valid>::value && is_observable<source_type>::value;
};
//
// this type is the default used by operators that subscribe to
// multiple sources. It assumes that the sources are already synchronized
//
struct identity_observable
{
template<class Observable>
auto operator()(Observable o)
-> Observable {
return std::move(o);
static_assert(is_observable<Observable>::value, "only support observables");
}
};
template<class T>
struct identity_for
{
T operator()(T t) {
return std::move(t);
}
};
template<class T, class Seed, class Accumulator>
struct is_accumulate_function_for {
typedef rxu::decay_t<Accumulator> accumulator_type;
typedef rxu::decay_t<Seed> seed_type;
typedef T source_value_type;
struct tag_not_valid {};
template<class CS, class CV, class CRS>
static auto check(int) -> decltype((*(CRS*)nullptr)(*(CS*)nullptr, *(CV*)nullptr));
template<class CS, class CV, class CRS>
static tag_not_valid check(...);
typedef decltype(check<seed_type, source_value_type, accumulator_type>(0)) type;
static const bool value = std::is_same<type, seed_type>::value;
};
}
#endif
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