sled/3party/rxcpp/operators/rx-sequence_equal.hpp

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2024-03-14 20:50:17 +08:00
// Copyright (c) Microsoft Open Technologies, Inc. All rights reserved. See License.txt in the project root for license information.
#pragma once
/*! \file rx-sequence_equal.hpp
\brief Determine whether two Observables emit the same sequence of items.
\tparam OtherSource the type of the other observable.
\tparam BinaryPredicate the type of the value comparing function (optional). The signature should be equivalent to the following: bool pred(const T1& a, const T2& b);
\tparam Coordination the type of the scheduler (optional).
\param t the other Observable that emits items to compare.
\param pred the function that implements comparison of two values (optional).
\param cn the scheduler (optional).
\return Observable that emits true only if both sequences terminate normally after emitting the same sequence of items in the same order; otherwise it will emit false.
\sample
\snippet sequence_equal.cpp sequence_equal sample
\snippet output.txt sequence_equal sample
*/
#if !defined(RXCPP_OPERATORS_RX_SEQUENCE_EQUAL_HPP)
#define RXCPP_OPERATORS_RX_SEQUENCE_EQUAL_HPP
#include "../rx-includes.hpp"
namespace rxcpp {
namespace operators {
namespace detail {
template<class... AN>
struct sequence_equal_invalid_arguments {};
template<class... AN>
struct sequence_equal_invalid : public rxo::operator_base<sequence_equal_invalid_arguments<AN...>> {
using type = observable<sequence_equal_invalid_arguments<AN...>, sequence_equal_invalid<AN...>>;
};
template<class... AN>
using sequence_equal_invalid_t = typename sequence_equal_invalid<AN...>::type;
template<class T, class Observable, class OtherObservable, class BinaryPredicate, class Coordination>
struct sequence_equal : public operator_base<bool>
{
typedef rxu::decay_t<Observable> source_type;
typedef rxu::decay_t<T> source_value_type;
typedef rxu::decay_t<OtherObservable> other_source_type;
typedef typename other_source_type::value_type other_source_value_type;
typedef rxu::decay_t<BinaryPredicate> predicate_type;
typedef rxu::decay_t<Coordination> coordination_type;
typedef typename coordination_type::coordinator_type coordinator_type;
struct values {
values(source_type s, other_source_type t, predicate_type pred, coordination_type sf)
: source(std::move(s))
, other(std::move(t))
, pred(std::move(pred))
, coordination(std::move(sf))
{
}
source_type source;
other_source_type other;
predicate_type pred;
coordination_type coordination;
};
values initial;
sequence_equal(source_type s, other_source_type t, predicate_type pred, coordination_type sf)
: initial(std::move(s), std::move(t), std::move(pred), std::move(sf))
{
}
template<class Subscriber>
void on_subscribe(Subscriber s) const {
typedef Subscriber output_type;
struct state_type
: public std::enable_shared_from_this<state_type>
, public values
{
state_type(const values& vals, coordinator_type coor, const output_type& o)
: values(vals)
, coordinator(std::move(coor))
, out(o)
, source_completed(false)
, other_completed(false)
{
out.add(other_lifetime);
out.add(source_lifetime);
}
composite_subscription other_lifetime;
composite_subscription source_lifetime;
coordinator_type coordinator;
output_type out;
mutable std::list<source_value_type> source_values;
mutable std::list<other_source_value_type> other_values;
mutable bool source_completed;
mutable bool other_completed;
};
auto coordinator = initial.coordination.create_coordinator();
auto state = std::make_shared<state_type>(initial, std::move(coordinator), std::move(s));
auto other = on_exception(
[&](){ return state->coordinator.in(state->other); },
state->out);
if (other.empty()) {
return;
}
auto source = on_exception(
[&](){ return state->coordinator.in(state->source); },
state->out);
if (source.empty()) {
return;
}
auto check_equal = [state]() {
if(!state->source_values.empty() && !state->other_values.empty()) {
auto x = std::move(state->source_values.front());
state->source_values.pop_front();
auto y = std::move(state->other_values.front());
state->other_values.pop_front();
if (!state->pred(x, y)) {
state->out.on_next(false);
state->out.on_completed();
}
} else {
if((!state->source_values.empty() && state->other_completed) ||
(!state->other_values.empty() && state->source_completed)) {
state->out.on_next(false);
state->out.on_completed();
}
}
};
auto check_complete = [state]() {
if(state->source_completed && state->other_completed) {
state->out.on_next(state->source_values.empty() && state->other_values.empty());
state->out.on_completed();
}
};
auto sinkOther = make_subscriber<other_source_value_type>(
state->out,
state->other_lifetime,
// on_next
[state, check_equal](other_source_value_type t) {
auto& values = state->other_values;
values.push_back(t);
check_equal();
},
// on_error
[state](rxu::error_ptr e) {
state->out.on_error(e);
},
// on_completed
[state, check_complete]() {
auto& completed = state->other_completed;
completed = true;
check_complete();
}
);
auto selectedSinkOther = on_exception(
[&](){ return state->coordinator.out(sinkOther); },
state->out);
if (selectedSinkOther.empty()) {
return;
}
other->subscribe(std::move(selectedSinkOther.get()));
source.get().subscribe(
state->source_lifetime,
// on_next
[state, check_equal](source_value_type t) {
auto& values = state->source_values;
values.push_back(t);
check_equal();
},
// on_error
[state](rxu::error_ptr e) {
state->out.on_error(e);
},
// on_completed
[state, check_complete]() {
auto& completed = state->source_completed;
completed = true;
check_complete();
}
);
}
};
}
/*! @copydoc rx-sequence_equal.hpp
*/
template<class... AN>
auto sequence_equal(AN&&... an)
-> operator_factory<sequence_equal_tag, AN...> {
return operator_factory<sequence_equal_tag, AN...>(std::make_tuple(std::forward<AN>(an)...));
}
}
template<>
struct member_overload<sequence_equal_tag>
{
template<class Observable, class OtherObservable,
class Enabled = rxu::enable_if_all_true_type_t<
is_observable<Observable>,
is_observable<OtherObservable>>,
class SourceValue = rxu::value_type_t<Observable>,
class SequenceEqual = rxo::detail::sequence_equal<SourceValue, rxu::decay_t<Observable>, rxu::decay_t<OtherObservable>, rxu::equal_to<>, identity_one_worker>,
class Value = rxu::value_type_t<SequenceEqual>,
class Result = observable<Value, SequenceEqual>>
static Result member(Observable&& o, OtherObservable&& t) {
return Result(SequenceEqual(std::forward<Observable>(o), std::forward<OtherObservable>(t), rxu::equal_to<>(), identity_current_thread()));
}
template<class Observable, class OtherObservable, class BinaryPredicate,
class IsCoordination = is_coordination<BinaryPredicate>,
class Enabled = rxu::enable_if_all_true_type_t<
is_observable<Observable>,
is_observable<OtherObservable>,
rxu::negation<IsCoordination>>,
class SourceValue = rxu::value_type_t<Observable>,
class SequenceEqual = rxo::detail::sequence_equal<SourceValue, rxu::decay_t<Observable>, rxu::decay_t<OtherObservable>, rxu::decay_t<BinaryPredicate>, identity_one_worker>,
class Value = rxu::value_type_t<SequenceEqual>,
class Result = observable<Value, SequenceEqual>>
static Result member(Observable&& o, OtherObservable&& t, BinaryPredicate&& pred) {
return Result(SequenceEqual(std::forward<Observable>(o), std::forward<OtherObservable>(t), std::forward<BinaryPredicate>(pred), identity_current_thread()));
}
template<class Observable, class OtherObservable, class Coordination,
class Enabled = rxu::enable_if_all_true_type_t<
is_observable<Observable>,
is_observable<OtherObservable>,
is_coordination<Coordination>>,
class SourceValue = rxu::value_type_t<Observable>,
class SequenceEqual = rxo::detail::sequence_equal<SourceValue, rxu::decay_t<Observable>, rxu::decay_t<OtherObservable>, rxu::equal_to<>, rxu::decay_t<Coordination>>,
class Value = rxu::value_type_t<SequenceEqual>,
class Result = observable<Value, SequenceEqual>>
static Result member(Observable&& o, OtherObservable&& t, Coordination&& cn) {
return Result(SequenceEqual(std::forward<Observable>(o), std::forward<OtherObservable>(t), rxu::equal_to<>(), std::forward<Coordination>(cn)));
}
template<class Observable, class OtherObservable, class BinaryPredicate, class Coordination,
class Enabled = rxu::enable_if_all_true_type_t<
is_observable<Observable>,
is_observable<OtherObservable>,
is_coordination<Coordination>>,
class SourceValue = rxu::value_type_t<Observable>,
class SequenceEqual = rxo::detail::sequence_equal<SourceValue, rxu::decay_t<Observable>, rxu::decay_t<OtherObservable>, rxu::decay_t<BinaryPredicate>, rxu::decay_t<Coordination>>,
class Value = rxu::value_type_t<SequenceEqual>,
class Result = observable<Value, SequenceEqual>>
static Result member(Observable&& o, OtherObservable&& t, BinaryPredicate&& pred, Coordination&& cn) {
return Result(SequenceEqual(std::forward<Observable>(o), std::forward<OtherObservable>(t), std::forward<BinaryPredicate>(pred), std::forward<Coordination>(cn)));
}
template<class... AN>
static operators::detail::sequence_equal_invalid_t<AN...> member(const AN&...) {
std::terminate();
return {};
static_assert(sizeof...(AN) == 10000, "sequence_equal takes (OtherObservable, optional BinaryPredicate, optional Coordination)");
}
};
}
#endif