tdesktop/Telegram/SourceFiles/rpl/map.h

212 lines
5.0 KiB
C++

/*
This file is part of Telegram Desktop,
the official desktop application for the Telegram messaging service.
For license and copyright information please follow this link:
https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
*/
#pragma once
#include <rpl/producer.h>
namespace rpl {
namespace details {
template <
typename Transform,
typename NewValue,
typename Error,
typename Handlers>
class map_transform_helper {
public:
map_transform_helper(
Transform &&transform,
const consumer<NewValue, Error, Handlers> &consumer)
: _consumer(consumer)
, _transform(std::move(transform)) {
}
template <
typename OtherValue,
typename = std::enable_if_t<
std::is_rvalue_reference_v<OtherValue&&>>>
void operator()(OtherValue &&value) const {
_consumer.put_next_forward(
details::callable_invoke(_transform, std::move(value)));
}
template <
typename OtherValue,
typename = decltype(
std::declval<Transform>()(const_ref_val<OtherValue>()))>
void operator()(const OtherValue &value) const {
_consumer.put_next_forward(
details::callable_invoke(_transform, value));
}
private:
consumer<NewValue, Error, Handlers> _consumer;
Transform _transform;
};
template <
typename Transform,
typename NewValue,
typename Error,
typename Handlers,
typename = std::enable_if_t<
std::is_rvalue_reference_v<Transform&&>>>
inline map_transform_helper<Transform, NewValue, Error, Handlers>
map_transform(
Transform &&transform,
const consumer<NewValue, Error, Handlers> &consumer) {
return { std::move(transform), consumer };
}
template <typename Transform>
class map_helper {
public:
template <typename OtherTransform>
map_helper(OtherTransform &&transform)
: _transform(std::forward<OtherTransform>(transform)) {
}
template <
typename Value,
typename Error,
typename Generator,
typename NewValue = details::callable_result<
Transform,
Value>>
auto operator()(producer<Value, Error, Generator> &&initial) {
return make_producer<NewValue, Error>([
initial = std::move(initial),
transform = std::move(_transform)
](const auto &consumer) mutable {
return std::move(initial).start(
map_transform(
std::move(transform),
consumer
), [consumer](auto &&error) {
consumer.put_error_forward(
std::forward<decltype(error)>(error));
}, [consumer] {
consumer.put_done();
});
});
}
private:
Transform _transform;
};
} // namespace details
template <typename Transform>
inline auto map(Transform &&transform)
-> details::map_helper<std::decay_t<Transform>> {
return details::map_helper<std::decay_t<Transform>>(
std::forward<Transform>(transform));
}
namespace details {
template <
typename Transform,
typename Value,
typename NewError,
typename Handlers>
class map_error_transform_helper {
public:
map_error_transform_helper(
Transform &&transform,
const consumer<Value, NewError, Handlers> &consumer)
: _transform(std::move(transform))
, _consumer(consumer) {
}
template <
typename OtherError,
typename = std::enable_if_t<
std::is_rvalue_reference_v<OtherError&&>>>
void operator()(OtherError &&error) const {
_consumer.put_error_forward(
details::callable_invoke(_transform, std::move(error)));
}
template <
typename OtherError,
typename = decltype(
std::declval<Transform>()(const_ref_val<OtherError>()))>
void operator()(const OtherError &error) const {
_consumer.put_error_forward(
details::callable_invoke(_transform, error));
}
private:
consumer<Value, NewError, Handlers> _consumer;
Transform _transform;
};
template <
typename Transform,
typename Value,
typename NewError,
typename Handlers,
typename = std::enable_if_t<
std::is_rvalue_reference_v<Transform&&>>>
inline map_error_transform_helper<Transform, Value, NewError, Handlers>
map_error_transform(
Transform &&transform,
const consumer<Value, NewError, Handlers> &consumer) {
return { std::move(transform), consumer };
}
template <typename Transform>
class map_error_helper {
public:
template <typename OtherTransform>
map_error_helper(OtherTransform &&transform)
: _transform(std::forward<OtherTransform>(transform)) {
}
template <
typename Value,
typename Error,
typename Generator,
typename NewError = details::callable_result<
Transform,
Error>>
auto operator()(producer<Value, Error, Generator> &&initial) {
return make_producer<Value, NewError>([
initial = std::move(initial),
transform = std::move(_transform)
](const auto &consumer) mutable {
return std::move(initial).start(
[consumer](auto &&value) {
consumer.put_next_forward(
std::forward<decltype(value)>(value));
}, map_error_transform(
std::move(transform),
consumer
), [consumer] {
consumer.put_done();
});
});
}
private:
Transform _transform;
};
} // namespace details
template <typename Transform>
inline auto map_error(Transform &&transform)
-> details::map_error_helper<std::decay_t<Transform>> {
return details::map_error_helper<std::decay_t<Transform>>(
std::forward<Transform>(transform));
}
} // namespace rpl