libcruft-util/cruft/util/iterator/zip.hpp

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/*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* Copyright 2010-2018 Danny Robson <danny@nerdcruft.net>
*/
#pragma once
#include "iota.hpp"
#include "../concepts.hpp"
#include "../tuple/value.hpp"
#include "../variadic.hpp"
#include "../functor.hpp"
namespace cruft::iterator {
///////////////////////////////////////////////////////////////////////////
namespace detail::zip {
/// A container that holds multiple iterators and returns a tuple of
/// their results when dereferenced.
template <
typename IteratorT,
typename = std::make_index_sequence<std::tuple_size_v<IteratorT>>
>
class zipped_iterator;
template <typename T>
struct zipped_reference { using type = void; };
template <typename KlassT>
requires requires { typename KlassT::reference; }
struct zipped_reference<KlassT> {
using type = KlassT::reference;
};
template <
typename IteratorT,
std::size_t ...IndexV
>
class zipped_iterator<
IteratorT,
std::index_sequence<IndexV...>
> {
public:
// We can't declare ourselves as a forward_iterator because we're
// unable to supply references to our value_type when we get
// dereferenced unless we store the supplied values/references
// inside ourself.
//
// This complicates implementation too much given we have no
// pressing need for this functionality.
using iterator_category = std::input_iterator_tag;
using difference_type = std::ptrdiff_t;
using value_type = std::tuple<
// Because std::default_sentinel_t doesn't have iterator members
typename zipped_reference<
typename std::iterator_traits<
std::tuple_element_t<IndexV, IteratorT>
>
>::type...
>;
using reference = value_type;
using pointer = value_type*;
zipped_iterator (IteratorT _iterators)
: m_iterators (std::move (_iterators))
{ ; }
zipped_iterator&
operator++ (void)
{
(++std::get<IndexV> (m_iterators), ...);
return *this;
}
zipped_iterator operator++ (int);
// Do NOT use std::forward_as_tuple here. It favours rvalue
// references which aren't useful after we've returned. decltype
// gives us lvalues and lvalue-references.
//
// If you insist on using another approach then you should test
// under a sanitizer (debug and release) before you commit the
// changes.
auto
operator* (void)
{
return std::tuple<
decltype (*std::get<IndexV> (m_iterators))...
> (
*std::get<IndexV> (m_iterators)...
);
}
// Do NOT use std::forward_as_tuple here. It favours rvalue
// references which aren't useful after we've returned. decltype
// gives us lvalues and lvalue-references.
//
// If you insist on using another approach then you should test
// under a sanitizer (debug and release) before you commit the
// changes.
auto
operator* (void) const
{
return std::tuple<
std::add_const_t<
decltype(*std::get<IndexV> (m_iterators))
>...
> (
*std::get<IndexV> (m_iterators)...
);
}
template <typename OtherT, typename OtherIndexV>
bool
operator== (zipped_iterator<OtherT, OtherIndexV> const &rhs) const
{
return m_iterators == rhs.inner ();
}
bool
operator!= (zipped_iterator const &rhs) const
{
return !(*this == rhs);
}
auto const& inner (void) const& { return m_iterators; }
private:
IteratorT m_iterators;
};
template <typename TupleT>
zipped_iterator (TupleT) -> zipped_iterator<TupleT>;
/// A simple container for multiple collections that returns a
/// wrapped multi-iterator for begin and end.
///
/// It is up to the user to ensure StoreT does not contain dangling
/// references.
///
/// \tparam StoreT A tuple-like object of collections (or references
/// to collections).
template <
typename StoreT,
typename = std::make_index_sequence<
std::tuple_size_v<StoreT>
>
>
class collection;
template <
typename StoreT,
std::size_t ...IndexV
> class collection<
StoreT,
std::index_sequence<IndexV...>
> {
public:
collection (StoreT _store)
: m_store (std::move (_store))
{ ; }
auto begin (void)&
{
return zipped_iterator (
std::tuple (
std::begin (
std::get<IndexV> (m_store)
)...
)
);
}
auto begin (void) const&
{
return zipped_iterator (
std::tuple (
std::begin (std::get<IndexV> (m_store))...
)
);
}
auto end (void)&
{
return zipped_iterator (
std::tuple (
std::end (std::get<IndexV> (m_store))...
)
);
}
auto end (void) const &
{
return zipped_iterator (
std::tuple (
std::end (std::get<IndexV> (m_store))...
)
);
}
/// Returns the number of elements in the sequence.
decltype (auto)
size (void) const
{
// All stores should have the same size so we arbitrarily pick
// the first to query.
return std::size (std::get<0> (m_store));
}
private:
StoreT m_store;
};
}
///------------------------------------------------------------------------
/// Takes a variable number of container arguments and returns an interable
/// object with a value_type that is a tuple of the each container's
/// value_type.
///
/// The returned iterator value_type is suitable for using in range-for
/// and structured bindings (and really, that's the entire point here).
///
/// eg, cruft::zip ({1,2,3}, {4,5,6}) ~= {{1,4},{2,5},{3,6}}
template <typename ...ContainerT>
requires (cruft::concepts::iterable<ContainerT> && ...)
decltype(auto)
zip (ContainerT&&... data)
{
CHECK (((std::size (data) == std::size (variadic::get<0> (data...))) && ...));
return detail::zip::collection<std::tuple<ContainerT...>> (
std::forward_as_tuple (
std::forward<ContainerT> (data)...
)
);
}
///------------------------------------------------------------------------
/// Takes a variable number of containers and returns a zipped iterable
/// object where the first of the iterator's value_types is the index of
/// that iterator. ie, It combines container offsets with value_types.
///
/// The supplied containers _must_ not change size while the izip object
/// is live. The size of the containers may be cached for efficiency.
///
/// eg, cruft::izip ("abc") ~= {{0,'a'},{1,'b'},{2,'c'}}
template <typename ...ContainerT>
requires (cruft::concepts::iterable<ContainerT> && ...)
decltype(auto)
izip (ContainerT&&... data)
{
// Assume that all containers are the same size and create a range
// that will supply integral indices over the first container.
//
// The call to `zip` will peform more rigorous tests on the sizes
// of the container collection.
return zip (
iota (
std::size (::cruft::variadic::get<0> (data...))
),
std::forward<ContainerT> (data)...
);
}
}