37 KiB
[range.cartesian]
25 Ranges library [ranges]
25.7 Range adaptors [range.adaptors]
25.7.33 Cartesian product view [range.cartesian]
25.7.33.1 Overview [range.cartesian.overview]
cartesian_product_view takes any non-zero number of ranges n and produces a view of tuples calculated by the n-ary cartesian product of the provided ranges.
The name views::cartesian_product denotes a customization point object ([customization.point.object]).
Given a pack of subexpressions Es, the expression views::cartesian_product(Es...) is expression-equivalent to
views::single(tuple()) if Es is an empty pack,
otherwise,cartesian_product_view<views::all_t<decltype((Es))>...>(Es...).
[Example 1: vector v { 0, 1, 2 };for (auto&& [a, b, c] : views::cartesian_product(v, v, v)) { cout << a << ' ' << b << ' ' << c << '\n';}// The above prints// 0 0 0// 0 0 1// 0 0 2// 0 1 0// 0 1 1// ... â end example]
25.7.33.2 Class template cartesian_product_view [range.cartesian.view]
namespace std::ranges {template<bool Const, class First, class... Vs>concept cartesian-product-is-random-access = // exposition only(random_access_range<maybe-const<Const, First>> && ... &&(random_access_range<maybe-const<Const, Vs>>&& sized_range<maybe-const<Const, Vs>>)); templateconcept cartesian-product-common-arg = // exposition onlycommon_range || (sized_range && random_access_range); template<bool Const, class First, class... Vs>concept cartesian-product-is-bidirectional = // exposition only(bidirectional_range<maybe-const<Const, First>> && ... &&(bidirectional_range<maybe-const<Const, Vs>>&& cartesian-product-common-arg<maybe-const<Const, Vs>>)); template<class First, class...>concept cartesian-product-is-common = // exposition onlycartesian-product-common-arg; template<class... Vs>concept cartesian-product-is-sized = // exposition only(sized_range && ...); template<bool Const, template class FirstSent, class First, class... Vs>concept cartesian-is-sized-sentinel = // exposition only(sized_sentinel_for<FirstSent<maybe-const<Const, First>>,
iterator_t<maybe-const<Const, First>>> && ...&& (sized_range<maybe-const<Const, Vs>>&& sized_sentinel_for<iterator_t<maybe-const<Const, Vs>>,
iterator_t<maybe-const<Const, Vs>>>)); template<cartesian-product-common-arg R>constexpr auto cartesian-common-arg-end(R& r) { // exposition onlyif constexpr (common_range) {return ranges::end(r); } else {return ranges::begin(r) + ranges::distance(r); }}template<input_range First, forward_range... Vs>requires (view && ... && view)class cartesian_product_view : public view_interface<cartesian_product_view<First, Vs...>> {private: tuple<First, Vs...> bases_; // exposition only// [range.cartesian.iterator], class template cartesian_product_view::iteratortemplate class iterator; // exposition onlypublic:constexpr cartesian_product_view() = default; constexpr explicit cartesian_product_view(First first_base, Vs... bases); constexpr iterator begin()requires (
constexpr explicit cartesian_product_view(First first_base, Vs... bases);
Effects: Initializes bases_ with std::move(first_base), std::move(bases)....
constexpr iterator<false> begin() requires (<First> || ... || <Vs>);
Effects: Equivalent to:return iterator(*this, tuple-transform(ranges::begin, bases_));
constexpr iterator<true> begin() const requires ([range](range.range#concept:range "25.4.2 Ranges [range.range]")<const First> && ... && [range](range.range#concept:range "25.4.2 Ranges [range.range]")<const Vs>);
Effects: Equivalent to:return iterator(*this, tuple-transform(ranges::begin, bases_));
constexpr iterator<false> end() requires ((<First> || ... || <Vs>) && [cartesian-product-is-common](#concept:cartesian-product-is-common "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<First, Vs...>); constexpr iterator<true> end() const requires [cartesian-product-is-common](#concept:cartesian-product-is-common "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<const First, const Vs...>;
Let:
is-const be true for the const-qualified overload, andfalse otherwise;
is-empty be true if the expression ranges::empty(rng) is true for any rng among the underlying ranges except the first one andfalse otherwise; and
begin-or-first-end(rng) be expression-equivalent tois-empty ? ranges::begin(rng) : cartesian-common-arg-end(rng) if rng is the first underlying range andranges::begin(rng) otherwise.
Effects: Equivalent to:iterator<is-const> it(*this, tuple-transform([](auto& rng){ return begin-or-first-end(rng); }, bases_));return it;
constexpr default_sentinel_t end() const noexcept;
Returns: default_sentinel.
constexpr see below size() requires [cartesian-product-is-sized](#concept:cartesian-product-is-sized "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<First, Vs...>; constexpr see below size() const requires [cartesian-product-is-sized](#concept:cartesian-product-is-sized "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<const First, const Vs...>;
The return type is an implementation-defined unsigned-integer-like type.
Recommended practice: The return type should be the smallest unsigned-integer-like type that is sufficiently wide to store the product of the maximum sizes of all the underlying ranges, if such a type exists.
Let p be the product of the sizes of all the ranges in bases_.
Preconditions: p can be represented by the return type.
Returns: p.
25.7.33.3 Class template cartesian_product_view::iterator [range.cartesian.iterator]
namespace std::ranges {template<input_range First, forward_range... Vs>requires (view && ... && view)templateclass cartesian_product_view<First, Vs...>::iterator {public:using iterator_category = input_iterator_tag; using iterator_concept = see below; using value_type = tuple<range_value_t<maybe-const<Const, First>>, range_value_t<maybe-const<Const, Vs>>...>; using reference = tuple<range_reference_t<maybe-const<Const, First>>, range_reference_t<maybe-const<Const, Vs>>...>; using difference_type = see below; iterator() = default; constexpr iterator(iterator i) requires Const &&(convertible_to<iterator_t, iterator_t> &&... && convertible_to<iterator_t, iterator_t>); constexpr auto operator*() const; constexpr iterator& operator++(); constexpr void operator++(int); constexpr iterator operator++(int) requires forward_range<maybe-const<Const, First>>; constexpr iterator& operator--()requires cartesian-product-is-bidirectional<Const, First, Vs...>; constexpr iterator operator--(int)requires cartesian-product-is-bidirectional<Const, First, Vs...>; constexpr iterator& operator+=(difference_type x)requires cartesian-product-is-random-access<Const, First, Vs...>; constexpr iterator& operator-=(difference_type x)requires cartesian-product-is-random-access<Const, First, Vs...>; constexpr reference operator[](difference_type n) constrequires cartesian-product-is-random-access<Const, First, Vs...>; friend constexpr bool operator==(const iterator& x, const iterator& y)requires equality_comparable<iterator_t<maybe-const<Const, First>>>; friend constexpr bool operator==(const iterator& x, default_sentinel_t); friend constexpr auto operator<=>(const iterator& x, const iterator& y)requires all-random-access<Const, First, Vs...>; friend constexpr iterator operator+(const iterator& x, difference_type y)requires cartesian-product-is-random-access<Const, First, Vs...>; friend constexpr iterator operator+(difference_type x, const iterator& y)requires cartesian-product-is-random-access<Const, First, Vs...>; friend constexpr iterator operator-(const iterator& x, difference_type y)requires cartesian-product-is-random-access<Const, First, Vs...>; friend constexpr difference_type operator-(const iterator& x, const iterator& y)requires cartesian-is-sized-sentinel<Const, iterator_t, First, Vs...>; friend constexpr difference_type operator-(const iterator& i, default_sentinel_t)requires cartesian-is-sized-sentinel<Const, sentinel_t, First, Vs...>; friend constexpr difference_type operator-(default_sentinel_t, const iterator& i)requires cartesian-is-sized-sentinel<Const, sentinel_t, First, Vs...>; friend constexpr auto iter_move(const iterator& i) noexcept(see below); friend constexpr void iter_swap(const iterator& l, const iterator& r) noexcept(see below)requires (indirectly_swappable<iterator_t<maybe-const<Const, First>>> && ... &&indirectly_swappable<iterator_t<maybe-const<Const, Vs>>>); private:using Parent = maybe-const<Const, cartesian_product_view>; // *exposition onlyParent parent_ = nullptr; // exposition only tuple<iterator_t<maybe-const<Const, First>>, iterator_t<maybe-const<Const, Vs>>...> current_; // exposition onlytemplate<size_t N = sizeof...(Vs)>constexpr void next(); // exposition onlytemplate<size_t N = sizeof...(Vs)>constexpr void prev(); // exposition onlytemplateconstexpr difference_type distance-from(const Tuple& t) const; // exposition onlyconstexpr iterator(Parent& parent, tuple<iterator_t<maybe-const<Const, First>>, iterator_t<maybe-const<Const, Vs>>...> current); // exposition only};}
iterator::iterator_concept is defined as follows:
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If cartesian-product-is-random-access<Const, First, Vs...> is modeled, then iterator_concept denotes random_access_iterator_tag.
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Otherwise, if cartesian-product-is-bidirectional<Const, First, Vs...> is modeled, then iterator_concept denotes bidirectional_iterator_tag.
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Otherwise, if maybe-const<Const, First> models forward_range, then iterator_concept denotes forward_iterator_tag.
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Otherwise, iterator_concept denotes input_iterator_tag.
iterator::difference_type is an implementation-defined signed-integer-like type.
Recommended practice: iterator::difference_type should be the smallest signed-integer-like type that is sufficiently wide to store the product of the maximum sizes of all underlying ranges if such a type exists.
template<size_t N = sizeof...(Vs)> constexpr void next();
Effects: Equivalent to:auto& it = std::get(current_);++it;if constexpr (N > 0) {if (it == ranges::end(std::get(parent_->bases_))) { it = ranges::begin(std::get(parent_->bases_)); next<N - 1>(); }}
template<size_t N = sizeof...(Vs)> constexpr void prev();
Effects: Equivalent to:auto& it = std::get(current_);if constexpr (N > 0) {if (it == ranges::begin(std::get(parent_->bases_))) { it = cartesian-common-arg-end(std::get(parent_->bases_)); prev<N - 1>(); }}--it;
template<class Tuple> constexpr difference_type distance-from(const Tuple& t) const;
Let:
scaled-size(N) be the product ofstatic_cast<difference_type>(ranges::size(std::get<N>(parent_->bases_))) andscaled-size(N+1) if N ⤠sizeof...(Vs), otherwise static_cast<difference_type>(1);
scaled-distance(N) be the product ofstatic_cast<difference_type>(std::get(current_) - std::get(t)) and scaled-size(N+1); and
scaled-sum be the sum of scaled-distance(N) for every integer 0 ⤠N ⤠sizeof...(Vs).
Preconditions: scaled-sum can be represented by difference_type.
Returns: scaled-sum.
constexpr iterator(Parent& parent, tuple<iterator_t<maybe-const<Const, First>>, iterator_t<maybe-const<Const, Vs>>...> current);
Effects: Initializesparent_ with addressof(parent) andcurrent_ with std::move(current).
constexpr iterator(iterator<!Const> i) requires Const && ([convertible_to](concept.convertible#concept:convertible_to "18.4.4 Concept convertible_to [concept.convertible]")<iterator_t<First>, iterator_t<const First>> && ... && [convertible_to](concept.convertible#concept:convertible_to "18.4.4 Concept convertible_to [concept.convertible]")<iterator_t<Vs>, iterator_t<const Vs>>);
Effects: Initializesparent_ with i.parent_ andcurrent_ with std::move(i.current_).
constexpr auto operator*() const;
Effects: Equivalent to:return tuple-transform([](auto& i) -> decltype(auto) { return *i; }, current_);
constexpr iterator& operator++();
Effects: Equivalent to:next();return *this;
constexpr void operator++(int);
Effects: Equivalent to ++*this.
constexpr iterator operator++(int) requires [forward_range](range.refinements#concept:forward_range "25.4.6 Other range refinements [range.refinements]")<maybe-const<Const, First>>;
Effects: Equivalent to:auto tmp = *this;++*this;return tmp;
constexpr iterator& operator--() requires [cartesian-product-is-bidirectional](#concept:cartesian-product-is-bidirectional "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<Const, First, Vs...>;
Effects: Equivalent to:prev();return *this;
constexpr iterator operator--(int) requires [cartesian-product-is-bidirectional](#concept:cartesian-product-is-bidirectional "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<Const, First, Vs...>;
Effects: Equivalent to:auto tmp = *this;--*this;return tmp;
constexpr iterator& operator+=(difference_type x) requires [cartesian-product-is-random-access](#concept:cartesian-product-is-random-access "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<Const, First, Vs...>;
Let orig be the value of *this before the call.
Let ret be:
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If x > 0, the value of *this had next been called x times.
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Otherwise, if x < 0, the value of *this had prev been called -x times.
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Otherwise, orig.
Preconditions: x is in the range[ranges::distance(this, ranges::begin(**parent_)),
ranges::distance(this, ranges::end(**parent_))].
Effects: Sets the value of *this to ret.
Returns: *this.
Complexity: Constant.
constexpr iterator& operator-=(difference_type x) requires [cartesian-product-is-random-access](#concept:cartesian-product-is-random-access "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<Const, First, Vs...>;
Effects: Equivalent to:*this += -x;return *this;
constexpr reference operator[](difference_type n) const requires [cartesian-product-is-random-access](#concept:cartesian-product-is-random-access "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<Const, First, Vs...>;
Effects: Equivalent to: return *((*this) + n);
friend constexpr bool operator==(const iterator& x, const iterator& y) requires [equality_comparable](concept.equalitycomparable#concept:equality_comparable "18.5.4 Concept equality_comparable [concept.equalitycomparable]")<iterator_t<maybe-const<Const, First>>>;
Effects: Equivalent to: return x.current_ == y.current_;
friend constexpr bool operator==(const iterator& x, default_sentinel_t);
Returns: true if std::get(x.current_) == ranges::end(std::get(x.parent_->bases_)) is true for any integer 0 ⤠i ⤠sizeof...(Vs); otherwise, false.
friend constexpr auto operator<=>(const iterator& x, const iterator& y) requires [all-random-access](range.adaptor.helpers#concept:all-random-access "25.7.5 Range adaptor helpers [range.adaptor.helpers]")<Const, First, Vs...>;
Effects: Equivalent to: return x.current_ <=> y.current_;
friend constexpr iterator operator+(const iterator& x, difference_type y) requires [cartesian-product-is-random-access](#concept:cartesian-product-is-random-access "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<Const, First, Vs...>;
Effects: Equivalent to: return iterator(x) += y;
friend constexpr iterator operator+(difference_type x, const iterator& y) requires [cartesian-product-is-random-access](#concept:cartesian-product-is-random-access "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<Const, First, Vs...>;
Effects: Equivalent to: return y + x;
friend constexpr iterator operator-(const iterator& x, difference_type y) requires [cartesian-product-is-random-access](#concept:cartesian-product-is-random-access "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<Const, First, Vs...>;
Effects: Equivalent to: return iterator(x) -= y;
friend constexpr difference_type operator-(const iterator& x, const iterator& y) requires [cartesian-is-sized-sentinel](#concept:cartesian-is-sized-sentinel "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<Const, iterator_t, First, Vs...>;
Effects: Equivalent to: return x.distance-from(y.current_);
friend constexpr difference_type operator-(const iterator& i, default_sentinel_t) requires [cartesian-is-sized-sentinel](#concept:cartesian-is-sized-sentinel "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<Const, sentinel_t, First, Vs...>;
Let end-tuple be an object of a type that is a specialization of tuple, such that:
std::get<0>(end-tuple) has the same value asranges::end(std::get<0>(i.parent_->bases_));
std::get(end-tuple) has the same value asranges::begin(std::get(i.parent_->bases_)) for every integer 1 ⤠N ⤠sizeof...(Vs).
Effects: Equivalent to: return i.distance-from(end-tuple);
friend constexpr difference_type operator-(default_sentinel_t s, const iterator& i) requires [cartesian-is-sized-sentinel](#concept:cartesian-is-sized-sentinel "25.7.33.2 Class template cartesian_product_view [range.cartesian.view]")<Const, sentinel_t, First, Vs...>;
Effects: Equivalent to: return -(i - s);
friend constexpr auto iter_move(const iterator& i) noexcept(see below);
Effects: Equivalent to: return tuple-transform(ranges::iter_move, i.current_);
Remarks: The exception specification is equivalent to the logical and of the following expressions:
noexcept(ranges::iter_move(std::get(i.current_))) for every integer
0 ⤠N ⤠sizeof...(Vs),
is_nothrow_move_constructible_v<range_rvalue_reference_t<maybe-const<Const, T>>>
for every type T in First, Vs....
friend constexpr void iter_swap(const iterator& l, const iterator& r) noexcept(see below) requires ([indirectly_swappable](alg.req.ind.swap#concept:indirectly_swappable "24.3.7.4 Concept indirectly_swappable [alg.req.ind.swap]")<iterator_t<maybe-const<Const, First>>> && ... && [indirectly_swappable](alg.req.ind.swap#concept:indirectly_swappable "24.3.7.4 Concept indirectly_swappable [alg.req.ind.swap]")<iterator_t<maybe-const<Const, Vs>>>);
Effects: For every integer 0 ⤠i ⤠sizeof...(Vs), performs:ranges::iter_swap(std::get(l.current_), std::get(r.current_))
Remarks: The exception specification is equivalent to the logical and of the following expressions:
noexcept(ranges::iter_swap(std::get(l.current_), std::get(r.current_))) for
every integer 0 ⤠i ⤠sizeof...(Vs).