2018-04-08 17:57:22 +02:00
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// Copyright (c) 2018 The Bitcoin Core developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#ifndef BITCOIN_SPAN_H
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#define BITCOIN_SPAN_H
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#include <type_traits>
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#include <cstddef>
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2018-04-23 21:17:29 +02:00
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#include <algorithm>
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#include <assert.h>
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2018-04-08 17:57:22 +02:00
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2020-03-30 01:31:03 +02:00
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#ifdef DEBUG
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#define CONSTEXPR_IF_NOT_DEBUG
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#define ASSERT_IF_DEBUG(x) assert((x))
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#else
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#define CONSTEXPR_IF_NOT_DEBUG constexpr
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#define ASSERT_IF_DEBUG(x)
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#endif
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2018-04-08 17:57:22 +02:00
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/** A Span is an object that can refer to a contiguous sequence of objects.
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*
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* It implements a subset of C++20's std::span.
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*/
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template<typename C>
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class Span
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{
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C* m_data;
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std::size_t m_size;
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public:
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constexpr Span() noexcept : m_data(nullptr), m_size(0) {}
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/** Construct a span from a begin pointer and a size.
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*
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* This implements a subset of the iterator-based std::span constructor in C++20,
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* which is hard to implement without std::address_of.
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*/
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template <typename T, typename std::enable_if<std::is_convertible<T (*)[], C (*)[]>::value, int>::type = 0>
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constexpr Span(T* begin, std::size_t size) noexcept : m_data(begin), m_size(size) {}
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/** Construct a span from a begin and end pointer.
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*
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* This implements a subset of the iterator-based std::span constructor in C++20,
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* which is hard to implement without std::address_of.
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*/
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template <typename T, typename std::enable_if<std::is_convertible<T (*)[], C (*)[]>::value, int>::type = 0>
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CONSTEXPR_IF_NOT_DEBUG Span(T* begin, T* end) noexcept : m_data(begin), m_size(end - begin)
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{
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ASSERT_IF_DEBUG(end >= begin);
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}
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/** Implicit conversion of spans between compatible types.
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*
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* Specifically, if a pointer to an array of type O can be implicitly converted to a pointer to an array of type
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* C, then permit implicit conversion of Span<O> to Span<C>. This matches the behavior of the corresponding
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* C++20 std::span constructor.
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*
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* For example this means that a Span<T> can be converted into a Span<const T>.
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*/
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template <typename O, typename std::enable_if<std::is_convertible<O (*)[], C (*)[]>::value, int>::type = 0>
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constexpr Span(const Span<O>& other) noexcept : m_data(other.m_data), m_size(other.m_size) {}
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/** Default copy constructor. */
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constexpr Span(const Span&) noexcept = default;
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/** Default assignment operator. */
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Span& operator=(const Span& other) noexcept = default;
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/** Construct a Span from an array. This matches the corresponding C++20 std::span constructor. */
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template <int N>
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constexpr Span(C (&a)[N]) noexcept : m_data(a), m_size(N) {}
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/** Construct a Span for objects with .data() and .size() (std::string, std::array, std::vector, ...).
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*
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* This implements a subset of the functionality provided by the C++20 std::span range-based constructor.
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*
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* To prevent surprises, only Spans for constant value types are supported when passing in temporaries.
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* Note that this restriction does not exist when converting arrays or other Spans (see above).
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*/
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template <typename V, typename std::enable_if<(std::is_const<C>::value || std::is_lvalue_reference<V>::value) && std::is_convertible<typename std::remove_pointer<decltype(std::declval<V&>().data())>::type (*)[], C (*)[]>::value && std::is_convertible<decltype(std::declval<V&>().size()), std::size_t>::value, int>::type = 0>
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constexpr Span(V&& v) noexcept : m_data(v.data()), m_size(v.size()) {}
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constexpr C* data() const noexcept { return m_data; }
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constexpr C* begin() const noexcept { return m_data; }
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constexpr C* end() const noexcept { return m_data + m_size; }
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CONSTEXPR_IF_NOT_DEBUG C& front() const noexcept
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{
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ASSERT_IF_DEBUG(size() > 0);
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return m_data[0];
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}
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CONSTEXPR_IF_NOT_DEBUG C& back() const noexcept
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{
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ASSERT_IF_DEBUG(size() > 0);
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return m_data[m_size - 1];
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}
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constexpr std::size_t size() const noexcept { return m_size; }
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CONSTEXPR_IF_NOT_DEBUG C& operator[](std::size_t pos) const noexcept
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{
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ASSERT_IF_DEBUG(size() > pos);
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return m_data[pos];
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}
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CONSTEXPR_IF_NOT_DEBUG Span<C> subspan(std::size_t offset) const noexcept
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{
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ASSERT_IF_DEBUG(size() >= offset);
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return Span<C>(m_data + offset, m_size - offset);
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}
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CONSTEXPR_IF_NOT_DEBUG Span<C> subspan(std::size_t offset, std::size_t count) const noexcept
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{
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ASSERT_IF_DEBUG(size() >= offset + count);
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return Span<C>(m_data + offset, count);
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}
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CONSTEXPR_IF_NOT_DEBUG Span<C> first(std::size_t count) const noexcept
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{
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ASSERT_IF_DEBUG(size() >= count);
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return Span<C>(m_data, count);
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}
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CONSTEXPR_IF_NOT_DEBUG Span<C> last(std::size_t count) const noexcept
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{
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ASSERT_IF_DEBUG(size() >= count);
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return Span<C>(m_data + m_size - count, count);
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}
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friend constexpr bool operator==(const Span& a, const Span& b) noexcept { return a.size() == b.size() && std::equal(a.begin(), a.end(), b.begin()); }
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friend constexpr bool operator!=(const Span& a, const Span& b) noexcept { return !(a == b); }
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friend constexpr bool operator<(const Span& a, const Span& b) noexcept { return std::lexicographical_compare(a.begin(), a.end(), b.begin(), b.end()); }
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friend constexpr bool operator<=(const Span& a, const Span& b) noexcept { return !(b < a); }
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friend constexpr bool operator>(const Span& a, const Span& b) noexcept { return (b < a); }
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friend constexpr bool operator>=(const Span& a, const Span& b) noexcept { return !(a < b); }
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template <typename O> friend class Span;
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};
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// MakeSpan helps constructing a Span of the right type automatically.
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/** MakeSpan for arrays: */
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template <typename A, int N> Span<A> constexpr MakeSpan(A (&a)[N]) { return Span<A>(a, N); }
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/** MakeSpan for temporaries / rvalue references, only supporting const output. */
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template <typename V> constexpr auto MakeSpan(V&& v) -> typename std::enable_if<!std::is_lvalue_reference<V>::value, Span<const typename std::remove_pointer<decltype(v.data())>::type>>::type { return std::forward<V>(v); }
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/** MakeSpan for (lvalue) references, supporting mutable output. */
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template <typename V> constexpr auto MakeSpan(V& v) -> Span<typename std::remove_pointer<decltype(v.data())>::type> { return v; }
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/** Pop the last element off a span, and return a reference to that element. */
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template <typename T>
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T& SpanPopBack(Span<T>& span)
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{
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size_t size = span.size();
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ASSERT_IF_DEBUG(size > 0);
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T& back = span[size - 1];
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span = Span<T>(span.data(), size - 1);
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return back;
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}
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2018-04-08 17:57:22 +02:00
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#endif
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