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// Copyright 2021 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef INCLUDE_V8_MEMORY_SPAN_H_ #define INCLUDE_V8_MEMORY_SPAN_H_ #include <stddef.h> #include <array> #include <cstddef> #include <iterator> #include <type_traits> #include "v8config.h" // NOLINT(build/include_directory) // TODO(pkasting): Use <compare>/spaceship unconditionally after dropping // support for old libstdc++ versions. #if __has_include(<version>) #include <version> #endif #if defined(__cpp_lib_three_way_comparison) && \ __cpp_lib_three_way_comparison >= 201711L #define V8_HAVE_SPACESHIP_OPERATOR 1 #else #define V8_HAVE_SPACESHIP_OPERATOR 0 #endif // TODO(pkasting): Make this block unconditional after dropping support for old // libstdc++ versions. #if __has_include(<ranges>) #include <ranges> namespace v8 { template <typename T> class V8_EXPORT MemorySpan; } // namespace v8 // Mark `MemorySpan` as satisfying the `view` and `borrowed_range` concepts. // This should be done before the definition of `MemorySpan`, so that any // inlined calls to range functionality use the correct specializations. template <typename T> inline constexpr bool std::ranges::enable_view<v8::MemorySpan<T>> = true; template <typename T> inline constexpr bool std::ranges::enable_borrowed_range<v8::MemorySpan<T>> = true; #endif namespace v8 { /** * Points to an unowned contiguous buffer holding a known number of elements. * * This is similar to std::span (under consideration for C++20), but does not * require advanced C++ support. In the (far) future, this may be replaced with * or aliased to std::span. * * To facilitate future migration, this class exposes a subset of the interface * implemented by std::span. */ template <typename T> class V8_EXPORT MemorySpan { private: /** Some C++ machinery, brought from the future. */ template <typename From, typename To> using is_array_convertible = std::is_convertible<From (*)[], To (*)[]>; template <typename From, typename To> static constexpr bool is_array_convertible_v = is_array_convertible<From, To>::value; template <typename It> using iter_reference_t = decltype(*std::declval<It&>()); template <typename It, typename = void> struct is_compatible_iterator : std::false_type {}; template <typename It> struct is_compatible_iterator< It, std::void_t< std::is_base_of<std::random_access_iterator_tag, typename std::iterator_traits<It>::iterator_category>, is_array_convertible<std::remove_reference_t<iter_reference_t<It>>, T>>> : std::true_type {}; template <typename It> static constexpr bool is_compatible_iterator_v = is_compatible_iterator<It>::value; template <typename U> [[nodiscard]] static constexpr U* to_address(U* p) noexcept { return p; } template <typename It, typename = std::void_t<decltype(std::declval<It&>().operator->())>> [[nodiscard]] static constexpr auto to_address(It it) noexcept { return it.operator->(); } public: /** The default constructor creates an empty span. */ constexpr MemorySpan() = default; /** Constructor from nullptr and count, for backwards compatibility. * This is not compatible with C++20 std::span. */ constexpr MemorySpan(std::nullptr_t, size_t) {} /** Constructor from "iterator" and count. */ template <typename Iterator, std::enable_if_t<is_compatible_iterator_v<Iterator>, bool> = true> constexpr MemorySpan(Iterator first, size_t count) // NOLINT(runtime/explicit) : data_(to_address(first)), size_(count) {} /** Constructor from two "iterators". */ template <typename Iterator, std::enable_if_t<is_compatible_iterator_v<Iterator> && !std::is_convertible_v<Iterator, size_t>, bool> = true> constexpr MemorySpan(Iterator first, Iterator last) // NOLINT(runtime/explicit) : data_(to_address(first)), size_(last - first) {} /** Implicit conversion from C-style array. */ template <size_t N> constexpr MemorySpan(T (&a)[N]) noexcept // NOLINT(runtime/explicit) : data_(a), size_(N) {} /** Implicit conversion from std::array. */ template <typename U, size_t N, std::enable_if_t<is_array_convertible_v<U, T>, bool> = true> constexpr MemorySpan( std::array<U, N>& a) noexcept // NOLINT(runtime/explicit) : data_(a.data()), size_{N} {} /** Implicit conversion from const std::array. */ template <typename U, size_t N, std::enable_if_t<is_array_convertible_v<const U, T>, bool> = true> constexpr MemorySpan( const std::array<U, N>& a) noexcept // NOLINT(runtime/explicit) : data_(a.data()), size_{N} {} /** Returns a pointer to the beginning of the buffer. */ [[nodiscard]] constexpr T* data() const { return data_; } /** Returns the number of elements that the buffer holds. */ [[nodiscard]] constexpr size_t size() const { return size_; } [[nodiscard]] constexpr T& operator[](size_t i) const { return data_[i]; } /** Returns true if the buffer is empty. */ [[nodiscard]] constexpr bool empty() const { return size() == 0; } class Iterator { public: using difference_type = std::ptrdiff_t; using value_type = T; using pointer = value_type*; using reference = value_type&; using iterator_category = std::random_access_iterator_tag; // There seems to be no feature-test macro covering this, so use the // presence of `<ranges>` as a crude proxy, since it was added to the // standard as part of the Ranges papers. // TODO(pkasting): Add this unconditionally after dropping support for old // libstdc++ versions. #if __has_include(<ranges>) using iterator_concept = std::contiguous_iterator_tag; #endif // Required to satisfy `std::semiregular<>`. constexpr Iterator() = default; [[nodiscard]] friend constexpr bool operator==(const Iterator& a, const Iterator& b) { // TODO(pkasting): Replace this body with `= default` after dropping // support for old gcc versions. return a.ptr_ == b.ptr_; } #if V8_HAVE_SPACESHIP_OPERATOR [[nodiscard]] friend constexpr auto operator<=>(const Iterator&, const Iterator&) = default; #else // Assume that if spaceship isn't present, operator rewriting might not be // either. [[nodiscard]] friend constexpr bool operator!=(const Iterator& a, const Iterator& b) { return a.ptr_ != b.ptr_; } [[nodiscard]] friend constexpr bool operator<(const Iterator& a, const Iterator& b) { return a.ptr_ < b.ptr_; } [[nodiscard]] friend constexpr bool operator<=(const Iterator& a, const Iterator& b) { return a.ptr_ <= b.ptr_; } [[nodiscard]] friend constexpr bool operator>(const Iterator& a, const Iterator& b) { return a.ptr_ > b.ptr_; } [[nodiscard]] friend constexpr bool operator>=(const Iterator& a, const Iterator& b) { return a.ptr_ >= b.ptr_; } #endif constexpr Iterator& operator++() { ++ptr_; return *this; } constexpr Iterator operator++(int) { Iterator temp = *this; ++*this; return temp; } constexpr Iterator& operator--() { --ptr_; return *this; } constexpr Iterator operator--(int) { Iterator temp = *this; --*this; return temp; } constexpr Iterator& operator+=(difference_type rhs) { ptr_ += rhs; return *this; } [[nodiscard]] friend constexpr Iterator operator+(Iterator lhs, difference_type rhs) { lhs += rhs; return lhs; } [[nodiscard]] friend constexpr Iterator operator+(difference_type lhs, const Iterator& rhs) { return rhs + lhs; } constexpr Iterator& operator-=(difference_type rhs) { ptr_ -= rhs; return *this; } [[nodiscard]] friend constexpr Iterator operator-(Iterator lhs, difference_type rhs) { lhs -= rhs; return lhs; } [[nodiscard]] friend constexpr difference_type operator-( const Iterator& lhs, const Iterator& rhs) { return lhs.ptr_ - rhs.ptr_; } [[nodiscard]] constexpr reference operator*() const { return *ptr_; } [[nodiscard]] constexpr pointer operator->() const { return ptr_; } [[nodiscard]] constexpr reference operator[](size_t offset) const { return ptr_[offset]; } private: friend class MemorySpan<T>; constexpr explicit Iterator(T* ptr) : ptr_(ptr) {} T* ptr_ = nullptr; }; [[nodiscard]] Iterator begin() const { return Iterator(data_); } [[nodiscard]] Iterator end() const { return Iterator(data_ + size_); } private: T* data_ = nullptr; size_t size_ = 0; }; /** * Helper function template to create an array of fixed length, initialized by * the provided initializer list, without explicitly specifying the array size, * e.g. * * auto arr = v8::to_array<Local<String>>({v8_str("one"), v8_str("two")}); * * In the future, this may be replaced with or aliased to std::to_array (under * consideration for C++20). */ namespace detail { template <class T, std::size_t N, std::size_t... I> [[nodiscard]] constexpr std::array<std::remove_cv_t<T>, N> to_array_lvalue_impl( T (&a)[N], std::index_sequence<I...>) { return {{a[I]...}}; } template <class T, std::size_t N, std::size_t... I> [[nodiscard]] constexpr std::array<std::remove_cv_t<T>, N> to_array_rvalue_impl( T (&&a)[N], std::index_sequence<I...>) { return {{std::move(a[I])...}}; } } // namespace detail template <class T, std::size_t N> [[nodiscard]] constexpr std::array<std::remove_cv_t<T>, N> to_array(T (&a)[N]) { return detail::to_array_lvalue_impl(a, std::make_index_sequence<N>{}); } template <class T, std::size_t N> [[nodiscard]] constexpr std::array<std::remove_cv_t<T>, N> to_array( T (&&a)[N]) { return detail::to_array_rvalue_impl(std::move(a), std::make_index_sequence<N>{}); } } // namespace v8 #endif // INCLUDE_V8_MEMORY_SPAN_H_