зеркало из https://github.com/mozilla/gecko-dev.git
914 строки
30 KiB
C++
914 строки
30 KiB
C++
///////////////////////////////////////////////////////////////////////////////
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//
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// Copyright (c) 2015 Microsoft Corporation. All rights reserved.
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//
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// This code is licensed under the MIT License (MIT).
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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// THE SOFTWARE.
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//
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///////////////////////////////////////////////////////////////////////////////
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// Adapted from
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// https://github.com/Microsoft/GSL/blob/3819df6e378ffccf0e29465afe99c3b324c2aa70/include/gsl/span
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// and
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// https://github.com/Microsoft/GSL/blob/3819df6e378ffccf0e29465afe99c3b324c2aa70/include/gsl/gsl_util
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#ifndef mozilla_Span_h
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# define mozilla_Span_h
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# include "mozilla/Array.h"
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# include "mozilla/Assertions.h"
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# include "mozilla/Casting.h"
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# include "mozilla/IntegerTypeTraits.h"
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# include "mozilla/Move.h"
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# include "mozilla/TypeTraits.h"
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# include "mozilla/UniquePtr.h"
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# include <algorithm>
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# include <array>
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# include <cstring>
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# include <iterator>
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namespace mozilla {
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// Stuff from gsl_util
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// narrow_cast(): a searchable way to do narrowing casts of values
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template <class T, class U>
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inline constexpr T narrow_cast(U&& u) {
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return static_cast<T>(std::forward<U>(u));
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}
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// end gsl_util
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// [views.constants], constants
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// This was -1 in gsl::span, but using size_t for sizes instead of ptrdiff_t
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// and reserving a magic value that realistically doesn't occur in
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// compile-time-constant Span sizes makes things a lot less messy in terms of
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// comparison between signed and unsigned.
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constexpr const size_t dynamic_extent = mozilla::MaxValue<size_t>::value;
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template <class ElementType, size_t Extent = dynamic_extent>
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class Span;
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// implementation details
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namespace span_details {
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inline size_t strlen16(const char16_t* aZeroTerminated) {
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size_t len = 0;
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while (*(aZeroTerminated++)) {
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len++;
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}
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return len;
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}
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// C++14 types that we don't have because we build as C++11.
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template <class T>
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using remove_cv_t = typename mozilla::RemoveCV<T>::Type;
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template <class T>
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using remove_const_t = typename mozilla::RemoveConst<T>::Type;
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template <bool B, class T, class F>
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using conditional_t = typename mozilla::Conditional<B, T, F>::Type;
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template <class T>
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using add_pointer_t = typename mozilla::AddPointer<T>::Type;
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template <bool B, class T = void>
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using enable_if_t = typename mozilla::EnableIf<B, T>::Type;
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template <class T>
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struct is_span_oracle : mozilla::FalseType {};
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template <class ElementType, size_t Extent>
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struct is_span_oracle<mozilla::Span<ElementType, Extent>> : mozilla::TrueType {
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};
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template <class T>
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struct is_span : public is_span_oracle<remove_cv_t<T>> {};
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template <class T>
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struct is_std_array_oracle : mozilla::FalseType {};
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template <class ElementType, size_t Extent>
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struct is_std_array_oracle<std::array<ElementType, Extent>>
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: mozilla::TrueType {};
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template <class T>
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struct is_std_array : public is_std_array_oracle<remove_cv_t<T>> {};
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template <size_t From, size_t To>
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struct is_allowed_extent_conversion
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: public mozilla::IntegralConstant<
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bool, From == To || From == mozilla::dynamic_extent ||
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To == mozilla::dynamic_extent> {};
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template <class From, class To>
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struct is_allowed_element_type_conversion
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: public mozilla::IntegralConstant<
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bool, mozilla::IsConvertible<From (*)[], To (*)[]>::value> {};
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template <class Span, bool IsConst>
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class span_iterator {
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using element_type_ = typename Span::element_type;
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public:
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using iterator_category = std::random_access_iterator_tag;
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using value_type = remove_const_t<element_type_>;
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using difference_type = typename Span::index_type;
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using reference = conditional_t<IsConst, const element_type_, element_type_>&;
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using pointer = add_pointer_t<reference>;
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constexpr span_iterator() : span_iterator(nullptr, 0) {}
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constexpr span_iterator(const Span* span, typename Span::index_type index)
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: span_(span), index_(index) {
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MOZ_RELEASE_ASSERT(span == nullptr ||
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(index_ >= 0 && index <= span_->Length()));
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}
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friend class span_iterator<Span, true>;
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constexpr MOZ_IMPLICIT span_iterator(const span_iterator<Span, false>& other)
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: span_iterator(other.span_, other.index_) {}
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constexpr span_iterator<Span, IsConst>& operator=(
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const span_iterator<Span, IsConst>&) = default;
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constexpr reference operator*() const {
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MOZ_RELEASE_ASSERT(span_);
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return (*span_)[index_];
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}
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constexpr pointer operator->() const {
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MOZ_RELEASE_ASSERT(span_);
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return &((*span_)[index_]);
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}
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constexpr span_iterator& operator++() {
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MOZ_RELEASE_ASSERT(span_ && index_ >= 0 && index_ < span_->Length());
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++index_;
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return *this;
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}
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constexpr span_iterator operator++(int) {
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auto ret = *this;
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++(*this);
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return ret;
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}
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constexpr span_iterator& operator--() {
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MOZ_RELEASE_ASSERT(span_ && index_ > 0 && index_ <= span_->Length());
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--index_;
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return *this;
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}
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constexpr span_iterator operator--(int) {
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auto ret = *this;
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--(*this);
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return ret;
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}
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constexpr span_iterator operator+(difference_type n) const {
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auto ret = *this;
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return ret += n;
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}
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constexpr span_iterator& operator+=(difference_type n) {
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MOZ_RELEASE_ASSERT(span_ && (index_ + n) >= 0 &&
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(index_ + n) <= span_->Length());
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index_ += n;
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return *this;
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}
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constexpr span_iterator operator-(difference_type n) const {
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auto ret = *this;
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return ret -= n;
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}
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constexpr span_iterator& operator-=(difference_type n)
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{
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return *this += -n;
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}
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constexpr difference_type operator-(const span_iterator& rhs) const {
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MOZ_RELEASE_ASSERT(span_ == rhs.span_);
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return index_ - rhs.index_;
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}
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constexpr reference operator[](difference_type n) const {
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return *(*this + n);
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}
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constexpr friend bool operator==(const span_iterator& lhs,
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const span_iterator& rhs) {
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return lhs.span_ == rhs.span_ && lhs.index_ == rhs.index_;
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}
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constexpr friend bool operator!=(const span_iterator& lhs,
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const span_iterator& rhs) {
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return !(lhs == rhs);
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}
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constexpr friend bool operator<(const span_iterator& lhs,
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const span_iterator& rhs) {
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MOZ_RELEASE_ASSERT(lhs.span_ == rhs.span_);
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return lhs.index_ < rhs.index_;
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}
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constexpr friend bool operator<=(const span_iterator& lhs,
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const span_iterator& rhs) {
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return !(rhs < lhs);
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}
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constexpr friend bool operator>(const span_iterator& lhs,
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const span_iterator& rhs) {
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return rhs < lhs;
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}
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constexpr friend bool operator>=(const span_iterator& lhs,
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const span_iterator& rhs) {
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return !(rhs > lhs);
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}
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void swap(span_iterator& rhs) {
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std::swap(index_, rhs.index_);
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std::swap(span_, rhs.span_);
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}
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protected:
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const Span* span_;
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size_t index_;
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};
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template <class Span, bool IsConst>
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inline constexpr span_iterator<Span, IsConst> operator+(
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typename span_iterator<Span, IsConst>::difference_type n,
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const span_iterator<Span, IsConst>& rhs) {
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return rhs + n;
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}
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template <size_t Ext>
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class extent_type {
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public:
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using index_type = size_t;
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static_assert(Ext >= 0, "A fixed-size Span must be >= 0 in size.");
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constexpr extent_type() {}
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template <index_type Other>
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constexpr MOZ_IMPLICIT extent_type(extent_type<Other> ext) {
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static_assert(
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Other == Ext || Other == dynamic_extent,
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"Mismatch between fixed-size extent and size of initializing data.");
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MOZ_RELEASE_ASSERT(ext.size() == Ext);
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}
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constexpr MOZ_IMPLICIT extent_type(index_type length) {
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MOZ_RELEASE_ASSERT(length == Ext);
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}
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constexpr index_type size() const { return Ext; }
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};
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template <>
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class extent_type<dynamic_extent> {
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public:
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using index_type = size_t;
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template <index_type Other>
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explicit constexpr extent_type(extent_type<Other> ext) : size_(ext.size()) {}
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explicit constexpr extent_type(index_type length) : size_(length) {}
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constexpr index_type size() const { return size_; }
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private:
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index_type size_;
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};
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} // namespace span_details
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/**
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* Span - slices for C++
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*
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* Span implements Rust's slice concept for C++. It's called "Span" instead of
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* "Slice" to follow the naming used in C++ Core Guidelines.
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*
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* A Span wraps a pointer and a length that identify a non-owning view to a
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* contiguous block of memory of objects of the same type. Various types,
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* including (pre-decay) C arrays, XPCOM strings, nsTArray, mozilla::Array,
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* mozilla::Range and contiguous standard-library containers, auto-convert
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* into Spans when attempting to pass them as arguments to methods that take
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* Spans. MakeSpan() functions can be used for explicit conversion in other
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* contexts. (Span itself autoconverts into mozilla::Range.)
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*
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* Like Rust's slices, Span provides safety against out-of-bounds access by
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* performing run-time bound checks. However, unlike Rust's slices, Span
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* cannot provide safety against use-after-free.
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*
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* (Note: Span is like Rust's slice only conceptually. Due to the lack of
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* ABI guarantees, you should still decompose spans/slices to raw pointer
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* and length parts when crossing the FFI. The Elements() and data() methods
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* are guaranteed to return a non-null pointer even for zero-length spans,
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* so the pointer can be used as a raw part of a Rust slice without further
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* checks.)
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*
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* In addition to having constructors and MakeSpan() functions that take
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* various well-known types, a Span for an arbitrary type can be constructed
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* (via constructor or MakeSpan()) from a pointer and a length or a pointer
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* and another pointer pointing just past the last element.
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*
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* A Span<const char> or Span<const char16_t> can be obtained for const char*
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* or const char16_t pointing to a zero-terminated string using the
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* MakeStringSpan() function (which treats a nullptr argument equivalently
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* to the empty string). Corresponding implicit constructor does not exist
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* in order to avoid accidental construction in cases where const char* or
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* const char16_t* do not point to a zero-terminated string.
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*
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* Span has methods that follow the Mozilla naming style and methods that
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* don't. The methods that follow the Mozilla naming style are meant to be
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* used directly from Mozilla code. The methods that don't are meant for
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* integration with C++11 range-based loops and with meta-programming that
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* expects the same methods that are found on the standard-library
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* containers. For example, to decompose a Span into its parts in Mozilla
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* code, use Elements() and Length() (as with nsTArray) instead of data()
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* and size() (as with std::vector).
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*
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* The pointer and length wrapped by a Span cannot be changed after a Span has
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* been created. When new values are required, simply create a new Span. Span
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* has a method called Subspan() that works analogously to the Substring()
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* method of XPCOM strings taking a start index and an optional length. As a
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* Mozilla extension (relative to Microsoft's gsl::span that mozilla::Span is
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* based on), Span has methods From(start), To(end) and FromTo(start, end)
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* that correspond to Rust's &slice[start..], &slice[..end] and
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* &slice[start..end], respectively. (That is, the end index is the index of
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* the first element not to be included in the new subspan.)
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*
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* When indicating a Span that's only read from, const goes inside the type
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* parameter. Don't put const in front of Span. That is:
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* size_t ReadsFromOneSpanAndWritesToAnother(Span<const uint8_t> aReadFrom,
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* Span<uint8_t> aWrittenTo);
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*
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* Any Span<const T> can be viewed as Span<const uint8_t> using the function
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* AsBytes(). Any Span<T> can be viewed as Span<uint8_t> using the function
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* AsWritableBytes().
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*/
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template <class ElementType, size_t Extent>
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class Span {
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public:
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// constants and types
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using element_type = ElementType;
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using index_type = size_t;
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using pointer = element_type*;
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using reference = element_type&;
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using iterator =
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span_details::span_iterator<Span<ElementType, Extent>, false>;
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using const_iterator =
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span_details::span_iterator<Span<ElementType, Extent>, true>;
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using reverse_iterator = std::reverse_iterator<iterator>;
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using const_reverse_iterator = std::reverse_iterator<const_iterator>;
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constexpr static const index_type extent = Extent;
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// [Span.cons], Span constructors, copy, assignment, and destructor
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// "Dependent" is needed to make "span_details::enable_if_t<(Dependent ||
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// Extent == 0 || Extent == mozilla::MaxValue<size_t>::value)>" SFINAE,
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// since "span_details::enable_if_t<(Extent == 0 || Extent ==
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// mozilla::MaxValue<size_t>::value)>" is ill-formed when Extent is neither
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// of the extreme values.
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/**
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* Constructor with no args.
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*/
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template <bool Dependent = false,
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class = span_details::enable_if_t<
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(Dependent || Extent == 0 ||
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Extent == mozilla::MaxValue<size_t>::value)>>
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constexpr Span() : storage_(nullptr, span_details::extent_type<0>()) {}
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/**
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* Constructor for nullptr.
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*/
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constexpr MOZ_IMPLICIT Span(std::nullptr_t) : Span() {}
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/**
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* Constructor for pointer and length.
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*/
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constexpr Span(pointer aPtr, index_type aLength) : storage_(aPtr, aLength) {}
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/**
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* Constructor for start pointer and pointer past end.
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*/
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constexpr Span(pointer aStartPtr, pointer aEndPtr)
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: storage_(aStartPtr, std::distance(aStartPtr, aEndPtr)) {}
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/**
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* Constructor for C array.
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*/
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template <size_t N>
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constexpr MOZ_IMPLICIT Span(element_type (&aArr)[N])
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: storage_(&aArr[0], span_details::extent_type<N>()) {}
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// Implicit constructors for char* and char16_t* pointers are deleted in order
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// to avoid accidental construction in cases where a pointer does not point to
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// a zero-terminated string. A Span<const char> or Span<const char16_t> can be
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// obtained for const char* or const char16_t pointing to a zero-terminated
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// string using the MakeStringSpan() function.
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Span(char* aStr) = delete;
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Span(const char* aStr) = delete;
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Span(char16_t* aStr) = delete;
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Span(const char16_t* aStr) = delete;
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/**
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* Constructor for std::array.
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*/
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template <size_t N,
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class ArrayElementType = span_details::remove_const_t<element_type>>
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constexpr MOZ_IMPLICIT Span(std::array<ArrayElementType, N>& aArr)
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: storage_(&aArr[0], span_details::extent_type<N>()) {}
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/**
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* Constructor for const std::array.
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*/
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template <size_t N>
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constexpr MOZ_IMPLICIT Span(
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const std::array<span_details::remove_const_t<element_type>, N>& aArr)
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: storage_(&aArr[0], span_details::extent_type<N>()) {}
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/**
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* Constructor for mozilla::Array.
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*/
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template <size_t N,
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class ArrayElementType = span_details::remove_const_t<element_type>>
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constexpr MOZ_IMPLICIT Span(mozilla::Array<ArrayElementType, N>& aArr)
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: storage_(&aArr[0], span_details::extent_type<N>()) {}
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/**
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* Constructor for const mozilla::Array.
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*/
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template <size_t N>
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constexpr MOZ_IMPLICIT Span(
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const mozilla::Array<span_details::remove_const_t<element_type>, N>& aArr)
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: storage_(&aArr[0], span_details::extent_type<N>()) {}
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/**
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* Constructor for mozilla::UniquePtr holding an array and length.
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*/
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template <class ArrayElementType = std::add_pointer<element_type>>
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constexpr Span(const mozilla::UniquePtr<ArrayElementType>& aPtr,
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index_type aLength)
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: storage_(aPtr.get(), aLength) {}
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// NB: the SFINAE here uses .data() as a incomplete/imperfect proxy for the
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// requirement on Container to be a contiguous sequence container.
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/**
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* Constructor for standard-library containers.
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*/
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template <
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class Container,
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class = span_details::enable_if_t<
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!span_details::is_span<Container>::value &&
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!span_details::is_std_array<Container>::value &&
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mozilla::IsConvertible<typename Container::pointer, pointer>::value &&
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mozilla::IsConvertible<
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typename Container::pointer,
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decltype(mozilla::DeclVal<Container>().data())>::value>>
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constexpr MOZ_IMPLICIT Span(Container& cont)
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: Span(cont.data(), ReleaseAssertedCast<index_type>(cont.size())) {}
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/**
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* Constructor for standard-library containers (const version).
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*/
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template <
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class Container,
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class = span_details::enable_if_t<
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mozilla::IsConst<element_type>::value &&
|
|
!span_details::is_span<Container>::value &&
|
|
mozilla::IsConvertible<typename Container::pointer, pointer>::value &&
|
|
mozilla::IsConvertible<
|
|
typename Container::pointer,
|
|
decltype(mozilla::DeclVal<Container>().data())>::value>>
|
|
constexpr MOZ_IMPLICIT Span(const Container& cont)
|
|
: Span(cont.data(), ReleaseAssertedCast<index_type>(cont.size())) {}
|
|
|
|
/**
|
|
* Constructor from other Span.
|
|
*/
|
|
constexpr Span(const Span& other) = default;
|
|
|
|
/**
|
|
* Constructor from other Span.
|
|
*/
|
|
constexpr Span(Span&& other) = default;
|
|
|
|
/**
|
|
* Constructor from other Span with conversion of element type.
|
|
*/
|
|
template <class OtherElementType, size_t OtherExtent,
|
|
class = span_details::enable_if_t<
|
|
span_details::is_allowed_extent_conversion<OtherExtent,
|
|
Extent>::value &&
|
|
span_details::is_allowed_element_type_conversion<
|
|
OtherElementType, element_type>::value>>
|
|
constexpr MOZ_IMPLICIT Span(const Span<OtherElementType, OtherExtent>& other)
|
|
: storage_(other.data(),
|
|
span_details::extent_type<OtherExtent>(other.size())) {}
|
|
|
|
/**
|
|
* Constructor from other Span with conversion of element type.
|
|
*/
|
|
template <class OtherElementType, size_t OtherExtent,
|
|
class = span_details::enable_if_t<
|
|
span_details::is_allowed_extent_conversion<OtherExtent,
|
|
Extent>::value &&
|
|
span_details::is_allowed_element_type_conversion<
|
|
OtherElementType, element_type>::value>>
|
|
constexpr MOZ_IMPLICIT Span(Span<OtherElementType, OtherExtent>&& other)
|
|
: storage_(other.data(),
|
|
span_details::extent_type<OtherExtent>(other.size())) {}
|
|
|
|
~Span() = default;
|
|
constexpr Span& operator=(const Span& other) = default;
|
|
|
|
constexpr Span& operator=(Span&& other) = default;
|
|
|
|
// [Span.sub], Span subviews
|
|
/**
|
|
* Subspan with first N elements with compile-time N.
|
|
*/
|
|
template <size_t Count>
|
|
constexpr Span<element_type, Count> First() const {
|
|
MOZ_RELEASE_ASSERT(Count <= size());
|
|
return {data(), Count};
|
|
}
|
|
|
|
/**
|
|
* Subspan with last N elements with compile-time N.
|
|
*/
|
|
template <size_t Count>
|
|
constexpr Span<element_type, Count> Last() const {
|
|
const size_t len = size();
|
|
MOZ_RELEASE_ASSERT(Count <= len);
|
|
return {data() + (len - Count), Count};
|
|
}
|
|
|
|
/**
|
|
* Subspan with compile-time start index and length.
|
|
*/
|
|
template <size_t Offset, size_t Count = dynamic_extent>
|
|
constexpr Span<element_type, Count> Subspan() const {
|
|
const size_t len = size();
|
|
MOZ_RELEASE_ASSERT(Offset <= len &&
|
|
(Count == dynamic_extent || (Offset + Count <= len)));
|
|
return {data() + Offset, Count == dynamic_extent ? len - Offset : Count};
|
|
}
|
|
|
|
/**
|
|
* Subspan with first N elements with run-time N.
|
|
*/
|
|
constexpr Span<element_type, dynamic_extent> First(index_type aCount) const {
|
|
MOZ_RELEASE_ASSERT(aCount <= size());
|
|
return {data(), aCount};
|
|
}
|
|
|
|
/**
|
|
* Subspan with last N elements with run-time N.
|
|
*/
|
|
constexpr Span<element_type, dynamic_extent> Last(index_type aCount) const {
|
|
const size_t len = size();
|
|
MOZ_RELEASE_ASSERT(aCount <= len);
|
|
return {data() + (len - aCount), aCount};
|
|
}
|
|
|
|
/**
|
|
* Subspan with run-time start index and length.
|
|
*/
|
|
constexpr Span<element_type, dynamic_extent> Subspan(
|
|
index_type aStart, index_type aLength = dynamic_extent) const {
|
|
const size_t len = size();
|
|
MOZ_RELEASE_ASSERT(aStart <= len && (aLength == dynamic_extent ||
|
|
(aStart + aLength <= len)));
|
|
return {data() + aStart,
|
|
aLength == dynamic_extent ? len - aStart : aLength};
|
|
}
|
|
|
|
/**
|
|
* Subspan with run-time start index. (Rust's &foo[start..])
|
|
*/
|
|
constexpr Span<element_type, dynamic_extent> From(index_type aStart) const {
|
|
return Subspan(aStart);
|
|
}
|
|
|
|
/**
|
|
* Subspan with run-time exclusive end index. (Rust's &foo[..end])
|
|
*/
|
|
constexpr Span<element_type, dynamic_extent> To(index_type aEnd) const {
|
|
return Subspan(0, aEnd);
|
|
}
|
|
|
|
/**
|
|
* Subspan with run-time start index and exclusive end index.
|
|
* (Rust's &foo[start..end])
|
|
*/
|
|
constexpr Span<element_type, dynamic_extent> FromTo(index_type aStart,
|
|
index_type aEnd) const {
|
|
MOZ_RELEASE_ASSERT(aStart <= aEnd);
|
|
return Subspan(aStart, aEnd - aStart);
|
|
}
|
|
|
|
// [Span.obs], Span observers
|
|
/**
|
|
* Number of elements in the span.
|
|
*/
|
|
constexpr index_type Length() const { return size(); }
|
|
|
|
/**
|
|
* Number of elements in the span (standard-libray duck typing version).
|
|
*/
|
|
constexpr index_type size() const { return storage_.size(); }
|
|
|
|
/**
|
|
* Size of the span in bytes.
|
|
*/
|
|
constexpr index_type LengthBytes() const { return size_bytes(); }
|
|
|
|
/**
|
|
* Size of the span in bytes (standard-library naming style version).
|
|
*/
|
|
constexpr index_type size_bytes() const {
|
|
return size() * narrow_cast<index_type>(sizeof(element_type));
|
|
}
|
|
|
|
/**
|
|
* Checks if the the length of the span is zero.
|
|
*/
|
|
constexpr bool IsEmpty() const { return empty(); }
|
|
|
|
/**
|
|
* Checks if the the length of the span is zero (standard-libray duck
|
|
* typing version).
|
|
*/
|
|
constexpr bool empty() const { return size() == 0; }
|
|
|
|
// [Span.elem], Span element access
|
|
constexpr reference operator[](index_type idx) const {
|
|
MOZ_RELEASE_ASSERT(idx < storage_.size());
|
|
return data()[idx];
|
|
}
|
|
|
|
/**
|
|
* Access element of span by index (standard-library duck typing version).
|
|
*/
|
|
constexpr reference at(index_type idx) const { return this->operator[](idx); }
|
|
|
|
constexpr reference operator()(index_type idx) const {
|
|
return this->operator[](idx);
|
|
}
|
|
|
|
/**
|
|
* Pointer to the first element of the span. The return value is never
|
|
* nullptr, not ever for zero-length spans, so it can be passed as-is
|
|
* to std::slice::from_raw_parts() in Rust.
|
|
*/
|
|
constexpr pointer Elements() const { return data(); }
|
|
|
|
/**
|
|
* Pointer to the first element of the span (standard-libray duck typing
|
|
* version). The return value is never nullptr, not ever for zero-length
|
|
* spans, so it can be passed as-is to std::slice::from_raw_parts() in Rust.
|
|
*/
|
|
constexpr pointer data() const { return storage_.data(); }
|
|
|
|
// [Span.iter], Span iterator support
|
|
iterator begin() const { return {this, 0}; }
|
|
iterator end() const { return {this, Length()}; }
|
|
|
|
const_iterator cbegin() const { return {this, 0}; }
|
|
const_iterator cend() const { return {this, Length()}; }
|
|
|
|
reverse_iterator rbegin() const { return reverse_iterator{end()}; }
|
|
reverse_iterator rend() const { return reverse_iterator{begin()}; }
|
|
|
|
const_reverse_iterator crbegin() const {
|
|
return const_reverse_iterator{cend()};
|
|
}
|
|
const_reverse_iterator crend() const {
|
|
return const_reverse_iterator{cbegin()};
|
|
}
|
|
|
|
private:
|
|
// this implementation detail class lets us take advantage of the
|
|
// empty base class optimization to pay for only storage of a single
|
|
// pointer in the case of fixed-size Spans
|
|
template <class ExtentType>
|
|
class storage_type : public ExtentType {
|
|
public:
|
|
template <class OtherExtentType>
|
|
constexpr storage_type(pointer elements, OtherExtentType ext)
|
|
: ExtentType(ext)
|
|
// Replace nullptr with aligned bogus pointer for Rust slice
|
|
// compatibility. See
|
|
// https://doc.rust-lang.org/std/slice/fn.from_raw_parts.html
|
|
,
|
|
data_(elements ? elements
|
|
: reinterpret_cast<pointer>(alignof(element_type))) {
|
|
const size_t extentSize = ExtentType::size();
|
|
MOZ_RELEASE_ASSERT(
|
|
(!elements && extentSize == 0) ||
|
|
(elements && extentSize != mozilla::MaxValue<size_t>::value));
|
|
}
|
|
|
|
constexpr pointer data() const { return data_; }
|
|
|
|
private:
|
|
pointer data_;
|
|
};
|
|
|
|
storage_type<span_details::extent_type<Extent>> storage_;
|
|
};
|
|
|
|
// [Span.comparison], Span comparison operators
|
|
template <class ElementType, size_t FirstExtent, size_t SecondExtent>
|
|
inline constexpr bool operator==(const Span<ElementType, FirstExtent>& l,
|
|
const Span<ElementType, SecondExtent>& r) {
|
|
return (l.size() == r.size()) && std::equal(l.begin(), l.end(), r.begin());
|
|
}
|
|
|
|
template <class ElementType, size_t Extent>
|
|
inline constexpr bool operator!=(const Span<ElementType, Extent>& l,
|
|
const Span<ElementType, Extent>& r) {
|
|
return !(l == r);
|
|
}
|
|
|
|
template <class ElementType, size_t Extent>
|
|
inline constexpr bool operator<(const Span<ElementType, Extent>& l,
|
|
const Span<ElementType, Extent>& r) {
|
|
return std::lexicographical_compare(l.begin(), l.end(), r.begin(), r.end());
|
|
}
|
|
|
|
template <class ElementType, size_t Extent>
|
|
inline constexpr bool operator<=(const Span<ElementType, Extent>& l,
|
|
const Span<ElementType, Extent>& r) {
|
|
return !(l > r);
|
|
}
|
|
|
|
template <class ElementType, size_t Extent>
|
|
inline constexpr bool operator>(const Span<ElementType, Extent>& l,
|
|
const Span<ElementType, Extent>& r) {
|
|
return r < l;
|
|
}
|
|
|
|
template <class ElementType, size_t Extent>
|
|
inline constexpr bool operator>=(const Span<ElementType, Extent>& l,
|
|
const Span<ElementType, Extent>& r) {
|
|
return !(l < r);
|
|
}
|
|
|
|
namespace span_details {
|
|
// if we only supported compilers with good constexpr support then
|
|
// this pair of classes could collapse down to a constexpr function
|
|
|
|
// we should use a narrow_cast<> to go to size_t, but older compilers may not
|
|
// see it as constexpr and so will fail compilation of the template
|
|
template <class ElementType, size_t Extent>
|
|
struct calculate_byte_size
|
|
: mozilla::IntegralConstant<size_t, static_cast<size_t>(
|
|
sizeof(ElementType) *
|
|
static_cast<size_t>(Extent))> {};
|
|
|
|
template <class ElementType>
|
|
struct calculate_byte_size<ElementType, dynamic_extent>
|
|
: mozilla::IntegralConstant<size_t, dynamic_extent> {};
|
|
} // namespace span_details
|
|
|
|
// [Span.objectrep], views of object representation
|
|
/**
|
|
* View span as Span<const uint8_t>.
|
|
*/
|
|
template <class ElementType, size_t Extent>
|
|
Span<const uint8_t,
|
|
span_details::calculate_byte_size<ElementType, Extent>::value>
|
|
AsBytes(Span<ElementType, Extent> s) {
|
|
return {reinterpret_cast<const uint8_t*>(s.data()), s.size_bytes()};
|
|
}
|
|
|
|
/**
|
|
* View span as Span<uint8_t>.
|
|
*/
|
|
template <
|
|
class ElementType, size_t Extent,
|
|
class = span_details::enable_if_t<!mozilla::IsConst<ElementType>::value>>
|
|
Span<uint8_t, span_details::calculate_byte_size<ElementType, Extent>::value>
|
|
AsWritableBytes(Span<ElementType, Extent> s) {
|
|
return {reinterpret_cast<uint8_t*>(s.data()), s.size_bytes()};
|
|
}
|
|
|
|
//
|
|
// MakeSpan() - Utility functions for creating Spans
|
|
//
|
|
/**
|
|
* Create span from pointer and length.
|
|
*/
|
|
template <class ElementType>
|
|
Span<ElementType> MakeSpan(ElementType* aPtr,
|
|
typename Span<ElementType>::index_type aLength) {
|
|
return Span<ElementType>(aPtr, aLength);
|
|
}
|
|
|
|
/**
|
|
* Create span from start pointer and pointer past end.
|
|
*/
|
|
template <class ElementType>
|
|
Span<ElementType> MakeSpan(ElementType* aStartPtr, ElementType* aEndPtr) {
|
|
return Span<ElementType>(aStartPtr, aEndPtr);
|
|
}
|
|
|
|
/**
|
|
* Create span from C array.
|
|
* MakeSpan() does not permit creating Span objects from string literals (const
|
|
* char or char16_t arrays) because the Span length would include the zero
|
|
* terminator, which may surprise callers. Use MakeStringSpan() to create a
|
|
* Span whose length that excludes the string literal's zero terminator or use
|
|
* the MakeSpan() overload that accepts a pointer and length and specify the
|
|
* string literal's full length.
|
|
*/
|
|
template <class ElementType, size_t N,
|
|
class = span_details::enable_if_t<
|
|
!IsSame<ElementType, const char>::value &&
|
|
!IsSame<ElementType, const char16_t>::value>>
|
|
Span<ElementType> MakeSpan(ElementType (&aArr)[N]) {
|
|
return Span<ElementType>(aArr, N);
|
|
}
|
|
|
|
/**
|
|
* Create span from mozilla::Array.
|
|
*/
|
|
template <class ElementType, size_t N>
|
|
Span<ElementType> MakeSpan(mozilla::Array<ElementType, N>& aArr) {
|
|
return aArr;
|
|
}
|
|
|
|
/**
|
|
* Create span from const mozilla::Array.
|
|
*/
|
|
template <class ElementType, size_t N>
|
|
Span<const ElementType> MakeSpan(const mozilla::Array<ElementType, N>& arr) {
|
|
return arr;
|
|
}
|
|
|
|
/**
|
|
* Create span from standard-library container.
|
|
*/
|
|
template <class Container>
|
|
Span<typename Container::value_type> MakeSpan(Container& cont) {
|
|
return Span<typename Container::value_type>(cont);
|
|
}
|
|
|
|
/**
|
|
* Create span from standard-library container (const version).
|
|
*/
|
|
template <class Container>
|
|
Span<const typename Container::value_type> MakeSpan(const Container& cont) {
|
|
return Span<const typename Container::value_type>(cont);
|
|
}
|
|
|
|
/**
|
|
* Create span from smart pointer and length.
|
|
*/
|
|
template <class Ptr>
|
|
Span<typename Ptr::element_type> MakeSpan(Ptr& aPtr, size_t aLength) {
|
|
return Span<typename Ptr::element_type>(aPtr, aLength);
|
|
}
|
|
|
|
/**
|
|
* Create span from a zero-terminated C string. nullptr is
|
|
* treated as the empty string.
|
|
*/
|
|
inline Span<const char> MakeStringSpan(const char* aZeroTerminated) {
|
|
if (!aZeroTerminated) {
|
|
return Span<const char>();
|
|
}
|
|
return Span<const char>(aZeroTerminated, std::strlen(aZeroTerminated));
|
|
}
|
|
|
|
/**
|
|
* Create span from a zero-terminated UTF-16 C string. nullptr is
|
|
* treated as the empty string.
|
|
*/
|
|
inline Span<const char16_t> MakeStringSpan(const char16_t* aZeroTerminated) {
|
|
if (!aZeroTerminated) {
|
|
return Span<const char16_t>();
|
|
}
|
|
return Span<const char16_t>(aZeroTerminated,
|
|
span_details::strlen16(aZeroTerminated));
|
|
}
|
|
|
|
} // namespace mozilla
|
|
|
|
#endif // mozilla_Span_h
|