2023-06-20 04:33:09 +00:00
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#ifndef STAR_SMALL_VECTOR_HPP
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#define STAR_SMALL_VECTOR_HPP
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#include "StarAlgorithm.hpp"
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namespace Star {
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// A vector that is stack allocated up to a maximum size, becoming heap
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// allocated when it grows beyond that size. Always takes up stack space of
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// MaxStackSize * sizeof(Element).
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template <typename Element, size_t MaxStackSize>
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class SmallVector {
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public:
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typedef Element* iterator;
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typedef Element const* const_iterator;
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typedef std::reverse_iterator<iterator> reverse_iterator;
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typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
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typedef Element value_type;
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typedef Element& reference;
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typedef Element const& const_reference;
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SmallVector();
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SmallVector(SmallVector const& other);
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SmallVector(SmallVector&& other);
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template <typename OtherElement, size_t OtherMaxStackSize>
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SmallVector(SmallVector<OtherElement, OtherMaxStackSize> const& other);
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template <class Iterator>
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SmallVector(Iterator first, Iterator last);
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SmallVector(size_t size, Element const& value = Element());
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SmallVector(initializer_list<Element> list);
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~SmallVector();
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SmallVector& operator=(SmallVector const& other);
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SmallVector& operator=(SmallVector&& other);
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SmallVector& operator=(std::initializer_list<Element> list);
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size_t size() const;
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bool empty() const;
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void resize(size_t size, Element const& e = Element());
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void reserve(size_t capacity);
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reference at(size_t i);
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const_reference at(size_t i) const;
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reference operator[](size_t i);
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const_reference operator[](size_t i) const;
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const_iterator begin() const;
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const_iterator end() const;
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iterator begin();
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iterator end();
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const_reverse_iterator rbegin() const;
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const_reverse_iterator rend() const;
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reverse_iterator rbegin();
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reverse_iterator rend();
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// Pointer to internal data, always valid even if empty.
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Element const* ptr() const;
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Element* ptr();
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void push_back(Element e);
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void pop_back();
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iterator insert(iterator pos, Element e);
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template <typename Iterator>
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iterator insert(iterator pos, Iterator begin, Iterator end);
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iterator insert(iterator pos, initializer_list<Element> list);
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template <typename... Args>
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void emplace(iterator pos, Args&&... args);
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template <typename... Args>
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void emplace_back(Args&&... args);
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void clear();
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iterator erase(iterator pos);
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iterator erase(iterator begin, iterator end);
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bool operator==(SmallVector const& other) const;
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bool operator!=(SmallVector const& other) const;
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bool operator<(SmallVector const& other) const;
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private:
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typename std::aligned_storage<MaxStackSize * sizeof(Element), alignof(Element)>::type m_stackElements;
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bool isHeapAllocated() const;
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Element* m_begin;
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Element* m_end;
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Element* m_capacity;
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};
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template <typename Element, size_t MaxStackSize>
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SmallVector<Element, MaxStackSize>::SmallVector() {
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m_begin = (Element*)&m_stackElements;
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m_end = m_begin;
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m_capacity = m_begin + MaxStackSize;
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}
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template <typename Element, size_t MaxStackSize>
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SmallVector<Element, MaxStackSize>::~SmallVector() {
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clear();
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if (isHeapAllocated()) {
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free(m_begin, (m_capacity - m_begin) * sizeof(Element));
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}
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}
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template <typename Element, size_t MaxStackSize>
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SmallVector<Element, MaxStackSize>::SmallVector(SmallVector const& other)
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: SmallVector() {
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insert(begin(), other.begin(), other.end());
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}
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template <typename Element, size_t MaxStackSize>
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SmallVector<Element, MaxStackSize>::SmallVector(SmallVector&& other)
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: SmallVector() {
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for (auto& e : other)
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emplace_back(move(e));
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}
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template <typename Element, size_t MaxStackSize>
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template <typename OtherElement, size_t OtherMaxStackSize>
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SmallVector<Element, MaxStackSize>::SmallVector(SmallVector<OtherElement, OtherMaxStackSize> const& other)
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: SmallVector() {
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for (auto const& e : other)
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emplace_back(e);
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}
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template <typename Element, size_t MaxStackSize>
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template <class Iterator>
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SmallVector<Element, MaxStackSize>::SmallVector(Iterator first, Iterator last)
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: SmallVector() {
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insert(begin(), first, last);
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}
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template <typename Element, size_t MaxStackSize>
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SmallVector<Element, MaxStackSize>::SmallVector(size_t size, Element const& value)
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: SmallVector() {
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resize(size, value);
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}
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template <typename Element, size_t MaxStackSize>
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SmallVector<Element, MaxStackSize>::SmallVector(initializer_list<Element> list)
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: SmallVector() {
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for (auto const& e : list)
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emplace_back(e);
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::operator=(SmallVector const& other) -> SmallVector& {
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if (this == &other)
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return *this;
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resize(other.size());
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for (size_t i = 0; i < size(); ++i)
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operator[](i) = other[i];
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return *this;
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::operator=(SmallVector&& other) -> SmallVector& {
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resize(other.size());
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for (size_t i = 0; i < size(); ++i)
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operator[](i) = move(other[i]);
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return *this;
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::operator=(std::initializer_list<Element> list) -> SmallVector& {
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resize(list.size());
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for (size_t i = 0; i < size(); ++i)
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operator[](i) = move(list[i]);
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return *this;
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}
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template <typename Element, size_t MaxStackSize>
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size_t SmallVector<Element, MaxStackSize>::size() const {
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return m_end - m_begin;
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}
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template <typename Element, size_t MaxStackSize>
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bool SmallVector<Element, MaxStackSize>::empty() const {
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return m_begin == m_end;
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}
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template <typename Element, size_t MaxStackSize>
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void SmallVector<Element, MaxStackSize>::resize(size_t size, Element const& e) {
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reserve(size);
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for (size_t i = this->size(); i > size; --i)
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pop_back();
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for (size_t i = this->size(); i < size; ++i)
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emplace_back(e);
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}
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template <typename Element, size_t MaxStackSize>
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void SmallVector<Element, MaxStackSize>::reserve(size_t newCapacity) {
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size_t oldCapacity = m_capacity - m_begin;
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if (newCapacity > oldCapacity) {
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newCapacity = max(oldCapacity * 2, newCapacity);
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auto newMem = (Element*)Star::malloc(newCapacity * sizeof(Element));
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if (!newMem)
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2023-06-27 10:23:44 +00:00
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throw MemoryException::format("Could not set new SmallVector capacity {}\n", newCapacity);
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2023-06-20 04:33:09 +00:00
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size_t size = m_end - m_begin;
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auto oldMem = m_begin;
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auto oldHeapAllocated = isHeapAllocated();
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// We assume that move constructors can never throw.
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for (size_t i = 0; i < size; ++i) {
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new (&newMem[i]) Element(move(oldMem[i]));
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}
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m_begin = newMem;
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m_end = m_begin + size;
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m_capacity = m_begin + newCapacity;
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auto freeOldMem = finally([=]() {
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if (oldHeapAllocated)
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Star::free(oldMem, oldCapacity * sizeof(Element));
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});
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for (size_t i = 0; i < size; ++i) {
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oldMem[i].~Element();
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}
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}
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::at(size_t i) -> reference {
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if (i >= size())
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2023-06-27 10:23:44 +00:00
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throw OutOfRangeException::format("out of range in SmallVector::at({})", i);
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2023-06-20 04:33:09 +00:00
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return m_begin[i];
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::at(size_t i) const -> const_reference {
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if (i >= size())
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2023-06-27 10:23:44 +00:00
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throw OutOfRangeException::format("out of range in SmallVector::at({})", i);
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2023-06-20 04:33:09 +00:00
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return m_begin[i];
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::operator[](size_t i) -> reference {
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starAssert(i < size());
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return m_begin[i];
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::operator[](size_t i) const -> const_reference {
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starAssert(i < size());
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return m_begin[i];
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::begin() const -> const_iterator {
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return m_begin;
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::end() const -> const_iterator {
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return m_end;
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::begin() -> iterator {
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return m_begin;
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::end() -> iterator {
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return m_end;
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::rbegin() const -> const_reverse_iterator {
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return const_reverse_iterator(end());
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::rend() const -> const_reverse_iterator {
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return const_reverse_iterator(begin());
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::rbegin() -> reverse_iterator {
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return reverse_iterator(end());
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::rend() -> reverse_iterator {
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return reverse_iterator(begin());
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}
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template <typename Element, size_t MaxStackSize>
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Element const* SmallVector<Element, MaxStackSize>::ptr() const {
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return m_begin;
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}
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template <typename Element, size_t MaxStackSize>
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Element* SmallVector<Element, MaxStackSize>::ptr() {
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return m_begin;
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}
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template <typename Element, size_t MaxStackSize>
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void SmallVector<Element, MaxStackSize>::push_back(Element e) {
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emplace_back(move(e));
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}
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template <typename Element, size_t MaxStackSize>
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void SmallVector<Element, MaxStackSize>::pop_back() {
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if (m_begin == m_end)
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throw OutOfRangeException("SmallVector::pop_back called on empty SmallVector");
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--m_end;
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m_end->~Element();
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::insert(iterator pos, Element e) -> iterator {
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emplace(pos, move(e));
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return pos;
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}
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template <typename Element, size_t MaxStackSize>
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template <typename Iterator>
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auto SmallVector<Element, MaxStackSize>::insert(iterator pos, Iterator begin, Iterator end) -> iterator {
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size_t toAdd = std::distance(begin, end);
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size_t startIndex = pos - m_begin;
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size_t endIndex = startIndex + toAdd;
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size_t toShift = size() - startIndex;
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resize(size() + toAdd);
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for (size_t i = toShift; i != 0; --i)
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operator[](endIndex + i - 1) = move(operator[](startIndex + i - 1));
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for (size_t i = 0; i != toAdd; ++i)
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operator[](startIndex + i) = *begin++;
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return pos;
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::insert(iterator pos, initializer_list<Element> list) -> iterator {
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return insert(pos, list.begin(), list.end());
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}
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template <typename Element, size_t MaxStackSize>
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template <typename... Args>
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void SmallVector<Element, MaxStackSize>::emplace(iterator pos, Args&&... args) {
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size_t index = pos - m_begin;
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emplace_back(Element());
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for (size_t i = size() - 1; i != index; --i)
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operator[](i) = move(operator[](i - 1));
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operator[](index) = Element(forward<Args>(args)...);
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}
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template <typename Element, size_t MaxStackSize>
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template <typename... Args>
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void SmallVector<Element, MaxStackSize>::emplace_back(Args&&... args) {
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if (m_end == m_capacity)
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reserve(size() + 1);
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new (m_end) Element(forward<Args>(args)...);
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++m_end;
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}
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template <typename Element, size_t MaxStackSize>
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void SmallVector<Element, MaxStackSize>::clear() {
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while (m_begin != m_end)
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pop_back();
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::erase(iterator pos) -> iterator {
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size_t index = pos - ptr();
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for (size_t i = index; i < size() - 1; ++i)
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operator[](i) = move(operator[](i + 1));
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pop_back();
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return pos;
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}
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template <typename Element, size_t MaxStackSize>
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auto SmallVector<Element, MaxStackSize>::erase(iterator begin, iterator end) -> iterator {
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size_t startIndex = begin - ptr();
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size_t endIndex = end - ptr();
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size_t toRemove = endIndex - startIndex;
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for (size_t i = endIndex; i < size(); ++i)
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operator[](startIndex + (i - endIndex)) = move(operator[](i));
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resize(size() - toRemove);
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return begin;
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}
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template <typename Element, size_t MaxStackSize>
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bool SmallVector<Element, MaxStackSize>::operator==(SmallVector const& other) const {
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if (this == &other)
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return true;
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if (size() != other.size())
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return false;
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for (size_t i = 0; i < size(); ++i) {
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if (operator[](i) != other[i])
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return false;
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}
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return true;
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}
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template <typename Element, size_t MaxStackSize>
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bool SmallVector<Element, MaxStackSize>::operator!=(SmallVector const& other) const {
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return !operator==(other);
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}
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template <typename Element, size_t MaxStackSize>
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bool SmallVector<Element, MaxStackSize>::operator<(SmallVector const& other) const {
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for (size_t i = 0; i < size(); ++i) {
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if (i >= other.size())
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return false;
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Element const& a = operator[](i);
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Element const& b = other[i];
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if (a < b)
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return true;
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else if (b < a)
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return false;
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}
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|
return size() < other.size();
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}
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template <typename Element, size_t MaxStackSize>
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bool SmallVector<Element, MaxStackSize>::isHeapAllocated() const {
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|
|
return m_begin != (Element*)&m_stackElements;
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|
}
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|
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}
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#endif
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