forked from OctaForge/libostd
416 lines
12 KiB
C++
416 lines
12 KiB
C++
/* Self-expanding dynamic array implementation for OctaSTD.
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*
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* This file is part of OctaSTD. See COPYING.md for futher information.
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*/
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#ifndef OCTA_VECTOR_H
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#define OCTA_VECTOR_H
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#include <string.h>
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#include <stddef.h>
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#include "octa/type_traits.h"
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#include "octa/utility.h"
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#include "octa/range.h"
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#include "octa/algorithm.h"
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#include "octa/initializer_list.h"
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#include "octa/memory.h"
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namespace octa {
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namespace detail {
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template<typename _T, typename _A, bool = octa::IsEmpty<_A>::value>
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struct VectorPair;
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template<typename _T, typename _A>
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struct VectorPair<_T, _A, false> { /* non-empty allocator */
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_T *p_ptr;
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_A p_a;
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template<typename _U>
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VectorPair(_T *ptr, _U &&a): p_ptr(ptr),
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p_a(octa::forward<_U>(a)) {}
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_A &get_alloc() { return p_a; }
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const _A &get_alloc() const { return p_a; }
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void swap(VectorPair &v) {
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octa::swap(p_ptr, v.p_ptr);
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octa::swap(p_a , v.p_a );
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}
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};
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template<typename _T, typename _A>
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struct VectorPair<_T, _A, true>: _A { /* empty allocator */
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_T *p_ptr;
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template<typename _U>
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VectorPair(_T *ptr, _U &&a):
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_A(octa::forward<_U>(a)), p_ptr(ptr) {}
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_A &get_alloc() { return *this; }
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const _A &get_alloc() const { return *this; }
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void swap(VectorPair &v) {
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octa::swap(p_ptr, v.p_ptr);
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}
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};
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} /* namespace detail */
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template<typename _T, typename _A = octa::Allocator<_T>>
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class Vector {
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typedef octa::detail::VectorPair<_T, _A> _vp_type;
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_vp_type p_buf;
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size_t p_len, p_cap;
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void insert_base(size_t idx, size_t n) {
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if (p_len + n > p_cap) reserve(p_len + n);
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p_len += n;
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for (size_t i = p_len - 1; i > idx + n - 1; --i) {
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p_buf.p_ptr[i] = octa::move(p_buf.p_ptr[i - n]);
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}
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}
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template<typename _R>
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void ctor_from_range(_R &range, octa::EnableIf<
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octa::IsFiniteRandomAccessRange<_R>::value, bool
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> = true) {
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octa::RangeSize<_R> l = range.size();
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reserve(l);
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p_len = l;
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for (size_t i = 0; !range.empty(); range.pop_front()) {
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octa::allocator_construct(p_buf.get_alloc(),
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&p_buf.p_ptr[i], range.front());
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++i;
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}
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}
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template<typename _R>
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void ctor_from_range(_R &range, EnableIf<
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!octa::IsFiniteRandomAccessRange<_R>::value, bool
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> = true) {
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size_t i = 0;
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for (; !range.empty(); range.pop_front()) {
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reserve(i + 1);
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octa::allocator_construct(p_buf.get_alloc(),
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&p_buf.p_ptr[i], range.front());
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++i;
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p_len = i;
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}
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}
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void copy_contents(const Vector &v) {
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if (octa::IsPod<_T>()) {
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memcpy(p_buf.p_ptr, v.p_buf.p_ptr, p_len * sizeof(_T));
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} else {
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_T *cur = p_buf.p_ptr, *last = p_buf.p_ptr + p_len;
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_T *vbuf = v.p_buf.p_ptr;
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while (cur != last) {
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octa::allocator_construct(p_buf.get_alloc(),
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cur++, *vbuf++);
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}
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}
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}
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public:
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enum { MIN_SIZE = 8 };
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typedef size_t Size;
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typedef ptrdiff_t Difference;
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typedef _T Value;
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typedef _T &Reference;
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typedef const _T &ConstReference;
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typedef _T *Pointer;
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typedef const _T *ConstPointer;
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typedef PointerRange< _T> Range;
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typedef PointerRange<const _T> ConstRange;
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typedef _A Allocator;
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Vector(const _A &a = _A()): p_buf(nullptr, a), p_len(0), p_cap(0) {}
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explicit Vector(size_t n, const _T &val = _T(),
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const _A &al = _A()): Vector(al) {
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p_buf.p_ptr = octa::allocator_allocate(p_buf.get_alloc(), n);
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p_len = p_cap = n;
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_T *cur = p_buf.p_ptr, *last = p_buf.p_ptr + n;
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while (cur != last)
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octa::allocator_construct(p_buf.get_alloc(), cur++, val);
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}
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Vector(const Vector &v): p_buf(nullptr,
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octa::allocator_container_copy(v.p_buf.get_alloc())), p_len(0),
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p_cap(0) {
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reserve(v.p_cap);
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p_len = v.p_len;
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copy_contents(v);
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}
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Vector(const Vector &v, const _A &a): p_buf(nullptr, a),
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p_len(0), p_cap(0) {
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reserve(v.p_cap);
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p_len = v.p_len;
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copy_contents(v);
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}
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Vector(Vector &&v): p_buf(v.p_buf.p_ptr,
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octa::move(v.p_buf.get_alloc())), p_len(v.p_len), p_cap(v.p_cap) {
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v.p_buf.p_ptr = nullptr;
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v.p_len = v.p_cap = 0;
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}
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Vector(Vector &&v, const _A &a) {
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if (a != v.a) {
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p_buf.get_alloc() = a;
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reserve(v.p_cap);
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p_len = v.p_len;
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if (octa::IsPod<_T>()) {
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memcpy(p_buf.p_ptr, v.p_buf.p_ptr, p_len * sizeof(_T));
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} else {
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_T *cur = p_buf.p_ptr, *last = p_buf.p_ptr + p_len;
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_T *vbuf = v.p_buf.p_ptr;
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while (cur != last) {
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octa::allocator_construct(p_buf.get_alloc(), cur++,
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octa::move(*vbuf++));
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}
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}
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return;
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}
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new (&p_buf) _vp_type(v.p_buf.p_ptr,
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octa::move(v.p_buf.get_alloc()));
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p_len = v.p_len;
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p_cap = v.p_cap;
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v.p_buf.p_ptr = nullptr;
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v.p_len = v.p_cap = 0;
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}
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Vector(InitializerList<_T> v, const _A &a = _A()): Vector(a) {
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size_t l = v.end() - v.begin();
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const _T *ptr = v.begin();
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reserve(l);
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for (size_t i = 0; i < l; ++i)
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octa::allocator_construct(p_buf.get_alloc(),
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&p_buf.p_ptr[i], ptr[i]);
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p_len = l;
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}
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template<typename _R> Vector(_R range, const _A &a = _A()):
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Vector(a) {
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ctor_from_range(range);
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}
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~Vector() {
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clear();
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octa::allocator_deallocate(p_buf.get_alloc(), p_buf.p_ptr, p_cap);
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}
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void clear() {
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if (p_len > 0 && !octa::IsPod<_T>()) {
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_T *cur = p_buf.p_ptr, *last = p_buf.p_ptr + p_len;
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while (cur != last)
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octa::allocator_destroy(p_buf.get_alloc(), cur++);
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}
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p_len = 0;
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}
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Vector &operator=(const Vector &v) {
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if (this == &v) return *this;
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clear();
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reserve(v.p_cap);
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p_len = v.p_len;
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copy_contents(v);
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return *this;
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}
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Vector &operator=(Vector &&v) {
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clear();
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octa::allocator_deallocate(p_buf.get_alloc(), p_buf.p_ptr, p_cap);
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p_len = v.p_len;
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p_cap = v.p_cap;
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p_buf.~_vp_type();
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new (&p_buf) _vp_type(v.disown(), octa::move(v.p_buf.get_alloc()));
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return *this;
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}
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Vector &operator=(InitializerList<_T> il) {
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clear();
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size_t ilen = il.end() - il.begin();
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reserve(ilen);
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if (octa::IsPod<_T>()) {
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memcpy(p_buf.p_ptr, il.begin(), ilen);
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} else {
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_T *tbuf = p_buf.p_ptr, *ibuf = il.begin(),
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*last = il.end();
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while (ibuf != last) {
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octa::allocator_construct(p_buf.get_alloc(),
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tbuf++, *ibuf++);
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}
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}
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p_len = ilen;
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return *this;
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}
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template<typename _R>
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Vector &operator=(_R range) {
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clear();
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ctor_from_range(range);
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}
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void resize(size_t n, const _T &v = _T()) {
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size_t l = p_len;
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reserve(n);
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p_len = n;
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if (octa::IsPod<_T>()) {
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for (size_t i = l; i < p_len; ++i) {
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p_buf.p_ptr[i] = _T(v);
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}
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} else {
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_T *first = p_buf.p_ptr + l;
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_T *last = p_buf.p_ptr + p_len;
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while (first != last)
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octa::allocator_construct(p_buf.get_alloc(), first++, v);
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}
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}
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void reserve(size_t n) {
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if (n <= p_cap) return;
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size_t oc = p_cap;
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if (!oc) {
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p_cap = octa::max(n, size_t(MIN_SIZE));
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} else {
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while (p_cap < n) p_cap *= 2;
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}
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_T *tmp = octa::allocator_allocate(p_buf.get_alloc(), p_cap);
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if (oc > 0) {
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if (octa::IsPod<_T>()) {
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memcpy(tmp, p_buf.p_ptr, p_len * sizeof(_T));
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} else {
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_T *cur = p_buf.p_ptr, *tcur = tmp,
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*last = tmp + p_len;
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while (tcur != last) {
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octa::allocator_construct(p_buf.get_alloc(), tcur++,
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octa::move(*cur));
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octa::allocator_destroy(p_buf.get_alloc(), cur);
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++cur;
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}
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}
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octa::allocator_deallocate(p_buf.get_alloc(), p_buf.p_ptr, oc);
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}
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p_buf.p_ptr = tmp;
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}
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_T &operator[](size_t i) { return p_buf.p_ptr[i]; }
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const _T &operator[](size_t i) const { return p_buf.p_ptr[i]; }
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_T &at(size_t i) { return p_buf.p_ptr[i]; }
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const _T &at(size_t i) const { return p_buf.p_ptr[i]; }
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_T &push(const _T &v) {
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if (p_len == p_cap) reserve(p_len + 1);
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octa::allocator_construct(p_buf.get_alloc(),
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&p_buf.p_ptr[p_len], v);
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return p_buf.p_ptr[p_len++];
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}
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_T &push() {
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if (p_len == p_cap) reserve(p_len + 1);
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octa::allocator_construct(p_buf.get_alloc(), &p_buf.p_ptr[p_len]);
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return p_buf.p_ptr[p_len++];
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}
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template<typename ..._U>
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_T &emplace_back(_U &&...args) {
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if (p_len == p_cap) reserve(p_len + 1);
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octa::allocator_construct(p_buf.get_alloc(), &p_buf.p_ptr[p_len],
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octa::forward<_U>(args)...);
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return p_buf.p_ptr[p_len++];
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}
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void pop() {
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if (!octa::IsPod<_T>()) {
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octa::allocator_destroy(p_buf.get_alloc(),
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&p_buf.p_ptr[--p_len]);
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} else {
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--p_len;
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}
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}
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_T &front() { return p_buf.p_ptr[0]; }
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const _T &front() const { return p_buf.p_ptr[0]; }
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_T &back() { return p_buf.p_ptr[p_len - 1]; }
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const _T &back() const { return p_buf.p_ptr[p_len - 1]; }
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_T *data() { return p_buf.p_ptr; }
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const _T *data() const { return p_buf.p_ptr; }
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size_t size() const { return p_len; }
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size_t capacity() const { return p_cap; }
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bool empty() const { return (p_len == 0); }
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bool in_range(size_t idx) { return idx < p_len; }
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bool in_range(int idx) { return idx >= 0 && size_t(idx) < p_len; }
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bool in_range(const _T *ptr) {
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return ptr >= p_buf.p_ptr && ptr < &p_buf.p_ptr[p_len];
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}
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_T *disown() {
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_T *r = p_buf.p_ptr;
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p_buf.p_ptr = nullptr;
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p_len = p_cap = 0;
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return r;
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}
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_T *insert(size_t idx, _T &&v) {
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insert_base(idx, 1);
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p_buf.p_ptr[idx] = octa::move(v);
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return &p_buf.p_ptr[idx];
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}
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_T *insert(size_t idx, const _T &v) {
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insert_base(idx, 1);
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p_buf.p_ptr[idx] = v;
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return &p_buf.p_ptr[idx];
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}
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_T *insert(size_t idx, size_t n, const _T &v) {
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insert_base(idx, n);
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for (size_t i = 0; i < n; ++i) {
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p_buf.p_ptr[idx + i] = v;
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}
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return &p_buf.p_ptr[idx];
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}
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template<typename _U>
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_T *insert_range(size_t idx, _U range) {
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size_t l = range.size();
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insert_base(idx, l);
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for (size_t i = 0; i < l; ++i) {
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p_buf.p_ptr[idx + i] = range.front();
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range.pop_front();
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}
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return &p_buf.p_ptr[idx];
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}
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_T *insert(size_t idx, InitializerList<_T> il) {
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return insert_range(idx, octa::each(il));
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}
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Range each() {
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return Range(p_buf.p_ptr, p_buf.p_ptr + p_len);
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}
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ConstRange each() const {
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return ConstRange(p_buf.p_ptr, p_buf.p_ptr + p_len);
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}
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void swap(Vector &v) {
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octa::swap(p_len, v.p_len);
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octa::swap(p_cap, v.p_cap);
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p_buf.swap(v.p_buf);
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}
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};
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} /* namespace octa */
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#endif |