forked from OctaForge/libostd
134 lines
3.2 KiB
C++
134 lines
3.2 KiB
C++
/* Static 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 OSTD_ARRAY_HH
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#define OSTD_ARRAY_HH
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#include <stddef.h>
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#include "ostd/algorithm.hh"
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#include "ostd/range.hh"
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#include "ostd/string.hh"
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#include "ostd/internal/tuple.hh"
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namespace ostd {
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template<typename T, Size N>
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struct Array {
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using Size = ostd::Size;
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using Difference = Ptrdiff;
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using Value = T;
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using Reference = T &;
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using ConstReference = const T &;
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using Pointer = T *;
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using ConstPointer = const T *;
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using Range = PointerRange<T>;
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using ConstRange = PointerRange<const T>;
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T &operator[](Size i) { return p_buf[i]; }
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const T &operator[](Size i) const { return p_buf[i]; }
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T *at(Size i) {
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if (!in_range(i)) return nullptr;
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return &p_buf[i];
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}
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const T *at(Size i) const {
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if (!in_range(i)) return nullptr;
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return &p_buf[i];
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}
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T &front() { return p_buf[0]; }
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const T &front() const { return p_buf[0]; }
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T &back() { return p_buf[(N > 0) ? (N - 1) : 0]; }
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const T &back() const { return p_buf[(N > 0) ? (N - 1) : 0]; }
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Size size() const { return N; }
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Size max_size() const { return Size(~0) / sizeof(T); }
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bool empty() const { return N == 0; }
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bool in_range(Size idx) { return idx < N; }
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bool in_range(int idx) { return idx >= 0 && Size(idx) < N; }
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bool in_range(ConstPointer ptr) {
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return ptr >= &p_buf[0] && ptr < &p_buf[N];
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}
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Pointer data() { return p_buf; }
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ConstPointer data() const { return p_buf; }
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Range iter() {
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return Range(p_buf, p_buf + N);
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}
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ConstRange iter() const {
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return ConstRange(p_buf, p_buf + N);
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}
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ConstRange citer() const {
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return ConstRange(p_buf, p_buf + N);
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}
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void swap(Array &v) {
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ostd::swap_ranges(iter(), v.iter());
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}
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T p_buf[(N > 0) ? N : 1];
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};
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template<typename T, Size N>
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constexpr Size TupleSize<Array<T, N>> = N;
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template<Size I, typename T, Size N>
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struct TupleElementBase<I, Array<T, N>> {
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using Type = T;
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};
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template<Size I, typename T, Size N>
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TupleElement<I, Array<T, N>> &get(Array<T, N> &a) {
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return a[I];
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}
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template<Size I, typename T, Size N>
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const TupleElement<I, Array<T, N>> &get(const Array<T, N> &a) {
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return a[I];
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}
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template<Size I, typename T, Size N>
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TupleElement<I, Array<T, N>> &&get(Array<T, N> &&a) {
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return a[I];
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}
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template<typename T, Size N>
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inline bool operator==(const Array<T, N> &x, const Array<T, N> &y) {
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return equal(x.iter(), y.iter());
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}
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template<typename T, Size N>
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inline bool operator!=(const Array<T, N> &x, const Array<T, N> &y) {
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return !(x == y);
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}
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template<typename T, Size N>
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inline bool operator<(const Array<T, N> &x, const Array<T, N> &y) {
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return lexicographical_compare(x.iter(), y.iter());
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}
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template<typename T, Size N>
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inline bool operator>(const Array<T, N> &x, const Array<T, N> &y) {
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return (y < x);
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}
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template<typename T, Size N>
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inline bool operator<=(const Array<T, N> &x, const Array<T, N> &y) {
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return !(y < x);
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}
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template<typename T, Size N>
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inline bool operator>=(const Array<T, N> &x, const Array<T, N> &y) {
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return !(x < y);
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}
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} /* namespace ostd */
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#endif |