Merge pull request #88551 from AThousandShips/helpers_fix
[Core] Upgrade some array helper classes to 64 bits
This commit is contained in:
Rémi Verschelde
commit
371597a805
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@ -38,12 +38,12 @@ class SearchArray {
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public:
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Comparator compare;
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inline int bisect(const T *p_array, int p_len, const T &p_value, bool p_before) const {
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int lo = 0;
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int hi = p_len;
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inline int64_t bisect(const T *p_array, int64_t p_len, const T &p_value, bool p_before) const {
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int64_t lo = 0;
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int64_t hi = p_len;
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if (p_before) {
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while (lo < hi) {
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const int mid = (lo + hi) / 2;
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const int64_t mid = (lo + hi) / 2;
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if (compare(p_array[mid], p_value)) {
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lo = mid + 1;
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} else {
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@ -52,7 +52,7 @@ public:
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}
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} else {
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while (lo < hi) {
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const int mid = (lo + hi) / 2;
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const int64_t mid = (lo + hi) / 2;
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if (compare(p_value, p_array[mid])) {
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hi = mid;
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} else {
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@ -78,8 +78,8 @@ public:
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}
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}
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inline int bitlog(int n) const {
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int k;
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inline int64_t bitlog(int64_t n) const {
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int64_t k;
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for (k = 0; n != 1; n >>= 1) {
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++k;
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}
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@ -88,8 +88,8 @@ public:
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/* Heap / Heapsort functions */
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inline void push_heap(int p_first, int p_hole_idx, int p_top_index, T p_value, T *p_array) const {
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int parent = (p_hole_idx - 1) / 2;
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inline void push_heap(int64_t p_first, int64_t p_hole_idx, int64_t p_top_index, T p_value, T *p_array) const {
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int64_t parent = (p_hole_idx - 1) / 2;
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while (p_hole_idx > p_top_index && compare(p_array[p_first + parent], p_value)) {
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p_array[p_first + p_hole_idx] = p_array[p_first + parent];
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p_hole_idx = parent;
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@ -98,17 +98,17 @@ public:
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p_array[p_first + p_hole_idx] = p_value;
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}
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inline void pop_heap(int p_first, int p_last, int p_result, T p_value, T *p_array) const {
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inline void pop_heap(int64_t p_first, int64_t p_last, int64_t p_result, T p_value, T *p_array) const {
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p_array[p_result] = p_array[p_first];
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adjust_heap(p_first, 0, p_last - p_first, p_value, p_array);
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}
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inline void pop_heap(int p_first, int p_last, T *p_array) const {
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inline void pop_heap(int64_t p_first, int64_t p_last, T *p_array) const {
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pop_heap(p_first, p_last - 1, p_last - 1, p_array[p_last - 1], p_array);
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}
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inline void adjust_heap(int p_first, int p_hole_idx, int p_len, T p_value, T *p_array) const {
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int top_index = p_hole_idx;
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int second_child = 2 * p_hole_idx + 2;
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inline void adjust_heap(int64_t p_first, int64_t p_hole_idx, int64_t p_len, T p_value, T *p_array) const {
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int64_t top_index = p_hole_idx;
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int64_t second_child = 2 * p_hole_idx + 2;
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while (second_child < p_len) {
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if (compare(p_array[p_first + second_child], p_array[p_first + (second_child - 1)])) {
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@ -127,18 +127,18 @@ public:
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push_heap(p_first, p_hole_idx, top_index, p_value, p_array);
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}
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inline void sort_heap(int p_first, int p_last, T *p_array) const {
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inline void sort_heap(int64_t p_first, int64_t p_last, T *p_array) const {
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while (p_last - p_first > 1) {
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pop_heap(p_first, p_last--, p_array);
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}
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}
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inline void make_heap(int p_first, int p_last, T *p_array) const {
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inline void make_heap(int64_t p_first, int64_t p_last, T *p_array) const {
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if (p_last - p_first < 2) {
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return;
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}
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int len = p_last - p_first;
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int parent = (len - 2) / 2;
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int64_t len = p_last - p_first;
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int64_t parent = (len - 2) / 2;
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while (true) {
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adjust_heap(p_first, parent, len, p_array[p_first + parent], p_array);
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@ -149,9 +149,9 @@ public:
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}
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}
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inline void partial_sort(int p_first, int p_last, int p_middle, T *p_array) const {
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inline void partial_sort(int64_t p_first, int64_t p_last, int64_t p_middle, T *p_array) const {
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make_heap(p_first, p_middle, p_array);
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for (int i = p_middle; i < p_last; i++) {
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for (int64_t i = p_middle; i < p_last; i++) {
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if (compare(p_array[i], p_array[p_first])) {
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pop_heap(p_first, p_middle, i, p_array[i], p_array);
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}
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@ -159,18 +159,18 @@ public:
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sort_heap(p_first, p_middle, p_array);
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}
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inline void partial_select(int p_first, int p_last, int p_middle, T *p_array) const {
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inline void partial_select(int64_t p_first, int64_t p_last, int64_t p_middle, T *p_array) const {
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make_heap(p_first, p_middle, p_array);
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for (int i = p_middle; i < p_last; i++) {
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for (int64_t i = p_middle; i < p_last; i++) {
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if (compare(p_array[i], p_array[p_first])) {
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pop_heap(p_first, p_middle, i, p_array[i], p_array);
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}
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}
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}
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inline int partitioner(int p_first, int p_last, T p_pivot, T *p_array) const {
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const int unmodified_first = p_first;
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const int unmodified_last = p_last;
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inline int64_t partitioner(int64_t p_first, int64_t p_last, T p_pivot, T *p_array) const {
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const int64_t unmodified_first = p_first;
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const int64_t unmodified_last = p_last;
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while (true) {
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while (compare(p_array[p_first], p_pivot)) {
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@ -196,7 +196,7 @@ public:
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}
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}
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inline void introsort(int p_first, int p_last, T *p_array, int p_max_depth) const {
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inline void introsort(int64_t p_first, int64_t p_last, T *p_array, int64_t p_max_depth) const {
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while (p_last - p_first > INTROSORT_THRESHOLD) {
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if (p_max_depth == 0) {
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partial_sort(p_first, p_last, p_last, p_array);
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@ -205,7 +205,7 @@ public:
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p_max_depth--;
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int cut = partitioner(
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int64_t cut = partitioner(
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p_first,
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p_last,
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median_of_3(
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@ -219,7 +219,7 @@ public:
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}
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}
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inline void introselect(int p_first, int p_nth, int p_last, T *p_array, int p_max_depth) const {
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inline void introselect(int64_t p_first, int64_t p_nth, int64_t p_last, T *p_array, int64_t p_max_depth) const {
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while (p_last - p_first > 3) {
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if (p_max_depth == 0) {
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partial_select(p_first, p_nth + 1, p_last, p_array);
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@ -229,7 +229,7 @@ public:
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p_max_depth--;
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int cut = partitioner(
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int64_t cut = partitioner(
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p_first,
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p_last,
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median_of_3(
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@ -248,8 +248,8 @@ public:
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insertion_sort(p_first, p_last, p_array);
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}
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inline void unguarded_linear_insert(int p_last, T p_value, T *p_array) const {
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int next = p_last - 1;
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inline void unguarded_linear_insert(int64_t p_last, T p_value, T *p_array) const {
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int64_t next = p_last - 1;
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while (compare(p_value, p_array[next])) {
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if (Validate) {
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ERR_BAD_COMPARE(next == 0);
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@ -261,10 +261,10 @@ public:
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p_array[p_last] = p_value;
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}
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inline void linear_insert(int p_first, int p_last, T *p_array) const {
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inline void linear_insert(int64_t p_first, int64_t p_last, T *p_array) const {
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T val = p_array[p_last];
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if (compare(val, p_array[p_first])) {
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for (int i = p_last; i > p_first; i--) {
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for (int64_t i = p_last; i > p_first; i--) {
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p_array[i] = p_array[i - 1];
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}
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@ -274,22 +274,22 @@ public:
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}
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}
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inline void insertion_sort(int p_first, int p_last, T *p_array) const {
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inline void insertion_sort(int64_t p_first, int64_t p_last, T *p_array) const {
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if (p_first == p_last) {
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return;
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}
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for (int i = p_first + 1; i != p_last; i++) {
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for (int64_t i = p_first + 1; i != p_last; i++) {
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linear_insert(p_first, i, p_array);
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}
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}
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inline void unguarded_insertion_sort(int p_first, int p_last, T *p_array) const {
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for (int i = p_first; i != p_last; i++) {
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inline void unguarded_insertion_sort(int64_t p_first, int64_t p_last, T *p_array) const {
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for (int64_t i = p_first; i != p_last; i++) {
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unguarded_linear_insert(i, p_array[i], p_array);
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}
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}
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inline void final_insertion_sort(int p_first, int p_last, T *p_array) const {
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inline void final_insertion_sort(int64_t p_first, int64_t p_last, T *p_array) const {
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if (p_last - p_first > INTROSORT_THRESHOLD) {
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insertion_sort(p_first, p_first + INTROSORT_THRESHOLD, p_array);
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unguarded_insertion_sort(p_first + INTROSORT_THRESHOLD, p_last, p_array);
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@ -298,18 +298,18 @@ public:
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}
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}
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inline void sort_range(int p_first, int p_last, T *p_array) const {
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inline void sort_range(int64_t p_first, int64_t p_last, T *p_array) const {
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if (p_first != p_last) {
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introsort(p_first, p_last, p_array, bitlog(p_last - p_first) * 2);
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final_insertion_sort(p_first, p_last, p_array);
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}
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}
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inline void sort(T *p_array, int p_len) const {
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inline void sort(T *p_array, int64_t p_len) const {
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sort_range(0, p_len, p_array);
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}
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inline void nth_element(int p_first, int p_last, int p_nth, T *p_array) const {
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inline void nth_element(int64_t p_first, int64_t p_last, int64_t p_nth, T *p_array) const {
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if (p_first == p_last || p_nth == p_last) {
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return;
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}
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