// 快速排序算法模板
void quick_sort(int q[], int l, int r)
{
if (l >= r) return;
int i = l - 1, j = r + 1, x = q[l];
while (i < j)
{
do i ++ ; while (q[i] < x);
do j -- ; while (q[j] > x);
if (i < j) swap(q[i], q[j]);
else break;
}
quick_sort(q, l, j), quick_sort(q, j + 1, r);
}
// 归并排序算法模板
void merge_sort(int q[], int l, int r)
{
if (l >= r) return;
int mid = l + r >> 1;
merge_sort(q, l, mid);
merge_sort(q, mid + 1, r);
int k = 0, i = l, j = mid + 1;
while (i <= mid && j <= r)
if (q[i] < q[j]) tmp[k ++ ] = q[i ++ ];
else tmp[k ++ ] = q[j ++ ];
while (i <= mid) tmp[k ++ ] = q[i ++ ];
while (j <= r) tmp[k ++ ] = q[j ++ ];
for (i = l, j = 0; i <= r; i ++, j ++ ) q[i] = tmp[j];
}
// 整数二分算法模板
bool check(int x) {/* ... */} // 检查x是否满足某种性质
// 区间[l, r]被划分成[l, mid]和[mid + 1, r]时使用:
int bsearch_1(int l, int r)
{
while (l < r)
{
int mid = l + r >> 1;
if (check(mid)) r = mid; // check()判断mid是否满足性质
else l = mid + 1;
}
return l;
}
// 区间[l, r]被划分成[l, mid - 1]和[mid, r]时使用:
int bsearch_2(int l, int r)
{
while (l < r)
{
int mid = l + r + 1 >> 1;
if (check(mid)) l = mid;
else r = mid - 1;
}
return l;
}
// 浮点数二分算法模板
bool check(double x) {/* ... */} // 检查x是否满足某种性质
double bsearch_3(double l, double r)
{
const double eps = 1e-6; // eps 表示精度,取决于题目对精度的要求
while (r - l > eps)
{
double mid = (l + r) / 2;
if (check(mid)) r = mid;
else l = mid;
}
return l;
}