g1901_2000.s1906_minimum_absolute_difference_queries.Solution Maven / Gradle / Ivy
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Java-based LeetCode algorithm problem solutions, regularly updated
package g1901_2000.s1906_minimum_absolute_difference_queries;
// #Medium #Array #Hash_Table #2022_05_11_Time_176_ms_(71.61%)_Space_82.6_MB_(95.48%)
import java.util.Arrays;
import java.util.BitSet;
public class Solution {
private static class SegmentTree {
static class Node {
BitSet bits;
int minDiff;
}
int len;
int[] nums;
Node[] tree;
static final int INF = 200;
SegmentTree(int[] nums, int len) {
this.nums = Arrays.copyOf(nums, len);
this.len = len;
tree = new Node[4 * len];
buildTree(0, len - 1, 0);
}
private void buildTree(int i, int j, int ti) {
if (i <= j) {
if (i == j) {
Node node = new Node();
node.bits = new BitSet(101);
node.bits.set(nums[i]);
node.minDiff = INF;
tree[ti] = node;
} else {
int mid = i + (j - i) / 2;
buildTree(i, mid, 2 * ti + 1);
buildTree(mid + 1, j, 2 * ti + 2);
tree[ti] = combineNodes(tree[2 * ti + 1], tree[2 * ti + 2]);
}
}
}
private Node combineNodes(Node n1, Node n2) {
Node node = new Node();
if (n1.minDiff == 1 || n2.minDiff == 1) {
node.minDiff = 1;
} else {
node.bits = new BitSet(101);
node.bits.or(n1.bits);
node.bits.or(n2.bits);
node.minDiff = findMinDiff(node.bits);
}
return node;
}
private int findMinDiff(BitSet bits) {
// minimum value of number is 1.
int first = bits.nextSetBit(1);
int minDiff = INF;
while (first != -1) {
int next = bits.nextSetBit(first + 1);
if (next != -1) {
minDiff = Math.min(minDiff, next - first);
if (minDiff == 1) {
break;
}
}
first = next;
}
return minDiff;
}
private int findMinAbsDiff(int start, int end, int i, int j, int ti) {
Node node = findMinAbsDiff2(start, end, i, j, ti);
return node.minDiff == INF ? -1 : node.minDiff;
}
private Node findMinAbsDiff2(int start, int end, int i, int j, int ti) {
if (i == start && j == end) {
return tree[ti];
}
int mid = i + (j - i) / 2;
if (end <= mid) {
return findMinAbsDiff2(start, end, i, mid, 2 * ti + 1);
} else if (start >= mid + 1) {
return findMinAbsDiff2(start, end, mid + 1, j, 2 * ti + 2);
} else {
Node left = findMinAbsDiff2(start, mid, i, mid, 2 * ti + 1);
Node right = findMinAbsDiff2(mid + 1, end, mid + 1, j, 2 * ti + 2);
return combineNodes(left, right);
}
}
}
public int[] minDifference(int[] nums, int[][] queries) {
int len = nums.length;
int qlen = queries.length;
SegmentTree st = new SegmentTree(nums, len);
int[] answer = new int[qlen];
for (int i = 0; i < qlen; ++i) {
answer[i] = st.findMinAbsDiff(queries[i][0], queries[i][1], 0, len - 1, 0);
}
return answer;
}
}