g2201_2300.s2286_booking_concert_tickets_in_groups.BookMyShow Maven / Gradle / Ivy
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Java-based LeetCode algorithm problem solutions, regularly updated
package g2201_2300.s2286_booking_concert_tickets_in_groups;
// #Hard #Binary_Search #Design #Segment_Tree #Binary_Indexed_Tree
// #2022_06_14_Time_283_ms_(67.08%)_Space_132.3_MB_(30.03%)
import java.util.ArrayDeque;
import java.util.Arrays;
import java.util.Deque;
public class BookMyShow {
private final int n;
private final int m;
// max number of seats in a row for some segment of the rows
private final int[] max;
// total number of seats for some segment of the rows
private final long[] total;
// number of rows with zero free places on the left and on the right
// using this to quickly skip already zero rows
// actual nodes are placed in [1,this.n], the first and last element only shows there the first
// non-zero row
private final int[] numZerosRight;
private final int[] numZerosLeft;
public BookMyShow(int n, int m) {
// make n to be a power of 2 (for simplicity)
this.n = nextPow2(n);
this.m = m;
// segment tree for max number of seats in a row
this.max = new int[this.n * 2 - 1];
// total number of seats for a segment of the rows
this.total = new long[this.n * 2 - 1];
this.numZerosRight = new int[this.n + 2];
this.numZerosLeft = new int[this.n + 2];
// initialize max and total, for max we firstly set values to m
// segments of size 1 are placed starting from this.n - 1
Arrays.fill(max, this.n - 1, this.n + n - 1, m);
Arrays.fill(total, this.n - 1, this.n + n - 1, m);
// calculate values of max and total for segments based on values of their children
for (int i = this.n - 2, i1 = i * 2 + 1, i2 = i * 2 + 2; i >= 0; i--, i1 -= 2, i2 -= 2) {
max[i] = Math.max(max[i1], max[i2]);
total[i] = total[i1] + total[i2];
}
}
public int[] gather(int k, int maxRow) {
// find most left row with enough free places
int mostLeft = mostLeft(0, 0, n, k, maxRow + 1);
if (mostLeft == -1) {
return new int[0];
}
// get corresponding segment tree node
int v = n - 1 + mostLeft;
int[] ans = {mostLeft, m - max[v]};
// update max and total for this node
max[v] -= k;
total[v] -= k;
// until this is a root of segment tree we update its parent
while (v != 0) {
v = (v - 1) / 2;
max[v] = Math.max(max[v * 2 + 1], max[v * 2 + 2]);
total[v] = total[v * 2 + 1] + total[v * 2 + 2];
}
return ans;
}
private int mostLeft(int v, int l, int r, int k, int qr) {
if (l >= qr || max[v] < k) {
return -1;
}
if (l == r - 1) {
return l;
}
int mid = (l + r) / 2;
int left = mostLeft(v * 2 + 1, l, mid, k, qr);
if (left != -1) {
return left;
}
return mostLeft(v * 2 + 2, mid, r, k, qr);
}
public boolean scatter(int k, int maxRow) {
// find total number of free places in the rows [0; maxRow+1)
long sum = total(0, 0, n, maxRow + 1);
if (sum < k) {
return false;
}
int i = 0;
// to don't update parent for both of its children we use a queue
Deque deque = new ArrayDeque<>();
while (k != 0) {
i = i + numZerosRight[i] + 1;
int v = n - 1 + i - 1;
int spent = Math.min(k, max[v]);
k -= spent;
max[v] -= spent;
total[v] -= spent;
if (max[v] == 0) {
// update numZerosRight and numZerosLeft
numZerosRight[i - numZerosLeft[i] - 1] += numZerosRight[i] + 1;
numZerosLeft[i + numZerosRight[i] + 1] += numZerosLeft[i] + 1;
}
if (v != 0) {
v = (v - 1) / 2;
// if we already have the parent node in the queue we don't need to update it
if (deque.isEmpty() || deque.peekLast() != v) {
deque.addLast(v);
}
}
}
// update max and total
while (!deque.isEmpty()) {
int v = deque.pollFirst();
max[v] = Math.max(max[v * 2 + 1], max[v * 2 + 2]);
total[v] = total[v * 2 + 1] + total[v * 2 + 2];
if (v != 0) {
v = (v - 1) / 2;
// if we already have the parent node in the queue we don't need to update it
if (deque.isEmpty() || deque.peekLast() != v) {
deque.addLast(v);
}
}
}
return true;
}
// find sum of [ql, qr)
private long total(int v, int l, int r, int qr) {
if (l >= qr) {
return 0;
}
if (r <= qr) {
return total[v];
}
int mid = (l + r) / 2;
return total(v * 2 + 1, l, mid, qr) + total(v * 2 + 2, mid, r, qr);
}
private static int nextPow2(int n) {
if ((n & (n - 1)) == 0) {
return n;
}
return Integer.highestOneBit(n) << 1;
}
}
/*
* Your BookMyShow object will be instantiated and called as such:
* BookMyShow obj = new BookMyShow(n, m);
* int[] param_1 = obj.gather(k,maxRow);
* boolean param_2 = obj.scatter(k,maxRow);
*/