M Coloring
S
package com.thealgorithms.backtracking;
import java.util.*;
/**
* @author Bama Charan Chhandogi (https://github.com/BamaCharanChhandogi)
*/
class Node {
int color = 1;
Set<Integer> edges = new HashSet<Integer>();
}
public class MColoring {
static int possiblePaint(ArrayList<Node> nodes, int n, int m) {
// Create a visited array of n nodes
ArrayList<Integer> visited = new ArrayList<Integer>();
for (int i = 0; i < n + 1; i++) {
visited.add(0);
}
// maxColors used till now are 1 as
// all nodes are painted color 1
int maxColors = 1;
for (int sv = 1; sv <= n; sv++) {
if (visited.get(sv) > 0) {
continue;
}
// If the starting point is unvisited,
// mark it visited and push it in queue
visited.set(sv, 1);
Queue<Integer> q = new LinkedList<>();
q.add(sv);
// BFS
while (q.size() != 0) {
int top = q.peek();
q.remove();
// Checking all adjacent nodes
// to "top" edge in our queue
for (int it : nodes.get(top).edges) {
// If the color of the
// adjacent node is same, increase it by
// 1
if (nodes.get(top).color == nodes.get(it).color) {
nodes.get(it).color += 1;
}
// If number of colors used exceeds m,
// return 0
maxColors = Math.max(maxColors, Math.max(nodes.get(top).color, nodes.get(it).color));
if (maxColors > m) return 0;
// If the adjacent node is not visited,
// mark it visited and push it in queue
if (visited.get(it) == 0) {
visited.set(it, 1);
q.add(it);
}
}
}
}
return 1;
}
}
