HackerRank Kingdom Connectivity problem solution YASH PAL, 31 July 2024 In this HackerRank Kingdom Connectivity problem solution, there are n cities numbered 1 to n in the new kingdom and m one-way roads. City 1 is the financial capital and city n is the warfare capital. Determine the number of different paths between cities 1 and n. Problem solution in Python. #!/bin/python3 import math import os import random import re import sys import collections MOD = 1000000000 # # Complete the 'countPaths' function below. # # The function accepts following parameters: # 1. INTEGER n # 2. 2D_INTEGER_ARRAY edges # def countPaths(n, edges): graph = collections.defaultdict(list) for i, j in edges: graph[i - 1].append(j - 1) start = 0 end = n - 1 memo = [0] * n cycle_nodes = set() path_nodes = set() path = [] seen = [False] * n def update_path_nodes(inc): for cur in path: path_nodes.add(cur) memo[cur] += inc memo[cur] %= MOD def update_cycle_nodes(cycle_start): k = len(path) - 1 while path[k] != cycle_start: cycle_nodes.add(path[k]) k -= 1 cycle_nodes.add(cycle_start) def dfs(node): path.append(node) seen[node] = True if node == n - 1: update_path_nodes(1) else: for next in graph[node]: if seen[next]: update_cycle_nodes(next) else: if memo[next] > 0: update_path_nodes(memo[next]) if memo[next] == 0: dfs(next) if memo[node] == 0: memo[node] = -1 seen[node] = False path.pop() dfs(start) if len(cycle_nodes.intersection(path_nodes)) > 1: print('INFINITE PATHS') else: print(memo[start]) if __name__ == '__main__': first_multiple_input = input().rstrip().split() nodes = int(first_multiple_input[0]) m = int(first_multiple_input[1]) edges = [] for _ in range(m): edges.append(list(map(int, input().rstrip().split()))) countPaths(nodes, edges) {“mode”:”full”,”isActive”:false} Problem solution in Java. import java.io.*; import java.math.*; import java.security.*; import java.text.*; import java.util.*; import java.util.concurrent.*; import java.util.function.*; import java.util.regex.*; import java.util.stream.*; import static java.util.stream.Collectors.joining; import static java.util.stream.Collectors.toList; class Result { private static int MODULUS = 1000000000; /* * Complete the 'countPaths' function below. * * The function accepts following parameters: * 1. INTEGER n * 2. 2D_INTEGER_ARRAY edges */ public static void countPaths(int n, List<List<Integer>> edges) { List<List<Integer>> adjacency = new ArrayList<>(); for (int i = 0; i < n; i++) { adjacency.add(new ArrayList<>()); } for (List<Integer> edge : edges) { adjacency.get(edge.get(0) - 1).add(edge.get(1) - 1); } long paths = countPaths(0, n - 1, adjacency, new boolean[n], new HashMap<>()); if (paths == -1) { System.out.println("INFINITE PATHS"); } else { System.out.println("" + paths); } } private static long countPaths(int city, int destination, List<List<Integer>> adjacency, boolean[] visited, Map<Integer, Long> memos) { if (city == destination) { return 1; } else if (visited[city]) { return -2; } else if (memos.containsKey(city)) { return memos.get(city); } visited[city] = true; long total = 0; boolean looped = false; for (int next : adjacency.get(city)) { long temp = countPaths(next, destination, adjacency, visited, memos); if (temp == -1) { return -1; } else if (temp == -2) { looped = true; } else { total = (total + temp) % MODULUS; } if (looped && total > 0) { return -1; } } visited[city] = false; memos.put(city, total); return total; } } public class Solution { public static void main(String[] args) throws IOException { BufferedReader bufferedReader = new BufferedReader(new InputStreamReader(System.in)); String[] firstMultipleInput = bufferedReader.readLine().replaceAll("\s+$", "").split(" "); int nodes = Integer.parseInt(firstMultipleInput[0]); int m = Integer.parseInt(firstMultipleInput[1]); List<List<Integer>> edges = new ArrayList<>(); IntStream.range(0, m).forEach(i -> { try { edges.add( Stream.of(bufferedReader.readLine().replaceAll("\s+$", "").split(" ")) .map(Integer::parseInt) .collect(toList()) ); } catch (IOException ex) { throw new RuntimeException(ex); } }); Result.countPaths(nodes, edges); bufferedReader.close(); } } {“mode”:”full”,”isActive”:false} Problem solution in C++. #include <cstdio> #include <cstring> #include <cmath> #include <algorithm> #include <string> #include <vector> #include <map> #include <set> #include <cctype> #include <numeric> #include <queue> #include <iostream> #include <iomanip> #include <sstream> #include <iterator> #define FOR(i,s,e) for(int i=(s);i<(int)(e);i++) #define FOE(i,s,e) for(int i=(s);i<=(int)(e);i++) #define ALL(x) (x).begin(), (x).end() #define CLR(s) memset(s,0,sizeof(s)) #define PB push_back #define ITER(v) __typeof((v).begin()) #define FOREACH(i,v) for(ITER(v) i=(v).begin();i!=(v).end();i++) using namespace std; typedef long long LL; typedef pair<int,int> pii; typedef map<int,int> mii; typedef vector<int> vi; #define x first #define y second const int N = 203600; vi adj[N]; vi bck[N]; int n, m; void ae(int x, int y) { adj[x].PB(y); bck[y].PB(x); } vi arr; bool vis[N]; void dfs(int x) { if (vis[x]) return; vis[x] = true; FOREACH(it, adj[x]) dfs(*it); arr.PB(x); // finishing time } int id[N], num; vi vec[N]; void dfs2(int x) { if (vis[x]) return; vis[x] = true; FOREACH(it, bck[x]) dfs2(*it); id[x] = num; vec[num].PB( x ); } void DAG(int n) { CLR(vis); FOE(i, 1, n) dfs(i); // reversed finishing time reverse(ALL(arr)); CLR(vis); num = 0; FOREACH(it, arr) if (!vis[*it]) { dfs2(*it); num++; } } int dp[N]; int INF = 1999999999; int MOD = 1000000000; bool rch[N]; // reachable from 1? void flood(int x) { if (rch[x]) return; rch[x] = true; FOREACH(it, adj[x]) flood(*it); } int go(int x) { int &res = dp[x]; if (res != -1) return res; // if (x == 1) return res = 1; // if (vec[ id[x] ].size() > 1) return res = INF; // if (vec[ id[x] ].size() > 1) return res = INF; if (vec[ id[x] ].size() > 1) return res = INF*rch[x]; if (x == 1) return res = 1; res = 0; FOREACH(it, bck[x]) { int tmp = go(*it); if (tmp == INF) return res = INF; (res += tmp) %= MOD; } return res; } int main() { cin >> n >> m; while (m--) { int x, y; cin >> x >> y; ae(x, y); } DAG(n); CLR(rch); flood(1); memset(dp, -1, sizeof(dp)); int ans = go(n); if (ans == INF) cout << "INFINITE PATHS" << endl; else cout << ans << endl; return 0; } {“mode”:”full”,”isActive”:false} Problem solution in C. #include <stdio.h> #define MAX_NODE 10001 #define MOD 1000000000 struct node { unsigned long val; char c; short lind; short rind; struct node* links[3000]; struct node* revlinks[3000]; }; #define node struct node int top=-1; int N,M,ret = 0;//,stack[MAX_NODE]; node* stack[MAX_NODE]; //short visited[MAX_NODE] = {0}; node nodes[MAX_NODE]; void push(node* item) { top = top+1; stack[top]=item; } node* s_top() { node* deldata=stack[top]; return(deldata); } node* pop() { node* deldata =stack[top]; top=top-1; return(deldata); } int is_stk_empty() { if(top==-1) return(1); else return(0); } ////////////Stack Operation int cnt = 0; void dfs1(int n) { int i; node* ptr;// ind; push(&nodes[1]); //Push starting node into stack. while(is_stk_empty()!= 1) { ptr = pop(); ptr->c = 1; for (i = 0;i<ptr->lind;i++) { node* p = ptr->links[i]; if(p->c != 1) push( p); } } } unsigned long dfs(node* ptr) { int i; unsigned long retval = 0; ptr->c = 2; for (i = 0;i < ptr->rind;i++) { node* p = ptr->revlinks[i]; if(p == &nodes[1]) { ptr->val++; ptr->val %= MOD; // continue; } if(p->c == 1) { retval = dfs(p); } else if(p->c == 3) { retval = p->val; } else if(p->c == 2) { printf("INFINITE PATHSn"); ret = -1; return 0; } if(ret < 0) return 0; retval %= MOD; ptr->val += retval; ptr->val %= MOD; retval = 0; } ptr->c = 3; return ptr->val; } int main() { int i; scanf("%d%d",&N,&M); for (i = 0; i< M;i++) { int j,k; scanf("%d%d",&j,&k); //nodes[j].vertex = j; //nodes[k].vertex = k; nodes[j].links[nodes[j].lind++] = &nodes[k]; nodes[k].revlinks[nodes[k].rind++] = &nodes[j]; } dfs1(N); top=-1; dfs(&nodes[N]); if( ret != -1) printf("%ld",nodes[N].val); return 0; } {“mode”:”full”,”isActive”:false} 30 days of code coding problems