# Codility PermCheck why my solution is not working

I am trying to solve Codility lessons for coding practice and PermCheck is one of them.

 Problem Description:

A non-empty zero-indexed array A consisting of N integers is given. A permutation is a sequence containing each element from 1 to N once, and only once. For example, array A such that:

``````A = 4
A = 1
A = 3
A = 2
``````

is a permutation, but array A such that:

``````A = 4
A = 1
A = 3
``````

is not a permutation, because value 2 is missing. The goal is to check whether array A is a permutation. Write a function: class Solution { public int solution(int[] A); } that, given a zero-indexed array A, returns 1 if array A is a permutation and 0 if it is not. For example, given array A such that:

``````A = 4
A = 1
A = 3
A = 2
``````

the function should return 1. Given array A such that:

``````A = 4
A = 1
A = 3
``````

the function should return 0. Assume that: N is an integer within the range [1..100,000]; each element of array A is an integer within the range [1..1,000,000,000].

My solution at the moment is:

``````class Solution {
public int solution(int[] A) {

final int N = A.length;
long sum = N * (N+1)/2;

for(int i=0; i<A.length; i++) {
sum -= A[i];
}

return sum == 0 ? 1 : 0;
}
}
``````

and the results are not what I am expecting. I know that many solutions are out there but I want to know what's the problem with my solution. What corner cases I am missing. The results page does not show the input list on which the above solution is failing.

• Please include enough information on the problem requirements without making visitors click on an external link. (It is fine to include the link, but we shouldn't have to follow one to begin to understand your question.) – BlackVegetable Dec 15 '14 at 22:21
• But what I understand from the problem description is that it's a series of positive int with no duplicates. So if there will be any duplicate sum will not be 0. Am I right ? – gmuhammad Dec 15 '14 at 22:31

The reason this isn't working is that a permutation (as explained) is not the only way to arrive at a particular sum, as your solution assumes. For example:

``````[0, 1, 2, 3] // Sum == 6
[0, 2, 2, 2] // Sum == 6
``````

According to the problem description as written, I don't believe it implies the given data has no duplicates.

• I believe this is correct--the description says a permutation has no duplicates, but gives no assurance against duplicates in the input data. – Jerry Coffin Dec 15 '14 at 22:35

Code: 08:25:58 UTC, c, final, score: 100.00

``````   int solution(int A[], int N) {
// write your code in C99

int T[N];
//when the compiler sees N variable declaration it cannot know how many
//elements there are in the array.
//must manually initialize that array.
memset( T, 0, N*sizeof(int) );
for (int i=0;i<N;i++)
{
if (A[i]>N)
{
return 0;
}
T[A[i]-1]++;
}
int sum=0;
for (int i=0;i<N;i++)
{
sum =sum+T[A[i]-1];
}
return (sum==N)?1:0;
}
``````

You can just add them to a set and check the length at the end. If any of the values in the list are greater than the list size you can early out, as it's never going to be a valid perm.

https://app.codility.com/demo/results/training47WAU6-G8F/

``````import java.util.*;

class Solution {
public int solution(int[] A)
{
Set<Integer> all = new HashSet<Integer>();

for( int v : A )
{
if( v > A.length ) return 0;
}

return all.size() == A.length ? 1:0;
}
}``````

If N is 100,000, then the N * (N + 1) / 2 expression causes integer overflow(eventhough sum is a long, N is an int). Not sure if there are other bugs.

• yes, that's possible. But that's not what happening at the moment. But nonetheless good point to raise. +1 for that – gmuhammad Dec 15 '14 at 22:34

A javascript solution with 100% passing result:

``````function solution(A) {
A.sort(function(a,b){
return a - b;
});
var count = 0;
for(i = 0; i < A.length; i++){
if(A[i] === i+1){
count++;
} else {
break;
}
}
if(count === A.length){
return 1;
}
else {
return 0;
}
}
``````
• Why do you need the counter? you can just return if the condition fails – glasspill Feb 24 at 17:45
• Great solution. Little refactored version could be written like this `function solution(arr){ arr.sort(function(a,b){ return a - b; }) for(i = 0; i < arr.length; i++){ if(!(arr[i] === i+1)) return 0 } return 1 }` – Nikasv Jul 31 at 15:54

If duplicate exists - return 0 I have implemented with 100% pass

https://codility.com/demo/results/trainingWX2E92-ASF/

``````public static int permCheck(int A[]){

Set<Integer> bucket = new HashSet<Integer>();
int max = 0;
int sum=0;
for(int counter=0; counter<A.length; counter++){
if(max<A[counter]) max=A[counter];
sum=sum+A[counter];
}
else{
return 0;
}
}
System.out.println(max+"->"+sum);
int expectedSum = (max*(max+1))/2;
if(expectedSum==sum)return 1;

return 0;
}
``````

Here is the solution in java 100% in codility.

``````import java.util.TreeSet;

class Solution {

public int solution(int[] A) {
TreeSet<Integer> hset = new TreeSet<Integer>();
int total_value=0;
long total_indexes = A.length * (A.length+1)/2;
for (int i = 0; i < A.length; i++) {
total_value+=A[i];
}
if (hset.size() == hset.last() && total_indexes==total_value) {
return 1;
}
return 0;
}
}
``````

C++ score: 100.

The idea is we make a new array `B` has `N+1` elements and all `false`, then set `B[A[i]] = true`. Iterate on `B` if we found any `B[i]` is `false` then return `0`, otherwise `1`.

Complexity is O(2N) ~= O(N).

``````#include <vector>

using namespace std;

int solution(vector<int> &A) {
int n = A.size();

vector<bool> v;
v.resize(n + 1);

for (int i = 0; i < n; i++) {
int element = A[i];
if (element > n) {
return 0;
}
if (v[element]) {
return 0;
}
v[element] = true;
}
for (int i = 1; i < v.size(); i++) {
if (!v[i]) {
return 0;
}
}
return 1;
}
``````

My solution In python, hope this helps.

`````` def solution(A):
# write your code in Python 3.6
N = len(A)
sum1 =sum(range(1, N+1))
sum2 = sum(A)
if len(set(A)) != len(A):
return 0
if (sum1 - sum2) != 0:
return 0
return 1
``````

Another approach using List:

``````public int solution(int[] A) {
// write your code in C# 6.0 with .NET 4.5 (Mono)
List<double> sum = A.ToList().Select(x => (double)x).ToList();
double maxElem = A.ToList().Max();
double res = (maxElem * (maxElem + 1)) / 2;
if (sum.Sum() == res && sum.Distinct().Count() == maxElem)
{
return 1;
}
else
{
return 0;
}
}
``````

Here it is my solution in java:

``````/**
* https://codility.com/demo/results/training4YUHYS-HDW/ 100%
*
* Facts:
* 1) A permutation is a sequence containing each element from 1 to N once, and only once.
* 2) A non-empty zero-indexed array A consisting of N integers is given
* 3) N is an integer within the range [1..100,000];
* 4) each element of array A is an integer within the range [1..1,000,000,000].
*
* Invariant: the sequence is in the range A to A[N-1]
*
* @param A
* @return
*/
public static int solution(int[] A) {
int result=1;
int[] count = new int[A.length+1];
for(int i=0; i<A.length; i++) {
if(A[i]>A.length) return 0;
if(count[A[i]]>0) return 0;
count[A[i]]++;
}
for(int i=1; i<count.length; i++) {
if(count[i]==0) {
result =0;
break;
}
}
return result;
}
``````

The time complexity is O(2n) wich is equal to O(n). https://codility.com/demo/results/training4YUHYS-HDW/

A simple and small solution would be:

``````public int solution(int[] A) {

Arrays.sort(A);

for (int i = 0; i < A.length; ++i) {
if (A[i] != i + 1) {
return 0;
}
}

return 1;
}
``````

Nonetheless, I think worst time complexity would be O(nlgn) because of the sorting.

Codility gave me 100 points and calculated time complexity as O(n)...

• wouldn't this fail for something like [2, 2, 3]? you're not checking if A is 1 – glasspill Feb 24 at 17:44

I have posted this solution right now, and it gave 100%. Maybe this helps to get any ideas...

``````    /**
* Storage complexity O(N/64). That does mean that for 1000 elements array will be reserved
*  only 16 additional long values.
* Time complexity the same - O(N)
* @author Egor
*
*/
public class SolutionBitFlags {

private static final int ARRAY_SIZE_LOWER = 1;
private static final int ARRAY_SIZE_UPPER = 1000000;
private static final int NUMBER_LOWER = 1;
private static final int NUMBER_UPPER = 1000000000;

public static class Set {

final long[] buckets;

public Set(int size) {
this.buckets = new long[(size % 64 == 0 ? (size/64) : (size/64) + 1)];
}

/**
* number should be greater than zero
* @param number
*/
public void put(int number) {
buckets[getBucketindex(number)] |= getFlag(number);
}

public boolean contains(int number) {
long flag = getFlag(number);
// check if flag is stored
return (buckets[getBucketindex(number)] & flag) == flag;
}

private int getBucketindex(int number) {
if (number <= 64) {
return 0;
} else if (number <= 128) {
return 1;
} else if (number <= 192) {
return 2;
} else if (number <= 256) {
return 3;
} else if (number <= 320) {
return 4;
} else if (number <= 384) {
return 5;
} else
return (number % 64 == 0 ? (number/64) : (number/64) + 1) - 1;
}

private long getFlag(int number) {
if (number <= 64) {
return 1L << number;
} else
return 1L << (number % 64);
}
}

public static int solution(final int[] A) {
if (A.length < ARRAY_SIZE_LOWER || A.length > ARRAY_SIZE_UPPER) {
throw new RuntimeException("Array size out of bounds");
}
switch (A.length) {
case 1:
return (A == 1 ? 1 : 0);
case 2:
return ((A == 1 && A == 2) || (A == 2 && A == 1) ? 1 : 0);
default:
{
// we have to check 2 conditions:
// - number is not out of range [1..N], where N - array size
// - number is unique
// if either of them fails - array is not permutation
int ai;
Set set = new Set(A.length);
for (int i = 0; i < A.length; i++) {
if ((ai = A[i]) < NUMBER_LOWER || ai > NUMBER_UPPER) {
throw new RuntimeException("Number out of bounds");
}
// check boundaries
if (ai > A.length) {
return 0;
} else {
// check if already present in set (if present - return 0)
if (set.contains(ai)) {
return 0;
} else {
// put to set (if not in set )
set.put(ai);
}
}
}
}
break;
}
return 1;
}
}
``````

20% performance score..

``````function solution(a){
a = a.sort();
for(var i=0; i < a.length; i ++){
if(a[i] != i + 1){
return 0;
}
}

return 1;
``````

}

100%

``````function solution(a){
a = a.sort((a,b) => a - b);
for(var i=0; i < a.length; i ++){
if(a[i] != i + 1){
return 0;
}
}

return 1;
}
``````

Codility is a bit stupid in this quiz: I have 100% correctness and 100% performance with this solution

``````using System;

class Solution
{
public int solution(int[] A)
{
Array.Sort(A);

for (int i = 0; i < A.Length; i++)
{
if (i+1 != A[i])
{
return 0;
}
}
return 1;
}
}
``````

but it should not pass performance test - it's O(n*logn) because of sorting, so it's worse than O(n).

Simple solution 100%

``````public static int solution(final int[] A) {

Set<Integer> set = new HashSet<Integer>();

for (int i : A) {
}

boolean numberNotFound = false;
for (int i = 1; i <= A.length; i++) {

//If set does not contain the number, that's the point to stop
//checking and return as per the boolean value set

if (!set.contains(i)) {
numberNotFound = true;
break;
}

}

return numberNotFound ? 0 : 1;
}
``````

I believe all the solutions that depend on sorting are wrong! Because the required time complexity is O(N); and sort cannot be O(N).

* oh and my python solution is

``````def solution(A):
holes = *(1+len(A))    # holes isn't used
for i in A:
# if i is larger than N then it's not a permutation
# if i appeared before in A, then the hole[i] should be 1, in such case it's not a permutation as well
if i>len(A) or holes[i]==1:
return 0
holes[i] = 1
return 1
``````

I think as it is count elements chapter the desired solution should use element counting and then checking if there is each element exactly one time in the buckets array. My Swift solution is like this. But not checked on Codility:

``````public func PermCheck(_ A : inout [Int]) -> Int
{
var B = [Int](repeating: 0, count: max(A.max()!, A.count)+1)

for a in A {
B[a] += 1
}
var sum = 0

for i in 1...A.count {
sum += B[i]
}

print(B)

return A.count == sum ? 1 : 0
}
A = [4,1,3,2]
print("PermCheck: ", PermCheck(&A))
``````

I understand that since this lesson require O(n), so the solution should without sorting. the keyword about permutation is sequence and 1 to N only once. so the solution should check duplicate and all elements in sequence.

``````public static int solution(int[] A)
{
if (A.Length == 1) return 1;

var max = 0;

var dic = new Dictionary<int, int>();

//find duplicate
for (var i = 0; i < A.Length; i++)
{
if (A[i] > max) max = A[i];

if (!dic.ContainsKey(A[i]))
{
continue;
}

dic[A[i]]++;
if (dic[A[i]] > 1) return 0;
}

//check in sequence
for (var i = 1; i <= max; i++)
{
if (!dic.ContainsKey(i))
{
return 0;
}
}

return 1;
}
``````

However, this code failed extreme_min_max and single tests, don't know why as the code check if array A length is 1, just return 1.

Solution in PHP with 100% on the three fields:

``````function solution(\$A) {

\$size = count(\$A); // SIZE OF ARRAY
\$sum = array_sum(\$A); // SUM OF ALL ELEMENTS

\$B = array(); // WE CHECK FOR ARRAYS WITH REPEATED VALUES
foreach(\$A as \$key=>\$val) {
\$B[\$val] = true;
}
\$B= array_keys(\$res2); // A FOREACH AND ARRAY_KEYS IS 30x TIMES FASTER THAN ARRAY_UNIQUE

if(\$size != count(\$res2)) return 0; //IF THE SIZE IS NOT THE SAME THERE ARE REPEATED VALUES

\$total = ( \$size * ( \$size + 1) ) / 2; // WE CHECK FOR THE SUM OF ALL THE INTEGERS BETWEEN OUR RANGE
return \$sum == \$total ? 1 : 0; // IF SUM OF ARRAY AND TOTAL IS EQUAL IT IS A PERMUTATION IF NOT THERE ARE SOME NUMBERS MISSING BUT NONE ARE REPEATED
}
``````

In Swift 4, 100%:

``````public func solution(_ A : inout [Int]) -> Int {
if A.isEmpty {
return 0
}

if A.count == 1 {
return A == 1 ? 1 : 0
}

for (index, elem) in A.sorted().enumerated() {
if index + 1 != elem {
return 0
}
}

return 1
}
``````

My JavaScript solution got 100 across the board. Basically, I run through the array once and make each value an index in a new array with a value set to true (or wtv, as long as it is truthy). While doing so, I check to see if any value already has been entered into the new array. Then, I loop through the array and immediately return 0 if any item is falsy. Close enough to O(2n), I suppose.

``````const permCheck = (A) => {
orderedArr = [];
for (let i = 0; i < A.length; i++) {
if (orderedArr[A[i]]) { return 0; } // duplicate - we out
orderedArr[A[i]] = true;
}
for (let i = 1; i < orderedArr.length; i++) {
if (!orderedArr[i]) {
return 0;
}
}
return 1;
}
``````

This is my solution

``````function solution(A) {
const t = A.reduce((acc, cur, index) => acc ^ cur ^ (index + 1), 0)
return A.reduce((acc, cur, index) => acc ^ cur ^ (index + 1), 0) === 0 ? 1 : 0
}
``````

`^` is awesome.

XOR solution in Python with complexity of O(N), this works on the idea that `X ^ X = 0` and `0 ^ X = x`

``````def solution(A):
# write your code in Python 3.6
chk = 0
l = len(A)

for i,x in enumerate(A):
if x < 1 or x > l:
return 0
else:
chk = chk ^ i+1 ^ x
if chk != 0:
return 0
else:
return 1
``````

The functional, Scala solution which also got 100%. Hope this will help someone.

``````def solution(a: Array[Int]): Int = {
val unique = a.toSet
def takeTillEndOrMissingElement = (1 to a.length).takeWhile(unique.contains)
if (unique.size == a.length && takeTillEndOrMissingElement.size == a.length) 1 else 0
}
``````

Pure Java gave me 100%:

``````public int solution(int[] A) {
int check[] = new int[A.length];
int max = 0;
int total = 0;
for (int i = 0; i < A.length; i++) {
total += A[i];
max += i + 1;
if (A[i] > A.length || check[A[i]-1] > 0)
return 0;
else
check[A[i]-1] = A[i];
}
return max == total ? 1 : 0;
}
``````
``````class Solution
{
public int solution(int[] A)
{
int count=0;**strong text**
int n=A.length;

for(int j=1;j<n;j++)
{
if(A[j]>A)
A=A[j];
}

if(A==A.length)
{
for(int i=1;i<=A;i++)
{
for(int j=0;j<A;j++)
{
if(A[j]==i)
count++;
}
}
}
else
return 0;

if(count==A)
return 1;
else
return 0;
}
}
``````