# Function deleteDuplicateElements automata fix

I am trying to solve one of the questions asked in CTS hiring event. Where I have given a code with some error. Without modifying the approach and without using any additional library I have to solve the problem. It is to remove the duplicate elements and only let the first occurrence of an integer be on the array.
Tell me what i am doing wrong here?

Given error code:

``````#include<stdio.h>
#include<stdlib.h>
typedef struct node {
int arr[1000];
int len;
} Numbers;
void* deleteDuplicate (int *arr, int len)
{
int count=0,p,i,j,k,originalLength=len;
for(i=0; i<len; i++)
{
for(j=i+1; j<len; j++)
{
if(arr[j]==arr[i])
{
arr[k]=arr[k+1];
}
len=len-1;
count=count+1;
j=i;
}
}

int  newLength = originalLength-count;
Numbers *numbers = malloc(sizeof(*numbers));
for(i=0; i<newLength; i++)
numbers->arr[i]=arr[i];
numbers->len = newLength;
return numbers;
}

int main() {
int arr[]={2,3,2,2,5,6,6,7};
Numbers *n = deleteDuplicate(arr,8);
for(int i=0;i<n->len;i++){
printf("%d ",arr[i]);
}
}
``````

My solution:

``````#include<stdio.h>
#include<stdlib.h>
typedef struct node {
int arr[1000];
int len;
} Numbers;
void* deleteDuplicate (int *arr, int len)
{
int count=0,p,i,j,k,originalLength=len;
for(i=0; i<len; i++)
{
for(j=i+1; j<len; j++)
{
if(arr[j]==arr[i])
{
for(k=j;k<len-1;k++)
arr[k]=arr[k+1];

len=len-1;
count=count+1;
j=i;
}
}
}

int  newLength = originalLength-count;
Numbers *numbers = malloc(sizeof(*numbers));
for(i=0; i<newLength; i++)
numbers->arr[i]=arr[i];
numbers->len = newLength;
return numbers;
}

int main() {
int arr[]={2,3,2,2,5,6,6,7};
Numbers *n = deleteDuplicate(arr,8);
for(int i=0;i<n->len;i++){
printf("%d ",arr[i]);
}
}
``````

My solution gives output for some cases only.

• Where is the test case where your code is not working properly ? Commented Aug 11, 2022 at 16:20
• I am sorry about the case its been hidden from me. And am trying to solve it for like 6 hours. No idea where i am doing wrong. Commented Aug 11, 2022 at 16:22
• It's hard to fix it, without having the test case, try playing around with the input array until you find the bad case, then use the debugger to fix it. Commented Aug 11, 2022 at 16:28
• Your code works for me... Commented Aug 11, 2022 at 17:24
• Thank you for accepting the (forgotten) answer below. Revisited the answer with a possible alternative way of doing this (without using `malloc()`... `:-)` Commented Sep 13, 2022 at 3:57

Your problem may be in this line from `main()`

``````printf("%d ",arr[i]);
``````

You are printing from the initial array, not the returned struct's array that you've filled...

``````printf( "%d ", n->arr[i] );
``````

Another way to view this is that the function must return an allocated structure. If you do that first (NB: `calloc()` to ensure it is zero'd to begin), then don't muck with shifting elements to shrink-out duplicates. Simply test against those that have already been seen once...

``````typedef struct node {
int arr[1000];
int len;
} Numbers;

Numbers *deleteDuplicates( int *arr, int len ) {
Numbers *pRet = calloc( 1, sizeof *pRet );
if( pRet == NULL ) // ALWAYS test return values.
exit( -1 );

pRet->arr[ pRet->len++ ] = arr[0]; // first one is free
for( int i = 1; i < len; i++ ) {
for( int j = 0; j < pRet->len; j++ )
if( arr[i] == pRet->arr[j] ) // seen before?
break;
if( j == pRet->len ) // Hmm... Not seen before!
pRet->arr[ pRet->len++ ] = arr[i];
}

return pRet;
}

int main( void ) {
int arr[] = { 2, 3, 2, 2, 5, 6, 6, 7 };

Numbers *n = deleteDuplicates( arr, 8 );
if( n == NULL )
exit( -1 );

for( int i = 0; i < n->len; i++ )
printf( "%d ", n->arr[i] );
putchar( '\n' );

free( n ); // don't forget!

return 0;
}
``````

Output:

``````2 3 5 6 7
``````

Alternative version that does not require 2nd (possibly huge) parallel array. This 'finds' a sentinel value that does NOT appear in the array, then uses that to clobber duplicate values further into the array. It then compacts the (now unique) values in the original array. A few adjustments made to function signatures in keeping with the struct definition (also altered), and a few "debug" print statements just for fun.

``````#include <stdio.h>
#include <stdlib.h>

typedef struct { // use simpler typedef. Not a "node"
int *arr; // more flexible than fixed size
size_t len; // use size_t for size, not signed int
} Numbers_t; // conventional name style with "_t"

// Find a value that does NOT appear in the data
int findSentinel( int a[], size_t sz ) {
int val;

// deliberate collision starting with 2 to prove function
// more sensible to start with INT_MIN, or maybe INT_MAX (from limits.h)
for( val = 2; val < 1000 * 1000; val++ ) {
printf( "Sentinel %d ? ", val ); // debugging

for( size_t i = 0; i < sz && a[i] != val; i++ )
; // searching

// Good? return, else keep searching
if( i == sz ) { puts( "YES!" ); return val; }
puts( "Nope..." );
}
// may not be able to use this technique
fprintf( stderr, "Cannot find a sentinel value\n" );
exit( EXIT_FAILURE );
return -1; // quiet compiler warning
}

// Notice changed function signature using struct declaration
Numbers_t *deleteDuplicates( Numbers_t *n ) {
size_t i, j;

int sntnl = findSentinel( n->arr, n->len );
printf( "Sentinel value (%d)\n", sntnl );

// iterative search and replace of 2nd, 3rd... instances of array values
for( i = 0; i < n->len; i++ ) {
int got = n->arr[i];

if( got == sntnl ) continue; // skip over these

for( j = i+1; j < n->len; j++ )
if( n->arr[j] == got ) { // seen before?
printf( "%d dupe @ pos %d\n", got, j+1 ); // debug
n->arr[j] = sntnl; // clobber duplicate
}
}
// compact the array to unique values
for( i = j = 0; i < n->len; i++ )
if( n->arr[i] != sntnl )
n->arr[j++] = n->arr[i];

n->len = j; // array may have fewer elements now
return n;
}

// helper function
void printArr( Numbers_t *n ) {
for( size_t i = 0; i < n->len; i++ )
printf( "%d ", n->arr[i] );
putchar( '\n' );
}

int main( void ) {
int arr[] = { 2, 3, 2, 2, 5, 6, 6, 7 };

// fill provided struct with sample data
Numbers_t n = { arr, sizeof arr/sizeof arr[0] };

printArr( &n );

deleteDuplicates( &n );

printArr( &n );

return 0;
}
``````

Output

``````2 3 2 2 5 6 6 7
Sentinel 2 ? Nope...
Sentinel 3 ? Nope...
Sentinel 4 ? YES!
Sentinel value (4)
2 dupe @ pos 3
2 dupe @ pos 4
6 dupe @ pos 7
2 3 5 6 7
``````

Notice the value of `a[0]` is unique when scanning is just getting started. That value can act as what I'd called the "sentinel value"... This eliminates the need to loop around guessing what might work...

`findSentinel()` is gone, and 3 lines changed in this function:

``````// Notice changed function signature using struct declaration
void deleteDuplicates( Numbers_t *n ) {
size_t i, j;

int sntnl = n->arr[0];
printf( "Sentinel value (%d)\n", sntnl );

// iterative search and replace of 2nd, 3rd... instances of array values
for( i = 1; i < n->len; i++ ) {
int got = n->arr[i];

if( got == sntnl ) continue; // skip over these

for( j = i+1; j < n->len; j++ )
if( n->arr[j] == got ) { // seen before?
printf( "%d dupe @ pos %d\n", got, j+1 ); // debug
n->arr[j] = sntnl; // clobber duplicate
}
}
// compact the array to unique values
for( i = j = 1; i < n->len; i++ )
if( n->arr[i] != sntnl )
n->arr[j++] = n->arr[i];

n->len = j; // array may have fewer elements now
}
``````