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
}
```

`malloc()`

...`:-)`