# Insertion Sort C programming

Since this year I'm starting studying C programming at university. In particular today I was trying to understand the insertion sort. I wrote this code that is perfectly working:

``````void insertionSort (int v[], int s)
{
int i;
int j;
int value;

for (i = 1; i < s; i++)
{
value = v[i];

for (j = i - 1; (j >= 0) && (value < v[j]); j --)
{
v[j + 1] = v[j];
}
v[j + 1] = value;               // why v[j+1]?
}
}
``````

My question is about the last code line: `v[j + 1] = value`. If I understand correctly, `j` (that decreases every time), at the end of the `for` cycle, has a value of -1 and that's why is correct to write `v[j + 1] = value`. Am I right or am I missing something? Really thanks for anybody who wants to help me by explaining me better.

The way you have your code setup right now, you need v[j + 1] because j will always be one before where you want to insert.

For example:

int v = {1, 34, 2, 50, 4, 10}

s = sizeof(v) / sizeof(v) = 6

• i = 1, j = 0
• value = v[i] = 34
• 34 < 1 is false so it doesn't go into the inner for loop
• v[j + 1] = 34 which is right where 34 should be
• Looping your entire code a second time: value = 2, j = 1, i = 2
• Both conditions are met where j = 1 && 2 < 34 and you go into your inner loop
• Since you already stored v earlier when you did value = v[i], v = 34 at this point is where you decrease j by 1 making j = 0

Looking at your array, it looks like this: 1, 34, 34

• The inner for loop will try to loop again but fail the second check
• At this point, j is 0 and when you do v[j + 1] = value, you're storing value (2) in its proper place.
• Your array at this point looks like 1, 2, 34

So again, the significance of v[j + 1] is to insert in the correct place. If the value is already in the correct place than you swap with itself.

This is the process of Insertion Sort. It will swap if the numbers are not ordered. Over here you can find an visualized example: https://visualgo.net/en/sorting

Here you have an example in C:

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

int main()
{
int n, array, c, d, t;

printf("Enter number of elements\n");
scanf("%d", &n);

printf("Enter %d integers\n", n);

for (c = 0; c < n; c++) {
scanf("%d", &array[c]);
}

// Insertion Sort
for (c = 1 ; c <= n - 1; c++) {
d = c;

while ( d > 0 && array[d] < array[d-1]) {
t          = array[d];
array[d]   = array[d-1];
array[d-1] = t;

d--;
}
}

printf("Sorted list in ascending order:\n");

for (c = 0; c <= n - 1; c++) {
printf("%d\n", array[c]);
}

return 0;
}
``````

mark first element as sorted

for each unsorted element

'extract' the element

for i = lastSortedIndex to 0

if currentSortedElement > extractedElement

move sorted element to the right by 1

else: insert extracted element