I referred this, this and this SO posts before asking this question:

While teaching dynamic memory allocation to a friend, I wrote a simple program, whose snippet is below:

```
matrix = (int**) malloc (sizeof(int*) * m);
for (i = 0; i < m; ++i)
matrix[i] = (int*) malloc (sizeof(int) * n);
for (i = 0; i < m; ++i)
for (j = 0; j < n; ++j)
matrix[i][j] = rand() % 100; /*some random value*/
for (i = 0; i < m; ++i)
{
for (j = 0; j < n; ++j)
{
printf("(%8u)%-5d", &matrix[i][j], matrix[i][j]);
}
/* Print element just after the first row*/
printf("(%8u)%-5d", matrix[i] + n, *(matrix[i] + n));
/* Print second NEXT element just after the first row*/
printf("(%8u)%-5d", matrix[i] + n + 1, *(matrix[i] + n + 1));
}
```

When I run this program as

```
unmesh@unmesh-laptop:~/teaching/C/Day3$ ./matrix
Enter number of rows: 3
Enter number of columns: 3
(141189144)1 (141189148)2 (141189152)3 **(141189156)17** (141189160)2
(141189160)2 (141189164)3 (141189168)4 **(141189172)17** (141189176)3
(141189176)3 (141189180)4 (141189184)5 (141189188)135105(141189192)0
```

I am curious about the value 17. If I am not mistaking, there are three calls to malloc in this invocation, So memory may not be contiguous as can be observed.
But I run the program with **m=n=4 or m=n=5**, then I can see the value **25** after each row.
For **m=n=6 and m=n=7**, value **33** is observed.

More interesting is the fact that when n is odd (n=3 / n=5 ..) this value is stored immediately after the row ends. example row when m=n=3

```
Values 1 2 3 17
Address 100 104 108 112
Next row starts from 116
```

When n is even, it is stored after 4 bytes example row when m=n=2

```
Values 1 2 0 17
Address 100 104 108 112
Next row starts from 116
```

Question is where do these values 17/25/33 come from ? Why are they always the same ? I hope they are not garbage and must have some meaning .. I fail to deduce. Please help.

beforeeach row. Bookkeeping data from`malloc`

. The value is`(number_of_elements / 2 + 1)*8 + 1`

, or, better`number_of_used_8_byte_blocks*8+1`

, but I'm not sure why the`+1`

there. – Daniel Fischer Mar 8 '13 at 18:46