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I saw the following fragment of C code in a text book and it's working properly... But I do not understand the output and why is it working properly, because it looks wrong:

#include <stdio.h>

int main()

    struct {
        int x,y;
    } s[4] = {{10,20},{15,25},{8,75},{6,2}};
    int *i;

    printf("\n%d",s[i[0]-i[4]].y + 10);

    return 0;


Also I do not understand how we can assign an integer pointer to s in the statement

share|improve this question
Which line are you concerned about? – Oliver Charlesworth Jun 16 '12 at 16:22
Also, this code doesn't compile. See e.g. – Oliver Charlesworth Jun 16 '12 at 16:23
The first two printf statements..I Dont understand how they mean. – arpitsolanki Jun 16 '12 at 16:24
Maybe ideone uses gcc.But it does get compiled on TC – arpitsolanki Jun 16 '12 at 16:24
If we remove getch() for gcc then it would compile – arpitsolanki Jun 16 '12 at 16:25
up vote 1 down vote accepted

As far as the pointer assignment:

To take a comment from below:

"the memory layout of an array of ints and an array of struct composed solely by ints is the same"

The reason pointer types must be defined are because the compiler must know the size of the data the pointer is pointing to. Integers have a size of 4 byes, while this struct would have a size of 8 bytes. When the program tries to access the memory at location s[1], the compiler knows that the program wants the data 8 bytes after s[0], where i[1] would want the data only 4 bytes after i[0].

s is an array of structs(with two members of type int), i is a pointer to an int. Since the first element of s is a struct of 2 ints, i = s assigns the address of the first member of the first element of s to i.

i = &s[0] is the same assignment.

If s[0] started at 0x00, it's first member has the address 0x00, while it's second member has the address 0x04. s[1] would start at 0x08, the struct at that location has a second member with the address 0x0C.

With i = s, i[0] has the address 0x00, while i[1] has the address 0x04, the second member of the first element of s. i[2] has the address 0x08, the first member of the second struct in the array, i[3] has the address 0x0C, the second member of the second struct in the array. And so on...

  { 10, 20 } { 15, 25 } { 8, 75 } { 6, 2 }
s:|    0    |     1    |    2    |   3   |
i:| 0 |  1  |  2 |  3  |  4 | 5  | 6 | 7 |

i now points at the first integer (out of all 8).

i[0] = 10

i[7] = 2

The first printf statement is interpreted as follows: Since i[7] = 2, then we have s[2] referring to the pair {8,75}, that has the x value 8.

The pointers indeed are incompatible, compiling with gcc version 4.4.3 (Ubuntu 4.4.3-4ubuntu5.1) produces the following warning:

test.c: In function ‘main’: test.c:10: warning: assignment from incompatible pointer type

However, the program does compile and product the output:

8 75 15 20 85

share|improve this answer
there is no array named a – arpitsolanki Jun 16 '12 at 16:27
also wouldn't s be an array of structures? – arpitsolanki Jun 16 '12 at 16:28
@arpitsolanski: for C there's no difference – Vincenzo Maggio Jun 16 '12 at 16:28
Sorry, a is right next to s on the keyboard! – Chris Dargis Jun 16 '12 at 16:30
@ouah and indeed it raises a warning. Nontheless, the memory layout of an array of ints and an array of struct composed solely by ints is the same. – Vincenzo Maggio Jun 16 '12 at 16:46

Also i do not understand how we can assign an integer pointer to s in the statement: i=s;

It is simple, you can't in C without a cast. You compiler is kind enough to accept such a program but other compilers have the right to refuse to compile the program.

share|improve this answer
But in such a condition shouldn't i be getting a garbage output? – arpitsolanki Jun 16 '12 at 16:28
Each printf above prints some or other element of array – arpitsolanki Jun 16 '12 at 16:29
The code compiles in gcc and also TC – arpitsolanki Jun 16 '12 at 16:30
@arpitsolanki: This code does not compile cleanly in GCC, and that is the problem. – Oliver Charlesworth Jun 16 '12 at 16:32
@arpitsolanki try again with gcc with -Wall -Werror. – ouah Jun 16 '12 at 16:33

Adding a little : in C I follows the trick when its comes situation like this : whenever you see like this #type# s[p], s is a pointer of #type# type, and s[p] is another way of writing *(s+p). Hence ('i' assigned the base address of the array) for example -- i[i[1]-i[2]] is i[(*(i+1)) - (*(i+2))] => i[20 - 15] => i[5] => *(i+5) => 75.

Also note,

1) Internal padding may be used in allocating storage for struct. for ex. a struct with two ints and one char is not necessarily will take 4+4+2 = 10 bytes consecutively, there may be internal padding. However this struct with two ints only doesn't use internal padding.

2) Warning will be given as incompatible pointer is assigned by most compilers.

3)'i' was alloted the base address of array of structures with no internal padding, thus this carefully designed code magically works.

share|improve this answer
Can you throw some light on the internal padding of structures..exactly what is it? – arpitsolanki Jun 20 '12 at 3:33
since computer reads/writes to memory addresses in word sized chunks, so structures having different data types may need internal padding while storing data otherwise some word read would contain a portion of data. Ex. : (assume)if struct of three char (3 * 8 = 24 bits) and one int (16*1 = 16 bits) will be internally padded if word size is 32 bit, i.e. last 8 bits of first word will be empty. – VISHAL DAGA Jun 20 '12 at 11:31
this is low level compiler option that you don't have to care, but just remember that never believe that sum of sizeof data types in the struct is the size of the struct. – VISHAL DAGA Jun 20 '12 at 11:33

The compiler stores the data of s[4] in linear memory, such as 10,20,15,25,8,75,6,2. i[7] is equal to 2.It is just a trick like the following example.

there is a structure like this:

struct block{
int a;
int b;

struct block item;

If I know the address of item->b, how can I know the address of item.

The answer is using the address of item->b minus ((struct block *)0)->b.

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