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I saw code as written below.

typedef struct abc {
    int a;
    char b;
    float c;
} abc;

int main()
  abc *ab;
  int *i;
  i = (int*)malloc(sizeof(int));
  *i = 0;
  ab = (abc*) i;

  return 0;

In the penultimate line ab = (abc*) i;, what does the code try to do?

If we want to set the value of ab->a, then why is it done in this way, rather than:

ab->a = (int)i;

If ab = (abc*) i; updates the value of ab->a, then how will the other two structure members get initialized without intitializing them exclusively?

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closed as not a real question by WhozCraig, Thomas Padron-McCarthy, luser droog, Signare, Soner Gönül Mar 29 '13 at 11:47

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

What does it try to do? or what does it do.? It casts the address of i to be "compatible" with an abc * pointer-type, then stores that address in the ab pointer. It then promptly does nothing with that cast, returns zero, and leaks the memory allocated on the third line of main(). –  WhozCraig Mar 29 '13 at 7:33
You're asking why obfuscated code does things in an obfuscated way? ab = (abc*)malloc(sizeof (int)); ab->a = 0; would have the same effect as this nutty code, but equally pointlessly. –  Jim Balter Mar 29 '13 at 7:43
I wonder why this was downvoted. –  alk Mar 29 '13 at 12:56

5 Answers 5

up vote 4 down vote accepted

then how other two structure members will get initialized without intitializing them exclusively?

They won't.

You'd be getting garbage values in ab->b and ab->c because i does not represent a chunk of memory of a sufficient size to represent an instance of abc.

ab->a is equal to 0 because when you did: *i = 0, you stored the value 0 in the memory location that i pointed to. When you made abc point to the same memory location as i, no writes were done to memory, you just changed the position of the data.

Since 0 was previously stored in 4 bytes at the position that i pointed to, and since int ab::a happens to take up 4 bytes and also happens to be the first member of the struct, ab->a will be equal to 0.

In memory, relative to the position of the instance, your struct is ordered like this:

 ____ ____ ____ ____    ____    ____ ____ ____ ____
| 00 | 01 | 02 | 03 |  | 04 |  | 05 | 06 | 07 | 08 |
|____|____|____|____|  |____|  |____|____|____|____|
        int a          char b         float c

I hope this clears things up.

You're not really guaranteed to have the struct completely packed up like I made it seem in the above representation. While order will be conserved, the space between consecutive members is not always going to be 0 memory address units. Read up on Alignment.

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Actually, the order inside the struct is not compiler specific. It must be as defined. So technically, ab->a is initialized to 0, but of course, accessing ab->a is illegal (and causes undefined behaviour), because the address pointed to by ab isn't actually an abc object. –  jogojapan Mar 29 '13 at 7:56
Thanks for clearing that up. –  Mohammad Ali Baydoun Mar 29 '13 at 8:20
@jogojapan: I'm curious where the C standard says accessing ab->a leads to UB. Somehow I did not manage to find the paragraph. –  alk Mar 29 '13 at 9:44
@alk I was thinking that the strict aliasing rule forbids it. But, as it turns out, it does actually allow this specific case. So perhaps it isn't undefined behaviour after all. (Anyway my comment mainly referred to another part of the answer that has meanwhile been changed.) –  jogojapan Mar 29 '13 at 11:16
@jogojapan: You might like to take a look at Jim Balter's comments to another answer to this question here: stackoverflow.com/a/15699267/694576 –  alk Mar 31 '13 at 11:24

The line ab = (abc*) i; is casting the pointer variable i of type int* to type abc*, and making that assignment to pointer variable ab. This is certainly not how you want to go about initializing the data members in the struct, though, particularly because only enough room for an int was allocated and we're using a struct that takes up significantly more space than an int.

At the end of the day, it's legal code but very scary. I'm not even sure you can be guaranteed to have data member int a stored in the address pointed to by ab. I want to say it's implementation dependent, but maybe somebody else can clear that up for me.

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"At the end of the day, it's legal code" -- I think not. ab points to an incomplete object and I'm pretty sure that's UB by the standard, even if you don't access the other fields. –  Jim Balter Mar 29 '13 at 7:50
@JimBalter: The standard says: "A pointer to an object or incomplete type may be converted to a pointer to a different object or incomplete type." –  alk Mar 29 '13 at 9:18
@alk Nothing there about an incomplete object, which is very different from an incomplete type. –  Jim Balter Mar 29 '13 at 9:24
The two citations of language from the Standard are not relevant to what I wrote ... assigning an int* pointer to an abc* pointer is not of itself problematic -- no disagreement about that. What is problematic is if, as a result of the assignment, the abc* pointer does not point to memory that can be interpreted as an object of type abc. The Standard says "objects are composed of contiguous sequences of one or more bytes, the number, order, and encoding of which are either explicitly specified or implementation-defined". But, sizeof(int) bytes aren't enough to represent an abc. –  Jim Balter Mar 30 '13 at 20:11
@alk "this very absence of "incomplete object" in the C standard" -- the words are absent but not the concept. Given, say, struct {char a; char b;}* p = malloc(1), the value of p is not a pointer to an object of required type, because it doesn't satisfy the Standard's requirements for objects. The Standard says "if an lvalue does not designate an object when it is evaluated, the behavior is undefined". In p->a, p is evaluated but it doesn't designate an object. A possible implementation could load *p into working memory and then extract the a member ... but *p might fail. –  Jim Balter Mar 30 '13 at 20:28

That penultimate line causes a conversion from (int *) to (abc *), and an assignment of the result to ab. It's not a very good line of code, because the old pointed-to type is smaller in size than the new pointed-to type; Some attempts to use the result of this conversion will be undefined behaviour. Leaving it as an (int *), or declaring a prefix struct to convert to would be a far better idea.

The * in abc * indicates that the type is a "pointer to abc". ab doesn't point to an abc object until you tell it to point to one. ab = /* something */ assigns ab to point to something. ab = malloc(sizeof *ab); would make sense, in this example.

This is silly: i = (int*)malloc(sizeof(int));. You don't need to cast the return value of malloc. The only justifiable reason for this is that the author of this code has neglected to #include <stdlib.h>. I suggest including that library, rather than casting the return value. You can feel free to ignore my advice, but don't ask any questions about strange errors until you've read this page.

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abc *ab; ab is a pointer of type struct abc; int *i; is a pointer to the int returned by malloc

It's value is set using *i = 0;

ab = (abc*) i;

This line is assigning the address of location allocated by malloc to ab. By typecasting i to (abc*) it is indicated that ab will be used to read memory chunks of the size of struct abc ab = (abc*) i; does not assign value to a. To assign value to a u will do ab->a = 5;

The values already present are garbage values (default random value)

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It's not garbage. if I will make *i = 5 and ab = (abc*)i then ab->a = 5. –  Rasmi Ranjan Nayak Mar 29 '13 at 9:13
and b and c? –  Suvarna Mar 29 '13 at 9:19
b and c will be garbage –  Rasmi Ranjan Nayak Mar 29 '13 at 12:20
ab = (abc*) i; updates the value of ab->a

If we look at struct layout, int is int is first member, so it will be initialize with 0, so ans is yes! I tried with VC and it initialize it with 0, but this is tricky, in case of struct if member change order then you got grabage!

There is also memory leak, memory allocated with malloc never freed!

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"never freed": Not really: stackoverflow.com/questions/5612095/… –  Jim Balter Mar 29 '13 at 7:45
Its not a good practice to depend on OS for memory cleanup! –  Saqlain Mar 29 '13 at 7:50
We can debate! This is not something on which you can declare someone wrong! You are going to establish your dependency on OS never a good practice, i worked on very renowned commercial projects, i know what you mean, but as i said this is something debatable! –  Saqlain Mar 29 '13 at 7:59
Finally, I started this with a true assertion correcting your false assertion -- that the memory is "never freed". You immediately changed the subject to whether depending on the OS to free the memory is good practice, dodging the point that the OS does free the memory (on most hosted platforms). That was bad behavior. Goodbye. –  Jim Balter Mar 29 '13 at 8:11
@JimBalter Very well, I'll enter this debate. Where does the C standard guarantee that "the entire address space of your process will be destroyed"? Where does the C standard guarantee that there'll be an OS to perform such an action? –  undefined behaviour Mar 29 '13 at 8:21

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