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I have this character array

char array[] = {1,2,3};     //FL, FH, Size

and I am trying to access it using pointers in such a way that I get FLFH value together, stored in an integer variable.

I did this

int val =0;
val = *(int*)array;
printf("value of p is %d\n",val);

I was expecting the result to be 12, but it was some 8-digit number which I think maybe the address of the value or something. Could anyone tell me what am I doing wrong here?

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For starters, if sizeof(int) >= 4, you're running off the end. –  chris Jan 7 '13 at 2:54
okay, suppose array[]={1,2,3,4,5,6,7,8} –  UnderDog Jan 7 '13 at 2:56
Well, if it's just the two, 10 * array[0] + array[1] would give you 12. I don't know how flexible you want it to be. –  chris Jan 7 '13 at 2:58
The end result is not a concern here.. How am i getting to it is the point. I want to do it using pointers, and exploiting the fact that integer takes 2/4 bytes depending on the machine. –  UnderDog Jan 7 '13 at 2:59
'I was expecting the result to be 12' -- why in the heck would you expect that? –  Jim Balter Jan 7 '13 at 3:09

4 Answers 4

up vote 4 down vote accepted

It's never going to give you twelve.

You're taking two one-byte values and looking at them as if they comprise a single two-byte entity. When you look at them together, you're re-interpreting their value. The integer 1 looks like this, as bits: 00000001, and 2 like this: 00000010. The compiler knows how big they are and thus will allow you to access them as individuals, but they're laid out in order in your array, right next to each other in memory.

Inspect the two bytes together as if they were an int, and you have: 0000000100000010, whose value is not 12; it's 513.

For your further reading, what you're doing is a kind of "type punning".

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I don't understand why you think they are in a "two-byte container". What container would that be? What possible system could give you the result that you claim you'll get, and which is different from what OP reports? –  MJD Jan 7 '13 at 3:08
If you look at the two consecutive bytes of the char array as if they comprise a single two-byte entity, you end up with those bits (big-endian). –  Josh Caswell Jan 7 '13 at 3:10
The actual result (in decimal) is 513, which means the value in the container goes like '2' first, and then '1'.. Shouldnt it be the other way around Josh. –  UnderDog Jan 7 '13 at 3:10
@UnderDog: I may have screwed up the arithmetic... –  Josh Caswell Jan 7 '13 at 3:12
I misunderstood your answer; thanks for the clarification. –  MJD Jan 7 '13 at 3:12

You didn't get the result you expected because bytes are laid out on 8 bit boundaries, so adjacent binary byte values are scaled by 25610, not 1010.

Also, if you cast the type of something and dereference it, the compiler will compile it but technically your program is nonconforming.*

One problem is alignment. If you change the type with open code it may not begin at the right boundary, and it may not be big enough. You can fix all that with a union. It's still nonconforming and the result is not specified, but in practice it is reliable and even somewhat portable, if you don't mind different results depending on byte order and int size.

union a {
  char  c[3];
  int   i;
  short s;
} a;

This might also be a good application for <stdint.h>, but that's a topic for another question.

*You might wonder, then, why casts exist ... it's because (A) despite being banned by the standard, type punning is widely used in existing C programs and particularly in operating software, and (B) there are mostly-conforming uses that define generic interfaces but always (or, ahem usually) cast the thing back to the original type before dereferencing it.

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Your second and last paragraphs are not correct. It is permitted to cast a char * pointer to any other type, as was done here, and to dereference it if the object to which it points has the correct alignment for the dereferenced type. This is why malloc works. As a practical matter, it will work if the array is aligned properly (which malloc is careful to do), and it will abort the program with a bus error if not. Since that's not what's happening here, we can suppose that the alignment is correct. –  MJD Jan 7 '13 at 3:19
Actually, it's the other way around, you can convert to char * from any other type and the result is specified. All the standard says about alignment is that you can temporarily store the pointer value and then get it back. Anyway, I agree that it's more complex than I went into. (This, btw, is the reason that gcc's alias analysis only works when casting to char * without -fno-strict-aliasing.) –  DigitalRoss Jan 7 '13 at 3:26
I'd be interested in a citation of the C standard that says that you can "dereference it if the object to which it points has the correct alignment for the dereferenced type". –  Jim Balter Jan 7 '13 at 3:34
Ah, ok, I was wrong that "the language does imply " ... DigitalRoss was right about the round trip only being guaranteed to work in one direction (by; seems to imply that it works the other way, but it's questionable whether that was intended). –  Jim Balter Jan 7 '13 at 4:01
Relevant: 1 2. Both support DigitalRoss's interpretation, and refute mine. –  MJD Jan 7 '13 at 4:13

This is a bad idea, for readability and for portability. Use array[0] * 10 + array[1] if that's what you mean, and trust the the peephole optimizer to speed it up. If you must access the value via a pointer, use a char pointer and write p[0] * 10 + p[1], which is easy to understand, perfectly legal, and portable.

Reasons why your code might not work are many, and this strongly suggests that what you're trying to do is dumb, or at least that you are in over your head.

The first one is that bytes range from 0–255, not from 0–9, and so if you do use this technique, and it works, you are going to get 1*256+2 =258, not 1*10+2 = 12. You are never, ever going to get 12. The computer does not work that way. This is why you have to call a function like atoi() to convert a string like "12" to the number 12 before you can do arithmetic on it.

If you have four byte ints, that would also be why you were getting some big number out: You think you're getting 1*256+2, but you're actually getting ((1*256+2)*256+3)*256+???. Also, as chris says in the comments, in such case your array is too small anyway, whence the ??? in the previous formula.

You could try using a short instead of an int and see if that works better; a short is likely to be a 2-byte integer. But this isn't guaranteed, so it still won't be portable to systems with shorts longer than two bytes. Better practice is to find out the actual type on your system that corresponds to a two-byte integer (perhaps short, perhaps something else), and then typedef something like INT2 to be that type, and use INT2 in place of int.

Another potential problem is that your system might use a little-endian byte order, in which case the bytes in your array are in the wrong order to represent the two-byte machine integer you want, and your trick is never going to work. Even if can be made to work on your machine, it will break if you ever have to run the code on a little-endian machine. (Your comments elsewhere in this thread suggest that this is exactly what is going on.)

So just do it the easy way.

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Because of the OP's misconceptions and because there is no explanation of why this is being done, we don't know whether 1*10+2 is desired or 1*256+2, or whether the OP just wants to put those two chars into an int regardless of how they are transformed in the process (I suspect the latter). –  Jim Balter Jan 7 '13 at 3:24
OP says "I was expecting the result [of printf("value of p is %d\n",val)] to be 12". That seems quite clear. –  MJD Jan 7 '13 at 3:25
But that expectation was the result of a misunderstanding. From the OP's other comments here, it seems unlikely to be a requirement. –  Jim Balter Jan 7 '13 at 3:29

maybe try :-

char array[] = {1,2,3};     //FL, FH, Size
int val =0;
val = *(short*)array;
printf("value of p is %X\n",val);

this is assuming you are trying to reinterpret your char array as an int. Though different platforms you may get different results than expected.

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Didnt get the expected value. Can you tell me the significance of %x here? –  UnderDog Jan 7 '13 at 2:59
prints as hex instead of decimal –  Keith Nicholas Jan 7 '13 at 3:01
I changed it to "short" which is 16bits –  Keith Nicholas Jan 7 '13 at 3:01
thats right. he can't get 12 from this, –  Keith Nicholas Jan 7 '13 at 3:06
he asked to repack FL and FH into a int... –  Keith Nicholas Jan 7 '13 at 3:12

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