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As far as I know, in C programming language, an array is stored on the memory element by element. (i.e., element 0, element 1, element 2, ... , element n). I'm trying to see that with the following code:

unsigned char a[] = { '\1' , '\2', '\3' ,'\4' };
printf("%d\n", (int*) a);

Since unsigned char is 1 byte and an integer is 4 bytes; I thought it has to print the value:

00000001 00000010 00000011 00000100 = 2^2 + 2^8 + 2^9 + 2^17 + 2^24 = 16909060

However, when I run this program; it generates different results for every trials.

I will be appreciated if one can show me what I'm missing here.

Thanks, Sait.

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On most computers, the byte order will be opposite from what you assumed. –  Ben Voigt Apr 30 '12 at 17:43
Related: stackoverflow.com/q/29969049/694576 –  alk Apr 30 at 13:54

1 Answer 1

up vote 4 down vote accepted

You probably want to use *(int *)a, otherwise you're just printing an address.

However, this will invoke implementation-defined behaviour:

  • You will get a different result depending on the endianness of your platform.
  • Depending on the platform, the char array may not be properly aligned to be read as an int.
  • The compiler may perform funky optimizations based on assumptions that you will never read the char array through an int * - you are breaking what are known as the strict aliasing rules.
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Also, what it prints depends on the endian-ness on this box. –  Steve Townsend Apr 30 '12 at 17:43
Re "You will get one of two different results depending on endianness." Not just two. There are still some mixed endian boxes around. E.g., 0x2143 or 0x3412. –  David Hammen Apr 30 '12 at 17:44
@David: Fair point; wording adapted accordingly! –  Oliver Charlesworth Apr 30 '12 at 17:45
@OliCharlesworth: Yes. Thanks. It worked great. And the endianness of my platform (visual studio) was: 00000100 00000011 00000010 00000001. I think it is called "little endian". –  Sait Apr 30 '12 at 17:54

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