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#include <stdio.h>

union Endian
    int i;
    char c[sizeof(int)];

int main(int argc, char *argv[]) 
    union Endian e;
    e.i = 1;
    printf("%d \n",&e.i);




LSB is stored in the lower address and MSB is stored in the higher address. Isn't this supposed to be big endian? But my system config shows it as a little endian architecture.

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@tez Whenever you are printing addresses,it is proper to cast them to void* and use the %p format specifier.%d is a pure no-no as it is for signed-integers.Addresses are never signed. – Rüppell's Vulture May 6 '13 at 9:48
@shazin When OP used e.i=1,e.c[0] gets its value too as they have the same address.That's what unions is all about,in contrast to structures. – Rüppell's Vulture May 6 '13 at 9:54
@tez because %p expects that,just like %d expects an integer ,not a float – Rüppell's Vulture May 6 '13 at 9:58
@tez It's better to follow the rules.You may get the same result some times if you use %u in place of `%p, but that's not always assured.So it's better to stick to rules. – Rüppell's Vulture May 6 '13 at 10:00
@Koushik It's not UB per se to read from a different union member than the one last stored in C (in C++, it is). You may get a trap representation, and if the read member is larger than the stored, the bytes not corresponding to the stored member have indeterminate value. Neither applies here, so the behaviour is not undefined (but unspecified, since it depends on endianness). – Daniel Fischer May 6 '13 at 11:26
up vote 2 down vote accepted

You system is definitely little-endian.Had it been big-endian,the following code:


will print 0 for the first %d instead of 1. In little-endian 1 is stored as

00000001 00000000 00000000 00000000
^Lower Address

but in big-endian it is stored as

00000000 00000000 00000000 00000001
                           ^Higher Address  

And don't use the %d to print addresses of variables, use %p.

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One more Question.In a char array, does c[0] will always be at lower address when compared to c[1], regardless of system and compiler?? – tez May 6 '13 at 10:29
@tez Yes & No!! Generally we can expect the array elements to be stored in consecutive memory locations starting with the lower address to higher address (The addresses are always consecutive,else pointer arithmetic won't work on the array).But there are cases like when the stack grows backwards.I can't explain that in rigorous words,so you should put it in another question so that top contributors like Jonathan Leffer,David Pischer or Mat can answer. – Rüppell's Vulture May 6 '13 at 10:36
@tez I've posted that question for you.Here's the link. stackoverflow.com/questions/16397175/… – Rüppell's Vulture May 6 '13 at 10:57
Thank you very much for the help. Hope one day I'll have enough knowledge to contribute to this wonderful community. – tez May 6 '13 at 11:18

For little endian, the least significant bits are stored in the first byte (with the lowest address).

That's what you're seeing, so it seems there is sanity ;)

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00000001 (Hexadecimal: 32 bits)
^^    ^^
MS    LS
Byte  Byte

Least Significant Byte at lowest address => little-endian. The integer is placed into memory, starting from its little-end. Hence the name.


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I am afraid you are wrong.You are talking about bits in you illustration,and you are using terms like MSB and LSB which are related to Bytes not Bits. – Rüppell's Vulture May 6 '13 at 9:52
Order of bits in a byte don't differ between little-endian and big-endian.The above illustration is completely wrong. – Rüppell's Vulture May 6 '13 at 9:52
@Rüppell'sVulture I point to a set of 2 nibbles, in hex. I was referring to bytes, not bits. Edited to make it clearer. – Anirudh Ramanathan May 6 '13 at 9:54
@Rüppell'sVulture : I think that might have been a hexadecimal value, rather than a binary value - it's admittedly hard to distinguish. – Sander De Dycker May 6 '13 at 9:55

You have the byte containing "1" (least significant) as first element (e.c[0]) and the byte containing "0" being the second one (e.c[1]). This is litte endian, isn't it?

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You are wrong about what is Big endian and what is little endian. Read this

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Looks good to me. "little endian" (aka "the right way" :-) means "lower-order bytes stored first", and that's exactly what your code shows. (BTW, you should use "%p" to print the addresses).

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Thanks for pointing out '%d'.Its been long since I used C – tez May 6 '13 at 9:52
-1 for calling the right way to little endian! Saying the temperature is 5 tenths, and 3 units and 7 tens is not the right way :) – pmg May 6 '13 at 10:06
I come from a C background. Seems to me that (short)i ought to equal *(short *)(&i). – Lee Daniel Crocker May 6 '13 at 18:21

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