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if I have the following code:

int i = 5;
void * ptr = &i;
printf("%p", ptr);

Will I get the LSB address of i, or the MSB?
Will it act differently between platforms?
Is there a difference here between C and C++?

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It's undefined behaviour. The only way to print ptr is with %p, or by converting it to intptr_t and using the according print formatting macro. – Kerrek SB Aug 16 '12 at 10:41
Isnt it about endianness? – huseyin tugrul buyukisik Aug 16 '12 at 10:41
up vote 9 down vote accepted

Consider the size of int is 4 bytes. Always &i will gives you the first address of those 4 bytes.

If the architecture is little endian, then the lower address will have the LSB like below.

Address | 1000 | 1001 | 1002 | 1003 |
Value   |   5  |    0 |    0 |    0 |

If the architecture is big endian, then the lower address will have the MSB like below.

Address | 1000 | 1001 | 1002 | 1003 |
Value   |   0  |    0 |    0 |    5 |

So &i will give LSB address of i if little endian or it will give MSB address of i if big endian

In mixed endian mode also, either little or big endian will be choosed for each task dynamically.

Below logic will tells you the endianess

int i = 5; 
void * ptr = &i; 
char * ch = (char *) ptr;

printf("%p", ptr); 
if (5 == (*ch))
    printf("\nlittle endian\n");
    printf("\nbig endian\n");

This behaviour will be same for both c and c++

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It depends on the endianness of the platform; if it's a little-endian platform, you'll get a pointer to the LSB, if it's a big-endian platform it will point the MSB. There are even some mixed-endian plaforms, in that case may God have mercy of your soul check the specific documentation of your compiler/CPU.

Still, you can perform a quick check at runtime:

uint32_t i=0x01020304;
char le[4]={4, 3, 2, 1};
char be[4]={1, 2, 3, 4};
if(memcmp(&i, le, 4)==0)
    puts("Little endian");
else if(memcmp(&i, be, 4)==0)
    puts("Big endian");
    puts("Mixed endian");

By the way, to print pointers you must use the %p placeholder, not %d.

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Please clarify my small doubt. As per my knowledge mixed endian system will choose either little or big endian for each task. Please tell me whats the use of else case in your porgram. Whether my understanding about mixed endian is wrong? – raja ashok Aug 17 '12 at 10:46
"Mixed endian" is a catchall term used for architectures where the byte ordering is not the canonical big-endian or little-endian (check wikipedia for some examples); my code simply checks if the memory representation of that 32-bit integer matches the expected one for big-endian or little-endian systems, if it doesn't match it doesn't investigate further and just says that it's mixed endian. – Matteo Italia Aug 17 '12 at 17:18

Will I get the LSB address of i, or the MSB?

This is platform dependent: it will be the lowest addressed byte, which may be MSB or LSB depending on your platform's endianness.

Although this is not written in the standard directly, this is what's implied by section

When a pointer to an object is converted to a pointer to a character type, the result points to the lowest addressed byte of the object.

Will it act differently between platforms?


Is there a difference here between c and c++?

No: it is platform-dependent in both C and C++

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Though I almost certain this is correct - can you please provide a reference for these claims? – amit Aug 16 '12 at 10:43
@amit I did not find a direct confirmation, but the standard does say "the lowest addressed byte" in the section where it talks about conversion to char pointer. – dasblinkenlight Aug 16 '12 at 11:01
Thanks for your effort all the same. – amit Aug 16 '12 at 11:02

ptr stores the address of the starting byte of the integer object. Whether this is where the most or the least significant byte is stored depends on your platform. Some weird platforms even use mixed endianness in which case it'll be neither the MSB nor the LSB.

There is no difference between C and C++ in that respect.

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What it points is MSB for my VC++ 2010 and Digital Mars. But it is related to endianness.

This question's answers give some infor for you: Detecting endianness programmatically in a C++ program.

Here, user "none" says:

#define BIG_ENDIAN      0
#define LITTLE_ENDIAN   1
 int TestByteOrder()
   short int word = 0x0001;
   char *byte = (char *) &word;
   return(byte[0] ? LITTLE_ENDIAN : BIG_ENDIAN);

This gives some endianness info

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well I get the LSB address of i, or the MSB?

It depends on the machine and the OS. On big endian machines and OS's you will get the MSB and on little endian machines and OS's you will get the LSB.

Windows is always little endian. All (most ?) flavors of Linux/Unix on x86 is little endian. Linux/Unix on Motorola machines is big endian. Mac OS on x86 machines is little endian. On PowerPC machines it's big endian.

well it act differently between platforms? Yes it will.

is there a difference here between c and c++? Probably not.

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