# Trying to understand representation of hex values in int form

So there is a piece written in c++ that someone wrote that I'm trying to understand. In the code below,how can the hex values get represented as they did in the output below?

``````r[0].x = 0x90807060;
r[0].b = 0x50;
``````

//extra code here

output: 60 70 80 90

``````     50
``````

What technique would be used to print 0x90807060 and 0x50 as 60 70 80 90, and 50 respectively?

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Where is the code that produces that output? –  Oli Charlesworth Oct 3 '13 at 20:50
What programming language is this, is there a formatting function? –  Daniel Gimenez Oct 3 '13 at 20:56
I'm trying to find out how a hex value like 0x90807060 can be broken down into the values of 60 70 80 90. It's in c++ –  BrandiNo Oct 3 '13 at 20:57

In C:

``````int main()
{
int  a = 0x90807060;
char b = 0x50;

// Treat a as an Array of unsigned chars, and print them 1-by-1.
for(int i=0; i<sizeof(a); ++i)
{
printf("%x ", ((unsigned char*)&a)[i]);
}

// Print b as a Hex Value.
printf("\n%x", b);
getchar();
return 0;
}
``````

Output

``````60 70 80 90
50
``````
-

You could print output like that by using the two operators >> and &. Use shift to move the bits down to the lowest 8. Use & to mask off those bits by anding with 0xFF. Then print it out one 8 bit chunk at a time.

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Not at all necessary on an X86 platform (see my answer). –  abelenky Oct 3 '13 at 21:13
completely true, (although I think pretty much any platform allows what you posted) I guess I just output the first idea that came to mind since it was so trivial. Although I do like casting to a char and using Cs indexing to handle addressing better than shifts and masks. –  spartacus Oct 3 '13 at 21:30
Not "any platform". Only little-endian platforms, so that the 60 ends up in the "first" position. On a big-endian platform, the 90 will end up first. –  abelenky Oct 3 '13 at 21:41
``````    static void Main(string[] args)
{
R[] r = new R[] { new R() };

r[0].x = 0x90807060;
r[0].b = 0x50;

Console.WriteLine("{0:X2} {1:X2} {2:X2} {3:X2}", r[0].x << 24 >> 24, r[0].x << 16 >> 24, r[0].x << 8 >> 24, r[0].x >> 24);
Console.WriteLine("{0:X2}", r[0].b);