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In the following code

#include <iostream>

using namespace std;
struct field
   unsigned first : 5;
   unsigned second : 9;
int main()
      field word;
      int i;
   i = 0;
   cout<<"First is : "<<word.first<<" Second is : "<<word.second<<" I is "<<i<<"\n";
   word.first = 2;
   cout<<"First is : "<<word.first<<" Second is : "<<word.second<<" I is "<<i<<"\n";
   return 0;

when I initialize word.first = 2, as expected it updates 5-bits of the word, and gives the desired output. It is the output of 'i' that is a bit confusing. With word.first = 2, i gives output as 2, and when I do word.second = 2, output for i is 64. Since, they share the same memory block, shouldnt the output (for i) in the latter case be 2?

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2 Answers 2

up vote 7 down vote accepted

This particular result is platform-specific; you should read up on endianness.

But to answer your question, no, word.first and word.second don't share memory; they occupy separate bits. Evidently, the underlying representation on your platform is thus:

bit   15 14 13 12 11 10  9  8  7  6  5  4  3  2  1  0
     |     |         second           |    first     |
     |<------------------- i ----------------------->|

So setting word.second = 2 sets bit #6 of i, and 26 = 64.

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I meant for word and 'i' sharing the memory block –  UnderDog Jan 13 '13 at 20:39
Yes, but word.first and word.second use different bits in word. –  Mr Lister Jan 13 '13 at 20:42
@oli The explanation I was looking for. Thanks a ton! –  UnderDog Jan 13 '13 at 20:43
only that first doesnt last till bit#5, it does till bit#4.. Can you change it? –  UnderDog Jan 13 '13 at 21:02
@UnderDog: Indeed, and I haven't drawn it that way! –  Oliver Charlesworth Jan 13 '13 at 21:09

While this depends on both your platform and your specific compiler, this is what happens in your case:

The union overlays both the int and the struct onto the same memory. Let us assume, for now, that your int has a size of 32 bits. Again, this depends on multiple factors. Your memory layout will look something like this:


Where I stands for the integer, S for the second field and F for the first field of your struct. Note that I have represented the most significant bit on the left.

When you initialize the integer to zero, all the bits are set as zero, so first and second are also zero. When you set word.first to two, the memory layout becomes:


Whichs leads to a value of 2 for the integer. However, by setting the value of word.second to 2, the memory layout becomes:


Which gives you a value of 64 for the integer.

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