# Modified a constant in c

const int z = 420;

printf("\n%d | %d",z ,*(&(*(&z+1))-1) );
// O/P:420 | 420

// O/P:1310548  | 1310548

*((char *)&z+1) = 21;       //I change value for the 1st-Bit
//corrupting constant

printf("\n%d | %d",z ,*(&(*(&z+1))-1) );
//the complex(not really) expression evaluates to z
// O/P:420| 5540

printf("\n%u | %u",&z ,(&(*(&z+1))-1) );
//the complex(not really) expression evaluates to &z
// O/P:1310548 | 1310548

Why is this happening?

it seems that I have successfully modified constant in C

by modify I mean I have changed the bits in the constants address range

as the "complex(not really) unity/identity expression" changes value after corruption.

but the z remains same. Why?

how come same address have different values when de-referenced. ?

PS: u can use any identity expression

eg.printf("%d",*(int*)((char*)&(*((char*)&z+1))-1));

ok let me re-phrase it:

z = 420

&z = 1310548

*(&(*(&z+1))-1) = 420

(&(*(&z+1))-1)  = 1310548

now I do to corrupt the constant

*((char *)&z+1) = 21;

NOW AFTER CORRUPTING:

z = 420     // NO CHANGE EVEN THOUGH I have corrupted

&z = 1310548

*(&(*(&z+1))-1) = z = 5540    // THE CHANGE

(&(*(&z+1))-1)  = &z = 1310548

WHY?

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Perhaps the compiler is optimizing z by putting it in a register. Then you do the crazy stuff of accesing the memory of z and change it, so the compiler actually reads the memory. It would be interesting to try it without any optimizations. –  Starkey Oct 9 '10 at 15:25
I don't think const in C means what you think it does. –  Williham Totland Oct 9 '10 at 15:27
This is some truly obfuscated code. –  Rafe Kettler Oct 9 '10 at 15:29
omg... *(&(*(&z+1))-1) IS LIKE z... (&(*(&z+1))-1) IS LIKE &z –  bakra Oct 9 '10 at 15:32
C is not exactly well-known for its type safety. –  Claptrap Oct 9 '10 at 15:44

There's not a while lot of mystery here. By using casts to tell the compiler that what you're changing isn't const qualified, you're causing undefined behavior:

6.7.3/5 "Type qualifiers" (C99):

If an attempt is made to modify an object defined with a const-qualiﬁed type through use of an lvalue with non-const-qualified type, the behavior is undefined.

Some implementations might have placed the variable z in read only memory and you'd either get no apparent change or some sort of access violation.

In any case, undefined behavior means all bets are off - in your case you're able to see the apparent modification of a const value.

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Congratulations, you lied to the the compiler and it bit you.

Casts tell the compiler that you are intentionally breaking the rules and imply that you know what you are doing. C is happy to allow you to shoot yourself in the proverbial foot when you do this.

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hmm? Still the same address de-referenced is giving different answer.. –  bakra Oct 9 '10 at 15:30
because it's not stored in read-only memory.. 'const' only tells compiler that it should'n be changed –  fazo Oct 9 '10 at 15:36
I don't get ur explanation... see the edit –  bakra Oct 9 '10 at 15:43