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This large application has a memory pool library which uses a treap internally to store nodes of memory. The treap is implemented using cpp macros, and the complete file trp.h can be found here. I get the following compiler warning when I attempt to compile the application:

warning: this decimal constant is unsigned only in ISO C90

By deleting portions of the macro code and using trial-and-error, I finally found the culprit:

#define trp_prio_get(a_type, a_field, a_node)               \

I'm not sure what that strange number is doing there, but I assume it's there for a good reason, so I just want to leave it alone. I do want to fix the warning though- any idea why the compiler's saying that it's unsigned only in ISO C90?

EDIT: I'm using gcc-4.1

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It'd be helpful to tell us what compiler you're using. –  AndrejaKo May 24 '10 at 17:57
The warning is also there for a reason. It tells you that the type of the literal has changed from one C version to another, so whatever good reason the original developer had may now be wrong, which might break your code in interesting ways. –  gnasher729 2 days ago

4 Answers 4

up vote 5 down vote accepted

Try to replace that number with


to force it unsigned.

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Works nicely, thanks :) –  artagnon May 24 '10 at 18:04

2654435761 is the golden ratio number corresponding with 2^32.

In Knuth's "The Art of Computer Programming", section 6.4, a multiplicative hashing scheme is introduced as a way to write hash function. The key is multiplied by the golden ratio of 2^32 (2654435761) to produce a hash result.

Since 2654435761 and 2^32 has no common factors in common, the multiplication produces a complete mapping of the key to hash result with no overlap. This method works pretty well if the keys have small values. Bad hash results are produced if the keys vary in the upper bits. As is true in all multiplications, variations of upper digits do not influence the lower digits of the multiplication result.


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What exactly is meant by the golden ratio of a number? (And the OP's asking about the warning, though I'm sure the background for the number is appreciated.) –  Jefromi May 24 '10 at 17:59
Doesn't any odd number share the attribute "no common factors"? 2^n-1 is 3 * 5 * 17 * 157 * 65537, nary a two in sight. ;) –  dash-tom-bang May 24 '10 at 18:08
@Jefromi: en.wikipedia.org/wiki/Golden_ratio –  Amber May 24 '10 at 18:37
@dash-tom-bang: no; any number that is a multiple of any of those factors would share a common factor. (So any multiple of 3, 5, et cetera.) –  Amber May 24 '10 at 19:03
So the quoted text should read something to the effect of "Since no other value in the range [0,2^32) has 2654435761 as a factor"? –  dash-tom-bang May 24 '10 at 19:25

I think that it's unsigned because it's bigger than 2,147,483,647, which is the maximum size for long signed integer, so in order to avoid wrap-around, it's treating it as unsigned and giving warning.

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Thanks for the explanation :) –  artagnon May 24 '10 at 18:12

The problem is that this constant 2654435761 is greater than 2^31. This means that with older compilers, it will actually turn into a negative value as a signed constant.

Now, in this case it doesn't matter, as due to being multiplied by an unsigned value, it will be converted back to unsigned, and the right thing will happen.

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Thanks for the explanation :) –  artagnon May 24 '10 at 18:12

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