# C left shift on 64 bits fail

I have this code in C (it's for study only):

``````    char x;
uint64_t total = 0;

for(x = 20; x < 30; x++){
total = (((((1 << x) * x) / 64) + 1) * sizeof(uint64_t));
printf("%d - %llu\n", x, total);
}
``````

What is printed:

``````20 - 2621448
21 - 5505032
22 - 11534344
23 - 24117256
24 - 50331656
25 - 104857608
26 - 218103816
27 - 18446744073625665544
28 - 18446744073575333896
29 - 18446744073508225032
``````

Why at x > 26 do I have those strange values? I'm at gcc 4.6.1 on Ubuntu 10.10 64 bits.

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looks like the problem is at char x, I used uint64_t for it and works good. –  Frederico Schardong Apr 6 '12 at 19:11
You will be able to see what is happening more clearly if `total = (((((1 << x) * x) / 64) + 1) * sizeof(uint64_t));` is simplified to `total = ((1 << x) * x);` then printed with `printf("%d - 0x%llx\n", x, total);` you will see the the sign bit turning the nmber negative, which is printed as a huge number by printf("... - %llu\n", ... total); –  gbulmer Apr 6 '12 at 19:14

Because `1` is an `int`, 32 bits, so `(1 << 27)*27` overflows. Use `1ull`.

Regarding your comment, if `x` is a `uint64_t`, then `1 << x` is still an `int`, but for the multiplication it would be cast to `uint64_t`, so there'd be no overflow. However, if `x >= 31`, `1 << x` would be undefined behaviour (as the resulting value cannot be represented by a signed 32 bit integer type).

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That's it man! Thanks! –  Frederico Schardong Apr 6 '12 at 19:13

I guess your problem is, you calculate with 32bit and assign it later to a 64 bit value

division by 64 is the same as not shift 6 bit

``````char x;
uint64_t one = 1;
uint64_t total = 0;

for(x = 20; x < 30; x++){
total = ((((one << (x - 6)) * x) + 1) * sizeof(uint64_t));
printf("%d - %llu\n", x, total);
}
``````

not compiled yet

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