# Why does shifting more than the allowed bits still work?

I have an `int8_t` and I wanted to see what would happen if I shift it left further than 8 bits. So this is what I did:

``````int8_t x = 1;

std::cout << (x << 10);
``````

For some reason this returns 1024 as if the type contained enough bits to represent that number. I thought that when you shift more than the given bits you would get 0 in all the bits (or signed overflow/underflow which leads to undefined behavior). Also, I ran this code to give me the maximum number of `int8_t`:

``````std::numeric_limits<int8_t>::max(); // 127
``````

The max number of this type is 127 but shifting it left can make it even go higher than its unsigned type! How is this possible?

-
The arguments to `<<` are being implicitly widened to `int`, and the result of `x << 10` is also an `int`.
How can I keep it to `int8_t`? –  user2030677 Mar 24 '13 at 15:08
@DanielFischer ans NPE: Suppose if I shift like: `int8_t y = 10; std::cout << (x << y);` then it will return int ? or output would be `0` –  Grijesh Chauhan Mar 24 '13 at 15:10
@GrijeshChauhan The operands of the shift operators are subject to the integer promotions, so you always get at least `int`. –  Daniel Fischer Mar 24 '13 at 15:15
@GrijeshChauhan In that case, there's nothing new, you'll get 1024 printed. The type on the right side of `<<` and `>>` does not influence the type of the result. –  Alexey Frunze Mar 24 '13 at 15:17