You can't AND different bit lengths in C, because you can't apply any binary operator (except shift) on operands of different types. If you write code where the operands are different types, the C compiler will first convert them to the same type (and so the same size) BEFORE doing the operations. There are 7 pages in the C spec (section 6.3) devoted to the details of precisely how this happens.
As a result when you have:
int32_t combine = (int32_t) num1 & num2;
num2 are both
unsigned long and that is 64 bits, what will happen is:
- The cast will truncate
num1 to 32 bits
- The AND has different operand types (int32_t and uint64_t), so the int32_t will be sign extended to 64 bits.
- The AND is performed on those two 64 bit values
- The result is truncated back to 32 bits and stored in
num1 is 3232236032 (0xc0a80200), steps 1 and 2 will convert that to 0xffffffffc0a80200, which will be ANDed with num2, and then those top 32 bits will be thrown away.
In contrast, if you had:
int32_t combine = (int32_t)(num1 & num2);
It would do a 64 bit AND on
num2, and then trunctate to 32 bits to store in
combine. While this is quite different from the first case, the resulting value stored in
combine will be exactly the same -- only the intermediate value (the result of the bitwise AND) that noone ever sees will be different. As a result, the compiler is free to rearrange things and generate the exact same code for these two cases.