int x = 123;
int low = x & 0x0F;
int high = (x & 0xF0) >> 4;
This is called masking and shifting. By
0xF (which is binary
00001111) we remove the higher four bits.
0xF0 (which is binary
11110000) removes the lower four bits. Then (in the latter case), we shift to the right by 4 bits, in effect, pushing away the lower 4 bits and leaving only what were the upper 4 bits.
As @owlstead says in the comments below, there's another way to get the higher bits. Instead of masking the lower bits then shifting, we can just shift.
int high = x >> 4;
Note that we don't need to mask the lower bits since whatever they were, they're gone (we've pushed them out). The above example is clearer since we explicitly zero them out first, but there's no need to do so for this particular example.
But to deal with numbers bigger than 16 bits (
int is usually 32 bits), we still need to mask, because we can have the even higher sixteen bits getting in the way!
int high = (x >> 4) & 0x0F;