Although it's not direct, most languages can also parse a string. Java can convert "10101000" into an int with a method.
Not that this is efficient or anything... Just saying it's there. If it were done in a static initialization block, it might even be done at compile time depending on the compiler.
If you're any good at binary, even with a short number it's pretty straight forward to see 0x3c as 4 ones followed by 2 zeros, whereas even that short a number in binary would be 0b111100 which might make your eyes hurt before you were certain of the number of ones.
0xff9f is exactly 4+4+1 ones, 2 zeros and 5 ones (on sight the bitmask is obvious). Trying to count out 0b1111111110011111 is much more irritating.
I think the issue may be that language designers are always balls-deep in hex/octal/binary/whatever and just think this way. If you are less experienced, I can totally see how these conversions wouldn't be as obvious.
Hey, that reminds me of something I came up with while thinking about base conversions. A sequence--I didn't think anyone could figure out the "Next Number", but one guy actually did, so it is solvable. Give it a try:
By the way, this sequence can be created by feeding sequential numbers into single built-in function in most languages (Java for sure).