Reading or writing a C code, I often have difficulties translating the numbers from the binary to the hex representations and back. Usually, different masks like 0xAAAA5555
are used very often in low-level programming, but it's difficult to recognize a special pattern of bits they represent. Is there any easy-to-remember rule how to do it fast in the mind?
3 回答
Each hex digit map exactly on 4 bit, I usually keep in mind the 8421 weights of each of these bits, so it is very easy to do even an in mind conversion ie
A = 10 = 8+2 = 1010 ... 5 = 4+1 = 0101
just keep the 8-4-2-1 weights in mind.
A 5
8+4+2+1 8+4+2+1
1 0 1 0 0 1 0 1
I always find easy to map HEX to BINARY numbers. Since each hex digit can be directly mapped to a four digit binary number, you can think of:
> 0xA4
As
> b 1010 0100
> ---- ---- (4 binary digits for each part)
> A 4
The conversion is calculated by dividing the base 10 representation by 2 and stringing the remainders in reverse order. I do this in my head, seems to work.
So you say what does 0xAAAA5555
look like
I just work out what A looks like and 5 looks like by doing
A = 10
10 / 2 = 5 r 0
5 / 2 = 2 r 1
2 / 2 = 1 r 0
1 / 2 = 0 r 1
so I know the A's look like 1010
(Note that 4 fingers are a good way to remember the remainders!)
You can string blocks of 4 bits together, so A A is 1010 1010. To convert binary back to hex, I always go through base 10 again by summing up the powers of 2. You can do this by forming blocks of 4 bits (padding with 0s) and string the results.
so 111011101
is 0001 1101 1101
which is (1) (1 + 4 + 8) (1 + 4 + 8) = 1 13 13
which is 1DD