If you were going to store a date as a number, maybe you would accomplish it by multiplying the year by 10000, the month by 100 and adding the day. A date such as July, 2, 2011 would be encoded as the number 20110702:
year * 10000 + month * 100 + day -> yyyymmdd
2011 * 10000 + 7 * 100 + 2 -> 20110702
We can say that we encoded the date in a yyyymmdd mask. We could describe this operation as
- Shift the year 4 positions to the left,
- shift the month 2 positions to the left and
- leave the day as is.
- Then combine the three values together.
This is the same thing that is happenning with the age, gender and height encoding, only that the author is thinking in binary.
See the ranges that those values may have:
age: 0 to 127 years
gender: M or F
height: 0 to 127 inches
If we translate those values to binary, we would have this:
age: 0 to 1111111b (7 binary digits, or bits)
gender: 0 or 1 (1 bit)
height: 0 to 1111111b (7 bits also)
With this in mind, we can encode the age-gender-height data with the mask aaaaaaaghhhhhhh, only that here we are talking about binary digits, not decimal digits.
- Shift the age 8 bits to the left,
- shift the gender 7 bits to the left and
- leave the height as is.
- Then combine all three values together.
In binary, the Shift-Left operator (<<) moves a value n positions to the left. The "Or" operator ("|" in many languages) combines values together. Therefore:
(age << 8) | (gender << 7) | height
Now, how to "decode" those values?
It's easier in binary than in decimal:
- You "mask away" the height,
- shift the gender 7 bits to the right and mask that away also, and finally
- shift the age 8 bits to the right.
The Shift-Right operator (>>) moves a value n positions to the right (whatever digits shifted "out" of the rightmost position are lost). The "And" binary operator ("&" in many languages) masks bits. To do that it needs a mask, indicating which bits to preserve and which bits to destroy (1 bits are preserved). Therefore:
height = value & 1111111b (preserve the 7 rightmost bits)
gender = (value >> 1) & 1 (preserve just one bit)
age = (value >> 8)
Since 1111111b in hex is 0x7f in most languages, that's the reason for that magic number. You would have the same effect by using 127 (which is 1111111b in decimal).