This method shifts the relevant bit to the zeroth position.
Then we perform AND operation with one which has bit
pattern like 0001. This clears all bits from the original
number except the relevant one. If the relevant bit is one,
the result is 1, otherwise the result is 0.
See
getBitfunction for further details.
This method shifts 1 over by bitPosition bits, creating a
value that looks like 00100. Then we perform OR operation
that sets specific bit into 1 but it does not affect on
other bits of the number.
See
setBitfunction for further details.
This method shifts 1 over by bitPosition bits, creating a
value that looks like 00100. Than it inverts this mask to get
the number that looks like 11011. Then AND operation is
being applied to both the number and the mask. That operation
unsets the bit.
See
clearBitfunction for further details.
This method is a combination of "Clear Bit" and "Set Bit" methods.
See
updateBitfunction for further details.
This method shifts original number by one bit to the left. Thus all binary number components (powers of two) are being multiplying by two and thus the number itself is being multiplied by two.
Before the shift
Number: 0b0101 = 5
Powers of two: 0 + 2^2 + 0 + 2^0
After the shift
Number: 0b1010 = 10
Powers of two: 2^3 + 0 + 2^1 + 0
See
multiplyByTwofunction for further details.
This method shifts original number by one bit to the right. Thus all binary number components (powers of two) are being divided by two and thus the number itself is being divided by two without remainder.
Before the shift
Number: 0b0101 = 5
Powers of two: 0 + 2^2 + 0 + 2^0
After the shift
Number: 0b0010 = 2
Powers of two: 0 + 0 + 2^1 + 0
See
divideByTwofunction for further details.
This method make positive numbers to be negative and backwards. To do so it uses "Twos Complement" approach which does it by inverting all of the bits of the number and adding 1 to it.
1101 -3
1110 -2
1111 -1
0000 0
0001 1
0010 2
0011 3
See
switchSignfunction for further details.