Exemplo n.º 1
0
 def getNextBiggerNumber(self, num):
     #first find the non trailing 0
     oneCounter = 0
     pivot = -1
     bitCounter = -1
     foundOne = False
     curNum = num
     while curNum > 0:
         bitCounter += 1
         if curNum % 2 == 0:
             if foundOne:
                 pivot = bitCounter
                 break
         else:
             oneCounter += 1
             foundOne = True
         curNum = curNum // 2
     if pivot == -1:
         return None
     #now we need to:
     #set the bit at pivot, reset all the trailing 0, add back oneCounter-1 "1"
     temp = Generic.setBit(num, pivot)
     #print(Generic.DecToBinaryString(temp))
     temp = Generic.clearBitFromStart(temp, pivot - 1)
     #print(Generic.DecToBinaryString(temp))
     setNum = (1 << oneCounter - 1) - 1
     #print(Generic.DecToBinaryString(setNum))
     temp = temp | setNum
     #print(Generic.DecToBinaryString(temp))
     return temp
Exemplo n.º 2
0
 def getPrevSmallerNumber(self, num):
     #first find the non trailing 1
     oneCounter = 0
     pivot = -1
     bitCounter = -1
     foundZero = False
     curNum = num
     while curNum > 0:
         bitCounter += 1
         if curNum % 2 == 0:
             foundZero = True
         else:
             if foundZero:
                 pivot = bitCounter
                 break
             else:
                 oneCounter += 1
         curNum = curNum // 2
     if pivot == -1:
         return None
     #now we need to:
     #reset the bit at pivot till start, add back oneCounter+1 "1"
     temp = Generic.clearBitFromStart(num, pivot)
     print(Generic.DecToBinaryString(temp))
     setNum = (1 << oneCounter + 1) - 1
     print(Generic.DecToBinaryString(setNum))
     temp = temp | setNum
     print(Generic.DecToBinaryString(temp))
     return temp
Exemplo n.º 3
0
 def insertion(self, a, b, i, j):
     if len(b) > j - i + 1:
         raise IndexError
     #Create mask of 0 from j -> i, rest should be 1 -> ~ (1 from i-j)
     numA = Generic.BinaryStringToDec(a)
     numB = Generic.BinaryStringToDec(b)
     #Clear bit j->i of num A
     mask = ~(Generic.clearBitFromStart(((1 << j + 1) - 1), i - 1))
     numA = numA & mask
     #shit left num b i bit
     numB = numB << i
     return Generic.DecToBinaryString(numA | numB)
Exemplo n.º 4
0
import BitManipulation.Generic as Generic
class Solution:
    def flipBit(self, num):
        data = {}
        oneCounter = 0
        prevIdx = -1
        curBit = -1
        while num > 0:
            curBit += 1
            temp = num % 2
            if temp == 0:
                data[curBit] = oneCounter + 1
                if prevIdx in data:
                    data[prevIdx] += oneCounter
                prevIdx = curBit
                oneCounter = 0
            else:
                oneCounter += 1
            num = num // 2
        if prevIdx in data:
            data[prevIdx] += oneCounter

        return max(data.values())

if __name__ == "__main__":
    bin = "11011100111"
    num = 1775
    A = Solution()
    print(A.flipBit(Generic.BinaryStringToDec(bin)))
Exemplo n.º 5
0
import BitManipulation.Generic as Generic


class Solution:
    def pairwiseSwap(self, num):
        #Assume number is of type integer 32 bits
        onlyEven = 0xAAAAAAAA
        onlyOdd = 0x55555555
        #calculate even and odd bit number
        even = num & onlyEven
        odd = num & onlyOdd
        #shift right even + shiftleft odd
        even = even >> 1
        odd = odd << 1
        return even | odd


if __name__ == '__main__':
    bin = "110110101101100"
    print(" " + bin)
    num = Generic.BinaryStringToDec(bin)
    A = Solution()
    res = A.pairwiseSwap(num)
    print(Generic.DecToBinaryString(res))
Exemplo n.º 6
0
        while curNum > 0:
            bitCounter += 1
            if curNum % 2 == 0:
                foundZero = True
            else:
                if foundZero:
                    pivot = bitCounter
                    break
                else:
                    oneCounter += 1
            curNum = curNum // 2
        if pivot == -1:
            return None
        #now we need to:
        #reset the bit at pivot till start, add back oneCounter+1 "1"
        temp = Generic.clearBitFromStart(num, pivot)
        print(Generic.DecToBinaryString(temp))
        setNum = (1 << oneCounter + 1) - 1
        print(Generic.DecToBinaryString(setNum))
        temp = temp | setNum
        print(Generic.DecToBinaryString(temp))
        return temp


if __name__ == '__main__':
    A = Solution()
    binNum = "11011001111011"
    num = Generic.BinaryStringToDec(binNum)
    print(num)
    print(A.getPrevSmallerNumber(num))
Exemplo n.º 7
0
#Find number of bit needed to be flipped to turn a -> b
import BitManipulation.Generic as Generic

class Solution:
    def conversion(self,a ,b):
        res = 0
        while a > 0 and b > 0:
            if a%2 != b%2:
                res += 1
            a = a//2
            b = b//2
        while a>0:
            if a%2 == 1:
                res += 1
            a = a//2
        while b > 0:
            if b%2 == 1:
                res += 1
            b = b//2
        return  res

if __name__ == '__main__':
    a = 100
    b = 15
    print(Generic.DecToBinaryString(a))
    print(Generic.DecToBinaryString(b))
    A = Solution()
    print(A.conversion(b,a))