How to set subset of bits in X equivalent to ones in Y

I am stymied at a part where I require to do the following: Given a number X (Say 10101010) and a number Y (Say 1110) and two position variables i,j (Say i = 1, j = 4), what I need to do is to set all the bits in X from i to j to match the bits in Y. For the example above, the answer should be 101|1110|0.

The solution what I had in mind was:

``````1. Right shift X >> i
3. Run loop from 0 to j-1
2. if(!(X (lsb) ^ Y(lsb)), then continue, else X(lsb) = ~X(lsb)
``````

The thing here is I am not sure how to play with individual bits.

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1. Create a mask where the only zeroes are in bit positions `i` to `j`, which is ~(2j+1 - 2i)

2. Result = `(mask & X) | (Y << i)`

Example in Python:

``````def replace_bits(X, Y, i, j):
return (mask & X) | (Y << i)

>>> replace_bits(int('10101010', 2), int('1110', 2), 1, 4)
188
>>> bin(replace_bits(int('10101010', 2), int('1110', 2), 1, 4))
'0b10111100'
``````
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2^j - 1 gives a number where first to jth bit is one.

So Z = ( 2^j - 1 ) - ( 2^i - 1 ) has all bits from i to j set to 1.

Now shift left Y by i bits.

X - (X&Z) +Y is the final answer.

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