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First I am not sure what is going on in this bitwise operation. I get code written and supply to other parties as code snippets.

Now if VAR is unsigned 8bit integer (unsigned char) and r is either 0 or 1 or 2 or 4. Can following be reversed if the value of r is known and resulting value is there. VAR |= 1 << r; //that is 200 where VAR was 192 and r was 3

For example initial value of VAR is 192 and value of r is 3 *result is 200*.

Now if I have this 200, and I know the value of r that was 3, can I reverse it back to 192 ?

I hope it is most easy one, but I don't know these bitwise operations, so forgive me.


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No. A bit value of 1 could've been produced from either 0 | 1 or 1 | 1. – Peteris Mar 8 '12 at 21:40
Makes sense, and even VAR <<= 3; cannot be reversed? I dont know what I am asking but it is part of question. – Jason z Mar 8 '12 at 21:46
@Jasonz That's correct. Because you don't know the bits that have been shifted off. Whenever multiple inputs can result in the same output, then the function is not invertible. – Mysticial Mar 8 '12 at 21:47
up vote 11 down vote accepted

The answer is no. This is because the | (OR) operator is not a one-to-one function.

In other words, there are multiple values of VAR that can produce the same result.

For example:

r = 3;
var0 = 8;
var1 = 0;

var0 |= 1 << r;  //  produces 8
var1 |= 1 << r;  //  produces 8

If you tried to invert it, you wouldn't be able to tell whether the original value is 0 or 8.

A similar situation applies to the & AND operator.

From an information-theory perspective:

The operators | and & incur a loss of information and do not preserve the entropy of the data.

On the other hand, operators such as ^ (XOR), +, and - are one-to-one and thus preserve entropy and are invertible.

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That one-to-one function reference paints a pretty good picture. – chris Mar 8 '12 at 22:30
Barring overflow. – Hello71 Mar 9 '12 at 4:16
Depending on the situation, that can be true. Signed integer overflow is undefined behavior. But if we assume unsigned integers, then + and - can be inverted even with overflow. For example: 0xffffffff + 1 = 0 Inverting is 0 - 1 = 0xffffffff. – Mysticial Mar 9 '12 at 4:20

No, OR is not reversable. I believe only XOR is.

For example, if variable a contains 1001 1100 or 1001 1000, and you set the third bit (from the right) to 1 regardless of what the initial value is, then both 1001 1100 and 1001 1000 as source operands would result in the same value (1001 1100).

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Firstly, 1<<2 is just another way of writing "4" or 100 in binary.

The |= operator is another way of writing x = x | y;

The end result is setting bit 2 in x. If bit 2 in x was zero then reversing it would be to clear bit 2. If bit 2 was 1, then it's a no-op.

The problem with your question is that you don't know ahead of time what the initial state of bit 2 was.

If your goal was to clear bit 2 you can do this:

x &= ~(1<<2);
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Given an expression result |= 1 << shiftAmount, corresponding to VAR and r in your original example, you can use the following to do the exact opposite:

result &= ~(1 << shiftAmount)

Note that this is not a pure inverse, because bitwise-or is not a one-to-one function. Bitwise-or sets one or more bits to 1, whether or not they were already 0 or 1. The expression I have shown above will always set the associated bits to 0, so if the bit was 1 originally it will not go back to its original state.

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No, you can't reverse an OR operation.

In your example, with r=3, both the starting values VAR=192 and VAR=200 will result in 200.

Since there are two input values that will give the same result, you won't know which one to go back to.

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