Implementing if - else if using bitwise operators

Assume that the value of `test` is `1` or `0`. Here I can implement the following if statement using bitwise operators as below.

``````if (test)
output = a;
else
output = b;
``````

Using bit wise operators

``````output = (((test << 31) >> 31) & a) | (((test << 31) >> 31) & b);
``````

Now I want to implement the following if statements using bitwise operators.

``````if (test1)
output = a;
else if (test2)
output = b;
else if (test3)
output = c;
else
output = d;
``````

The values of `test1`, `test2`, `test3` are either `0` or `1`.

Any suggestions to do that ?

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Why do you want to? –  Pubby Jun 2 '13 at 1:31
Are you allowed to use not `!`? –  FDinoff Jun 2 '13 at 1:32
`+` is not a bitwise operator. –  Oliver Charlesworth Jun 2 '13 at 1:35
What's type of `test`? –  kotlomoy Jun 2 '13 at 1:40
@noufal: Thanks, but you still haven't addressed the very first comment, above. What is the motivation for this requirement? Is it branch-avoidance, an intellectual exercise, homework, or something else? –  Marcelo Cantos Jun 2 '13 at 1:56

I assume you meant this for your original if statement.

``````output = (((test << 31) >> 31) & a) | (((!test << 31) >> 31) & b);
``````

Not in front of test so that this isn't a+b when test is 1 and 0 when test is 0 and I replaced `+` with `|` because each case should be 0 except for the one you want.

To do the cascaded if else if else statements you could rewrite the expression so that they are dependent on the previous test.

``````if (test1)
output = a
if (!test1 & test2)
output = b
if (!test1 & !test2 & test3)
output = c
if (!test1 & !test2 & !test3)
output = d
``````

This leads to an expression like this for all the if else ifs.

``````output = (((test1 << 31) >> 31) & a)
| ((((!test1 & test2) << 31) >> 31) & b)
| ((((!test1 & !test2 & test3) << 31) >> 31) & c)
| ((((!test1 & !test2 & !test3) << 31) >> 31) & d)
``````
-
Why the wasteful and unportable ((test << 31) >> 31) instead of (test & 1) ? –  Lee Daniel Crocker Jun 2 '13 at 2:22
@LeeDanielCrocker Its very unportable but its supposed to make a true value 0xFFFFFFFF and a false value 0x00000000. This happens because test1 is assumed to be signed and 32 bits. Shifting the 1 all the way to the highest position and then shifting it back fills it with ones because the computer is doing a signed shift. This is not equivalent to (test & 1) –  FDinoff Jun 2 '13 at 2:33
Then that's just (-(test & 1)). Big shifts just seem wasteful. –  Lee Daniel Crocker Jun 2 '13 at 2:39
@LeeDanielCrocker That would turn 1 into 0xFFFFFFFE and 0 into 0xFFFFFFFF. These aren't the same. Also the test with `& 1` is pointless since test is assumed to be 0 or 1 according to the question –  FDinoff Jun 2 '13 at 2:47
Um, no, look again. (test & 1) evaluates to either 0 or 1, then the negative sign makes it 0 or -1, which is 0xFFFFFFFF. If we already know that it's 0 or 1, so much the better, then we just want `-test`. –  Lee Daniel Crocker Jun 2 '13 at 3:00

Does it have be bitwise operators? What about:

``````output = (    test1) * a +
(1 - test1) * ((    test2) * b +
(1 - test2) * ((    test3) * c +
(1 - test3) * d));
``````

Another possibility, only using bit-wise operators, is this:

``````switch ((test1 << 2) | (test2 << 1) | test3) {
case 0: output = d; break;
case 1: output = c; break;
case 2:
case 3: output = b; break;
case 4:
case 5:
case 6:
case 7: output = a; break;
}
``````

If you're lucky (and if it speeds things up), the compiler will implement the switch using a jump table.

You really have to question, though, whether these tricksy solutions offer enough of a speed bump (if they do) to justify the additional complexity. I assume you're trying to avoid branching.

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