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is there a more efficient way to perform:

f = fmod(x+1, 2)

to ascertain whether a value is even?


f = 1 for all even values of x

f = 0 for all odd values of x

I only need this to work for the set of positive integers (my x datatype is int)

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You can use the normal modulus operator with ints. I doubt it's any more efficient after optimizations, but x&1 works as well. –  chris Apr 8 '13 at 15:04
wierdly the original fmod seems to be quicker then x%2 on analysis with gprof –  bph Apr 10 '13 at 12:24

3 Answers 3

up vote 5 down vote accepted

Why are you using fmod() for an integer?

The standard test would be:

const int f = (x + 1) % 2; /* Will be 1 if x is even, 0 if it's odd. */

this uses the built-in integer modulo operator % to do the testing.

The addition of 1 is (in my opinion) a bit confusing, I'd do it as:

const int f = (x % 2) == 0;

Folks who "think in bits" often write the test as:

const int f = (x & 1) == 0;

since the least-significant bit must be clear for an integer to be even. That can be argued to be less clear, though.

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i don't know - i'm reading someone elses code and trying to improve it. Would you perceive a performance difference between the two operators? –  bph Apr 8 '13 at 15:08
The least significant bit of an integer does not need to be clear for an integer to be even. Generally, one should use arithmetic operators (such as %) to operate on numeric values and bitwise operators (such as &) to operate on bits. That avoids errors like this (thinking that the bit representations of all integers are two’s complement). Also x % 2 == 0 avoids overflow, unlike (x+1) % 2. –  Eric Postpischil Apr 8 '13 at 17:42

Assuming positive integers

f = 1 - (x&1);

should work for you.

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This challenges the precedence rules; the bitwise and binds less tightly than binary minus, so this is parsed as f = (1 - x) & 1. Not sure if that's a problem though, but I must say I find it a complicated solution, and the formatting makes it even more scary. :) –  unwind Apr 8 '13 at 15:24
Thanks. I think it still works but it certainly wasn't what I'd intended. Now updated. –  simonc Apr 8 '13 at 15:32

You could just cast to int, I suppose...

f = (int)x % 2;
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