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Is there a way to safety and simply deal with angle wrap with the minimum number of case statements.

Angle wrap occurs when using a particular representation for angle (either 0-360 deg or -180 - 180 deg (or equivalent in radians)) and you wrap over the angle. For example say you have an angle of -170, and you subtract 50 deg. You mathematically add up to -220 but should actually be +140 deg.

Obviously you can check for this using:

if (deg < -180) { 180 - abs(deg + 180); }

or similar. But firstly you need multitudes of checks and secondly it doesn't work if you wrap twice.

The second case where this is prevalent is in the interpolation between two angles.

For Example, say I have an angle of -170 deg and 160 deg and I want halfway in between them. A common way to do this is ang1 + 0.5(ang2-ang1) but in the example i have provided it will cause the angle to be -5 deg when it should be 175.

Is there a common way to handle angle wrap in these scenarios?

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Are you after performance? Or just the shortest solution that works? – Mysticial Jul 16 '12 at 4:40
Not performance, more like simplicity and ease of reading. (Of course the complex number may not be the case but i would still like to have a look at that). – Ben Jul 16 '12 at 4:41
So you want to normalize an angle to [0, 360)? – Mysticial Jul 16 '12 at 4:42
Well to be honest i would prefer to deal with normalising to [-180, 180) – Ben Jul 16 '12 at 4:44
With respect to your edit: There's two ways to bisect an angle. And they differ by exactly 180 degrees. The algorithm you have gives one of them. Add/subtract 180 degrees and you get the other one. At this point you should wrap them to [-180,180). You now have two angles, you can pick the "better" of them by seeing which is "closest" to the initial two angles. – Mysticial Jul 16 '12 at 23:47
up vote 36 down vote accepted

For completeness I'll include both [0, 360) and [-180, 180) normalizations.

You will need #include <math.h>.

Normalize to [0,360):

double constrainAngle(double x){
    x = fmod(x,360);
    if (x < 0)
        x += 360;
    return x;

Normalize to [-180,180):

double constrainAngle(double x){
    x = fmod(x + 180,360);
    if (x < 0)
        x += 360;
    return x - 180;

The pattern should be easy enough to recognize to generalize to radians.

Angle Bisection:

double angleDiff(double a,double b){
    double dif = fmod(b - a + 180,360);
    if (dif < 0)
        dif += 360;
    return dif - 180;
double bisectAngle(double a,double b){
    return constrainAngle(a + angleDiff(a,b) * 0.5);

This should bisect an angle on the "smaller" side. (warning: not fully tested)

share|improve this answer
And if you want ease of reading, you could always just make it an inline function in a header. Something like double constrainAngle(const double x); – user1118321 Jul 16 '12 at 4:51
Good idea, I'll do that in a sec. – Mysticial Jul 16 '12 at 4:51
This does the wrong thing for negative numbers. (Or numbers less than -180 for the second case) - This is because fmod(x,y) has the same sign as x. – Michael Anderson Jul 16 '12 at 4:57
@MichaelAnderson Oh, you are right. I'll fix that in a min... – Mysticial Jul 16 '12 at 4:57
Hey Mystical, this is a great answer, unfortunately i haven't made my question very good and it does not really answer what i am trying to do. Please read the edit. – Ben Jul 16 '12 at 23:34

So if figured out a way to effectively do what i want using Mystical's approach to constraining the Angle. Here it is:

enter image description here

This seems to work with any example i can think of.

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Yeah, the equation is the same as mine - assuming the [180,180) version of constrainAngle(). So I think we're done. – Mysticial Jul 17 '12 at 0:18
@Mystical, yep, thanks for your help. – Ben Jul 17 '12 at 0:38

I find using remainder() (math.h) convenient. To constrain an angle a, to -180,180 its:

remainder( a, 360.0);

and change the 360.0 to 2.O*M_PI for radians

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Requires VS 2013 or C++11 – Leif Gruenwoldt Mar 22 '14 at 5:39

Map angle(+PI ~ -PI) to signed int value (or short value):

angle_signed_short = angle_float / PI * 0x7FFFF;

Then you can add or sub value as normal. Then map back:

angle_float = angle_signed_short * PI / 0x7FFFF;
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