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So I am making a little game where I am checking if a character can "see" another where character A can see character B if A is within a certain distance of B, and the direction in degrees of A is +/- 45 degrees of the angle B is facing.

Currently, I do a little calculation where I'm checking if

(facingAngle - 45) =< angleOfTarget =< (facingAngle + 45)

This works fine except for when we cross the 360 degree line.

Let's say facingAngle = 359, angleOfTarget = 5. In this situation, the target is only 6 degrees off center, so I want my function to return true. Unfortunately, 5 is not between 314 and 404.

I've been staring at my screen for a very long time now, figure'd I'd ask... thanks in advance.

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3 Answers 3

up vote 4 down vote accepted

Just try

anglediff = (facingAngle - angleOfTarget + 180) % 360 - 180

if (anglediff <= 45 && anglediff>=-45) ....

The reason is that the difference in angles is facingAngle - angleOfTarget although due to wrapping effects, might be off by 360 degrees.

The add 180 then modulo 360 then subtract 180, effectively just converts everything to the range -180 to 180 degrees (by adding or subtracting 360 degrees).

Then you can check the angle difference easily, whether it is within -45 to 45 degrees.

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At first I tought it wasn't working in the topic case, but then I tested in Python.. Working!! So I went back to Pascal to figure out why it wasn't working there, turns out that mod in Pascal doesn't work with negative numbers... –  JHolta Mar 22 '13 at 8:42
    
This fails in the case where facingAngle is 0 and angleOfTarget is 359, for example. Unless I'm missing something, you get (0 - 359 + 180) % 360 - 180 = -359. An absolute value is required around the facingAngle - angleOfTarget subtraction. –  Jas Laferriere Jun 3 at 16:13

There is a trigonometric solution that avoids the wrapping problem.

I'm assuming that you have (x, y) coordinates for both characters P1 and P2. You've already specified that you know the distance between the two which you presumably calculated using Pythagoras' theorem.

You can use the dot product of two vectors to calculate the angle between them:

A . B = |A| . |B| . cos(theta).

If you take A as the facingAngle vector it will be [cos(fA), sin(fA)], and will have magnitude |A| of 1.

If you take B as the vector between the two characters, and your distance above you get:

cos(theta) = (cos(fA) * (P2x - P1x) + sin(fA) * (P2y - P1y)) / |B|

where |B| is the distance you've already calculated.

You don't need to actually take the inverse cosine to find theta, since for range of -45 to +45 you just need to check for cos(theta) >= 0.70710678 (i.e. 1 / sqrt(2)).

This might seem slightly complicated, but the chances are that you've already got all of the required variables hanging around in your program anyway.

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A simple solution to handle wrapping at the low end (into negative values), is just to add 360 to all your values:

(facingAngle + 315) =< (angleOfTarget + 360) =< (facingAngle + 405)

That way, the subtraction of 45 can never go negative, because it no longer happens.

To handle wrapping at the top end, you need to check again, adding another 360 to the angleOfTarget value:

canSee  = (facingAngle + 315 <= angleOfTarget + 360) &&
          (angleOfTarget + 360 <= facingAngle + 405);
canSee |= (facingAngle + 315 <= angleOfTarget + 720) &&
          (angleOfTarget + 720 <= facingAngle + 405);
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