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I started working on a concept that requires me to find a way to move a rectangle toward a given point at a given speed. I'm developing for Android so this is relatively speed critical (it's going to be calculated every frame for potentially hundreds of objects, as well.)

The solutions I could think of are as follows:

float diff_x = x2 - x1;
float diff_y = y2 - y1;
float length = sqrt((diff_x * diff_x) + (diff_y * diff_y));
float dir_x = diff_x / len;
float dir_y = diff_y / len;

float move_x = dir_x * MOVE_SPEED;
float move_y = dir_y * MOVE_SPEED;

As you can see, this way requires a square root, which I know to be quite costly. I thought of an alternative, which uses trigonometry, but it's costly as well.

float diff_x = x2 - x1;
float diff_y = y2 - y1;
float angle = atan2(diff_y, diff_x);

float move_x = sin(angle) * MOVE_SPEED;
float move_y = cos(angle) * MOVE_SPEED;

Are there any other ways? If not, which of my solutions would be faster? Thanks for any help.

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can't think of any other ways. if the point does not move, you could cache the unit vector –  Ray Tayek Jun 19 '11 at 23:26

1 Answer 1

up vote 1 down vote accepted

A very common tric you can use is to put everything squarred/power of two/ ^2

this way instead of using sqrt you just use

length = (diff_x * diff_x) + (diff_y * diff_y);
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Oh thanks, I hadn't thought of that. Surprising I haven't seen it before. –  Kyle Emmerich Jun 19 '11 at 23:57

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