# Algorithm for movement along linear line

## Code:

I have a function as follows:

``````bool Action::approach (img_comp &mover, sf::Vector2f start, sf::Vector2f end, int speed)
{
//Get the change in x and y
float delta_x = (end.x - start.x) / speed;
float delta_y = (end.y - start.y) / speed;

//Move the sprite
mover.sprite.move(delta_x, delta_y);

//Check if the sprite has met the end
if (mover.sprite.getPosition() == end)
return true;

return false;
}
``````

(Where `sf::Vector2f` is basically a struct with an `x` and `y` float parameter, e.g. a point on an x-y grid)

## Question:

Unsurprisingly, this function has a possibility to never return true after passing the end point due to the rounding of `float`. What algorithm do I use in this scenario to have my sprite land exactly on the `end` point, regardless of rounding?

Note: Tolerance is not an answer to my question. It is merely a compromise. I want the algorithm that picks the points perfectly the first time, regardless of any rounding. If this is impossible, let me know.

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## 3 Answers

i think you have the answer already, because of the rounding of `float` you should not do `mover.sprite.getPosition() == end` but to see if `mover.sprite.getPosition() - end` is smaller then some number, lets say

`````` float diff = mover.sprite.getPosition() - end;

if (diff < 0)
diff *= -1;

//Check if the sprite has met the end
if (diff > 0.01)
return true;
``````

that way you check not if you are on the spot but if you are close enough to the spot. to improve that you can also do:

`````` float diff = mover.sprite.getPosition() - end;

if (diff < 0)
diff *= -1;

//Check if the sprite has met the end
if (diff > 0.01){
mover.sprite.getPosition() = end; //this might not be the exact syntax but the idea is clear i hope
return true;
}
``````
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This is very helpful and, upon that edit, most likely what I will be doing, but it is not the only way, and not the way I was looking for. I would prefer an equation that lands me right on the first time, if only just for practice and the sake of knowing/being knowledgeable. –  Jim Hurley Jul 28 '13 at 8:57
@JimHurley i would like all my programs to be nit and the way i want them to work, unfortunately programing isn't like that. there is other ways to do it, but this way is by far the most understandable... –  No Idea For Name Jul 28 '13 at 9:07
I would like the perfect way, even if its not the most understandable. –  Jim Hurley Jul 28 '13 at 9:10
This solution makes assumptions about direction of movement. If end is 1 and position is 10, 10-1>0.01, so its says we've hit the end when we haven't. –  John3136 Jul 28 '13 at 9:13
@John3136 you are right, will be fixed –  No Idea For Name Jul 28 '13 at 9:15

Your sprite can go to the left or to the right, so you should consider to use absolute difference between current position and end point.

``````Epsilon = 1e-9

deltaX = (end.x - start.x) / speed
deltaY = (end.y - start.y) / speed

dirX = Math.sgn(deltaX)
dirY = Math.sgn(deltaY)

mover.sprite.move(deltaX, deltaY);

crossedEndX = dirX * (mover.sprite.getPosition().x - end.x) > Epsilon
crossedEndY = dirY * (mover.sprite.getPosition().y - end.y) > Epsilon

if(crossedEndX && crossedEndY)
return true
``````
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Instead of a direct compare, you could do something like "if point is close to end then point = end"

``````/* Set TOLERANCE to whatever makes sense.
* Could have different X and Y values too...
*/
#define TOLERANCE 0.01
sf::Vector2f &newPos = mover.sprite.getPoition();
if (abs(newPos[0] - end[0]) < TOLERANCE &&
abs(newPos[1] - end[1]) < TOLERANCE) {
{
mover.sprite.setPosition(end);
result = true;
}
``````
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