I want to find a point on segment line AB, that is closest to another point P.

My idea was:

  1. Get a1 and b1 from line formula y1 = a1x + b1, using A and B points coordinates.
  2. Get normal line formula, from a1 and P coordinates, y2 = a2x + b2.
  3. Get intersection point x coord, by equating y1 and y2 and next using one of above formulas, to get y.

enter image description here

My code:

#include <SFML\Graphics.hpp>
#include <iostream>

sf::Vector2f getClosestPointOnLine(sf::Vector2f A, sf::Vector2f B, sf::Vector2f P)
    //convert to line formula
    float a = (B.y - A.y)/(B.x - A.x);
    float b = -a * A.x + A.y;

    //get normal line formula
    float a2 = -a / 2;
    float b2 = -a2 * P.x + P.y;

    //get x
    float a3 = a - a2;
    float b3 = b2 - b;

    float x = b3 / a3;

    //get y
    float y = a * x + b;

    return { x, y };

int main()
    sf::RenderWindow gameWindow(sf::VideoMode(800, 600), "App");

    sf::View view(sf::FloatRect(0, 0, 800, 600));


    sf::VertexArray plane(sf::LinesStrip, 2);

    plane[0] = { { view.getSize().x * 0.5f, view.getSize().y * 0.8f } };
    plane[1] = { { view.getSize().x * 0.8f, view.getSize().y * 0.6f } };

    sf::CircleShape ball(10);

    ball.setOrigin(10, 10);
    ball.setPosition({view.getSize().x * 0.7f, view.getSize().y * 0.4f});

    while (gameWindow.isOpen())
        sf::Event e;
        while (gameWindow.pollEvent(e))
            if (e.type == sf::Event::Closed)

        gameWindow.clear(sf::Color{30, 30, 30});


        sf::Vector2f closest = getClosestPointOnLine(plane[0].position, plane[1].position, ball.getPosition());

        sf::CircleShape cs(5);
        cs.setOrigin(5, 5 );


Result: enter image description here

As you can see function getClosestPointOnLine returns me wrong intersection point. What is wrong with my function?

------------------EDIT: As n.m. mentioned, -a / 2 is not formula for normal line slope, I was wrong with this formula, the right is: -1 / a.

  • To blend away all the implementation details, what is given and what do you want to have ? (Good pictures btw) – user1767754 Nov 25 '17 at 1:14
  • 1
    float a2 = -a / 2; is not a normal line formula, where did you get that? Your idea also doesn't take into account that lines can be vertical and horizontal. – n.m. Nov 25 '17 at 1:15
  • @user1767754 I have weird offset, the line between bigger point and smaller point in the line segment must be normal to that line segment. – wdsa Nov 25 '17 at 1:18

What you want is the projection of P onto the line segment. You can do this with the dot product:

auto AB = B - A;
auto AP = P - A;
float lengthSqrAB = AB.x * AB.x + AB.y * AB.y;
float t = (AP.x * AB.x + AP.y * AB.y) / lengthSqrAB;

Now, t is the interpolation parameter between A and B. If it is 0, then the point projects onto A. If it is 1, it projects onto B. Fractional values represent points in between. If you want to restrict the projection to the line segment, then you need to clamp t:

if(t < 0)
    t = 0;
if(t > 1)
    t = 1;

And finally, you can calculate the point:

return A + t * AB;

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