Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I have two points A and B that define a line segment on a device screen plus another point C. Using efficient and short algorithm that is easy to code (preferably using standard math library), how do I check if the line segment AB is within a distance R from C?

I know there is a simple way to find the shortest distance from a point to a line, but it assume the line is infinitely long. What I have is a line segment with two endpoints.

I considered posting this in Math SE but decided not to since I don't want to get all those long math formula as the answer like in . What I need is an efficient and readable computer algorithm, not a formal math theorem.

p/s: I have the following Objective-C method skeleton that needs to be implemented:

typedef struct {
  CGPoint a;
  CGPoint b;
} CGLineSegment;

+ (BOOL)isLineSegment:(CGLineSegment)line withinRadius:(CGFloat)radius fromPoint:(CGPoint)point {



thanks to answer from veredesmarald (which I already accepted) I've implemented the method, put here as reference for other people:

+ (BOOL)isLineSegment:(CGLineSegment)line withinRadius:(CGFloat)radius fromPoint:(CGPoint)point {
    CGPoint v = CGPointMake(line.b.x - line.a.x, line.b.y - line.a.y);
    CGPoint w = CGPointMake(point.x - line.a.x, point.y - line.a.y);
    CGFloat c1 = dotProduct(w, v);
    CGFloat c2 = dotProduct(v, v);
    CGFloat d;
    if (c1 <= 0) {
        d = distance(point, line.a);
    else if (c2 <= c1) {
        d = distance(point, line.b);
    else {
        CGFloat b = c1 / c2;
        CGPoint Pb = CGPointMake(line.a.x + b * v.x, line.a.y + b * v.y);
        d = distance(point, Pb);
    return d <= radius;

CGFloat distance(const CGPoint p1, const CGPoint p2) {
    return sqrt(pow(p2.x - p1.x, 2) + pow(p2.y - p1.y, 2));

CGFloat dotProduct(const CGPoint p1, const CGPoint p2) {
    return p1.x * p2.x + p1.y * p2.y;
share|improve this question
Before being able to translate it to code, you must have (and preferably understand!) the math involved. – Bart Kiers May 20 '11 at 7:17
@Bart Kiers yup that's true but so I'm looking for the math, not formula, as I've emphasized in my question. I have no problem with simple to intermediate geometry math. – Lukman May 20 '11 at 7:20

1 Answer 1

up vote 7 down vote accepted

When I had to implement a method to determine the distance from a point to an interval for a graphics assignment, I found this page very informative: About Lines and Distance of a Point to a Line

In particular, the section Distance of a Point to a Ray or Segment should be of interest to you.

Pseudocode from the article (where · is dot product and d() is distance between two points):

distance( Point P, Segment P0:P1 )
      v = P1 - P0
      w = P - P0
      if ( (c1 = w·v) <= 0 )
            return d(P, P0)
      if ( (c2 = v·v) <= c1 )
            return d(P, P1)
      b = c1 / c2
      Pb = P0 + bv
      return d(P, Pb)

This method relies on the dot product to determine if the base of the perpendicular is within the interval, and if not which end point is closer.

share|improve this answer
Funny how this implementation of the algorithm described in the other answer doesn't look like it was just that ;-) +1 because it's correct. – danyowdee May 20 '11 at 7:52
it works! thanks! i've added my objective-c implementation in the question as reference for others :) – Lukman May 20 '11 at 14:41

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.