I have a point (A) and a vector (V) (suppose it's infinite length), and I want to find the closest point (B) on the line to my original point (A). What's the simplest expression using Unity Vector2's or Vector3's to get this?
Infinite length:
If you have line with infinite length with start and direction, calculate the dot product of the line direction then multiply it by the direction and add the starting point to it.
public Vector2 FindNearestPointOnLine(Vector2 origin, Vector2 direction, Vector2 point)
{
direction.Normalize();
Vector2 lhs = point  origin;
float dotP = Vector2.Dot(lhs, direction);
return origin + direction * dotP;
}
Finite length:
If you have line with finite length with start to end positions, get the heading the perform a projection from the starting point to the. Also, use Mathf.Clamp
to clap it just in case the line is off.
public Vector2 FindNearestPointOnLine(Vector2 origin, Vector2 end, Vector2 point)
{
//Get heading
Vector2 heading = (end  origin);
float magnitudeMax = heading.magnitude;
heading.Normalize();
//Do projection from the point but clamp it
Vector2 lhs = point  origin;
float dotP = Vector2.Dot(lhs, heading);
dotP = Mathf.Clamp(dotP, 0f, magnitudeMax);
return origin + heading * dotP;
}
For infinite lines:
Vector3 GetPoint(Vector3 p, Vector3 a, Vector3 b)
{
return a + Vector3.Project(p  a, b  a);
}
This method will work with Vector3
inputs, and will also work if the arguments are Vector2
and are automatically converted to Vector2
. The output will implicitly convert to a Vector2
if needed.

I like how succinct this solution is, but I wouldn't mind a bit more explanation. Is this for infinite or finite lines? Looking up the docs there isn't a Project method for Vector2, might be nice to mention this is only for Vector3 (unless you bother to make Vector3 values with z=0). Any comments on performance? Is this better or worse on performance than any of the other answers? Does this answer have any benefits or drawbacks compared to other answers besides the obvious terseness? – Semimono Mar 15 '19 at 18:37

1@Semimono I added some details to this answer. Can't speak on performance. – Ruzihm Dec 23 '19 at 20:42
// For finite lines:
Vector3 GetClosestPointOnFiniteLine(Vector3 point, Vector3 line_start, Vector3 line_end)
{
Vector3 line_direction = line_end  line_start;
float line_length = line_direction.magnitude;
line_direction.Normalize();
float project_length = Mathf.Clamp(Vector3.Dot(point  line_start, line_direction), 0f, line_length);
return line_start + line_direction * project_length;
}
// For infinite lines:
Vector3 GetClosestPointOnInfiniteLine(Vector3 point, Vector3 line_start, Vector3 line_end)
{
return line_start + Vector3.Project(point  line_start, line_end  line_start);
}
I'm assuming you don't know the locations of both points, as the solution to find the distance between two known points is simple subtraction. If you're looking to find the distance dynamically, I'd suggest using raycasting
.
Adding a script like this to the GameObject that you consider pointA
might work for you:
using UnityEngine;
public class Raycasting : MonoBehaviour
{
[SerializeField]
private LayerMask pointMask; //Set this to the same tag as any GameObject you consider a "point"
private Vector2 pointA, distance;
private void Update()
{
CheckForPoint();
Debug.Log(distance);
}
private void CheckForPoint()
{
pointA = transform.position; //The GameObject's current position in the world
RaycastHit2D pointB = Physics2D.Raycast(pointA, Vector2.right * Mathf.Sign(transform.localScale.x), Mathf.Infinity, pointMask);
//Draws a visible ray in the game view (must have gizmos enabled)
Debug.DrawRay(pointA, Vector2.right * Mathf.Sign(transform.localScale.x), Color.green);
if (pointB)
{
distance = (Vector2)pointB.transform.position  pointA;
}
}
}
Make sure the points for which you're looking have a collider on them; then you can set the distance of the raycast to Mathf.Infinity
(or any other length you'd like), and pointB
will be the first object with which the ray collides.
You can read more about the Physics2D.Raycast
API here, though the same approach will also work in 3D.

The problem with this is that it requires collider and physics to work. – Programmer Aug 18 '18 at 5:44

As far as I'm aware this is the only way to find the closest point dynamically. If you knew the current positions of every point you could loop through them to find the shortest distance to
pointA
. – Ginger and Lavender Aug 18 '18 at 5:46 
I believe this is answering a bit different question than I asked, as you pointed out in your other comment. – Semimono Aug 18 '18 at 20:35