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I have 2 lines. Both lines containing their 2 points of X and Y. This means they both have length.

I see 2 formulas, one using determinants and one using normal algebra. Which would be the most efficient to calculate and what does the formula looks like?

I'm having a hard time using matrices in code.

This is what I have so far, can it be more efficient?

    public static Vector3 Intersect(Vector3 line1V1, Vector3 line1V2, Vector3 line2V1, Vector3 line2V2)
    {
        //Line1
        float A1 = line1V2.Y - line1V1.Y;
        float B1 = line1V2.X - line1V1.X;
        float C1 = A1*line1V1.X + B1*line1V1.Y;

        //Line2
        float A2 = line2V2.Y - line2V1.Y;
        float B2 = line2V2.X - line2V1.X;
        float C2 = A2 * line2V1.X + B2 * line2V1.Y;

        float det = A1*B2 - A2*B1;
        if (det == 0)
        {
            return null;//parallel lines
        }
        else
        {
            float x = (B2*C1 - B1*C2)/det;
            float y = (A1 * C2 - A2 * C1) / det;
            return new Vector3(x,y,0);
        }
    }
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7  
How's about you write the formulas, just math, no code, and then you show us the code you have, and then you tell us where you're having trouble? –  atk Dec 28 '10 at 3:44
    
You hage an O(1) algorithm, so I'm not sure you're really looking for efficiency. If you really are, have you profiled your code to figure out what bits are less efficient than others? have you checked against other parts of your program to see what's inefficient and how do you define efficiency, he (size in memory, speed, etc)? Or, since you talk about matricies, are you really asking for a generic solution, with a line in arbitrary number of dimensions? –  atk Dec 28 '10 at 13:21

5 Answers 5

up vote 11 down vote accepted

Assuming you have two lines of the form Ax + By = C, you can find it pretty easily:

float delta = A1*B2 - A2*B1;
if(delta == 0) 
    throw new ArgumentException("Lines are parallel");

float x = (B2*C1 - B1*C2)/delta;
float y = (A1*C2 - A2*C1)/delta;

Pulled from here

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5  
Would it be possible for you to provide this as executable code? The statement (from the top_coder post) "Assuming you have two lines of the form..." assumes that the reader understands how to convert the form into executable code. I don't, I'm afraid. It would be great to understand what is required, for example, when the "A1*B2" code executes. –  Matt W Dec 14 '12 at 9:21
5  
A = y2-y1; B = x1-x2; C = Ax1+By1 –  onmyway133 Feb 27 '13 at 1:16
1  
delta in your code is the determinant in math parlance. –  Jamie Feb 10 at 17:21

There's a good tutorial with formulas on topcoder that answers this question exactly and you can learn the fundamentals as well: Line Intersection Tutorial

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This would be interesting to you.

http://www.topcoder.com/tc?module=Static&d1=tutorials&d2=geometry2#line_line_intersection

They use determinants, but not with matrices. The equations are simple enough to code out for 2 lines that matrices would be overkill.

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How to find intersection of two lines/segments/ray with rectangle

public class LineEquation{
    public LineEquation(Point start, Point end){
        Start = start;
        End = end;

        IsVertical = Math.Abs(End.X - start.X) < 0.00001f;
        M = (End.Y - Start.Y)/(End.X - Start.X);
        A = -M;
        B = 1;
        C = Start.Y - M*Start.X;
    }

    public bool IsVertical { get; private set; }

    public double M { get; private set; }

    public Point Start { get; private set; }
    public Point End { get; private set; }

    public double A { get; private set; }
    public double B { get; private set; }
    public double C { get; private set; }

    public bool IntersectsWithLine(LineEquation otherLine, out Point intersectionPoint){
        intersectionPoint = new Point(0, 0);
        if (IsVertical && otherLine.IsVertical)
            return false;
        if (IsVertical || otherLine.IsVertical){
            intersectionPoint = GetIntersectionPointIfOneIsVertical(otherLine, this);
            return true;
        }
        double delta = A*otherLine.B - otherLine.A*B;
        bool hasIntersection = Math.Abs(delta - 0) > 0.0001f;
        if (hasIntersection){
            double x = (otherLine.B*C - B*otherLine.C)/delta;
            double y = (A*otherLine.C - otherLine.A*C)/delta;
            intersectionPoint = new Point(x, y);
        }
        return hasIntersection;
    }

    private static Point GetIntersectionPointIfOneIsVertical(LineEquation line1, LineEquation line2){
        LineEquation verticalLine = line2.IsVertical ? line2 : line1;
        LineEquation nonVerticalLine = line2.IsVertical ? line1 : line2;

        double y = (verticalLine.Start.X - nonVerticalLine.Start.X)*
                   (nonVerticalLine.End.Y - nonVerticalLine.Start.Y)/
                   ((nonVerticalLine.End.X - nonVerticalLine.Start.X)) +
                   nonVerticalLine.Start.Y;
        double x = line1.IsVertical ? line1.Start.X : line2.Start.X;
        return new Point(x, y);
    }

    public bool IntersectWithSegementOfLine(LineEquation otherLine, out Point intersectionPoint){
        bool hasIntersection = IntersectsWithLine(otherLine, out intersectionPoint);
        if (hasIntersection)
            return intersectionPoint.IsBetweenTwoPoints(otherLine.Start, otherLine.End);
        return false;
    }

    public bool GetIntersectionLineForRay(Rect rectangle, out LineEquation intersectionLine){
        if (Start == End){
            intersectionLine = null;
            return false;
        }
        IEnumerable<LineEquation> lines = rectangle.GetLinesForRectangle();
        intersectionLine = new LineEquation(new Point(0, 0), new Point(0, 0));
        var intersections = new Dictionary<LineEquation, Point>();
        foreach (LineEquation equation in lines){
            Point point;
            if (IntersectWithSegementOfLine(equation, out point))
                intersections[equation] = point;
        }
        if (!intersections.Any())
            return false;

        var intersectionPoints = new SortedDictionary<double, Point>();
        foreach (var intersection in intersections){
            if (End.IsBetweenTwoPoints(Start, intersection.Value) ||
                intersection.Value.IsBetweenTwoPoints(Start, End)){
                double distanceToPoint = Start.DistanceToPoint(intersection.Value);
                intersectionPoints[distanceToPoint] = intersection.Value;
            }
        }
        if (intersectionPoints.Count == 1){
            Point endPoint = intersectionPoints.First().Value;
            intersectionLine = new LineEquation(Start, endPoint);
            return true;
        }

        if (intersectionPoints.Count == 2){
            Point start = intersectionPoints.First().Value;
            Point end = intersectionPoints.Last().Value;
            intersectionLine = new LineEquation(start, end);
            return true;
        }

        return false;
    }

    public override string ToString(){
        return "[" + Start + "], [" + End + "]";
    }
}

full sample is described here

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They boil down to the same formula. If looking at it as a normal algebra problem is easier, do that.

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