I recently went back on paper to find a solution to this problem using basic algebra. Just solve the equations formed by the two lines and if a valid solution exist then there is an intersection.

Check my Github repository for extended implementation handling potential precision issue with double and tests.

```
public struct Line
{
public double x1 { get; set; }
public double y1 { get; set; }
public double x2 { get; set; }
public double y2 { get; set; }
}
public struct Point
{
public double x { get; set; }
public double y { get; set; }
}
public class LineIntersection
{
// Returns Point of intersection if do intersect otherwise default Point (null)
public static Point FindIntersection(Line lineA, Line lineB, double tolerance = 0.001)
{
double x1 = lineA.x1, y1 = lineA.y1;
double x2 = lineA.x2, y2 = lineA.y2;
double x3 = lineB.x1, y3 = lineB.y1;
double x4 = lineB.x2, y4 = lineB.y2;
// equations of the form x = c (two vertical lines)
if (Math.Abs(x1 - x2) < tolerance && Math.Abs(x3 - x4) < tolerance && Math.Abs(x1 - x3) < tolerance)
{
throw new Exception("Both lines overlap vertically, ambiguous intersection points.");
}
//equations of the form y=c (two horizontal lines)
if (Math.Abs(y1 - y2) < tolerance && Math.Abs(y3 - y4) < tolerance && Math.Abs(y1 - y3) < tolerance)
{
throw new Exception("Both lines overlap horizontally, ambiguous intersection points.");
}
//equations of the form x=c (two vertical lines)
if (Math.Abs(x1 - x2) < tolerance && Math.Abs(x3 - x4) < tolerance)
{
return default(Point);
}
//equations of the form y=c (two horizontal lines)
if (Math.Abs(y1 - y2) < tolerance && Math.Abs(y3 - y4) < tolerance)
{
return default(Point);
}
//general equation of line is y = mx + c where m is the slope
//assume equation of line 1 as y1 = m1x1 + c1
//=> -m1x1 + y1 = c1 ----(1)
//assume equation of line 2 as y2 = m2x2 + c2
//=> -m2x2 + y2 = c2 -----(2)
//if line 1 and 2 intersect then x1=x2=x & y1=y2=y where (x,y) is the intersection point
//so we will get below two equations
//-m1x + y = c1 --------(3)
//-m2x + y = c2 --------(4)
double x, y;
//lineA is vertical x1 = x2
//slope will be infinity
//so lets derive another solution
if (Math.Abs(x1 - x2) < tolerance)
{
//compute slope of line 2 (m2) and c2
double m2 = (y4 - y3) / (x4 - x3);
double c2 = -m2 * x3 + y3;
//equation of vertical line is x = c
//if line 1 and 2 intersect then x1=c1=x
//subsitute x=x1 in (4) => -m2x1 + y = c2
// => y = c2 + m2x1
x = x1;
y = c2 + m2 * x1;
}
//lineB is vertical x3 = x4
//slope will be infinity
//so lets derive another solution
else if (Math.Abs(x3 - x4) < tolerance)
{
//compute slope of line 1 (m1) and c2
double m1 = (y2 - y1) / (x2 - x1);
double c1 = -m1 * x1 + y1;
//equation of vertical line is x = c
//if line 1 and 2 intersect then x3=c3=x
//subsitute x=x3 in (3) => -m1x3 + y = c1
// => y = c1 + m1x3
x = x3;
y = c1 + m1 * x3;
}
//lineA & lineB are not vertical
//(could be horizontal we can handle it with slope = 0)
else
{
//compute slope of line 1 (m1) and c2
double m1 = (y2 - y1) / (x2 - x1);
double c1 = -m1 * x1 + y1;
//compute slope of line 2 (m2) and c2
double m2 = (y4 - y3) / (x4 - x3);
double c2 = -m2 * x3 + y3;
//solving equations (3) & (4) => x = (c1-c2)/(m2-m1)
//plugging x value in equation (4) => y = c2 + m2 * x
x = (c1 - c2) / (m2 - m1);
y = c2 + m2 * x;
//verify by plugging intersection point (x, y)
//in orginal equations (1) & (2) to see if they intersect
//otherwise x,y values will not be finite and will fail this check
if (!(Math.Abs(-m1 * x + y - c1) < tolerance
&& Math.Abs(-m2 * x + y - c2) < tolerance))
{
return default(Point);
}
}
//x,y can intersect outside the line segment since line is infinitely long
//so finally check if x, y is within both the line segments
if (IsInsideLine(lineA, x, y) &&
IsInsideLine(lineB, x, y))
{
return new Point { x = x, y = y };
}
//return default null (no intersection)
return default(Point);
}
// Returns true if given point(x,y) is inside the given line segment
private static bool IsInsideLine(Line line, double x, double y)
{
return (x >= line.x1 && x <= line.x2
|| x >= line.x2 && x <= line.x1)
&& (y >= line.y1 && y <= line.y2
|| y >= line.y2 && y <= line.y1);
}
}
```

somewhere, not so with segments – user316117 Dec 28 '15 at 18:31`float B1 = line1V1.X - line1V2.X`

and`float B2 = line2V1.X - line2V2.X`

– mcs_dodo Feb 1 '17 at 15:55