Lines intersections [closed]

For two lines or two paths or two point lists as shapes in WPF and c#, does anyone have an idea how to detect the intersection and draw the intersection in a rounded shape to make it clear to the eye that these two lines are not connected (MS visio like)? I just need the principle of doing this, although some code will be helpful. thanks.

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closed as not a real question by L.B, Randy, onof, Don Roby, ThorSep 11 '12 at 22:50

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

you need help in math or in WPF? –  emesx Sep 10 '12 at 20:17
how are your lines represented? –  Sam I am Sep 10 '12 at 20:17
Possible duplicate: stackoverflow.com/questions/563198/… –  KeithS Sep 10 '12 at 20:21
@elmes i need help in WPF. –  Ziad Sep 10 '12 at 20:21
@SamIam my lines for now are Paths bonded to PathGeometry which consists of multiple PolyLineSegments. –  Ziad Sep 10 '12 at 20:22

As from this related question, basically you can consider your line segments to be the combination of a point and a vector. You can get two points into this form by picking one to be the "origin" and subtracting its X and Y from the X and Y of the other point, producing the "delta". Do the same for the other line segment.

Now, if these two vectors cross, there will be two scalars that can be applied, one to each vector, to produce a shorter vector that is co-linear with the corresponding vector and will represent the delta in X and Y between the origin and the intersection. These scalars can be found by a function of the cross product of the two vectors; see the related question for the exact math. Finally, in order for the two line segments to intersect, the vectors that intersect must do so within their original defined lengths; that is, both of the scalars that represent the length of the vector to the intersection must be `0 < s < 1`.

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There is a way with homogeneous coordinates to easily get what you want. To represent a point `P1` use a `Vector3` and makes the `z` coordinate equal 1.

``````P1 = [x1, y1, 1]
P2 = [x2, y2, 1]
``````

The line connecting the two points is `L12 = CROSS(P1,P2) = [a, b, c]` where `CROSS` is the vector cross product, and the equation for the line is `a*x+b*y+c=0`.

Now if you have two lines

``````L12 = [a,b,c]
L34 = [e,f,g]
``````

the point of intersection of these two lines is `Q = CROSS(L12,L34) = [qx,qy,qw]` with coordinates

``````x = qx/qw
y = qy/qw
``````

Example: Two lines, `L12` connecting points `(1,1)` to `(2,8)`, and `L34` connecting points `(4,-2)` to `(9,3)`. Find the intersection of the two lines.

``````L12 = CROSS( [1,1,1], [2,8,1] ) = [-7, 1, 6]     //eq: -7*x+y+6=0
L34 = CROSS( [4,-2,1], [9,3,1] ) = [-5, 5, 30]   //eq: -5*x+5*y+30=0
Q = CROSS([-7,1,6], [-5,5,30]) = [0, 180, -30]
x = 0/(-30) = 0
y = 180/(-30) = -6
``````

GeoGebra screenshot:

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