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I know there are many algorithms to verify whether two line segments are intersected.

The line segments I'm talking about are length line constructed by 2 end points.

But once they encountered parallel condition, they just tell the user a big "No" and
pretend there is no overlap, share end point, or end point collusion.

I know I can can calculate the distance between 2 lines segments.
If the distance is 0, check the end points located in the other line segments or not.
And this means I have to use a lot of if else and && || conditions.

This is not difficult, but my question is

"Is there a trick( or mathematics) method to calculate this special parallel case?"

I hope this picture clarify my question

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What exactly are you trying to find? By definition, parallel lines never intersect. –  Tyler May 11 '10 at 2:53
Parallel lines never intersect unless the distance is 0. But since their distance is 0, they are overlaped. However, my question is about the line segments. The stretched lines are overlapped, but the line segments are remain unknown. So I try to ask a solution to reveal the unkown. –  Judarkness May 11 '10 at 3:08
Judarkness you probably need to refine your question a little bit. What does it matter if they are line segments or not if we are checking for parallelism? –  WhirlWind May 11 '10 at 3:23

5 Answers 5

Yes, given the formulas for both of the lines, test whether their slopes are equal. If they are, the lines are parallel and never intersect.

If you have points on each of the lines, you can use the slope formula.

If both are perpendicular to the x-axis, they will both have infinite slopes, but they will be parallel. All points on each line will have equal x coordinates.

To deal with line segments, calculate the point of intersection, then determine if that point of intersection exists for both of the segments.

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Oh my. I guess I'd better fill the character requirement. I was mistaken. =P –  Chris Cooper May 11 '10 at 2:53
Haha... shuffles feet =) –  Chris Cooper May 11 '10 at 2:56
@Chris ahh, well, I've done it too ;) –  WhirlWind May 11 '10 at 2:56
@Tyler: But I would add what my original answer says: I think determining if a given point is on both lines should be an easier way to distinguish the two cases than finding the distance bewteen two lines. –  Chris Cooper May 11 '10 at 2:57
@whirlwind he's talking line segments, not lines. The question is, for 2 (colinear) parallel line segments, how to determine if there is overlap? –  David Gelhar May 11 '10 at 3:33

I assume the case you're interested in is where the two line segments are parallel (as determined by checking the slope, as Whirlwind says), and you're trying to determine whether the two segments overlap.

Rather than worrying about the distance between the lines, I would think the easiest way to do that would to if either endpoint of one segment lies within the other:

if (segment_contains_point(segment_A, segment_B.start) || 
    segment_contains_point(segment_A, segment_B.end)) {
        // lines overlap
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This is just what I want, I have my own segment_contains_points()(in other name) But It's way too inefficient. And I have to call it three times because segment B might be larger and contains the whole segment A. And I want to know if there is a better solution? –  Judarkness May 11 '10 at 3:21

Let's assume that you have two lines described by formulas a.x + b.y + c = 0 and d.x + e.y + f = 0. The two lines are parallel when a = 0 and d = 0 or b/a = e/d. Perhaps instead of doing the division just make sure that b.d = a.e.

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i found this (modified a little by me to suit) it will return the intercetion x,y else if no intercetion found it will return -1,-1

    Public Function intercetion(ByVal ax As Integer, ByVal ay As Integer, ByVal bx As Integer, ByVal by As Integer, ByVal cx As Integer, ByVal cy As Integer, ByVal dx As Integer, ByVal dy As Integer) As Point
    '//  Determines the intersection point of the line segment defined by points A and B
    '//  with the line segment defined by points C and D.
    '//  Returns YES if the intersection point was found, and stores that point in X,Y.
    '//  Returns NO if there is no determinable intersection point, in which case X,Y will
    '//  be unmodified.

    Dim distAB, theCos, theSin, newX, ABpos As Double

    '//  Fail if either line segment is zero-length.
    If ax = bx And ay = by Or cx = dx And cy = dy Then Return New Point(-1, -1)

    '//  Fail if the segments share an end-point.
    If ax = cx And ay = cy Or bx = cx And by = cy Or ax = dx And ay = dy Or bx = dx And by = dy Then Return New Point(-1, -1)

    '//  (1) Translate the system so that point A is on the origin.
    bx -= ax
    by -= ay
    cx -= ax
    cy -= ay
    dx -= ax
    dy -= ay

    '//  Discover the length of segment A-B.
    distAB = Math.Sqrt(bx * bx + by * by)

    '//  (2) Rotate the system so that point B is on the positive X axis.
    theCos = bx / distAB
    theSin = by / distAB
    newX = cx * theCos + cy * theSin
    cy = cy * theCos - cx * theSin
    cx = newX
    newX = dx * theCos + dy * theSin
    dy = dy * theCos - dx * theSin
    dx = newX

    '//  Fail if segment C-D doesn't cross line A-B.
    If cy < 0 And dy < 0 Or cy >= 0 And dy >= 0 Then Return New Point(-1, -1)

    '//  (3) Discover the position of the intersection point along line A-B.
    ABpos = dx + (cx - dx) * dy / (dy - cy)

    '//  Fail if segment C-D crosses line A-B outside of segment A-B.
    If ABpos < 0 Or ABpos > distAB Then Return New Point(-1, -1)

    '//  (4) Apply the discovered position to line A-B in the original coordinate system.

    '//  Success.
    Return New Point(ax + ABpos * theCos, ay + ABpos * theSin)
End Function


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This doesn't solve the question of determining if colinear line segments overlap—in fact in the comments to this code it specifically says it'll fail for colinear (and parallel) lines: // Fail if segment C-D doesn't cross line A-B –  Wil Shipley Aug 3 '13 at 10:06

I just got the same problem: The easiest way I have come up with just to check whether the lines overlap: Assuming the segments are colinear (parallel and have the same intersection with the x axis). Take one point A from the longer Segment (A,B) as starting point. Now find the point among the other three points that has the minimal distance to point A (squared Distance is better, even manhattan-length might work too) measuring the distance in the direction of B. If the closest point to A is B, the lines do not intersect. If it belongs to the other segment they do. Perhaps you have to check for special cases like zero length lines or identical lines but this should be easy.

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