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I have two vectors:


I want to plot these as lines and then find the intersection points of the lines,also,if there are multiple points of intersection,i want to locate each of them. I have come across a similar question,and tried to solve this problem using spatstat,but,I was not able to convert my combined data frame containing both vector values to psp object.

Any hints would be appreciated.

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Do you mean you want to find all the line crossings in plot(x1,x2, type='l') ? – Stephen Henderson Dec 11 '13 at 12:47
Or do you mean the crossings of plot(seq_along(x1), x1, type='l') and lines(seq_along(x2), x2, type='l', col="red") – Stephen Henderson Dec 11 '13 at 12:49
I want the coordinates,wherever there is an intesection,I have given the above vectors as toy examples,but my actual series is a non linear one,whose equation is not specified. – SBS Dec 11 '13 at 12:51
I mean plot(seq_along(x1), x1, type='l') and lines(seq_along(x2), x2, type='l', col="red") – SBS Dec 11 '13 at 12:55
You can try Newton's Fixed Point method: en.wikipedia.org/wiki/Newton%27s_method – lucas92 Dec 11 '13 at 13:07
up vote 8 down vote accepted

If you literally just have two random vectors of numbers, you can use a pretty simple technique to get the intersection of both. Just find all points where x1 is above x2, and then below it on the next point, or vice-versa. These are the intersection points. Then just use the respective slopes to find the intercept for that segment.

# Find points where x1 is above x2.
# Points always intersect when above=TRUE, then FALSE or reverse
# Find the slopes for each line segment.
# Find the intersection for each segment.
x.points<-intersect.points + ((x2[intersect.points] - x1[intersect.points]) / (x1.slopes-x2.slopes))
y.points<-x1[intersect.points] + (x1.slopes*(x.points-intersect.points))
# Plot.

enter image description here

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there are issues with vertical segments, right? – baptiste Dec 11 '13 at 14:08
@baptiste I think vertical segments are impossible. Perhaps you meant horizontal segments -- because, yes, horizontal overlapping segments would pose a problem. Actually, it would also be a problem if the points intersected at exactly the evaluated point. Conveniently, you could test for both at the same time: check if the points are equal in your vector, add those to the set of intersecting points, then check if those points occurred one after the other. Maybe that isn't what you meant? – nograpes Dec 11 '13 at 17:01
no, i was just thinking of the general problem of segment-segment intersection, but here you're right, no segments are vertical (which would cause problems with infinite slope). – baptiste Dec 11 '13 at 18:48
@nograpes thanks so much..!It works.... – SBS Dec 12 '13 at 3:57
@SBS If you want to accept the answer, click the checkmark. – nograpes Dec 12 '13 at 4:19

Here's an alternative segment-segment intersection code,

# segment-segment intersection code
# http://paulbourke.net/geometry/pointlineplane/
ssi <- function(x1, x2, x3, x4, y1, y2, y3, y4){

  denom <- ((y4 - y3)*(x2 - x1) - (x4 - x3)*(y2 - y1))
  denom[abs(denom) < 1e-10] <- NA # parallel lines

  ua <- ((x4 - x3)*(y1 - y3) - (y4 - y3)*(x1 - x3)) / denom
  ub <- ((x2 - x1)*(y1 - y3) - (y2 - y1)*(x1 - x3)) / denom

  x <- x1 + ua * (x2 - x1)
  y <- y1 + ua * (y2 - y1)
  inside <- (ua >= 0) & (ua <= 1) & (ub >= 0) & (ub <= 1)
  data.frame(x = ifelse(inside, x, NA), 
             y = ifelse(inside, y, NA))

# do it with two polylines (xy dataframes)
ssi_polyline <- function(l1, l2){
  n1 <- nrow(l1)
  n2 <- nrow(l2)
  x1 <- l1[-n1,1] ; y1 <- l1[-n1,2] 
  x2 <- l1[-1L,1] ; y2 <- l1[-1L,2] 
  x3 <- l2[-n2,1] ; y3 <- l2[-n2,2] 
  x4 <- l2[-1L,1] ; y4 <- l2[-1L,2] 
  ssi(x1, x2, x3, x4, y1, y2, y3, y4)
# do it with all columns of a matrix
ssi_matrix <- function(x, m){
  # pairwise combinations
  cn <- combn(ncol(m), 2)
  test_pair <- function(i){
    l1 <- cbind(x, m[,cn[1,i]])
    l2 <- cbind(x, m[,cn[2,i]])
    pts <- ssi_polyline(l1, l2)
  ints <- lapply(seq_len(ncol(cn)), test_pair)
  do.call(rbind, ints)

# testing the above
y1 = rnorm(100,0,1)
y2 = rnorm(100,1,1)
m = cbind(y1, y2)
x = 1:100
matplot(x, m, t="l", lty=1)
points(ssi_matrix(x, m))

enter image description here

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