# list of neighboring points on a numberline of line segments?

I have a numberline, 1 to 100.

Within the extents of that numberline, I can add and remove many line-segments. These line-segments can intersect and overlap each other.

For a given x1 and x2, I need an efficient algorithm for iterating through all neighboring pairs of points (including x1 and x2) providing access to a list of all of the line-segments running between the neighboring points.

The results from this black numberline and the colored line-segments would be something like:

[0-20] -> []
[20-30] -> [red]
[30-40] -> [red, green]
[40-50] -> [green]
[50-60] -> []
[60-80] -> [purple]
[80-100] -> []
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Is there a limit to the number of line segments that you are planning to have? –  dasblinkenlight Aug 23 '12 at 18:07
Any time-complexity requirements/restrictions? –  Chris Dargis Aug 23 '12 at 18:10
@dasblinkenlight no, there is no limit, but in practice less than 10000 –  jedierikb Aug 23 '12 at 18:16
@DougRamsey just need it to be fast. Caching data is a-okay. –  jedierikb Aug 23 '12 at 18:17
Sounds like you need an interval tree en.wikipedia.org/wiki/Interval_tree –  Colin D Aug 23 '12 at 18:20

You want to use an interval tree.

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Create a list of boundary records, where each boundary is of the form

bound.type = start,finish
bound.position = 0..n
bound.color = red,green,blue...

and for each line segment add two such records to the list (ine for each end). Then sort all the records by position. Now if you iterate through the list as follows:

colors=[]
write '[0'
for each bound in list
write '-',bound.pos,'] -> [',colours,']'
if bound.type = start then