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I have two vectors of integers, and for each element of the second vector I want to find the minumum distance to any element of the first vector - for example

obj1 <- seq(0, 1000, length.out=11)
obj2 <- 30:50
min_diff <- sapply(obj2, function(x) min(abs(obj1-x)))


[1] 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50

Is there a more efficient way? I want to scale this up to thousands (millions?) of both obj1 & obj2.

Thanks, Aaron

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We need more info. Which is varying obj1, obj2 or both? How many unique elements are there? –  hadley Oct 27 '09 at 2:12
both obj1 & obj2 will need to scale into the tens of thousands for now, millions in the future - also neither will contain duplicates –  Aaron Statham Oct 27 '09 at 2:21

2 Answers 2

up vote 12 down vote accepted

I would use a step function sorted on the first vector. This will avoid loops and is pretty fast in R.

x <- rnorm(1000)
y <- rnorm(1000)
sorted.x <- sort(x)
myfun <- stepfun(sorted.x, 0:length(x))

Now myfun(1) will give you the index of the largest element of sorted.x whose value is less than 1. In my case,

> myfun(1)  
[1] 842
> sorted.x[842]
[1] 0.997574
> sorted.x[843]
[1] 1.014771

So you know that the closest element is either sorted.x[myfun(1)] or sorted.x[myfun(1) + 1]. Consequently (and padding for 0),

indices <- pmin(pmax(1, myfun(y)), length(sorted.x) - 1)
mindist <- pmin(abs(y - sorted.x[indices]), abs(y - sorted.x[indices + 1]))
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start by sorting obj1

then you can do a binary search in obj1 for each element of obj2. knowing where the element would be, you can compare the distance to the two nearby elements of obj1, giving you the minimum distance.

runtime (where n1 = |obj1| and n2 = |obj2|): (n1 + n2) log (n1)

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