# findInterval

##### Find Interval Numbers or Indices

Given a vector of non-decreasing breakpoints in `vec`

, find the
interval containing each element of `x`

; i.e., if
`i <- findInterval(x,v)`

, for each index `j`

in `x`

$v[i[j]] \le x[j] < v[i[j] + 1]$
where $v[0] := - Inf$,
$v[N+1] := + Inf$, and `N <- length(v)`

.
At the two boundaries, the returned index may differ by 1, depending
on the optional arguments `rightmost.closed`

and `all.inside`

.

##### Usage

`findInterval(x, vec, rightmost.closed = FALSE, all.inside = FALSE)`

##### Arguments

- x
- numeric.
- vec
- numeric, sorted (weakly) increasingly, of length
`N`

, say. - rightmost.closed
- logical; if true, the rightmost interval,
`vec[N-1] .. vec[N]`

is treated as*closed*, see below. - all.inside
- logical; if true, the returned indices are coerced
into
`1,...,N-1`

, i.e.,`0`

is mapped to`1`

and`N`

to`N-1`

.

##### Details

The function `findInterval`

finds the index of one vector `x`

in
another, `vec`

, where the latter must be non-decreasing. Where
this is trivial, equivalent to `apply( outer(x, vec, ">="), 1, sum)`

,
as a matter of fact, the internal algorithm uses interval search
ensuring $O(n * log(N))$ complexity where
`n <- length(x)`

(and `N <- length(vec)`

). For (almost)
sorted `x`

, it will be even faster, basically $O(n)$.

This is the same computation as for the empirical distribution
function, and indeed, `findInterval(t, sort(X))`

is
*identical* to $n * Fn(t;
X[1],..,X[n])$ where $Fn$ is the empirical distribution
function of $X[1],..,X[n]$.

When `rightmost.closed = TRUE`

, the result for `x[j] = vec[N]`

($ = max(vec)$), is `N - 1`

as for all other
values in the last interval.

##### Value

##### See Also

`approx(*, method = "constant")`

which is a
generalization of `findInterval()`

, `ecdf`

for
computing the empirical distribution function which is (up to a factor
of $n$) also basically the same as `findInterval(.)`

.

##### Examples

`library(base)`

```
x <- 2:18
v <- c(5, 10, 15) # create two bins [5,10) and [10,15)
cbind(x, findInterval(x, v))
N <- 100
X <- sort(round(stats::rt(N, df = 2), 2))
tt <- c(-100, seq(-2, 2, len = 201), +100)
it <- findInterval(tt, X)
tt[it < 1 | it >= N] # only first and last are outside range(X)
```

*Documentation reproduced from package base, version 3.2.0, License: Part of R 3.2.0*