The solutions offered so far all imply creating a `logical(length(vec))`

and doing a full or partial scan on this. As you note, the vector is sorted. We can exploit this by doing a binary search. I started thinking I'd be super-clever and implement this in C for even greater speed, but had trouble with debugging the indexing of the algorithm (which is the tricky part!). So I wrote it in R:

```
f3 <- function(x) {
imin <- 1L
imax <- length(x)
while (imax >= imin) {
imid <- as.integer(imin + (imax - imin) / 2)
if (x[imid] >= 0)
imax <- imid - 1L
else
imin <- imid + 1L
}
imax
}
```

For comparison with the other suggestions

```
f0 <- function(v) length(which(v < 0))
f1 <- function(v) sum(v < 0)
f2 <- function(v) which.min(v < 0) - 1L
```

and for fun

```
library(compiler)
f3.c <- cmpfun(f3)
```

Leading to

```
> vec <- c(seq(-100,-1,length.out=1e6), rep(0,20), seq(1,100,length.out=1e6))
> identical(f0(vec), f1(vec))
[1] TRUE
> identical(f0(vec), f2(vec))
[1] TRUE
> identical(f0(vec), f3(vec))
[1] TRUE
> identical(f0(vec), f3.c(vec))
[1] TRUE
> microbenchmark(f0(vec), f1(vec), f2(vec), f3(vec), f3.c(vec))
Unit: microseconds
expr min lq median uq max neval
f0(vec) 15274.275 15347.870 15406.1430 15605.8470 19890.903 100
f1(vec) 15513.807 15575.229 15651.2970 17064.8830 18326.293 100
f2(vec) 21473.814 21558.989 21679.3210 22733.1710 27435.889 100
f3(vec) 51.715 56.050 75.4495 78.5295 100.730 100
f3.c(vec) 11.612 17.147 28.5570 31.3160 49.781 100
```

Probably there are some tricky edge cases that I've got wrong! Moving to C, I did

```
library(inline)
f4 <- cfunction(c(x = "numeric"), "
int imin = 0, imax = Rf_length(x) - 1, imid;
while (imax >= imin) {
imid = imin + (imax - imin) / 2;
if (REAL(x)[imid] >= 0)
imax = imid - 1;
else
imin = imid + 1;
}
return ScalarInteger(imax + 1);
")
```

with

```
> identical(f3(vec), f4(vec))
[1] TRUE
> microbenchmark(f3(vec), f3.c(vec), f4(vec))
Unit: nanoseconds
expr min lq median uq max neval
f3(vec) 52096 53192.0 54918.5 55539.0 69491 100
f3.c(vec) 10924 12233.5 12869.0 13410.0 20038 100
f4(vec) 553 796.0 893.5 1004.5 2908 100
```

`findInterval`

came up when a similar question was asked on the R-help list. It is slow but safe, checking that `vec`

is actually sorted and dealing with NA values. If one wants to live on the edge (arguably no worse that implementing f3 or f4) then

```
f5.i <- function(v)
.Internal(findInterval(v, 0 - .Machine$double.neg.eps, FALSE, FALSE))
```

is nearly as fast as the C implementation, but likely more robust and vectorized (i.e., look up a vector of values in the second argument, for easy range-like calculations).