Not an answer, but maybe helpful for framing the issue. Seems like worst-case performance is to sum many short groups, and this seems to scale linearly with the size of the vector

```
> n = 100000; x = runif(n); f = sample(n/2, n, TRUE)
> system.time(rowsum(x, f))
user system elapsed
0.228 0.000 0.229
> n = 1000000; x = runif(n); f = sample(n/2, n, TRUE)
> system.time(rowsum(x, f))
user system elapsed
1.468 0.040 1.514
> n = 10000000; x = runif(n); f = sample(n/2, n, TRUE)
> system.time(rowsum(x, f))
user system elapsed
17.369 0.748 18.166
```

There seem to be two short-cuts available, avoiding re-ordering

```
> n = 10000000; x = runif(n); f = sample(n/2, n, TRUE)
> system.time(rowsum(x, f, reorder=FALSE))
user system elapsed
16.501 0.476 17.025
```

and avoiding an internal coercion to character

```
> n = 10000000; x = runif(n); f = as.character(sample(n/2, n, TRUE));
> system.time(rowsum(x, f, reorder=FALSE))
user system elapsed
8.652 0.268 8.949
```

And then the basic operations that would seem to be involved -- figuring out the unique values of the grouping factor (to pre-allocate a result vector) and doing the sum

```
> n = 10000000; x = runif(n); f = sample(n/2, n, TRUE)
> system.time({ t = tabulate(f); sum(x) })
user system elapsed
0.640 0.000 0.643
```

so yes, it seems like there's quite a bit of scope for a faster single-purpose implementation. This seems like a natural for `data.table`

, and not too hard to implement in C. Here's a mixed solution, using R to do the tabulation and the 'classic' C interface to do the sum

```
library(inline)
rowsum1.1 <- function(x, f) {
t <- tabulate(f)
crowsum1(x, f, t)
}
crowsum1 = cfunction(c(x_in="numeric", f_in="integer", t_in = "integer"), "
SEXP res_out;
double *x = REAL(x_in), *res;
int len = Rf_length(x_in), *f = INTEGER(f_in);
res_out = PROTECT(Rf_allocVector(REALSXP, Rf_length(t_in)));
res = REAL(res_out);
memset(res, 0, Rf_length(t_in) * sizeof(double));
for (int i = 0; i < len; ++i)
res[f[i] - 1] += x[i];
UNPROTECT(1);
return res_out;
")
```

with

```
> system.time(r1.1 <- rowsum1.1(x, f))
user system elapsed
1.276 0.092 1.373
```

To actually return a result that is identical to `rowsum`

, this needs to be shaped as a matrix with appropriate dim names

```
rowsum1 <- function(x, f) {
t <- tabulate(f)
r <- crowsum1(x, f, t)
keep <- which(t != 0)
matrix(r[keep], ncol=1, dimnames=list(keep, NULL))
}
> system.time(r1 <- rowsum1(x, f))
user system elapsed
9.312 0.300 9.641
```

so for all that work we're only 2x faster (and much less general -- x must be numeric, f must be integer; no NA values). Yes, there are inefficiencies, e.g., allocating space levels that have no counts (though this avoids an expensive coercion to character vector for names).

`rowsum`

on a vector when it is designed to be used with matrices. You have offered no Cpp code. – 42- Jun 7 '13 at 2:08`rowsum`

dispatches`rowsum.default`

in the above case and that already calls out to C code so it should be reasonably fast already. You might be able to get a tiny bit of speed improvement by directly calling`rowsum.default`

or`.Internal(rowsum_matrix(...))`

although the latter is discouraged and is not allowed on CRAN. – G. Grothendieck Jun 7 '13 at 3:27`data.table`

would excel at... – Paul Hiemstra Jun 7 '13 at 13:16