I have a binary matrix:

```
> bin.mat <- t(sapply(0:(2^2-1), function(x)wle:::binary(x, 2)$binary))
> bin.mat
[,1] [,2]
[1,] 0 0
[2,] 1 0
[3,] 0 1
[4,] 1 1
```

and a list with integers:

```
> li <- list(c(1), c(1,2))
> li
[[1]]
[1] 1
[[2]]
[1] 1 2
```

Now I want to find the indices of the rows in `bin`

mat which match my numbers (indices) in `li`

in the following way: for `li[[1]]`

should match row #2 in `bin.mat`

but not row #4. `li[[2]]`

should match column #4 in `bin.mat`

.

I have a solution which is based on converting all entries in `li`

to binary numbers and comparing them to all rows in `bin.mat`

:

```
bin.rep <- lapply(li, function(i){colSums(t(sapply(i, function(x)wle:::binary(x, dim=2)$binary)))})
lapply(bin.rep, function(vec){
row.in.mat <- -1
for (i in 1:nrow(bin.mat)){
if(all(bin.mat[i,] == vec))
row.in.mat <- i
}
row.in.mat
})
```

This gives me the numbers 2 and 4, which is what I want but isn't there a simpler solution?
Do I for example need the `bin.mat`

? I just want to get the row index in the binary representation for the vectors `c(1)`

and `c(1,2)`

.

`bin.mat`

only has two columns, not four. How you want to do the matching isn't clear (at least to me), please clarify what you want. – Richie Cotton Oct 24 '13 at 15:30`li[[1]]=c(1)`

means the row in`bin.mat`

which has a 1 in the first position and li[[2]]=c(1,2) should match the row in`bin.mat`

which has a 1 in the first and second position. – user1981275 Oct 24 '13 at 15:45