I have the following problem in R (for a Markov chain). Suppose there is a statespace matrix S with rows of unique integer vectors (states). I am given a vector s from this matrix, and want to determine the index of the row that corresponds to this vector. There are a couple of solutions:

A solution using

`all.equal`

as in:`which(apply(S,1,function(x){ isTRUE(all.equal(s,x)) }) )`

Map the vectors to a unique string and identify them with this string:

`statecodes <- apply(S,1,function(x) paste(x,collapse=" ") ) check.equal <- function(s) { z <- which(statecodes == paste(s, collapse=" ")) return(z) } check.equal(s)`

The first (often suggested) solution is downright terrible; it already takes 2.16 seconds for a state space of 16,000 vectors with length 4. The second solution is a lot faster, taking 0-0.01 seconds for the same state space. However, when the length of the vectors increases, it becomes increasingly slow. I feel that my string method is reasonable, but there must be something better. What would be a quicker way to make such comparisons?

For completeness sake, the state space for my problem could be generated as follows. If the vector has N elements, and I denotes the maximum that each element of a vector can attain (for example, 10) it is given by:

```
I <- rep(10,N)
S <- as.matrix(expand.grid( lapply(1:N, function(i) { 0:I[i]}) ) )
```

How can the integrality of the states be exploited in order to make an as quick as possible comparison?