You can use one of the regular expression tools in R since this is really a pattern matching exercise, specifically `gregexpr`

for this question. The `p`

and `q`

vectors represent the search pattern and `main`

is where we want to search for those patterns. From the help page for `gregexpr`

:

```
gregexpr returns a list of the same length as text each element of which is of
the same form as the return value for regexpr, except that the starting positions
of every (disjoint) match are given.
```

So we can take the length of the first list returned by `gregexpr`

which gives the starting positions of the matches. We'll first collapse the vectors and then do the searching:

```
someFunction <- function(haystack, needle) {
haystack <- paste(haystack, collapse = "")
needle <- paste(needle, collapse = "")
out <- gregexpr(needle, haystack)
out.length <- length(out[[1]])
return(out.length)
}
> someFunction(main, p)
[1] 2
> someFunction(main, q)
[1] 3
```

Note - you also need to throw "" around your vector `main`

, `p`

, and `q`

vectors unless you have variables A, B, C, et al defined.

```
main <- c("A","B","C","A","B","V","A","B","C","D","E")
p <- c("A","B","C")
q <- c("A","B")
```