I have defined a S4 class called *FilterCommandIndices* this way:

```
setClass('FilterCommandIndices',
representation(rows='logical', cols='logical')
)
```

It just contains two slots, logical vectors indicating whether a given row or column is included in a set. Then I want to overload the subscript operator for it to work with the previous class. My initial implementation goes like this:

```
setMethod('[', c(x='ANY', i='FilterCommandIndices', j='missing'),
function(x, i, j, ..., drop=TRUE) {
if (nrow(x) != length(getRows(i)) || ncol(x) != length(getCols(i))) {
stop('Incorrect number of dimensions')
} else {
return(x[getRows(i), getCols(i)])
}
})
```

In the previous code, *getRows*() and *getCols*() are the corresponding trivial accessors for the *FilterCommandIndices* class:

```
setGeneric('getRows', function(object) standardGeneric('getRows'))
setMethod('getRows', 'FilterCommandIndices',
function(object) {
return(object@rows)
})
setGeneric('getCols', function(object) standardGeneric('getCols'))
setMethod('getCols', 'FilterCommandIndices',
function(object) {
return(object@cols)
})
```

I thought that by using the *ANY* signature, I could make this simple class and operator combination to work even in base classes, like a simple *matrix*. Although it seems to work on an example class...

```
d> bar1
An object of class "FilterCommandIndices"
Slot "rows":
[1] FALSE TRUE TRUE TRUE TRUE
Slot "cols":
[1] TRUE TRUE TRUE TRUE TRUE
d> mockMethylSet
MethylSet (storageMode: lockedEnvironment)
assayData: 5 features, 5 samples
element names: Meth, Unmeth
phenoData: none
Annotation
Preprocessing
Method: unknown
minfi version: unknown
Manifest version: unknown
d> mockMethylSet[bar1]
MethylSet (storageMode: lockedEnvironment)
assayData: 4 features, 5 samples
element names: Meth, Unmeth
phenoData: none
Annotation
Preprocessing
Method: unknown
minfi version: unknown
Manifest version: unknown
```

...but not in the base *matrix* class:

```
d> zeroDetectionP
S1 S2 S3 S4 S5
F1 0 0 0 0 0
F2 0 0 0 0 0
F3 0 0 0 0 0
F4 0 0 0 0 0
F5 0 0 0 0 0
d> zeroDetectionP[bar1]
Error en zeroDetectionP[bar1] : invalid subscript type 'S4'
```

In the *setMethod* docs, it says that you can define methods using base classes in the signature, what made me think that I could implement something like the previous method using an *ANY* signature and failing only when the subscripted object does not implement *nrow*(), *ncol*() or the operator '['.

Any help or hint will be much appreciated.

**UPDATE: Set a specific signature method (as @hadley suggested)**

If I set a method with a specific signature for the matrix base class...

```
d> getMethod('[', c(x='matrix', i='FilterCommandIndices', j='missing'))
Method Definition:
function (x, i, j, ..., drop = TRUE)
{
return(x) # Dummy method
}
```

... and then try again to subscript a matrix...

```
d> zeroDetectionP[bar1]
Error en zeroDetectionP[bar1] : invalid subscript type 'S4'
```

... the error is still there.

**UPDATE: Minimal reproducible example**

I have tried to write a minimal scenario where I could reproduce the previous scenario. This is, I think, a simple scenario that gives the same error. As @hadley suggested, it might be due to the subscript being a primitive.

```
library(methods)
setClass('Indices', representation(rows='logical', cols='logical'))
setMethod('[', c(x='ANY', i='Indices', j='missing'),
function(x, i, j, ..., drop=FALSE) {
return(x[i@rows, i@cols])
})
setClass('M', representation(m='matrix'))
setMethod('[', c(x='M', i='logical', j='logical'),
function(x, i, j, ..., drop=FALSE) {
return(x@m[i, j])
})
anIndicesObject <- new('Indices', rows=c(TRUE, TRUE, FALSE), cols=c(FALSE, TRUE, FALSE))
aMatrix <- matrix(1:9, nrow=3)
aMobject <- new('M', m=aMatrix)
aMobject # Prints the M object
aMobject[c(TRUE, TRUE, FALSE), c(TRUE, TRUE, TRUE)] # Susbcript by logical vector
aMobject[anIndicesObject] # Subscript by Indices class
aMatrix[anIndicesObject] # Subscript a matrix by Indices --> ERROR
```

`setMethod('[', c(x='matrix', i='FilterCommandIndices', j='missing')`

? – hadley Mar 13 '14 at 14:16`[`

is primitive. But you're more likely to get help if you produce aminimalreproducible example that can be easily copy and pasted into R. – hadley Mar 13 '14 at 16:43