# what is `[[` looking for in this sapply example?

A followup to this How to use `[[` and `\$` as a function? question: I started playing a bit with the original setup (reduced the size from 10000 to 3 for simplicity)

``````JSON <- rep(list(x,y),3)
x <- list(a=1, b=1)
y <- list(a=1)
JSON <- rep(list(x,y),3)
sapply(JSON, "[[", "a")
[1] 1 1 1 1 1 1
sapply(JSON,"[[",'b')
[[1]]
[1] 1

[[2]]
NULL

[[3]]
[1] 1

[[4]]
NULL

[[5]]
[1] 1

[[6]]
NULL

sapply(JSON,'[[',1)
[1] 1 1 1 1 1 1
sapply(JSON,'[[',2)
Error in FUN(X[[2L]], ...) : subscript out of bounds
``````

That I think I understand -- searching for "b" is different from demanding the existence of a second element. But then, I created a deeper list:

``````NOSJ<-rep(list(JSON),3)

sapply(NOSJ,'[[',1)
[,1] [,2] [,3]
a 1    1    1
b 1    1    1
sapply(NOSJ,'[[',2)
\$a
[1] 1

\$a
[1] 1

\$a
[1] 1
``````

And now my head's hurting. Can someone expand on what `[[` (or its `sapply` method) is doing here?

-

You could think of sapply and lapply as a for-loop that operates on seq_along(NOSJ) as an index vector.

`````` for( i in seq_along(NOSJ) NOSJ[[i]]  .... then use "[[" with the 3rd argument
``````

So the first and second results would be:

``````> NOSJ[[1]][[1]]
\$a
[1] 1

\$b
[1] 1

> NOSJ[[2]][[1]]
\$a
[1] 1

\$b
[1] 1
``````

The difference between `sapply` and `lapply` is that `sapply` attempts to use `simply2array` to return a matrix or array if the dimensions of the returned values are all the same (as they are in this case when using `1`, `3` or `5` as the 3rd argument. Quite honestly I do not know why using 2,4,or 6 as the third argument does not return an atomic vector. I thought it should.

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Technically, it does return a named vector. `is.vector( sapply( NOSJ, '[[' , 2 ) )` returns `[1] TRUE`. I don't know why it doesn't look like a vector though. –  Simon O'Hanlon Sep 12 '13 at 12:51
`is.vector` is a misleading test of the structure. Look at `is.vector(list(a=1,b=2))`. Technically lists are vectors but that is not the usual way people use the language. –  IShouldBuyABoat Sep 12 '13 at 12:58
I have just noticed that. How can that be? I was just about to post a question to this effect. –  Simon O'Hanlon Sep 12 '13 at 12:58
The fundamental distinction is between "atomic" and "recursive". –  IShouldBuyABoat Sep 12 '13 at 13:00
Ah, I see. Thanks. Classic case of RTM! +1 –  Simon O'Hanlon Sep 12 '13 at 13:01
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`sapply(NOSJ,'[[',1)` returns the first list element of each of the lists passed to `[[` by `sapply` from `NOSJ`. Try...

``````sapply( NOSJ , length )
[1] 6 6 6
``````

Makes sense right? So `[[` is operating on the second level lists, the first element of which always contain only `a` and `b` so are coercible to a matrix. The second element of those lists of 6, always contain only `a`.

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OK, I think I'm learning :-) . This did what I expected: `sapply(sapply(NOSJ,'[[',1),'[[',1)` –  Carl Witthoft Sep 12 '13 at 12:45