Yes you can get it using this:

```
> lapply(list(a=10,b=10,c=10), function(x)substitute(x)[[3]])
```

Result:

```
$a
[1] 1
$b
[1] 2
$c
[1] 3
```

Explanation: `lapply`

creates calls of the form `FUN(X[[1L]], ...)`

, `FUN(X[[2L]], ...)`

etc. So the argument it passes is `X[[i]]`

where `i`

is the current index in the loop. If we get this *before* it's evaluated (i.e., if we use `substitute`

), we get the unevaluated expression `X[[i]]`

. This is a call to `[[`

function, with arguments `X`

(a symbol) and `i`

(an integer). So `substitute(x)[[3]]`

returns precisely this integer.

Having the index, you can access the names trivially, if you save it first like this:

```
L <- list(a=10,b=10,c=10)
n <- names(L)
lapply(L, function(x)n[substitute(x)[[3]]])
```

Result:

```
$a
[1] "a"
$b
[1] "b"
$c
[1] "c"
```

*Or* using this second trick: :-)

```
lapply(list(a=10,b=10,c=10), function(x)names(eval(sys.call(1)[[2]]))[substitute(x)[[3]]])
```

(result is the same).

Explanation 2: `sys.call(1)`

returns `lapply(...)`

, so that `sys.call(1)[[2]]`

is the expression used as list argument to `lapply`

. Passing this to `eval`

creates a legitimate object that `names`

can access. Tricky, but it works.

Bonus: a second way to get the names:

```
lapply(list(a=10,b=10,c=10), function(x)eval.parent(quote(names(X)))[substitute(x)[[3]]])
```

Note that `X`

is a valid object in the parent frame of `FUN`

, and references the list argument of `lapply`

, so we can get to it with `eval.parent`

.