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`substitute`

is a "special" whose arguments are not evaluated (doc).

```
typeof(substitute)
```

```
[1] "special"
```

That means that the return value of `substitute`

may not agree with parser logic, depending on how the unevaluated arguments are processed internally.

In general, `substitute`

receives the call `...(<exprs>)`

as a `LANGSXP`

of the form (pseudocode) `pairlist(R_DotsSymbol, <exprs>)`

(doc). The context of the `substitute`

call determines how the `SYMSXP`

`R_DotsSymbol`

is processed. Specifically, if `substitute`

was called inside of a function with `...`

as a formal argument and `rho`

as its execution environment, then the result of

```
findVarInFrame3(rho, R_DotsSymbol, TRUE)
```

in the body of C utility `substituteList`

(source) is either a `DOTSXP`

or `R_MissingArg`

—the latter if and only if `f`

was called without arguments (doc). In other contexts, the result is `R_UnboundValue`

or (exceptionally) some other `SEXP`

—the latter if and only if a value is bound to the name `...`

in `rho`

. Each of these cases is handled specially by `substituteList`

.

The multiplicity in the processing of `R_DotsSymbol`

is the reason why these R statements give different results:

```
f0 <- function() substitute(...(n = 1)); f0()
## ...(n = 1)
f1 <- function(...) substitute(...(n = 1)); f1()
## $n
## [1] 1
g0 <- function() {... <- quote(x); substitute(...(n = 1))}; g0()
## Error in g0() : '...' used in an incorrect context
g1 <- function(...) {... <- quote(x); substitute(...(n = 1))}; g1()
## Error in g1() : '...' used in an incorrect context
h0 <- function() {... <- NULL; substitute(...(n = 1))}; h0()
## $n
## [1] 1
h1 <- function(...) {... <- NULL; substitute(...(n = 1))}; h1()
## $n
## [1] 1
```

Given how `...(n = 1)`

is parsed, you might have expected `f1`

to return `call("...", n = 1)`

, both `g0`

and `g1`

to return `call("x", n = 1)`

, and both `h0`

and `h1`

to throw an error, but that is not the case for the above, mostly undocumented reasons.

### Internals

When called inside of the R function `f`

,

```
f <- function(...) substitute(...(<exprs>))
```

`substitute`

evaluates a call to the C utility `do_substitute`

—you can learn this by looking here—in which `argList`

gets a `LISTSXP`

of the form `pairlist(x, R_MissingArg)`

, where `x`

is a `LANGSXP`

of the form `pairlist(R_DotsSymbol, <exprs>)`

(source).

If you follow the body of `do_substitute`

, then you will find that the value of `t`

passed to `substituteList`

from `do_substitute`

is a `LISTSXP`

of the form `pairlist(copy_of_x)`

(source).

It follows that the `while`

loop inside of the `substituteList`

call (source) has exactly one iteration and that the statement `CAR(el) == R_DotsSymbol`

in the body of the loop (source) is `false`

in that iteration.

In the `false`

branch of the conditional (source), `h`

gets the value
`pairlist(substituteList(copy_of_x, env))`

. The loop exits and `substituteList`

returns `h`

to `do_substitute`

, which in turn returns `CAR(h)`

to R (source 1, 2, 3).

Hence the return value of `substitute`

is `substituteList(copy_of_x, env)`

, and it remains to deduce the identity of this `SEXP`

. Inside of *this* call to `substituteList`

, the `while`

loop has `1+m`

iterations, where `m`

is the number of `<exprs>`

. In the first iteration, the statement `CAR(el) == R_DotsSymbol`

in the body of the loop is `true`

.

In the `true`

branch of the conditional (source), `h`

is either a `DOTSXP`

or `R_MissingArg`

, because `f`

has `...`

as a formal argument (doc). Continuing, you will find that `substituteList`

returns:

`R_NilValue`

if `h`

was `R_MissingArg`

in the first `while`

iteration *and* `m = 0`

,

or, otherwise,

- a
`LISTSXP`

listing the expressions in `h`

(if `h`

was a `DOTSXP`

in the first `while`

iteration) followed by `<exprs>`

(if `m > 1`

), all unevaluated and without substitutions, because the execution environment of `f`

is empty at the time of the `substitute`

call.

Indeed:

```
f <- function(...) substitute(...())
is.null(f())
## [1] TRUE
f <- function(...) substitute(...(n = 1))
identical(f(a = sin(x), b = zzz), pairlist(a = quote(sin(x)), b = quote(zzz), n = 1))
## [1] TRUE
```

### Misc

FWIW, it helped me to recompile R after adding some print statements to `coerce.c`

. For example, I added the following before `UNPROTECT(3);`

in the body of `do_substitute`

(source):

```
Rprintf("CAR(t) == R_DotsSymbol? %d\n",
CAR(t) == R_DotsSymbol);
if (TYPEOF(CAR(t)) == LISTSXP || TYPEOF(CAR(t)) == LANGSXP) {
Rprintf("TYPEOF(CAR(t)) = %s, length(CAR(t)) = %d\n",
type2char(TYPEOF(CAR(t))), length(CAR(t)));
Rprintf("CAR(CAR(t)) = R_DotsSymbol? %d\n",
CAR(CAR(t)) == R_DotsSymbol);
Rprintf("TYPEOF(CDR(CAR(t))) = %s, length(CDR(CAR(t))) = %d\n",
type2char(TYPEOF(CDR(CAR(t)))), length(CDR(CAR(t))));
}
if (TYPEOF(s) == LISTSXP || TYPEOF(s) == LANGSXP) {
Rprintf("TYPEOF(s) = %s, length(s) = %d\n",
type2char(TYPEOF(s)), length(s));
Rprintf("TYPEOF(CAR(s)) = %s, length(CAR(s)) = %d\n",
type2char(TYPEOF(CAR(s))), length(CAR(s)));
}
```

which helped me confirm what was going into and coming out of the `substituteList`

call on the previous line:

```
f <- function(...) substitute(...(n = 1))
invisible(f(hello, world, hello(world)))
```

```
CAR(t) == R_DotsSymbol? 0
TYPEOF(CAR(t)) = language, length(CAR(t)) = 2
CAR(CAR(t)) = R_DotsSymbol? 1
TYPEOF(CDR(CAR(t))) = pairlist, length(CDR(CAR(t))) = 1
TYPEOF(s) = pairlist, length(s) = 1
TYPEOF(CAR(s)) = pairlist, length(CAR(s)) = 4
```

```
invisible(substitute(...()))
```

```
CAR(t) == R_DotsSymbol? 0
TYPEOF(CAR(t)) = language, length(CAR(t)) = 1
CAR(CAR(t)) = R_DotsSymbol? 1
TYPEOF(CDR(CAR(t))) = NULL, length(CDR(CAR(t))) = 0
TYPEOF(s) = pairlist, length(s) = 1
TYPEOF(CAR(s)) = language, length(CAR(s)) = 1
```

Obviously, compiling R with debugging symbols and running R under a debugger helps, too.

### Another puzzle

Just noticed this oddity:

```
g <- function(...) substitute(...(n = 1), new.env())
gab <- g(a = sin(x), b = zzz)
typeof(gab)
## [1] "language"
gab
## ...(n = 1)
```

Someone here can do another deep dive to find out why the result is a `LANGSXP`

rather than a `LISTSXP`

when you supply `env`

different from `environment()`

(including `env = NULL`

).

`substitute`

. Would definitely love to know the solution to this`substitute(...())`

. Didn'treallyget answered did it?`(function(...) substitute(...()))(a,b)`

runs fine in 1.4.1. It's been 20 years, and still not documented (?)`?substitute`

does warn: "There is no guarantee that the resulting expression makes any sense." I'm guessing that that was intended as a catch-all for weird behaviour.