# Combining expressions in R

I am trying to combine multiple expressions in R into a single expression. Ideally, I would be able to do something like this:

``````g <- expression(exp(a[1]*x)/(1 + exp(a[1]*x)))
h <- expression(exp(a[2]*x)/(1 + exp(a[2]*x)))
c <- expression(g * h)
``````

where `a` is a given vector of data and `x` is the only unknown (and it is the same unknown across all expressions). `c` would return

``````R> c
expression(exp(a[1]*x)/(1 + exp(a[1]*x)) * exp(a[2]*x)/(1 + exp(a[2]*x)))
``````

Right now, when I do this I just get

``````R> c
expression(g * h)
``````

I want to have an equation

into which I could plug some vector `a` to obtain a function of `x`. What am I doing wrong here?

-
R is not a symbolic algebra program. You should be paying for attention to @thelatemail and at mnel. R is a functional language. –  DWin Feb 21 at 4:16

Don't use expressions, use functions. The

From what I can decipher, the following will do what you want

``````# a function for a vector `x` and single value `a`
func <- function(x,a) { (exp(1)^(a*x)/(1 + exp(1)^(a*x))) }
# a function for  a vector `x` and vector length 2 for `a`
foo <- function(x, a){func(x,a[1]) * func(x, a[2])}

# call the function to calculate what you want.

foo(x,a)
``````

And if you want the `expression` associated with this so you can plot the text of the equation, the following will work

``````expr <- expression(exp(1)^(a*x)/(1 + exp(1)^(a*x))

g <- do.call(substitute, list(as.list(expr)[[1]], env= list(a=3)))
h<- do.call(substitute, list(as.list(expr)[[1]], env= list(a=2)))
'%c%' <- function(a,b) bquote(.(a) %*% .(b))

fooExpr <- g %c% h
``````
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Ok, this method seems like it is what I need -- thank you! –  psychometriko Feb 21 at 18:37

You may want a function not an expression I think:

``````newfunc <- function(x) {
(exp(1)^(2*x)/(1 + exp(1)^(2*x))) *
(exp(1)^(3*x)/(1 + exp(1)^(3*x)))
}

a <- 1:10

newfunc(a)
[1] 0.8390245 0.9795856 0.9974043 0.9996585 0.9999543 0.9999938 0.9999992
[8] 0.9999999 1.0000000 1.0000000
``````

If you want to chain together multiple functions explicitly, you could just do:

``````newfunc1 <- function(x) {
(exp(1)^(2*x)/(1 + exp(1)^(2*x)))
}

newfunc2 <- function(x) {
(exp(1)^(3*x)/(1 + exp(1)^(3*x)))
}

newfunc1(a) * newfunc2(a)
``````

Keep in mind, as the help file at ?expression says:

``````  ‘Expression’ here is not being used in its colloquial sense, that
of mathematical expressions.  Those are calls (see ‘call’) in R,
and an R expression vector is a list of calls, symbols etc, for
example as returned by ‘parse’.
``````
-
Thanks for the response. The problem with this is that I don't know exactly the form that each of the individual expressions will take until I examine the data vector `a`. I posted a very simplified version of my problem, which is that I want to specify the combined expression on the fly, and each term in the expression (of which I only showed two above) can take one of three possible forms. So I actually need to build this as I go. –  psychometriko Feb 21 at 3:25
@psychometriko - I'm not sure what would be the problem with using the function method. Just add or edit one of the lines in `newfunc` as you go until you are happy. –  thelatemail Feb 21 at 4:03

You could define a binary function to combine `expression` objects in a slightly hacky way -- get their character representation, paste them with a `*`, then re-parse it:

`"%c%" <- function(x, y) parse( text=paste(x, "*", y) )`

gives the desired output when calling `g %c% h`, for example.

EDIT: Answer updated to correct previous error; thanks mnel!

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Thanks so much for the idea! Once I have a chance to test this, hopefully tomorrow, I will mark this as the answer. –  psychometriko Feb 21 at 3:26
This isn't going to work! it creates an `expression('exp(a[1]*x)/(1 + exp(a[1]*x)) * exp(a[2]*x)/(1 + exp(a[2]*x))')` which isn't the same as `expression(exp(a[1]*x)/(1 + exp(a[1]*x)) * exp(a[2]*x)/(1 + exp(a[2]*x))`. and certainly wont let you pass a vector `a` or `x` to get a function of x that you can evaluate in R –  mnel Feb 21 at 3:46
Thanks. I was close, but your solution is definitely better. –  Kevin Ushey Feb 21 at 18:50