Does anyone know how to multiply, or perform any binary operation, on two mathematical functions in R?

I'm trying to take something like:


and I want h = f * g, eventually to integrate h. I need to do things like this many times, so entering h manually isn't a viable option.

  • 6
    Create a function named h? h <- function(x) { f(x) * g(x) }? Dec 29 '13 at 8:01
  • I tried that, but I can't figure out how to use it. Neither h[2] nor h[[2]] gives me anything useful.
    – BioBroo
    Dec 29 '13 at 8:06
  • 1
    Why would you use square brackets there? Use h(2), just as you would use any other function. Dec 29 '13 at 8:06
  • 1
    Because I have so many for loops in my code that I got so focused on square brackets. And I'm stupid sometimes. Thanks for the help!
    – BioBroo
    Dec 29 '13 at 8:15

If you are going to be creating lots of multiplied functions, make a multiplier function that returns a function that is the product of its function arguments:


Then you can do:

[1]  3  8 15 24 35
[1]  3  8 15 24 35

And then:

[1]  9 16 25 36 49
[1]  9 16 25 36 49

And you can use this with any function:

h3 = Multiply(sqrt,sin)
[1]  0.841471  1.285941  0.244427 -1.513605 -2.144220
[1]  0.841471  1.285941  0.244427 -1.513605 -2.144220

Any function you create with the Multiply function will be a function that returns the element-wise product of the two functions.

Programming with functions like this is often very useful. There's an R package, functional, that has some functions for this kind of thing, including Compose which is like your case but constructs f(g(x)) rather than f(x)*g(x):

[1] 0.8414710 0.9877659 0.9870266 0.9092974 0.7867491
[1] 0.8414710 0.9877659 0.9870266 0.9092974 0.7867491

Note that its always round brackets (parentheses) because these are still functions. They just happen to have been created by other functions.

Note also the use of force in the Multiply function - this is because the arguments a and b aren't evaluated when the Multiply function is called - they only get evaluated when the returned function is called. If either f or g is changed or deleted before h is called, then without the force then h will get the value of f and g at the time h is called, rather than the time it was defined. This can lead to some infuriatingly hard-to-find bugs.

  • Thanks for the help! I already had an answer for my current purposes, but what you pointed out is a strategy that will surely help me in the future. Thanks for being so thorough.
    – BioBroo
    Dec 29 '13 at 15:08
  • 1
    I was able to use this answer to solve a problem I was having. Thanks.
    – John
    Apr 9 '14 at 15:25

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.