# If statement with 9 else conditions in R

I have a function which looks at 9 different possibilities and chooses an action accordingly having the following form:

What I'm doing is looking up a vector and for each entry in the vector deciding

``````IF the value in the vector is 1 THEN start function B
IF the value in the vector is 2 THEN start function C
IF the value in the vector is 3 THEN start function D
IF the value in the vector is 4 THEN start function E
``````

etc.

I would like to write this in R. Do I just put "else" for every single case?

I have tried `switch` in the following way:

``````condition<-6
FUN<-function(condition){
switch(condition,
1 = random1(net)
2 = random2(net)
3 = random3(net)
4 = random4(net)
5 = random5(net)
6 = random6(net)
7 = random7(net)
8 = random8(net)
9 = random9(net)
10= random10(net))
}
``````

Where random 1 to 10 are functions using the variable 'net'

and what the `switch` command is trying to do is checking the value of 'condition' and if its 6 as in the above example then it runs the function: `random6(net)`

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`if/if` and `if/else if` are completely different. Decide which one you need first. –  irrelephant Dec 20 '12 at 12:51
Also look at `?switch` –  Romain Francois Dec 20 '12 at 12:52
i've edited the question maybe its more clear now –  user1723765 Dec 20 '12 at 12:54
What's the function to be applied if values in vector are both 1 and 2, or 1 and 3 and so on?? –  Jilber Dec 20 '12 at 13:00
there is no such case. –  user1723765 Dec 20 '12 at 13:03

Use `switch` function as in:

``````foo <- function(condition){
switch(condition,
'1' = print('B'),
'2' = print('C'),
'3' = print('D'),
'4' = print('E'))
}

> foo(1)
[1] "B"
> foo(2)
[1] "C"
> foo(3)
[1] "D"
> foo(4)
[1] "E"
``````

further details are in `?switch`

based on your example:

``````condition<-6
FUN<-function(condition){
switch(condition,
'1' = random1(net), # Maybe you're missing some commas here
'2' = random2(net), # and here
'3' = random3(net), # and here
'4' = random4(net)
....) # all the way to '10' = random10(net)
}
``````

this will do the trick

This works well for me:

``````Foo <- function(condition){
x <- 1:20
switch(condition,
'1' = mean(x),
'2' = var(x),
'3' = sd(x))
}

> Foo(1)
[1] 10.5
> Foo(2)
[1] 35
> Foo(3)
[1] 5.91608
``````
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this is perfectly fine and thanks for your help, but please see my edit above, what should I put instead of '1' to make it applicable in the above case? –  user1723765 Dec 20 '12 at 13:14
I get an error message saying : invalid (do_set) left-hand side to assignment –  user1723765 Dec 20 '12 at 13:14
this is exactly what I did but I get the error message mentioned in my previous comment –  user1723765 Dec 20 '12 at 13:17
also: Error: unexpected '=' in: " switch(condition, 1 =" –  user1723765 Dec 20 '12 at 13:18
If you want `FUN` to be a function, then the `switch` should return `random1` and not `random1(net)`. Then you can evaluate `FUN` by doing `FUN(net)`. –  flodel Dec 20 '12 at 14:07

Another solution is to pack all the functions you want to call into a list `randoms` and then select a list item based on `condition`:

``````randoms <- list(random1, random2, random3, random4, random5, random6, random7, random8, random9, random10)
FUN <- function(condition) {
randoms[[condition]](net)
}
``````
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+1 - That's the idea, but I think it should just be `FUN <- randoms[[condition]]` to get the right function, then `FUN(net)` to evaluate it. (The OP's code is also messed up with that regards.) –  flodel Dec 20 '12 at 14:04

Both answers pointed you to the right tools, but this is IMHO how things ought to be written. The OP and both solutions so far are creating functions that use a global variable (`net`) which is not best practice.

Assuming `randomX` are functions of one argument `net`, i.e.:

``````random1 <- function(net){ [...] }
random2 <- function(net){ [...] }
[etc.]
``````

Then you need to do:

``````FUN <- switch(condition,
'1' = random1,
'2' = random2,
[etc.])
``````

or better:

``````FUN.list <- list(random1, random2, [etc.])
FUN <- FUN.list[[condition]]
``````

In both cases, the output is a function that takes `net` as an input (just like `randomX`) so you can evaluate it by doing:

`FUN(net)`

Also note that you can do everything in one short scoop using the second approach:

``````FUN.list[[condition]](net)
``````
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