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I am a little confused about the switch statement in R. Simply googling the function I get an example as follows:

A common use of switch is to branch according to the character value of one of the arguments to a function.

 > centre <- function(x, type) {
 + switch(type,
 +        mean = mean(x),
 +        median = median(x),
 +        trimmed = mean(x, trim = .1))
 + }
 > x <- rcauchy(10)
 > centre(x, "mean")
 [1] 0.8760325
 > centre(x, "median")
 [1] 0.5360891
 > centre(x, "trimmed")
 [1] 0.6086504

However this just seems to be the same as just having a bunch of if statements designated for each type

Is that all there is to switch()? Can someone give me further examples and better applications?

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2  
Yes, that's all there is to it. –  Andrie Oct 19 '11 at 18:12

3 Answers 3

up vote 20 down vote accepted

Well, timing to the rescue again. It seems switch is generally faster than if statements. So that, and the fact that the code is shorter/neater with a switch statement leans in favor of switch:

# Simplified to only measure the overhead of switch vs if

test1 <- function(type) {
 switch(type,
        mean = 1,
        median = 2,
        trimmed = 3)
}

test2 <- function(type) {
 if (type == "mean") 1
 else if (type == "median") 2
 else if (type == "trimmed") 3
}

system.time( for(i in 1:1e6) test1('mean') ) # 0.89 secs
system.time( for(i in 1:1e6) test2('mean') ) # 1.13 secs
system.time( for(i in 1:1e6) test1('trimmed') ) # 0.89 secs
system.time( for(i in 1:1e6) test2('trimmed') ) # 2.28 secs

Update With Joshua's comment in mind, I tried other ways to benchmark. The microbenchmark seems the best. ...and it shows similar timings:

> library(microbenchmark)
> microbenchmark(test1('mean'), test2('mean'), times=1e6)
Unit: nanoseconds
           expr  min   lq median   uq      max
1 test1("mean")  709  771    864  951 16122411
2 test2("mean") 1007 1073   1147 1223  8012202

> microbenchmark(test1('trimmed'), test2('trimmed'), times=1e6)
Unit: nanoseconds
              expr  min   lq median   uq      max
1 test1("trimmed")  733  792    843  944 60440833
2 test2("trimmed") 2022 2133   2203 2309 60814430

Final Update Here's showing how versatile switch is:

switch(type, case1=1, case2=, case3=2.5, 99)

This maps case2 and case3 to 2.5 and the (unnamed) default to 99. For more information, try ?switch

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2  
Using a for loop like that can cause issues with garbage collection. The difference is much smaller with a better benchmarking function: benchmark(test1('trimmed'), test2('trimmed'), replications=1e6). –  Joshua Ulrich Oct 19 '11 at 18:47
    
@JoshuaUlrich ...which benchmark function are you using? Not the obvious one from the "benchmark" package it seems? –  Tommy Oct 19 '11 at 18:52
1  
Sorry, I was using the rbenchmark package. –  Joshua Ulrich Oct 19 '11 at 18:55
1  
According to stackoverflow.com/questions/6262203/… "microbenchmark" is an even better one. –  Tommy Oct 19 '11 at 19:26
    
@JoshuaUlrich - I updated the answer with results from microbencmark, but they are very similar to my original ones. I don't really see how rbenchmark would get around the GC issue, but it seems to have more overhead by calling eval and replicate. –  Tommy Oct 19 '11 at 19:34

In short, yes. But there are times when you might favor one vs. the other. Google "case switch vs. if else". There are some discussions already on SO too. Also, here is a good video that talks about it in the context of MATLAB:

http://blogs.mathworks.com/pick/2008/01/02/matlab-basics-switch-case-vs-if-elseif/

Personally, when I have 3 or more cases, I usually just go with case/switch.

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In general, with , you can handle Garbage Collection yourself.

For example:

names(k)<-NULL;k;rm(k);
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gc() is handy too. –  screechOwl Nov 20 at 0:26

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