Does anyone have examples/tutorials of exception handling in R? The official documentation is very terse.
5 Answers
Basically you want to use the tryCatch()
function. Look at help("tryCatch") for more details.
Here's a trivial example (keep in mind that you can do whatever you want with an error):
vari < 1
tryCatch(print("passes"), error = function(e) print(vari), finally=print("finished"))
tryCatch(stop("fails"), error = function(e) print(vari), finally=print("finished"))
Have a look at these related questions:
Besides Shane's answer pointing you to other StackOverflow discussions, you could try a code search feature. This original answer pointed to Google's Code Search has since been discontinued, but you can try
 Github search as e.g. in this query for tryCatch in language=R;
 Ohloh/Blackduck Code search eg this query for tryCatch in R files
 the Debian code search engine on top of the whole Debian archive
Just for the record, there is also try
but tryCatch
may be preferable. I tried a quick count at Google Code Search but try gets too many false positives for the verb itself  yet it seems tryCatch
is more widely used.

Maybe this example could help: http://stackoverflow.com/a/12195574/2026975– imrissCommented Jun 27, 2013 at 14:12

A Github search is probably a decent replacement for the defunct link. Commented Apr 13, 2014 at 3:29

This result from a related google search helped me: http://biocodenv.com/wordpress/?p=15.
for(i in 1:16){
result < try(nonlinear_modeling(i));
if(class(result) == "tryerror") next;
}
The function trycatch()
is fairly straight forward, and there are plenty of good tutorials on that. A excellent explanation of error handling in R can be found in Hadley Wickham's book AdvancedR, and what follows is a very basic intro to withCallingHandlers()
and withRestarts()
in as few words as possible:
Lets say a low level programmer writes a function to calculate the absolute value. He isn't sure how to calculate it, but knows how to construct an error and diligently conveys his naiveté:
low_level_ABS < function(x){
if(x<0){
#construct an error
negative_value_error < structure(
# with class `negative_value`
class = c("negative_value","error", "condition"),
list(message = "Not Sure what to with a negative value",
call = sys.call(),
# and include the offending parameter in the error object
x=x))
# raise the error
stop(negative_value_error)
}
cat("Returning from low_level_ABS()\n")
return(x)
}
A midlevel programmer also writes a function to calculate the absolute value, making use of the woefully incomplete low_level_ABS
function. He knows that the low level code throws a negative_value
error when the value of x
is negative and suggests an solution to the problem, by
establishing a restart
which allows users of mid_level_ABS
to control the
way in which mid_level_ABS
recovers (or doesn't) from a negative_value
error.
mid_level_ABS < function(y){
abs_y < withRestarts(low_level_ABS(y),
# establish a restart called 'negative_value'
# which returns the negative of it's argument
negative_value_restart=function(z){z})
cat("Returning from mid_level_ABS()\n")
return(abs_y)
}
Finally, a high level programmer uses the mid_level_ABS
function to calculate
the absolute value, and establishes a condition handler which tells the
mid_level_ABS
to recover from a negative_value
error by using the restart
handler.
high_level_ABS < function(z){
abs_z < withCallingHandlers(
# call this function
mid_level_ABS(z) ,
# and if an `error` occurres
error = function(err){
# and the `error` is a `negative_value` error
if(inherits(err,"negative_value")){
# invoke the restart called 'negative_value_restart'
invokeRestart('negative_value_restart',
# and invoke it with this parameter
err$x)
}else{
# otherwise reraise the error
stop(err)
}
})
cat("Returning from high_level_ABS()\n")
return(abs_z)
}
The point of all this is that by using withRestarts()
and withCallingHandlers()
, the function
high_level_ABS
was able to tell mid_level_ABS
how to recover from errors
raised by low_level_ABS
error without stopping the execution of
mid_level_ABS
, which is something you can't do with tryCatch()
:
> high_level_ABS(3)
Returning from low_level_ABS()
Returning from mid_level_ABS()
Returning from high_level_ABS()
[1] 3
> high_level_ABS(3)
Returning from mid_level_ABS()
Returning from high_level_ABS()
[1] 3
In practice, low_level_ABS
represents a function that mid_level_ABS
calls a
lot (maybe even millions of times), for which the correct method of error
handling may vary by situation, and choice of how to handle specific errors is
left to higher level functions (high_level_ABS
).
The restart function is very important in R inherited from Lisp. It is useful if you want to call some function in the loop body and you just want the program to continue if the function call collapses. Try this code:
for (i in 1:20) withRestarts(tryCatch(
if((a < runif(1))>0.5) print(a) else stop(a),
finally = print("loop body finished!")),
abort = function(){})