In C#, what is the difference Between 'Catch', 'Catch (Exception)', and 'Catch(Exception e)' ?

The MSDN article on try-catch uses 2 of them in its examples, but doesn't explain the difference in usage purposes.


catch (Exception)

catch(Exception e)

How do these differ? Which ones catch all exceptions, and which ones catch specific exceptions?


In short...

Catch without a parameter will receive any exception but provide no means to address it.

Catch (Exception) will essentially do the same thing, because you've specified the root Exception type. As opposed to Catch (IOException) which would only catch the IOException type.

Catch (Exception ex) catches all exceptions and provides a means to address it via the ex variable.

Read more: http://msdn.microsoft.com/en-us/library/ms173160.aspx


No one has yet mentioned the historical aspect of this question.

In .NET it is legal to throw an object that does not derive from Exception. (It is not legal in C#, but it is in some other managed languages.) Many people are unaware of this fact, but it is legal. Since that is crazy, in .NET 2.0 the default was changed: if you attempt to throw something that is not an exception then it is automatically wrapped in the RuntimeWrappedException class which obviously is an exception. That object is then thrown.

Because of this oddity, in C# 1.0 it was common to see code that did both:

{ do something }
{ handle the exception }
{ handle the thrown non-exception }

And in fact there were security and correctness issues; there are situations in which for security reasons you must catch anything that is thrown (possibly to re-throw it) and people would think reasonably that catch(Exception) caught everything, but it didn't.

Fortunately since .NET 2.0 things have been more sensible; you can rely on catch {}, catch(Exception) {} and catch(Exception ex) {} to all catch everything should you need to.

And finally: if for some crazy reason you want to turn on the C# 1.0 behavior, you can put

[assembly:System.Runtime.CompilerServices.RuntimeCompatibility(WrapNonExceptionThrows = false)]

in your program.

  • 1
    +1 because you barely have any reputation. Oh, and the history lesson :) – Brian Jun 12 '13 at 20:00
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  • Is this true also for .NET Compact Framework since version 2.0? – Thomas Aug 25 '14 at 11:21
  • @Thomas: This is a question-and-answer site. If you have a question, post it as a question and someone will answer it. I note that "does framework X support feature Y?" is a question that can be answered by you by trying it. – Eric Lippert Aug 25 '14 at 17:48

First version catches all exceptions deriving from the Exception class.

The second version catches specified exception.

The third version catches a specified exception with a declared name. Then in the catch block you can use this object, for example, to see the complete error: e.ToString();

Read more here.

  • Actually, you would use e.Message. – DonBoitnott Jun 12 '13 at 19:41
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    @DonBoitnott: no, you should not use e.Message. That's only the "pretty" message for the user. e.ToString() displays all the information, including inner exceptions. – John Saunders Jun 12 '13 at 19:43
  • @JohnSaunders Do you refer to the "stack trace"? If so, then I would agree. – DonBoitnott Jun 12 '13 at 19:44
  • Also note that the versions catch Exception types or anything deriving from Exception. – Adam Houldsworth Jun 12 '13 at 19:46
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    @DonBoitnott: not just e.StackTrace. ToString will display inner exceptions, server-side exceptions, etc. – John Saunders Jun 12 '13 at 19:46

All of them do basically the same thing, the difference being the amount of information they provide about the error.

catch (foo ex) {} will filter out all exceptions, except those that can be cast to type foo. It also gives you the instance of the error for you to work on.

catch (foo) {} does the same as above, but it doesn't give you the instance of the exception. You'll know the type of the exception, but won't be able to read information from it.

Notice that in both of those cases, if the type of the exception is Exception, they'll catch all exceptions.

catch {} catches all exceptions. You don't know the type it caught and you can't access the instance.

You can choose which one to use based on how much information you need from the exception should it be caught.

Regardless of which one you use, you can pass the caught exception forward by using the command throw; (without arguments).


In your example, nothing, since you're not doing anything with the exception. But to clarify…

  • This catches everything but does nothing with the exception.

    catch {}

    This is only useful when you want to say guarantee a return from a method.

  • This catches only exceptions of type Exception (which is everything) but does nothing with the exception.

    catch (Exception) {}

    This is useful if you wanted to limit the type of exception being caught by specifying which types you want to handle. Any other exceptions will bubble up the call stack until a proper handler is found.

  • This catches only exceptions of type Exception (which is everything) and could do something with the exception, but happens to do nothing

    catch (Exception ex) {}

    This technique gives you a lot more options. You could log the exception, inspect the InnerException, etc. And again you can specify which types of exceptions you wish to handle.

Unless you're re-throwing the exception somehow, all of these are bad practice. In general, you should only catch the exceptions you can meaningfully handle and allow anything else to bubble up.

  • The language does not allow a catch block to come after another catch block which already handles every type that this catch would handle. But it does allow catch (Exception) { ... } catch { ... } where supposedly that last block is unreachable. According to this answer, some languages other than C# might "throw" an object that is not a System.Exception. Is it true? I have heard that in that case the exotic object will be wrapped in an Exception by the runtime after all, but is that correct? – Jeppe Stig Nielsen Jun 12 '13 at 19:51
  • Lippert just explained this in his answer. – Jeppe Stig Nielsen Jun 12 '13 at 19:57

Adding catch(Exception e) will give you access to the Exception object, which contains details about the exception that was thrown, such as its Message and StackTrace; it is useful to log this information to help diagnose bugs. A simple catch without declaring the exception that you're trying to catch won't give you access to the exception object.

Also, catching the base Exception is generally considered bad practice because it's far too generic, and where possible you should always case for a specific exception first. For example, if you're working with files you might consider the following try/catch block:

    //open your file and read/write from it here
}catch(FileNotFoundException fe){
    //log the message
}catch(Exception e){
    //you can catch a general exception at the end if you must
    //close your file

At the highest level they are all the same; they all catch exceptions.

But to drill down further, in the first case you are catching an exception and doing nothing with it (you don't have a defined type). In the second example, you are catching an exception of the Exception type. In your last example, you are catching the same Exception type as in example 2 but, now you are putting the exception into a variable that would allow you to show it in a MessageBox or:


It's important to note as well that exceptions are tiered meaning, if you are catching multiple types of exceptions in the same try/catch block, you go from the most specific exception type to the most general. Like this:

try {
catch (SqlException sqlExc) {
catch (Exception exc) {

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