# Exceptions
# Catching and rethrowing caught exceptions
When you want to catch an exception and do something, but you can't continue execution of the current block of code because of the exception, you may want to rethrow the exception to the next exception handler in the call stack. There are good ways and bad ways to do this.
private static void AskTheUltimateQuestion()
{
try
{
var x = 42;
var y = x / (x - x); // will throw a DivideByZeroException
// IMPORTANT NOTE: the error in following string format IS intentional
// and exists to throw an exception to the FormatException catch, below
Console.WriteLine("The secret to life, the universe, and everything is {1}", y);
}
catch (DivideByZeroException)
{
// we do not need a reference to the exception
Console.WriteLine("Dividing by zero would destroy the universe.");
// do this to preserve the stack trace:
throw;
}
catch (FormatException ex)
{
// only do this if you need to change the type of the Exception to be thrown
// and wrap the inner Exception
// remember that the stack trace of the outer Exception will point to the
// next line
// you'll need to examine the InnerException property to get the stack trace
// to the line that actually started the problem
throw new InvalidOperationException("Watch your format string indexes.", ex);
}
catch (Exception ex)
{
Console.WriteLine("Something else horrible happened. The exception: " + ex.Message);
// do not do this, because the stack trace will be changed to point to
// this location instead of the location where the exception
// was originally thrown:
throw ex;
}
}
static void Main()
{
try
{
AskTheUltimateQuestion();
}
catch
{
// choose this kind of catch if you don't need any information about
// the exception that was caught
// this block "eats" all exceptions instead of rethrowing them
}
}
You can filter by exception type and even by exception properties (new in C# 6.0, a bit longer available in VB.NET (citation needed)):
Documentation/C#/new features (opens new window)
# Using a finally block
The finally { ... }
block of a try-finally
or try-catch-finally
will always execute, regardless of whether an exception occurred or not (except when a StackOverflowException
has been thrown or call has been made to Environment.FailFast()
).
It can be utilized to free or clean up resources acquired in the try { ... }
block safely.
Console.Write("Please enter a filename: ");
string filename = Console.ReadLine();
Stream fileStream = null;
try
{
fileStream = File.Open(filename);
}
catch (FileNotFoundException)
{
Console.WriteLine("File '{0}' could not be found.", filename);
}
finally
{
if (fileStream != null)
{
fileStream.Dispose();
}
}
# Exception Filters
Since C# 6.0 exceptions can be filtered using the when
operator.
This is similar to using a simple if
but does not unwind the stack if the condition inside the when
is not met.
Example
try
{
// ...
}
catch (Exception e) when (e.InnerException != null) // Any condition can go in here.
{
// ...
}
The same info can be found in the C# 6.0 Features (opens new window) here: Exception filters (opens new window)
# Rethrowing an exception within a catch block
Within a catch
block the throw
keyword can be used on its own, without specifying an exception value, to rethrow the exception which was just caught. Rethrowing an exception allows the original exception to continue up the exception handling chain, preserving its call stack or associated data:
try {...}
catch (Exception ex) {
// Note: the ex variable is *not* used
throw;
}
A common anti-pattern is to instead throw ex
, which has the effect of limiting the next exception handler's view of the stack trace:
try {...}
catch (Exception ex) {
// Note: the ex variable is thrown
// future stack traces of the exception will not see prior calls
throw ex;
}
In general using throw ex
isn't desirable, as future exception handlers which inspect the stack trace will only be able to see calls as far back as throw ex
. By omitting the ex
variable, and using the throw
keyword alone the original exception will "bubble-up" (opens new window).
# Throwing an exception from a different method while preserving its information
Occasionally you'd want to catch an exception and throw it from a different thread or method while preserving the original exception stack. This can be done with ExceptionDispatchInfo
:
using System.Runtime.ExceptionServices;
void Main()
{
ExceptionDispatchInfo capturedException = null;
try
{
throw new Exception();
}
catch (Exception ex)
{
capturedException = ExceptionDispatchInfo.Capture(ex);
}
Foo(capturedException);
}
void Foo(ExceptionDispatchInfo exceptionDispatchInfo)
{
// Do stuff
if (capturedException != null)
{
// Exception stack trace will show it was thrown from Main() and not from Foo()
exceptionDispatchInfo.Throw();
}
}
# Catching an exception
Code can and should throw exceptions in exceptional circumstances. Examples of this include:
- Attempting to read past the end of a stream (opens new window)
- Not having necessary permissions (opens new window) to access a file
- Attempting to perform an invalid operation, such as dividing by zero (opens new window)
- A timeout occurring (opens new window) when downloading a file from the internet
The caller can handle these exceptions by "catching" them, and should only do so when:
- It can actually resolve the exceptional circumstance or recover appropriately, or;
- It can provide additional context to the exception that would be useful if the exception needs to be re-thrown (re-thrown exceptions are caught by exception handlers further up the call stack)
It should be noted that choosing not to catch an exception is perfectly valid if the intention is for it to be handled at a higher level.
Catching an exception is done by wrapping the potentially-throwing code in a try { ... }
block as follows, and catching the exceptions it's able to handle in a catch (ExceptionType) { ... }
block:
Console.Write("Please enter a filename: ");
string filename = Console.ReadLine();
Stream fileStream;
try
{
fileStream = File.Open(filename);
}
catch (FileNotFoundException)
{
Console.WriteLine("File '{0}' could not be found.", filename);
}
# Remarks
Related: