How can I raise an exception in Python so that it can later be caught via an except block?


How do I manually throw/raise an exception in Python?

Use the most specific Exception constructor that semantically fits your issue.

Be specific in your message, e.g.:

raise ValueError('A very specific bad thing happened.')

Don't raise generic exceptions

Avoid raising a generic Exception. To catch it, you'll have to catch all other more specific exceptions that subclass it.

Problem 1: Hiding bugs

raise Exception('I know Python!') # Don't! If you catch, likely to hide bugs.

For example:

def demo_bad_catch():
        raise ValueError('Represents a hidden bug, do not catch this')
        raise Exception('This is the exception you expect to handle')
    except Exception as error:
        print('Caught this error: ' + repr(error))

>>> demo_bad_catch()
Caught this error: ValueError('Represents a hidden bug, do not catch this',)

Problem 2: Won't catch

and more specific catches won't catch the general exception:

def demo_no_catch():
        raise Exception('general exceptions not caught by specific handling')
    except ValueError as e:
        print('we will not catch exception: Exception')

>>> demo_no_catch()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<stdin>", line 3, in demo_no_catch
Exception: general exceptions not caught by specific handling

Best Practices: raise statement

Instead, use the most specific Exception constructor that semantically fits your issue.

raise ValueError('A very specific bad thing happened')

which also handily allows an arbitrary number of arguments to be passed to the constructor:

raise ValueError('A very specific bad thing happened', 'foo', 'bar', 'baz') 

These arguments are accessed by the args attribute on the Exception object. For example:

except ValueError as err:


('message', 'foo', 'bar', 'baz')    

In Python 2.5, an actual message attribute was added to BaseException in favor of encouraging users to subclass Exceptions and stop using args, but the introduction of message and the original deprecation of args has been retracted.

Best Practices: except clause

When inside an except clause, you might want to, for example, log that a specific type of error happened, and then re-raise. The best way to do this while preserving the stack trace is to use a bare raise statement. For example:

logger = logging.getLogger(__name__)

except AppError as error:
    raise                 # just this!
    # raise AppError      # Don't do this, you'll lose the stack trace!

Don't modify your errors... but if you insist.

You can preserve the stacktrace (and error value) with sys.exc_info(), but this is way more error prone and has compatibility problems between Python 2 and 3, prefer to use a bare raise to re-raise.

To explain - the sys.exc_info() returns the type, value, and traceback.

type, value, traceback = sys.exc_info()

This is the syntax in Python 2 - note this is not compatible with Python 3:

    raise AppError, error, sys.exc_info()[2] # avoid this.
    # Equivalently, as error *is* the second object:
    raise sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]

If you want to, you can modify what happens with your new raise - e.g. setting new args for the instance:

def error():
    raise ValueError('oops!')

def catch_error_modify_message():
    except ValueError:
        error_type, error_instance, traceback = sys.exc_info()
        error_instance.args = (error_instance.args[0] + ' <modification>',)
        raise error_type, error_instance, traceback

And we have preserved the whole traceback while modifying the args. Note that this is not a best practice and it is invalid syntax in Python 3 (making keeping compatibility much harder to work around).

>>> catch_error_modify_message()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<stdin>", line 3, in catch_error_modify_message
  File "<stdin>", line 2, in error
ValueError: oops! <modification>

In Python 3:

    raise error.with_traceback(sys.exc_info()[2])

Again: avoid manually manipulating tracebacks. It's less efficient and more error prone. And if you're using threading and sys.exc_info you may even get the wrong traceback (especially if you're using exception handling for control flow - which I'd personally tend to avoid.)

Python 3, Exception chaining

In Python 3, you can chain Exceptions, which preserve tracebacks:

    raise RuntimeError('specific message') from error

Be aware:

  • this does allow changing the error type raised, and
  • this is not compatible with Python 2.

Deprecated Methods:

These can easily hide and even get into production code. You want to raise an exception, and doing them will raise an exception, but not the one intended!

Valid in Python 2, but not in Python 3 is the following:

raise ValueError, 'message' # Don't do this, it's deprecated!

Only valid in much older versions of Python (2.4 and lower), you may still see people raising strings:

raise 'message' # really really wrong. don't do this.

In all modern versions, this will actually raise a TypeError, because you're not raising a BaseException type. If you're not checking for the right exception and don't have a reviewer that's aware of the issue, it could get into production.

Example Usage

I raise Exceptions to warn consumers of my API if they're using it incorrectly:

def api_func(foo):
    '''foo should be either 'baz' or 'bar'. returns something very useful.'''
    if foo not in _ALLOWED_ARGS:
        raise ValueError('{foo} wrong, use "baz" or "bar"'.format(foo=repr(foo)))

Create your own error types when apropos

"I want to make an error on purpose, so that it would go into the except"

You can create your own error types, if you want to indicate something specific is wrong with your application, just subclass the appropriate point in the exception hierarchy:

class MyAppLookupError(LookupError):
    '''raise this when there's a lookup error for my app'''

and usage:

if important_key not in resource_dict and not ok_to_be_missing:
    raise MyAppLookupError('resource is missing, and that is not ok.')
  • 8
    Thanks for this, it's exactly what I needed. The bare raise is what I needed to be able to perform custom error debugging at multiple levels of code execution without breaking the stack trace. – CaffeineConnoisseur Feb 2 '17 at 19:49
  • This is a great answer. But I still work with a lot of 2.7 code, and I often find myself wanting to add information to an unexpected exception, like an input file position or the values of some variables, but keep the original stack and exception. I can log it, but sometimes I don't want it logged, e.g. if parent code ultimately handles it. raise sys.exc_info()[0], (sys.exc_info()[1], my_extra_info), sys.exc_info()[2] seems to do what I want, and I've never run into problems with it. But it feels hacky, and not an accepted practice. Is there a better way? – Michael Scheper Mar 15 '17 at 20:40
  • Thanks for the compliment - but sadly enough, there is not a better way - not on Python 2. – Aaron Hall Mar 15 '17 at 20:44
  • 1
    @brennanyoung In that context I think it could be confusing to raise a SyntaxError - probably you should raise a custom exception. I explain how to here: stackoverflow.com/a/26938914/541136 – Aaron Hall Nov 9 '17 at 13:18
  • 1
    Note that the full quote is "All built-in, non-system-exiting exceptions are derived from this class. All user-defined exceptions should also be derived from this class." - That mostly means that you shouldn't use one of the 4 exceptions that don't derive from Exception as your parent class - you can subclass something more specific, and should do so if it makes sense. – Aaron Hall Nov 10 '17 at 16:03

DON'T DO THIS. Raising a bare Exception is absolutely not the right thing to do; see Aaron Hall's excellent answer instead.

Can't get much more pythonic than this:

raise Exception("I know python!")

See the raise statement docs for python if you'd like more info.

  • 42
    No please! This removes the potential to be specific about what you catch. It is ENTIRELY the wrong way to do it. Take a look at Aaron Hall's excellent answer instead of this one. It's times like this I wish I could give more than one downvote per answer. – Dawood ibn Kareem Jan 21 '15 at 22:23
  • 16
    @DavidWallace it's terrible that this has so many upvotes :( – Peter R Feb 16 '15 at 3:26
  • 22
    @PeterR It's equally terrible that it has so few downvotes. To ANYBODY reading this answer, DO NOT DO THIS EVER! The correct answer is Aaron Hall's one. – Dawood ibn Kareem Feb 16 '15 at 9:38
  • 5
    I think there should be a more detailed explanation on why this is wrong or so bad. – Charlie Parker Oct 22 '16 at 0:07
  • 7
    @CharlieParker There is. It's the first part of Aaron Hall's answer. – Dinei Feb 24 '17 at 12:42

For the common case where you need to throw an exception in response to some unexpected conditions, and that you never intend to catch, but simply to fail fast to enable you to debug from there if it ever happens — the most logical one seems to be AssertionError:

if 0 < distance <= RADIUS:
    #Do something.
elif RADIUS < distance:
    #Do something.
    raise AssertionError("Unexpected value of 'distance'!", distance)
  • 14
    This is a better case for ValueError than AssertionError because there's no problem with an assertion (because none is being made here) -- the problem is with a value. If you really want an AssertionError in this case, write assert distance > 0, 'Distance must be positive'. But you shouldn't error check that way because assertions can be turned off (python -O). – Two-Bit Alchemist Sep 16 '15 at 21:33
  • @Two-BitAlchemist Good point. The idea was lost in simplification, when I wrote the simple example above. In many similar cases it's a condition that isn't associated with a particular value. Rather, the meaning is "control flow should never get here". – Evgeni Sergeev Sep 17 '15 at 1:31
  • 1
    @Two-BitAlchemist Assertions can be turned off, yes, but then you shouldn't use them to error check at all? – Evgeni Sergeev Sep 17 '15 at 1:31
  • Well it depends. I wouldn't let that be my only error checking in a program I intended to distribute. On the other hand, I could make a program just for my co-workers and tell them they use it at their own risk if they run it with -O. – Two-Bit Alchemist Sep 17 '15 at 17:05
  • 1
    @Two-BitAlchemist For me the role of assertions isn't error-checking per se (which is what testing is for), but they set up fences within the code that certain bugs can't get through. So it becomes easier to track down and isolate the bugs, which will inevitably occur. This is just good habits that take little effort, while testing takes a lot of effort and a lot of time. – Evgeni Sergeev Sep 21 '15 at 2:36

In Python3 there are 4 different syntaxes for rasing exceptions:

1. raise exception 
2. raise exception (args) 
3. raise
4. raise exception (args) from original_exception

1. raise exception vs. 2. raise exception (args)

If you use raise exception (args) to raise an exception then the args will be printed when you print the exception object - as shown in the example below.

  #raise exception (args)
        raise ValueError("I have raised an Exception")
    except ValueError as exp:
        print ("Error", exp)     # Output -> Error I have raised an Exception 

  #raise execption 
        raise ValueError
    except ValueError as exp:
        print ("Error", exp)     # Output -> Error 


raise statement without any arguments re-raises the last exception. This is useful if you need to perform some actions after catching the exception and then want to re-raise it. But if there was no exception before, raise statement raises TypeError Exception.

def somefunction():
    print("some cleaning")



except Exception:            #Output ->
    somefunction()           #some cleaning
    raise                    #Traceback (most recent call last):
                             #File "python", line 8, in <module>
                             #ZeroDivisionError: division by zero

4. raise exception (args) from original_exception

This statement is used to create exception chaining in which an exception that is raised in response to another exception can contain the details of the original exception - as shown in the example below.

class MyCustomException(Exception):


    except ZeroDivisionError as exp:
        print("ZeroDivisionError -- ",exp)
        raise MyCustomException("Zero Division ") from exp

except MyCustomException as exp:


ZeroDivisionError --  division by zero
MyException Zero Division 
division by zero

Read the existing answers first, this is just an addendum.

Notice that you can raise exceptions with or without arguments.


raise SystemExit

exits the program but you might want to know what happened.So you can use this.

raise SystemExit("program exited")

this will print "program exited" to stderr before closing the program.


Just to note: there are times when you DO want to handle generic exceptions. If you're processing a bunch of files and logging your errors, you might want to catch any error that occurs for a file, log it, and continue processing the rest of the files. In that case, try: except Exception: is a good way to do it. You'll still want to raise specific exceptions so you know what they mean though.

protected by mu 無 Apr 11 '18 at 20:42

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