What's the proper way to declare custom exception classes in modern Python? My primary goal is to follow whatever standard other exception classes have, so that (for instance) any extra string I include in the exception is printed out by whatever tool caught the exception.

By "modern Python" I mean something that will run in Python 2.5 but be 'correct' for the Python 2.6 and Python 3.* way of doing things. And by "custom" I mean an Exception object that can include extra data about the cause of the error: a string, maybe also some other arbitrary object relevant to the exception.

I was tripped up by the following deprecation warning in Python 2.6.2:

>>> class MyError(Exception):
...     def __init__(self, message):
...         self.message = message
>>> MyError("foo")
_sandbox.py:3: DeprecationWarning: BaseException.message has been deprecated as of Python 2.6

It seems crazy that BaseException has a special meaning for attributes named message. I gather from PEP-352 that attribute did have a special meaning in 2.5 they're trying to deprecate away, so I guess that name (and that one alone) is now forbidden? Ugh.

I'm also fuzzily aware that Exception has some magic parameter args, but I've never known how to use it. Nor am I sure it's the right way to do things going forward; a lot of the discussion I found online suggested they were trying to do away with args in Python 3.

Update: two answers have suggested overriding __init__, and __str__/__unicode__/__repr__. That seems like a lot of typing, is it necessary?

  • 40
    I believe this is one of those cases where Python doesn't follow one of its own aphorisms: There should be one-- and preferably only one --obvious way to do it.
    – Anakhand
    Jun 29, 2020 at 12:07
  • It's not correct to say Python does not follow TOOWTDI (q.v. TIMTOWDI). The different approaches available for Exception handling are a result of change in the language. There is still only one (obvious) way to do it - the most recent way recommended and designed into the version you are using. If there's any definition missing from the one true way at any particular minor version it's an imperfection, not an intention.
    – NeilG
    May 17 at 4:13

18 Answers 18


Maybe I missed the question, but why not:

class MyException(Exception):

To override something (or pass extra args), do this:

class ValidationError(Exception):
    def __init__(self, message, errors):            
        # Call the base class constructor with the parameters it needs
        # Now for your custom code...
        self.errors = errors

That way you could pass dict of error messages to the second param, and get to it later with e.errors.

In Python 2, you have to use this slightly more complex form of super():

super(ValidationError, self).__init__(message)
  • 76
    However an exception defined like this would not be picklable; see the discussion here stackoverflow.com/questions/16244923/…
    – jiakai
    Aug 1, 2017 at 2:54
  • 3
    Following the documentation of python for user-defined exceptions, the names that are mentioned in the __init__ function are incorrect. Instead of (self,message,error) it is (self,expression,message). The attribute expression is the input expression in which the error occurred and the message is an explanation of the error.
    – ddleon
    Feb 27, 2020 at 15:13
  • 13
    That is a misunderstanding, @ddleon. The example in the docs that you are referring to is for a particular use case. There is no significance to the name of the subclass's constructor arguments (nor their number).
    – asthasr
    Apr 22, 2020 at 21:15
  • 4
    What am I missing about how great it is to able to pass a dict of error messages?
    – martineau
    Dec 17, 2021 at 1:30

With modern Python Exceptions, you don't need to abuse .message, or override .__str__() or .__repr__() or any of it. If all you want is an informative message when your exception is raised, do this:

class MyException(Exception):

raise MyException("My hovercraft is full of eels")

That will give a traceback ending with MyException: My hovercraft is full of eels.

If you want more flexibility from the exception, you could pass a dictionary as the argument:

raise MyException({"message":"My hovercraft is full of animals", "animal":"eels"})

However, to get at those details in an except block is a bit more complicated. The details are stored in the args attribute, which is a list. You would need to do something like this:

    raise MyException({"message":"My hovercraft is full of animals", "animal":"eels"})
except MyException as e:
    details = e.args[0]

It is still possible to pass in multiple items to the exception and access them via tuple indexes, but this is highly discouraged (and was even intended for deprecation a while back). If you do need more than a single piece of information and the above method is not sufficient for you, then you should subclass Exception as described in the tutorial.

class MyError(Exception):
    def __init__(self, message, animal):
        self.message = message
        self.animal = animal
    def __str__(self):
        return self.message
  • 4
    "but this will be deprecated in the future" - is this still intended for deprecation? Python 3.7 still seems to happily accept Exception(foo, bar, qux).
    – mtraceur
    Apr 20, 2018 at 22:36
  • 2
    It haven't seen any recent work to depricate it since the last attempt failed due to the pain of transitioning, but that usage is still discouraged. I will update my answer to reflect that.
    – frnknstn
    May 2, 2018 at 8:20
  • @frnknstn, why it is discouraged? Looks like a nice idiom for me.
    – neves
    May 8, 2018 at 17:48
  • 4
    @neves for a start, using tuples to store exception information has no benefit over using a dictionary to do the same. If you are interested in the reasoning behind the exception changes, take a look at PEP352
    – frnknstn
    May 10, 2018 at 8:09
  • 5
    The relevant section of PEP352 is "Retracted Ideas".
    – liberforce
    Apr 17, 2019 at 16:25

"What is the proper way to declare custom exceptions in modern Python?"

This is fine unless your exception is really a type of a more specific exception:

class MyException(Exception):

Or better (maybe perfect), instead of pass give a docstring:

class MyException(Exception):
    """Raise for my specific kind of exception"""

Subclassing Exception Subclasses

From the docs


All built-in, non-system-exiting exceptions are derived from this class. All user-defined exceptions should also be derived from this class.

That means that if your exception is a type of a more specific exception, subclass that exception instead of the generic Exception (and the result will be that you still derive from Exception as the docs recommend). Also, you can at least provide a docstring (and not be forced to use the pass keyword):

class MyAppValueError(ValueError):
    '''Raise when my specific value is wrong'''

Set attributes you create yourself with a custom __init__. Avoid passing a dict as a positional argument, future users of your code will thank you. If you use the deprecated message attribute, assigning it yourself will avoid a DeprecationWarning:

class MyAppValueError(ValueError):
    '''Raise when a specific subset of values in context of app is wrong'''
    def __init__(self, message, foo, *args):
        self.message = message # without this you may get DeprecationWarning
        # Special attribute you desire with your Error, 
        # perhaps the value that caused the error?:
        self.foo = foo         
        # allow users initialize misc. arguments as any other builtin Error
        super(MyAppValueError, self).__init__(message, foo, *args) 

There's really no need to write your own __str__ or __repr__. The built-in ones are very nice, and your cooperative inheritance ensures that you use them.

Critique of the top answer

Maybe I missed the question, but why not:

class MyException(Exception):

Again, the problem with the above is that in order to catch it, you'll either have to name it specifically (importing it if created elsewhere) or catch Exception, (but you're probably not prepared to handle all types of Exceptions, and you should only catch exceptions you are prepared to handle). Similar criticism to the below, but additionally that's not the way to initialize via super, and you'll get a DeprecationWarning if you access the message attribute:

Edit: to override something (or pass extra args), do this:

class ValidationError(Exception):
    def __init__(self, message, errors):

        # Call the base class constructor with the parameters it needs
        super(ValidationError, self).__init__(message)

        # Now for your custom code...
        self.errors = errors

That way you could pass dict of error messages to the second param, and get to it later with e.errors

It also requires exactly two arguments to be passed in (aside from the self.) No more, no less. That's an interesting constraint that future users may not appreciate.

To be direct - it violates Liskov substitutability.

I'll demonstrate both errors:

>>> ValidationError('foo', 'bar', 'baz').message

Traceback (most recent call last):
  File "<pyshell#10>", line 1, in <module>
    ValidationError('foo', 'bar', 'baz').message
TypeError: __init__() takes exactly 3 arguments (4 given)

>>> ValidationError('foo', 'bar').message
__main__:1: DeprecationWarning: BaseException.message has been deprecated as of Python 2.6

Compared to:

>>> MyAppValueError('foo', 'FOO', 'bar').message
  • 3
    Hello from 2018! BaseException.message is gone in Python 3, so the critique only holds for old versions, right?
    – Kos
    Jan 3, 2018 at 18:21
  • 12
    @Kos The critique about Liskov Substitutability is still valid. The semantics of the first argument as a "message" are also arguably questionable, but I don't think I'll argue the point. I'll give this more of a look when I have more free time. Jan 3, 2018 at 19:02
  • 2
    @ostergaard Can't answer in full right now, but in short, the user gets the additional option of catching ValueError. This makes sense if it's in the category of Value Errors. If it's not in the category of Value Errors, I'd argue against it on the semantics. There's room for some nuance and reasoning on the part of the programmer, but I much prefer specificity when applicable. I'll update my answer to better tackle the subject some time soon. Sep 16, 2018 at 21:17
  • 4
    I don't see much sense in following the Liskov substitution principle with custom exceptions. You raise a specific exception to indicate a specific condition. Why would you ever need to substitute an instance of a base exception class with an instance of a derived exception class? Feb 28, 2020 at 15:34
  • 6
    Related to what @Eugene said, does the Liskov substitution principle apply to constructors? (See also: this, this.) Specifically, in the case of exceptions, it could very well be that I decide to replace a generic expression with a more specific one, but in that case, I'll also make sure to provide the necessary arguments—otherwise, it's a half-baked job.
    – Anakhand
    Jun 29, 2020 at 14:39

To define your own exceptions correctly, there are a few best practices that you should follow:

  • Define a base class inheriting from Exception. This will allow to easily catch any exceptions related to the project:

    class MyProjectError(Exception):
        """A base class for MyProject exceptions."""

    Organizing the exception classes in a separate module (e.g. exceptions.py) is generally a good idea.

  • To create a specific exception, subclass the base exception class.

    class CustomError(MyProjectError):
       """A custom exception class for MyProject."""

    You can subclass custom exception classes as well to create a hierarchy.

  • To add support for extra argument(s) to a custom exception, define an __init__() method with a variable number of arguments. Call the base class's __init__(), passing any positional arguments to it (remember that BaseException/Exception expect any number of positional arguments). Store extra keyword arguments to the instance, e.g.:

    class CustomError(MyProjectError):
        def __init__(self, *args, **kwargs):
            self.custom_kwarg = kwargs.get('custom_kwarg')

    Usage example:

        raise CustomError('Something bad happened', custom_kwarg='value')
    except CustomError as exc:
        print(f'Сaught CustomError exception with custom_kwarg={exc.custom_kwarg}')

This design adheres to the Liskov substitution principle, since you can replace an instance of a base exception class with an instance of a derived exception class. Also, it allows you to create an instance of a derived class with the same parameters as the parent.

  • 9
    Really like this design... I feel like it's a lot cleaner than the ones in the other answers. Jul 14, 2020 at 5:23
  • 2
    LSP adhesion should be mandatory, that's why I prefer this answer to the others.
    – loutre
    Jul 17, 2020 at 22:19
  • How do we test this exception is thrown or not using unittests?
    – james
    Dec 18, 2020 at 10:33
  • Would this be picklable?
    – ingyhere
    Dec 29, 2020 at 16:35
  • 1
    @ingyhere: Yes, it should be picklable w/o problems (at least in Python 3, which should be the standard now). Dec 17, 2021 at 9:03

As of Python 3.8 (2018, https://docs.python.org/dev/whatsnew/3.8.html), the recommended method is still:

class CustomExceptionName(Exception):
    """Exception raised when very uncommon things happen"""

Please don't forget to document, why a custom exception is neccessary!

If you need to, this is the way to go for exceptions with more data:

class CustomExceptionName(Exception):
    """Still an exception raised when uncommon things happen"""
    def __init__(self, message, payload=None):
        self.message = message
        self.payload = payload # you could add more args
    def __str__(self):
        return str(self.message) # __str__() obviously expects a string to be returned, so make sure not to send any other data types

and fetch them like:

    raise CustomExceptionName("Very bad mistake.", "Forgot upgrading from Python 1")
except CustomExceptionName as error:
    print(str(error)) # Very bad mistake
    print("Detail: {}".format(error.payload)) # Detail: Forgot upgrading from Python 1

payload=None is important to make it pickle-able. Before dumping it, you have to call error.__reduce__(). Loading will work as expected.

You maybe should investigate in finding a solution using pythons return statement if you need much data to be transferred to some outer structure. This seems to be clearer/more pythonic to me. Advanced exceptions are heavily used in Java, which can sometimes be annoying, when using a framework and having to catch all possible errors.

  • 3
    At the very least, the current docs indicate this is the way to do it (at least without the __str__) rather than other answers that use super().__init__(...).. Just a shame that overrides for __str__ and __repr__ are probably necessary just for better "default" serializing.
    – kevlarr
    Mar 26, 2019 at 16:46
  • 9
    Honest question: Why is it important for exceptions to be pickle-able? What are the use cases for dumping and loading exceptions? Aug 6, 2019 at 15:21
  • 3
    @RoelSchroeven: I had to parallelize code once. Ran fine single process, but aspects of some of its classes were not serializable (lambda function being passed as objects). Took me some time figuring it out & fixing it. Meaning someone later may end up needing your code to be serialize, be unable to do it, and have to dig up why... My issue wasn't unpickeable errors, but I can see it causing similar problems. Oct 6, 2019 at 2:58
  • 1
    There's nothing in the (current) linked 3.8 document about the recommended method to define custom exceptions.
    – martineau
    Dec 17, 2021 at 1:42

see how exceptions work by default if one vs more attributes are used (tracebacks omitted):

>>> raise Exception('bad thing happened')
Exception: bad thing happened

>>> raise Exception('bad thing happened', 'code is broken')
Exception: ('bad thing happened', 'code is broken')

so you might want to have a sort of "exception template", working as an exception itself, in a compatible way:

>>> nastyerr = NastyError('bad thing happened')
>>> raise nastyerr
NastyError: bad thing happened

>>> raise nastyerr()
NastyError: bad thing happened

>>> raise nastyerr('code is broken')
NastyError: ('bad thing happened', 'code is broken')

this can be done easily with this subclass

class ExceptionTemplate(Exception):
    def __call__(self, *args):
        return self.__class__(*(self.args + args))
# ...
class NastyError(ExceptionTemplate): pass

and if you don't like that default tuple-like representation, just add __str__ method to the ExceptionTemplate class, like:

    # ...
    def __str__(self):
        return ': '.join(self.args)

and you'll have

>>> raise nastyerr('code is broken')
NastyError: bad thing happened: code is broken

You should override __repr__ or __unicode__ methods instead of using message, the args you provide when you construct the exception will be in the args attribute of the exception object.


See a very good article "The definitive guide to Python exceptions". The basic principles are:

  • Always inherit from (at least) Exception.
  • Always call BaseException.__init__ with only one argument.
  • When building a library, define a base class inheriting from Exception.
  • Provide details about the error.
  • Inherit from builtin exceptions types when it makes sense.

There is also information on organizing (in modules) and wrapping exceptions, I recommend to read the guide.

  • 1
    This is a good example of why on SO I usually check the most upvoted answer, but the most recent ones as well. Usefull addition, thanks. Oct 5, 2019 at 18:09
  • 5
    Always call BaseException.__init__ with only one argument. Seems like unneeded constraint, since it actually accepts any number of arguments. Feb 29, 2020 at 13:12
  • @EugeneYarmash I agree, now I don't understand that. I don't use it anyway. Maybe I should reread the article and expand my answer. Feb 29, 2020 at 13:56
  • 1
    The referenced article, "The definitive guide to Python exceptions". is no longer there but here's an archive.org link "web.archive.org/web/20220211170740/https://julien.danjou.info/…
    – glaucon
    Dec 1, 2023 at 2:52
  • 1
    @YaroslavNikitenko - thanks Yaroslav, I've done that now.
    – glaucon
    Dec 5, 2023 at 20:07

No, "message" is not forbidden. It's just deprecated. You application will work fine with using message. But you may want to get rid of the deprecation error, of course.

When you create custom Exception classes for your application, many of them do not subclass just from Exception, but from others, like ValueError or similar. Then you have to adapt to their usage of variables.

And if you have many exceptions in your application it's usually a good idea to have a common custom base class for all of them, so that users of your modules can do

except NelsonsExceptions:

And in that case you can do __init__ and __str__ needed there, so you don't have to repeat it for every exception. But simply calling the message variable something else than message does the trick.

In any case, you only need __init__ or __str__ if you do something different from what Exception itself does. And because if the deprecation, you then need both, or you get an error. That's not a whole lot of extra code you need per class.

  • 1
    It's interesting that Django exceptions don't inherit from a common base. docs.djangoproject.com/en/2.2/_modules/django/core/exceptions Do you have a good example when catching all exceptions from a specific application is needed? (maybe it is useful only for some specific types of applications). Jun 10, 2019 at 20:05
  • 1
    I found a good article on this topic, julien.danjou.info/python-exceptions-guide . I think that Exceptions should be subclassed primarily domain-based, not application-based. When your app is about HTTP protocol, you derive from HTTPError. When part of your app is TCP, you derive that part's exceptions from TCPError. But if your app spans a lot of domains (file, permissions, etc), the reason to have a MyBaseException diminishes. Or is it to protect from 'layer violation'? Jun 10, 2019 at 20:44

For maximum customisation, to define custom errors, you may want to define an intermediate class that inherits from Exception class as:

class BaseCustomException(Exception):
    def __init__(self, msg):
        self.msg = msg

    def __repr__(self):
        return self.msg

class MyCustomError(BaseCustomException):
    """raise my custom error"""


I had issues with the above methods, as of Python 3.9.5. However, I found that this works for me:

class MyException(Exception):
    """Port Exception"""

And then it could be used in code like:

    raise MyException('Message')

except MyException as err:
    print (err)

A really simple approach:

class CustomError(Exception):

raise CustomError("Hmm, seems like this was custom coded...")

Or, have the error raise without printing __main__ (may look cleaner and neater):

class CustomError(Exception):
    __module__ = Exception.__module__

raise CustomError("Improved CustomError!")

It's possible to use dataclass to simplify the definition of the custom exception:

from dataclasses import dataclass

class MyException(Exception):
    message: str = "This is a custom exception"

    def __str__(self):
        return f"Custom message: {self.message.upper()}"

raise MyException("abcdef")
# Traceback (most recent call last):
#   File "<stdin>", line 1, in <module>
# MyException: Custom message: ABCDEF

raise MyException()
# Traceback (most recent call last):
#   File "<stdin>", line 1, in <module>
# MyException: Custom message: THIS IS A CUSTOM EXCEPTION

This reduces some of the boilerplate, while remaining flexible for further customization.


Try this Example

class InvalidInputError(Exception):
    def __init__(self, msg):
        self.msg = msg
    def __str__(self):
        return repr(self.msg)

inp = int(input("Enter a number between 1 to 10:"))
    if type(inp) != int or inp not in list(range(1,11)):
        raise InvalidInputError
except InvalidInputError:
    print("Invalid input entered")

I came across this thread. This is how I do custom exceptions. While the Fault class is slightly complex, it makes declaring custom expressive exceptions with variable arguments trivial.

FinalViolation, SingletonViolation are both sub classes of TypeError so will be caught code below.

    <do something>
except TypeError as ex:

That's why Fault doesn't inherit from Exception. To allow derivative exceptions to inherit from the exception of their choice.

class Fault:
    """Generic Exception base class. Note not descendant of Exception
Inheriting exceptions override formats"""
    formats = '' # to be overriden in descendant classes

    def __init__(self, *args):
        """Just save args for __str__"""
        self.args = args

    def __str__(self):
        """Use formats declared in descendant classes, and saved args to build exception text"""
        return self.formats.format(*self.args)

class TypeFault(Fault, TypeError):
    """Helper class mixing Fault and TypeError"""

class FinalViolation(TypeFault):
    """Custom exception raised if inheriting from 'final' class"""
    formats = "type {} is not an acceptable base type. It cannot be inherited from."

class SingletonViolation(TypeFault):     
    """Custom exception raised if instancing 'singleton' class a second time"""
    formats = "type {} is a singleton. It can only be instanced once."

FinalViolation, SingletonViolation unfortunately only accept 1 argument.

But one could easily create a multi arg error e.g.

class VesselLoadingError(Fault, BufferError):
    formats = "My {} is full of {}."

raise VesselLoadingError('hovercraft', 'eels')

__main__.VesselLoadingError: My hovercraft is full of eels.


Agreed with @sultanorazbayev's answer. Should use dataclasses for simplicity

import logging
from dataclasses import dataclass

logger = logging.getLogger(__name__)

def main():
    class MyCustomException(Exception):
        code: int
        message: str
        description: str

        raise MyCustomException(
            "Resource not found", 
            "This resource does not exist or unavailable"
    except MyCustomException as e:
            MyCustomException caught: 
        logger.info("Cleaning up and exiting...")

if __name__ == "__main__":

There are good points in several answers but I'm still working on getting a clear understanding of what the Python recommended approach to customised exceptions is in v3.13. I also feel the other answers mostly address aspects of the approach without a full description of implementation and usage.

At the risk of crowding this question I'm putting my current approach (using Python v3.10) with a usage scenario to attempt to collate the most recent advice.

This example has characteristics that suit a REST API implementation but can be repurposed.

The recommended principles as far as I can determine are:

  1. Subclass builtin Exception
  2. Call super().__init__ with one str argument
  3. Implement __str__ to control display of the exceptions
  4. Subclass your customised exception for your particular use cases

This example does not handle additional parameters to the child exceptions. Sorry for this omission. The example does support additional class attributes which provide detail without needing to pass parameters.

In usage I sometimes convert built-in exceptions to custom exceptions for uniformity of processing.


"""Exceptions identify application status and primary error message.

Exceptions are used to abort processing
and return execution to the handler whenever processing is blocked.
An Exception is also returned when processing is completed
to indicate HTTP 200 status to caller with or without a raise.

- https://www.iana.org/assignments/http-status-codes/http-status-codes.xhtml
- https://developer.mozilla.org/en-US/docs/Web/HTTP/Status
- https://docs.python.org/3/library/http.html#http.HTTPStatus

import http
import sys
import traceback

class APIException(Exception):
    """Response message and HTTP status. Always subclass, do not use in code."""

    message: str = http.HTTPStatus.IM_A_TEAPOT.phrase  # One standard Exception argument
    code: int = http.HTTPStatus.IM_A_TEAPOT.value  # code is not a parameter

    def __init__(self, message: str = "") -> None:
        """Provide reliably located customisable message."""
        self.message = message or self.message

    def __str__(self) -> str:
        return str(self.code) + ": " + self.message + ": " + self.location(self)

    @staticmethod  # Can pass Exception that are not APIException
    def location(e: Exception | None = None) -> str:
        """Return string with ``traceback`` module and line number e.g. ``"init#67"``."""
        tb = e and e.__traceback__ or sys.exc_info()[-1]  # Use provided or current Exception
        if not tb:  # Exception instances that are not raised do not have a traceback
            return ""
        frame = traceback.extract_tb(tb)[-1]
        return frame[2] + "#" + str(frame[1])

class ServerError(APIException):
    code = http.HTTPStatus.INTERNAL_SERVER_ERROR.value  # HTTP 500
    message = "Server error"

class NotImplemented(APIException):  # noqa: A001: not shadowing builtin
    code = http.HTTPStatus.NOT_IMPLEMENTED.value  # HTTP 501
    message = "Not Implemented"

class BadRequest(APIException):
    code = http.HTTPStatus.BAD_REQUEST.value  # HTTP 400
    message = "Invalid request or parameters"

class NotFound(BadRequest):
    code = http.HTTPStatus.NOT_FOUND.value  # HTTP 404
    message = "Requested calculation not found"

class OK(APIException):
    code = http.HTTPStatus.OK.value  # HTTP 200
    message = http.HTTPStatus.OK.phrase

# vim: set list colorcolumn=121:

To illustrate some common usage, wrapping application code in a try block and handling a variety of errors from different sources, this example has a single catch sequence and all pathways always exit with a defining APIException instance referred to by the status variable. This can also be exceptions.OK for the success pathway. status then always contains status.code with an int status code and status.message for the response description, which will mostly be "OK" for successful responses.




except json.JSONDecodeError as e:
    status = exceptions.BadRequest("JSONDecodeError: " + str(e))
except pydantic.ValidationError as e:
    errors = e.errors()[0]
    msg = ": ".join((str(errors["msg"]), str(errors["loc"]), str(errors["type"])))
    msg = "ValidationError: {}".format(msg)
    status = exceptions.BadRequest(msg)
except exceptions.APIException as e:
    status = e
    status.message = type(e).__name__ + ": " + e.message
except Exception as e:  # noqa: BLE001 do catch all Exception in this case
    traceback.print_exc()  # Allow tracebacks to console
    msg = "Unexpected {}: {}: {}"
    msg = msg.format(type(e).__name__, str(e), exceptions.APIException.location(e))
    status = exceptions.ServerError(msg)


Notice how the APIException location static method can be used from the class to return a uniform string from other exceptions:

exceptions.APIException.location(<any Exception>)

For me it is just __init__ and variables but making sometimes testing.

My sample:

Error_codes = { 100: "Not enough parameters", 101: "Number of special characters more than limits", 102: "At least 18 alphanumeric characters and list of special chars !@#$&*" }

class localbreak( Exception ) :
    Message = ""
    def __init__(self, Message):
        self.Message = Message
    def __str__(self):
        return "False"

### When calling ...
raise localbreak(Error_codes[102])


Traceback (most recent call last):   File "ASCII.py", line 150, in <module>
    main(OldPassword, Newpassword)   File "ASCII.py", line 39, in main
    result = read_input("1", "2", Newpassword, "4")                                     
    File "ASCII.py", line 69, in read_input
    raise localbreak(Error_codes[102]) At least 18 alphanumeric characters and list of special chars !@#$&*
__main__.localbreak: False

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