Python Exception Handling
Python provides two very important features to handle the exceptions and errors that Python programs run in. You can use this feature to debug a python program.
- Exception Handling : This site Python tutorial will be described in detail.
- Assertion (assertions): This site Python tutorial will be described in detail.
Python Standard exception
Exception name |
Description |
Baseexception |
base class for all exceptions |
Systemexit |
Interpreter Request exited |
Keyboardinterrupt |
User interrupt execution (usually input ^c) |
Exception |
base class for general errors |
Stopiteration |
There are no more values for iterators |
Generatorexit |
Generator (generator) exception occurred to notify exit |
StandardError |
Base class for all built-in standard exceptions |
Arithmeticerror |
base class for all numeric calculation errors |
Floatingpointerror |
Floating-point calculation error |
Overflowerror |
Numeric operation exceeds maximum limit |
Zerodivisionerror |
Except (or modulo) 0 (all data types) |
Assertionerror |
Assertion statement failed |
Attributeerror |
Object does not have this property |
Eoferror |
No built-in input, EOF Mark reached |
EnvironmentError |
Base class for operating system errors |
IOError |
Input/output operation failed |
OSError |
Operating system error |
Windowserror |
System call failed |
Importerror |
Failed to import module/object |
Lookuperror |
base class for invalid data queries |
Indexerror |
This index is not in the sequence (index) |
Keyerror |
This key is not in the map |
Memoryerror |
Memory overflow error (not fatal for Python interpreter) |
Nameerror |
Object not declared/initialized (no attributes) |
Unboundlocalerror |
To access uninitialized local variables |
Referenceerror |
Weak references (Weak reference) attempt to access objects that have been garbage collected |
RuntimeError |
General run-time errors |
Notimplementederror |
Methods that have not been implemented |
SyntaxError |
Python syntax error |
Indentationerror |
Indentation Error |
Taberror |
Tab and Space Mix |
Systemerror |
General Interpreter system error |
TypeError |
An operation that is not valid for type |
ValueError |
Invalid parameter passed in |
Unicodeerror |
Unicode-related errors |
Unicodedecodeerror |
Error in Unicode decoding |
Unicodeencodeerror |
Unicode encoding Error |
Unicodetranslateerror |
Unicode Conversion Error |
Warning |
Base class for warnings |
Deprecationwarning |
Warnings about deprecated features |
Futurewarning |
Warning about the change in the construction of future semantics |
Overflowwarning |
Old warning about auto-promotion to Long integer |
Pendingdeprecationwarning |
Warnings about attributes that will be discarded |
Runtimewarning |
Warning for suspicious run-time behavior (runtime behavior) |
Syntaxwarning |
Warning of suspicious syntax |
Userwarning |
Warnings generated by user code |
What is an exception?
An exception is an event that occurs during program execution and affects the normal execution of the program .
In general, an exception occurs when Python does not handle the program properly .
The exception is a Python object that represents an error.
When a Python script exception occurs, we need to capture and process it, or the program terminates execution.
Exception handling
You can use the Try/except statement to catch an exception.
The try/except statement is used to detect errors in a try statement block, allowing the except statement to catch exception information and handle it.
If you do not want to end your program when an exception occurs, simply capture it in a try.
Grammar:
The following is a simple syntax for try....except...else :
Try :< statements > # Run other code except < name >:< statement > # if the ' name ' exception is thrown in the try section except < name >,< data >:< statement > # if the ' name ' exception is thrown, get additional data Else :< statement > # If no exception occurs
Try works by starting a try statement, and Python is tagged in the context of the current program so that when an exception occurs, it can go back here, the TRY clause executes first, and what happens next depends on whether an exception occurs at execution time.
- If an exception occurs when the statement after the try is executed, Python jumps back to the try and executes the first except clause that matches the exception, and the control flow passes through the entire try statement (unless a new exception is thrown when the exception is handled).
- If an exception occurs in the statement after the try, but there is no matching except clause, the exception will be submitted to the upper try, or to the top of the program (This will end the program and print the default error message).
- If no exception occurs when the TRY clause executes, Python executes the statement after the Else statement (if there is else), and then the control flow passes through the entire try statement.
Instance
Here is a simple example that opens a file where the contents of the file are written and the exception does not occur:
#!/usr/bin/pythonTry: FH= Open ("testfile","W") Fh.write ("This is my test file for exception handling!!")exceptIOError:Print "error:can\ ' t find file or read data"Else: Print "written content in the file successfully"fh.close ()
The above program output results:
in the file successfully
Instance
Here is a simple example that opens a file where the contents of the file are written, but the file does not have write permission, and an exception occurs:
#!/usr/bin/pythonTry: FH= Open ("testfile","W") Fh.write ("This is my test file for exception handling!!")exceptIOError:Print "error:can\ ' t find file or read data"Else: Print "written content in the file successfully"
The above program output results:
Error:can't find file or read data
Use except without any exception type
You can use except without any exception type, as in the following example:
Try : your operations here; ...................... except : is Any exception and then execute this block. ...................... Else : is no exception then execute this block.
The try-except statement above captures all occurrences of the exception. But this is not a good way to identify specific exception information through the program. Because it catches all the exceptions.
Using except with multiple exception types
You can also use the same except statement to handle multiple exception information, as follows:
Try : your operations here; ...................... except (exception1[, exception2[,... Exceptionn]]) :is from The given exception list and then execute this block. ...................... Else : is no exception then execute this block.
try-finally statements
The try-finally statement executes the final code regardless of whether an exception occurs .
Try :< statement >finally:< statement > # always executes raise when exiting a try
Instance
# !/usr/bin/python Try : = Open ("testfile""w") fh.write (" This is my test file for exception handling!! " )finally: print"error:can\ ' t find file or read Data"
If the open file does not have writable permissions, the output is as follows:
Error:can't find file or read data
The same example can be written in the following way:
#!/usr/bin/pythonTry: FH= Open ("testfile","W") Try: Fh.write ("This is my test file for exception handling!!") finally: Print "going to close the file"fh.close ()exceptIOError:Print "error:can\ ' t find file or read data"
Executes the finally block code immediately when an exception is thrown in the try block.
After all the statements in the finally block are executed, the exception is raised again, and the except block code is executed.
The contents of the parameter differ from the exception.
parameter of the exception
An exception can take a parameter that can be used as the output exception information parameter.
You can use the except statement to catch the parameters of the exception, as follows:
Try : your operations here; ...................... except Exceptiontype, Argument: print value of Argument here ...
The exception value that the variable receives is usually contained in the exception's statement. In a tuple's form, a variable can receive one or more values.
Tuples typically contain error strings, error numbers, and error locations.
Instance
The following is an instance of a single exception:
#!/usr/bin/python#Define a function here.defTemp_convert (Var):Try: returnInt (VAR)exceptValueError, Argument:Print "The argument does not contain numbers\n", Argument#Call above function here.Temp_convert ("XYZ");
The results of the above program execution are as follows:
Not for'xyz'
Triggering an exception
We can use the raise statement to trigger the exception ourselves
The raise syntax format is as follows:
Raise [Exception [, Args [, Traceback]]
The type of exception in the statement is an exception (for example, the Nameerror) parameter is an exception parameter value. This parameter is optional and if not provided, the exception parameter is "None".
The last parameter is optional (rarely used in practice) and, if present, is the tracking exception object.
Instance
An exception can be a string, a class, or an object. The Python kernel provides exceptions, most of which are instantiated classes, which are parameters of an instance of a class.
It is very simple to define an exception as follows:
def functionname (level): if level < 1: raise"Invalid level! " , level # The code below to this would not being executed # If we raise the exception
Note: to be able to catch exceptions, the "except" statement must have the same exception to throw the class object or string.
For example, we capture the above exception, and the "except" statement looks like this:
Try : Business Logic -here ... except " Invalid level! " : Exception Handling here ... Else : Rest of the code here ...
User-defined exceptions
By creating a new Exception class, programs can name their own exceptions. Exceptions should be typical of inheriting from the exception class, either directly or indirectly.
The following is an example of a runtimeerror-related instance in which a class is created and the base class is RuntimeError, which is used to output more information when the exception is triggered.
In the TRY statement block, after the user-defined exception executes the EXCEPT block statement, the variable e is used to create an instance of the Networkerror class.
class Networkerror (runtimeerror): def __init__ (Self, arg): = arg
After you define the above class, you can trigger the exception as follows:
Try : Raise Networkerror ("badhostname")except networkerror,e: Print E.args
Thanks: Thank you for reading!
The exception of Python and its handling