Exceptions
Published by Juan Soulie
Last update on Nov 20, 2007 at 9:17am UTC
Last update on Nov 20, 2007 at 9:17am UTC
To catch exceptions we must place a portion of code under exception inspection. This is done by enclosing that portion of code in a try block. When an exceptional circumstance arises within that block, an exception is thrown that transfers the control to the exception handler. If no exception is thrown, the code continues normally and all handlers are ignored.
A exception is thrown by using the throw keyword from inside the try block. Exception handlers are declared with the keyword catch, which must be placed immediately after the try block:
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| An exception occurred. Exception Nr. 20 |
The code under exception handling is enclosed in a try block. In this example this code simply throws an exception:
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A throw expression accepts one parameter (in this case the integer value 20), which is passed as an argument to the exception handler.
The exception handler is declared with the catch keyword. As you can see, it follows immediately the closing brace of the try block. The catch format is similar to a regular function that always has at least one parameter. The type of this parameter is very important, since the type of the argument passed by the throw expression is checked against it, and only in the case they match, the exception is caught.
We can chain multiple handlers (catch expressions), each one with a different parameter type. Only the handler that matches its type with the argument specified in the throw statement is executed.
If we use an ellipsis (...) as the parameter of catch, that handler will catch any exception no matter what the type of the throw exception is. This can be used as a default handler that catches all exceptions not caught by other handlers if it is specified at last:
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In this case the last handler would catch any exception thrown with any parameter that is neither an int nor a char.
After an exception has been handled the program execution resumes after the try-catch block, not after the throw statement!.
It is also possible to nest try-catch blocks within more external try blocks. In these cases, we have the possibility that an internal catch block forwards the exception to its external level. This is done with the expression throw; with no arguments. For example:
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Exception specifications
When declaring a function we can limit the exception type it might directly or indirectly throw by appending a throw suffix to the function declaration:
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This declares a function called myfunction which takes one agument of type char and returns an element of type float. The only exception that this function might throw is an exception of type int. If it throws an exception with a different type, either directly or indirectly, it cannot be caught by a regular int-type handler.
If this throw specifier is left empty with no type, this means the function is not allowed to throw exceptions. Functions with no throw specifier (regular functions) are allowed to throw exceptions with any type:
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Standard exceptions
The C++ Standard library provides a base class specifically designed to declare objects to be thrown as exceptions. It is called exception and is defined in the1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 |
| My exception happened. |
We have placed a handler that catches exception objects by reference (notice the ampersand & after the type), therefore this catches also classes derived from exception, like our myex object of class myexception.
All exceptions thrown by components of the C++ Standard library throw exceptions derived from this std::exception class. These are:
exception | description |
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bad_alloc | thrown by new on allocation failure |
bad_cast | thrown by dynamic_cast when fails with a referenced type |
bad_exception | thrown when an exception type doesn't match any catch |
bad_typeid | thrown by typeid |
ios_base::failure | thrown by functions in the iostream library |
For example, if we use the operator new and the memory cannot be allocated, an exception of type bad_alloc is thrown:
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It is recommended to include all dynamic memory allocations within a try block that catches this type of exception to perform a clean action instead of an abnormal program termination, which is what happens when this type of exception is thrown and not caught. If you want to force a bad_alloc exception to see it in action, you can try to allocate a huge array; On my system, trying to allocate 1 billion ints threw a bad_alloc exception.
Because bad_alloc is derived from the standard base class exception, we can handle that same exception by catching references to the exception class:
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