There aren't any books about this subject as potentially 99% of C++ engineers are still confused about this subject -- and this after nearly 20 years of availability C++ Exception Handling.
Most books get the application area of C++ Exception Handling wrong.
Some book claimed that it is a good method to catch array-out-of-bounds errors -- something for which I never abandoned using assert.
Even Scott Meyers book, into which I looked some years ago, confused me about the way it explained order of construction and destruction (in the presence of exceptions) -- something which is basic to using exceptions.
- the main application area of C++ Exceptions is to abort the construction of an object
- with C++EH one can put a fallible resource allocation into a constructor and the deallocation into the destructor. resource is not only memory but everything which can be described as having a do- and an undo- action.
- especially in a GUI environment there are plenty of such pairs of system calls:
- create/close a window
- create/destroy a bitmap handle
- show/hide a window
- register/unregister a callback
- create/destroy a handle to draw into the window
- one can chain such objects into base-/member-class relationships. If one constructor fails, the following constructors will not be executed. Imagine a long list of such do-undo actions and imagine reporting every potential error to the caller of the code.
- one can use resources bound to the stack and the following code will only be executed if and only if the object on the stack was allocated successfully
- passing complex information about some error to the caller without having to write any code for this passing over multiple levels of call stack
- catching/rethrowing exceptions in order to append more information about the location of the error. Imagine a system giving you a stack of error messages:
- cannot compile tmp.c because of
- cannot preprocess tmp.c because of
- cannot write to /tmp/tmp.i because of
- disk is full
I created the notion of
- resource wrapper (wrapping a do/undo action into a class, throwing an exception if the do action fails)
- functional wrapper (wrapping a system call, which does not fall into the former class into C++, in order that the user of this code does not need to test for success anymore (if-less-programming).
Ever seen a call to *printf() being checked for success? Ever had the experience that suddenly some complex piece of code (using child processes and customer provided loadable DLLs/shared libraries) is failing without giving any hint about why? And you need a debugger to find out, why it is suddenly failing?
Usually this points to a software engineer, who still does not understand C++ EH.