What are the places we should use the
assert() function specifically? If it's a situation like determining if an integer value is greater than zero or a pointer is null, we can simply use a private function to check this. In this kind of situation, where should we use
assert() over a custom written check?
What are the places we should use the
Context: I write server software for a living, the kind that stays up for weeks before the next version is loaded. So my answers may be biaised toward highly defensive code.
Before we delve into the specifics of where to use
In C ? There is little alternative. Unless your function has been designed to be able to pass an error code or return a sentinel value, and this is duly documented.
In C++, exceptions are a perfectly acceptable alternative. However, an
Also, an exception might (unfortunately) get caught by a high level handler (or an unsavory catch from a fellow developer (you would not do that, of course)), in which case you could miss completely the error until it's too late.
Where NOT to use it.
First, it should be understood that
Second, it should be understood that malformed input is part of your life. Would you want your compiler display an
Third, it should be understood that crashes are not appreciated. It is expected of your program that it will run smoothly. Therefore, one should not get tempted to leave asserts on in Release mode: Release code ends up in the end user hands and should never crash, ever. At worst, it should shutdown while displaying an error message. It is expected that no user data is lost during this process, and even better if upon restarting the user is taken back to where she was: that is what modern browsers do, for example.
Note: for server code, upon "hitting" an assertion, we manage to get back in position for treating the next query in most cases.
Where to use it.
Even better. Since you know code will not be executed in Release you can afford to perform expensive checks.
Note: you should also test the Release binary, if only to check the performance.
And in Release ?
Well, in the codebase I work on, we replace the inexpensive asserts (the others are ignored) by specific exceptions that are only caught by a high level handler that will log the issue (with backtrace), return a pre-encoded error response and resume the service. The development team is notified automatically.
In software that is deployed, the best practices I have seen imply to create a memory dump and stream it back to the developers for analysis while attempting not to lose any user data and behave as courteously as possible toward the unfortunate user. I feel really blessed to be working server-side when I contemplate the difficulty of this task ;)
You usually use it when you want the program to abort and display a runtime error if a boolean condition is not true. It is usually used like this:
It can also be used with functions that return a NULL pointer on failure:
The exact error message
I'm gonna throw out my view of
Your function has a couple people that care about it.
First, the developer who calls your function. He might just look at your documentation and maybe he will miss the part about not allowing a null pointer as the argument. He may not ever read the code for the function, but when he runs it in debug mode the assert may catch his inappropriate usage of your function (especially if his test cases are good).
Second (and more important), is the developer who reads your code. To him, your assert says that after this line, p is not null. This is something that is sometimes overlooked, but I believe is the most useful feature of the
You should use
I think there's a simple and powerful point to be made:
Use it to check preconditions, postconditions, and invariants.
When there may be inconsistency due to external factors, circumstances which the code can't control locally, then throw an exception. Exceptions are for when postconditions cannot be satisfied given the preconditions. Good examples:
To cut a long story short:
Whether or not invalid inputs trigger exceptions or not is a matter of style.