I want to cover the technique of using assertions a little more.
Assertions let you specify what you expect to be true at any point in the code. At the beginning of a function, you can use assertions to make sure that the parameters had reasonable values. These are called preconditions. And the end of the function, you can check to make sure that what you are about to return is consistent with the purpose of the function. These are called post-conditions. In the middle of the function you can make sure any intermediate calculations are reasonable (although you should generally try to make your functions small enough that there aren't a lot of intermediate calculations).
With classes, you can check to make sure good values are passed into the constructor. In other methods, you can make sure that the general state of the class is reasonable before the method returns. These are called invariants.
When I'm debugging, I usually find that bugs are hard to find because I missed some assertions, letting the crash get farther away from the source of the problem. I use the debugging process to help fix that. I start with where the crash actually occurred, and think "at this level of abstraction, what was wrong?". If it crashed in the middle of the function, I might realize that the parameters passed to the function weren't right, so I add additional assertions near the beginning of the function to catch those. When I run it the next time and it crashes, the crash happens a little sooner. If the crash now happens at the top of the function, I go up one level of the stack and ask "why didn't the caller pass the right value?". I might then realize that some intermediate calculation was wrong, so I add an assertion there to catch it earlier. The intermediate calculation may have been due to another function returning the wrong value, in which case I'll add a post-condition assertion to catch that earlier. It may have been due to the current function not having been passed the right parameters, so I add a pre-condition assertion to this function.
Each time I add an assertion, I make the crash happen closer to the real source of the problem. Eventually I get to a point where the crash happens at the real logic error, and the fix is obvious. But by going through this process, I've also made it more likely that future problems will be easier to find.
You can apply similar reasoning when doing unit testing. Ask "what was wrong with my tests that made this problem not be caught earlier?"