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If you had to choose your Favorite (clever) techniques for defensive coding, what would they be? Although my current languages are Java and Objective-C (with a background in C++), feel free to answer in any language. Emphasis here would be on clever defensive techniques other than those that 70%+ of us here already know about. So now it is time to dig deep into your bag of tricks.

In other words try to think of other than this uninteresting example:

  • if(5 == x) instead of if(x == 5): to avoid unintended assignment

Here are some examples of some intriguing best defensive programming practices (language-specific examples are in Java):

- Lock down your variables until you know that you need to change them

That is, you can declare all variables final until you know that you will need to change it, at which point you can remove the final. One commonly unknown fact is that this is also valid for method params:

public void foo(final int arg) { /* Stuff Here */ }

- When something bad happens, leave a trail of evidence behind

There are a number of things you can do when you have an exception: obviously logging it and performing some cleanup would be a few. But you can also leave a trail of evidence (e.g. setting variables to sentinel values like "UNABLE TO LOAD FILE" or 99999 would be useful in the debugger, in case you happen to blow past an exception catch-block).

- When it comes to consistency: the devil is in the details

Be as consistent with the other libraries that you are using. For example, in Java, if you are creating a method that extracts a range of values make the lower bound inclusive and the upper bound exclusive. This will make it consistent with methods like String.substring(start, end) which operates in the same way. You'll find all of these type of methods in the Sun JDK to behave this way as it makes various operations including iteration of elements consistent with arrays, where the indices are from Zero (inclusive) to the length of the array (exclusive).

So what are some favorite defensive practices of yours?

Update: If you haven't already, feel free to chime in. I am giving a chance for more responses to come in before I choose the official answer.

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closed as not constructive by Gilles, ssube, Pent Ploompuu, andrewsi, Pops Sep 13 '12 at 20:58

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67 Answers 67

Rather then var.equals("whatever") in java I do "whatever".equals(var). That way, if var is null I don't have to worry about a nullpointer exception. That works great when dealing with things like URL parameters, etc.

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Not needing to contend with the language's limitations is the best defense I can employ in my program's logic. Sometimes it is easier to state when things should stop.

For example you have this kind of loop:

while(1)
{
  // some codes here

  if(keypress == escape_key || keypress == alt_f4_key 
     || keypress == ctrl_w_key || keypress == ctrl_q_key) break;

  // some codes here
}

If you want to put the condition on loop header, instead of battling the language for not having an until construct, just copy the condition verbatim and put an exclamation mark:

while(! (keypress == escape_key || keypress == alt_f4_key 
     || keypress == ctrl_w_key || keypress == ctrl_q_key) )
{ 
    // some codes here
}

There's no until construct on C-derived languages, so just do the above, otherwise do this(possible in C/C++, use #define ;-)

until(keypress == escape_key || keypress == alt_f4_key 
     || keypress == ctrl_w_key || keypress == ctrl_q_key)
{ 
    // some codes here
}
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Hardly clever, but a decent practice, perhaps. In C/C++:

Always return from a function at the bottom, never in the middle. The sole exception to this is a check for null on required arguments; that always comes first and immediately returns (otherwise I'd just be writing a big "if" condition at the top which just looks silly).

int MyIntReturningFuction(char *importantPointer)
{
    int intToReturn = FAILURE;
    if (NULL == importantPointer)
    {
        return FAILURE;
    }
    // Do code that will set intToReturn to SUCCESS (or not).
    return intToReturn;
}

I have seen a lot of arguments for why it doesn't really matter, but the best argument for me is simply experience. Too often I've scratched my head, asking "Why the heck doesn't my break point near the bottom of this function get hit?" only to find that someone other than me had put a return somewhere above (and usually changing some condition that should have been left alone).

I've also found that having very simple rules like this makes me a much more consistent coder. I never violate this rule in particular, so sometimes I have to think of alternative ways of handling things (such as cleaning up memory and such). So far, it has always been for the better.

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  • Make your code as readable as possible, especially by using function and variable names that are as obvious as possible. If this means that some names are a bit on the long side, then so be it.

  • Use a static analyser as much as possible. You soon get into the habit of writing code that conforms to its rules.

  • During development, make it easy to turn on diagnostic output - but make it easy to turn them off for production.

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I do a lot of math in my work testing mixed signal semiconductors on Automatic Test Equipment from Teradyne (c, vba), Advantest(c++ .net), and the like.

Two defensive maneuvers I use are:

  • prevent division by zero, if (x!=0) { z=y/x; } else { /* give z a recognizable fake number, continue program */ }

  • don't pass zero or negative numbers to log calculations. This is common for calculations of gain, CMRR, and PSRR. if (x>0) { psrr = 20 * log (x); } else { psrr = -999 ; /*fake number */ }

Some may argue against using fake numbers, but these programs are used in very high volume semiconductor manufacturing. If an error happens while testing a bad part, it is better to continue testing and to keep the integrity of the data format. The fake numbers are easily separated as outliers during post-processing of test data.

-- mike

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  • When executing SQL queries from your code, always use placeholders
  • MySQL has a useful non-standard extension of the DELETE statement: DELETE FROM sometable WHERE name IS LIKE 'foo%' LIMIT 1. This way you won't wipe the whole table in case of mistake.
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Language agnostic : issue : reporting and dealing with portions of a whole. Whenever calculations and percentages are bing displayed, I always keep a running total and for the last entry its value is not calculated like the rest, but by subtracting the running total from 100.00. In this fashion, if some interested party chooses to add up all the componenet percentages they will add exactly to 100.00

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