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There are places where I check for valid pointers before I perform an operation with them; these checks can be nested pretty deeply sometimes.

For example, I have

if (a)
  if (a->b())
    if (a->b()->c())

I really don't like the look of this. Is there a way to turn this into something more readable? Ideally,

if (a && a->b() && a->b()->c() )

would be great, but obviously would not work.

EDIT - nvm the example that I put up DOES work as everybody has pointed out. I did test it out to see if this works, but there was a bug in my code in my test. duh!

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Why won't that work? – Carl Norum May 20 '10 at 16:42
It obviously would work in the example you've posted. Is something happening in the else cases you left out? – Mark Rushakoff May 20 '10 at 16:43
What makes you think that wouldn't work? Short-circuit evaluation pretty much guarantees that the two mean the same thing (unless you've overloaded operator&&). – Jerry Coffin May 20 '10 at 16:43
Why wouldn't this work? – JaredPar May 20 '10 at 16:43
A nice feature about your first code is that you know where the failure occurred. If there is a failure in the second part, finding the cause is not obvious and becomes more difficult. If you are only going for pass / fail, use the latter part. – Thomas Matthews May 20 '10 at 17:21
up vote 27 down vote accepted

Why would the latter not work?

In C, && is a short-circuit operator, so it is evaluated from left to right, and if any evaluation is false, evaluation stops.

In fact, you could write:

a && a->b() && a->b()->c() && a->b()->c()->DoSomething();
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Whether you can write a && a->b() && a->b()->c() && a->b()->c()->DoSomething(); depends on the return type of DoSomething. If DoSomething returns void, that is not legal. – R Samuel Klatchko May 20 '10 at 17:23
@R Samuel Klatchko: That would only apply if you put the expression in an if statement, doesn't it? ... There's no need to in WhirlWind's example. – Daniel Vassallo May 20 '10 at 17:43
@Daniel - no, because it is the RHS of an && operator, it must have some value. A void function is not a valid RHS. – nsayer May 20 '10 at 17:45
@nsayer: That's perfectly true... Thanks. – Daniel Vassallo May 20 '10 at 17:46

Quoting from K&R1:

Expressions connected by && or || are evaluated from left to right, and it is guaranteed that evaluation will stop as soon as the truth or falsehood is known.

Therefore the latter example will work perfectly, as WhirlWind has noted.

1 The C Programming Language, Second Edition, Page 21.

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Thanks for the quote. I tried googling for exactly this kind of thing but had no idea what words to google. Needless to say, I didn't find this, and when I tested it myself to see if it does evaluate left to right, I had a bug in there which caused it to crash. – Will May 20 '10 at 17:06

Your second example does work in C/C++. It short circuits when the first FALSE value is hit.

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It works in Java too. – nsayer May 20 '10 at 17:47
@nsayer: Yes. Good point. – Mark Wilkins May 20 '10 at 17:54

You've seen from the other answers that using && will work, and will short-circuit the evaluation when a null pointer is encountered.

The uneasy programmer in me likes to avoid repeating method calls for tests like this since it avoids worrying if they are idempotent or not. One option is to rewrite like this

A* a;
B* b;
C* c;

if ((a=a()) && (b=a->b()) && (c=b->c())) {

Admittedly verbose and a bit clunky, but at least you know each method is called just once.

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If 'a' is a pointer, doesn't the invocation using it need to be a->b()? – Jonathan Leffler May 21 '10 at 4:20
d'oh - yes. That's what I meant, but didn't write. I've been doing java for too long... – mdma May 21 '10 at 6:01

Why 'obviously would not work'? Since the && operator only evaluates the right term if the left is valid, the rewrite is perfectly safe.

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Since you've already received the direct answer to your question I'll just mention that long chains of calls like you've got there are a code smell and you might consider a better design. Such a design might, in this case, include use of the null object pattern so that your call might just boil down to:

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Law of Demeter – Jonathan Leffler May 20 '10 at 21:27

if (a && a->b() && a->b()->c()) { a->b()->c()->DoSomething(); }

C++ performs lazy evaluation so this will work. First, a would be evaluated and if it's 0 the whole condition is false so there will be no evaluation of the other parts.

This works for the || operator as well. If you write if (a || b), b won't be evaluated if a is true.

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Chaining works, but it's not necessarily the best general-case answer, particularly because it obscures the failure point. I would instead suggest flattening the tests by inverting the logic so that it exits on failure.

if (!pa)
  return Fail("No pa");

B* pb = pa->b();
if (!pb)
  return Fail("No pb");

C* pc = b->c();
if (!pc)
  return Fail("No pc");


Same thing, but flat and easy to read. Also, because it immediately handles the failure case, that doesn't get relegated to an else that you might never get around to writing.

In this example, I assumed you didn't want to just silently fail, so I added Fail as a helper that logs the text and returns false. You could also just throw an exception. In fact, if the various methods signaled their failure by throwing an appropriate exception instead of returning null, then all this would be unnecessary. If silent failure was desirable, then a null object pattern would be appropriate.

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Second one will work provided you want to call only DoSomething().

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