In order to evaluate a multiplication you have to evaluate the first term, then the second term and finally multiply the two values.

Given that every number multiplied by 0 is 0, if the evaluation of the first term returns 0 I would expect that the entire multiplication is evaluated to 0 without evaluating the second term.

However if you try this code:

var x = 0 * ComplexOperation();

The function ComplexOperation is called despite the fact that we know that x is 0.

The optimized behavior would be also consistent with the Boolean Operator '&&' that evaluates the second term only if the first one is evaluated as true. (The '&' operator evaluates both terms in any case)

I tested this behavior in C# but I guess it is the same for almost all languages.

  • Did you try this for int, since NAN is only defined for floating point numbers in .NET? – mbeckish Jan 31 '13 at 16:38
  • ComplexOperation is evaluated also for int – Roberto Jan 31 '13 at 16:42
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    Should we have a ** operator, I don't want an operator that short circuits unless I'm expecting it. You'll note, I can still use & if I choose. – Jodrell Jan 31 '13 at 16:46
  • @Jodrell as Oli said it cannot be done because my assertion is not true for floating point operations. It is true only for int so the ** operator would be applicable only to int – Roberto Jan 31 '13 at 16:58
  • @Roberto and byte, short, long, decimal, etc – Jodrell Jan 31 '13 at 17:00

Firstly, for floating-point, your assertion isn't even true! Consider that 0 * inf is not 0, and 0 * nan is not 0.

But more generally, if you're talking about optimizations, then I guess the compiler is free to not evaluate ComplexOperation if it can prove there are no side-effects.

However, I think you're really talking about short-circuit semantics (i.e. a language feature, not a compiler feature). If so, then the real justification is that C# is copying the semantics of earlier languages (originally C) to maintain consistency.

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    what does 0 * inf evaluate to? – Jodrell Jan 31 '13 at 16:35
  • @Jodrell: nan; see en.wikipedia.org/wiki/NaN#Creation – Oliver Charlesworth Jan 31 '13 at 16:36
  • @Oli Suppose function is int. There is no option for inf then. – Suzan Cioc Jan 31 '13 at 16:39
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    @SuzanCioc: Of course. But would you really want a language where short-circuit semantics were defined for int, but not float? – Oliver Charlesworth Jan 31 '13 at 16:40
  • I tested it, 0 * double.PositiveInfinity == double.NaN – Jodrell Jan 31 '13 at 16:41

C# is not functional, so functions can have side effects. For example, you can print something from inside ComlpexOperation or change global static variables. So, whether it is called is defined by * contract.

You found yourself an example of different contracts with & and &&.


The language defines which operators have short-circuit semantics and which do not. Your ComplexOperation function may have side effects, those side effects may be deliberate, and the compiler is not free to assume that they should not occur just because the result of the function is effectively not used.

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    But I guess the question is why the language doesn't define short-circuit semantics for arithmetic operations. – Oliver Charlesworth Jan 31 '13 at 16:37

I will also add this would be obfuscated language design. There would be oodles of SO questions to the effect of...

//why is foo only called 9 times?????????
for(int i = 0; i < 10; i++) {

Why allow short-circuiting booleans and not short-circuiting 0*? Well, firstly I will say that mixing short-circuit boolean with side-effects is a common source of bugs in code - if used well among maintainers who understand it as an obvious pattern then it may be okay, but it's very hard for me to imagine programmers becoming at all used to a hole in the integers at 0.

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