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I read that for user-defined types, postponing the defintion of a variable until a suitable initializer is available can lead to better performance. why?

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I'd do it just because your code becomes much more concise and cleaner. It doesn't make sense to define a variable and then not use it until later. –  GManNickG Aug 7 '10 at 17:34
@GMan: That's another good point. The smaller the range of a variables usage, the easier it is to follow the code. –  Steven Sudit Aug 7 '10 at 17:37

4 Answers 4

up vote 1 down vote accepted

For user-defined types in particular, the constructor and setting method could me arbitrarily complex and time-consuming. Taking Steven's example:

X x; // Calls X() 

X x(42); // Calls X(int) 

... the implementation of X::X() and X::Set() might both be very time-consuming, and that's why you read that the latter can have better performance.

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Because it means a constructor other than the default constructor is called.

X x; // Calls X()

X x(42); // Calls X(int)
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I doubt you'd find much of a performance difference, though, except in more complex cases. –  GManNickG Aug 7 '10 at 17:34
@GMan: True, although a deeper issue would be classes that can only be initialized, never assigned. These immutable classes have become much more common as of late, due to the rise of parallelism. –  Steven Sudit Aug 7 '10 at 17:35
But then it's not really about performance but usability. :) –  GManNickG Aug 7 '10 at 17:38
@GMan: It's both. Actually, I think Neil's example is better than mine, because it shows how we're avoiding a memory allocation. –  Steven Sudit Aug 7 '10 at 17:52

Consider a string class. If we say:

string s;
s = "foobar";

then we have to do some work in the construction of s, and then more or less repeat the same work in the assignment. If we do:

string s( "foobar" );

we do the work once only.

Having said that, when learning C++ you should never concern yourself with issues of performance - think only about writing clear and understandable code. And in this case, initialisation with a value also wins out - code is clearer if variables are always initialised.

And BTW, the language is called C++ - cpp is the C preprocessor.

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Ironically, the first implementation of C++ was a translator into C; essentially just a pre-processor. :-) –  Steven Sudit Aug 7 '10 at 17:37
@Steven No it wasn't - I used it - it was a compiler (not a translator or a pre-processor) which emitted C as it's target language. I wish this myth would die. –  anon Aug 7 '10 at 17:39
@Neil - that's interesting to know. At least on my case my first experience with C++ was CFront (en.wikipedia.org/wiki/Cfront) and I believe it was in fact a pre-processor. –  Otávio Décio Aug 7 '10 at 17:47
@Neil: A compiler which emits C would be considered a translator. –  Steven Sudit Aug 7 '10 at 17:48
No, it was a compiler - there is nothing that says a compiler cannot emit C - the original Eiffel compiler also did this. A preprocessor like CPP can only so one to-one translations between symbols, whereas a compiler does the whole parsing, semantic analysis, code generation, optimisation thing. The predecessor of C++, C With Classes was implemented as a preprocessor. For confirmation and more details Read Stroustrup's D&E book. –  anon Aug 7 '10 at 17:53

You avoid running an unnecessary constructor followed by an Init call when the proper initialization data is available. And, if the code path never reaches the initialization branch you can avoid the constructor and destructor all together, plus an exception handling state setup for the unwinding.

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Good point. How often have you seen a function that declares a bunch of variables at the top, and then immediately exits because a parameter is null? (rhetorical question) –  Steven Sudit Aug 7 '10 at 17:39

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