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I was reading an article about non-type template arguments, and it said that :

When being instantiated, only compile time constant integer can be passed. This means 100, 100+99, 1<<3 etc are allowed, since they are compiled time constant expressions. Arguments, that involve function call, like abs(-120), are not allowed.

Example :

template<class T, int SIZE>
class Array{};

int main(){
Array<int, 100+99> my_array; // allowed
Array<int, abs(-120)> my_array; // not allowed

what's the difference between 100+99 and abs(-120) ?
how come 100+99 are compiled time and abs(-120) is not?

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I highly doubt if the integer literal is considered as an object. If yes, I am curious how C has done it where concept of operator overloading isn't available. –  Mahesh Jul 1 '12 at 15:22
If C++ were a pure OO language, yes. But it's not. Go ahead and try 100.operator+(99) and see what happens. –  Chris Jul 1 '12 at 15:22
The choice of what expression can be evaluated meaningfully at compile-time will at some point necessarily be arbitrary. C++ chooses to be conservative about this, so it's mostly trivial expressions, templates, or other things it knows are "safe". E.g. how could the compiler know whether it makes sense to evaluate printf("") at compile-time? –  millimoose Jul 1 '12 at 15:32
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2 Answers 2

up vote 3 down vote accepted

100+99 is optimized out to 199 at compile time.

abs() is function and it may or may not be marked constexpr (C++11 feature, that would allow you to do so; you can easily check cppreference or standard to see if it's constexpr in C++11). It requires to be executed; compiler cannot deduce that it's state less function returning same value for every run with same argument.

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If the Standard abs is not marked constexpr, you can write your own abs which can be constexpr. –  Puppy Jul 1 '12 at 15:25
Apparently there's a constexpr abs in libstdc++, I'm able to use std::abs(-120) as a non-type template argument in gcc 4.6. –  mfontanini Jul 1 '12 at 15:28
@mfontanini, hence my "may or may not be marked"; I don't know whether standard guarantees that. –  Griwes Jul 1 '12 at 15:30
@Griwes : why the value of abs(-120) can't be known at compile time ? –  AlexDan Jul 1 '12 at 15:43
@AlexDan because the compiler has no idea what abs does. It's just a function that exists somewhere else. –  bames53 Jul 1 '12 at 16:40
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None, and abs(-120) is entirely legal in C++11. C++03, as you adequately point out, did not have scope for functions which could evaluate at compile-time, but C++11 does. For abs directly, you could replace it with a template which performs the same computation and use abs_template<-120>::value in C++03.

Edit: I meant to say that, even if abs was not constexpr, you could trivially write your own abs which is constexpr. Coulda sworn I edited that in.

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Is abs defined as constexpr in C++11? –  Nawaz Jul 1 '12 at 15:32
std::abs is not defined as constexpr as far as I can see. –  interjay Jul 1 '12 at 15:41
No it is not, but heck, 5 up votes... –  David Rodríguez - dribeas Jul 1 '12 at 15:43
@AlexDan: It is not whether the value can be known at compile time, but whether it can be used as a compile time constant. Consider: int f() { return 5; }, that function could be inlined and replace by a 5 at the place of call, but it cannot be used where a constant expression is needed (size of an array, argument to a template) –  David Rodríguez - dribeas Jul 1 '12 at 17:06
@AlexDan: Yes, templates are instantiated (and code generated) at compile time. –  David Rodríguez - dribeas Jul 1 '12 at 23:10
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