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I found a code here Printing 1 to 1000 without loop or conditionals

Can someone please explain how compile time recursion works, couldn't find it in google

// compile time recursion
template<int N> void f1()
    cout << N << '\n'; 

template<> void f1<1>() 
    cout << 1 << '\n'; 

int main()

Thank you!

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Actually there is a trick, the specialization is a conditional, though there is no if keyword... – Matthieu M. Mar 11 '11 at 18:20
Is there a rule of thumb about much faster this is than run time recursion? – David Doria Jan 29 '12 at 20:26
Whats the benefit of using this in place of regular recursion? – zzzzz Jun 10 '13 at 8:03
up vote 11 down vote accepted

It repeatedly instantiates the f1<N> template with decreasing values for N (f1<N>() calls f1<N-1> and so on). The explicit specialization for N==1 ends the recursion: as soon as N becomes 1, the compiler will pick the specialized function rather than the templated one.

f1<1000>() causes the compiler to instantiate f1<N> 999 times (not counting in the final call to f1<1>). This is the reason why it can take a while to compile code that makes heavy use of template meta-programming techniques.

The whole thing relies heavily on the compiler's optimization skills - ideally, it should remove the recursion (which only serves as hack to emulate a for loop using templates) completely.

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It works conceptually almost the same way as runtime recursion. f1<1000> calls f1<999> and then prints out 1000. f1<999> calls f1<998> and then prints out 999, etc. Once it gets to 1 the template specialization acts as the base case to abort the recursion.

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why does it print from 0 to 1000 and not from 1000 to 0? – VextoR Mar 11 '11 at 14:43
@VextoR: That's because it first calls f1<N-1>, then prints. – sharptooth Mar 11 '11 at 14:46
@VextoR because it's outputting N to the console AFTER instantiating the next template. – Maxpm Mar 11 '11 at 14:47
@sharptooth <N-1> == 999? Should it print "999" ? – VextoR Mar 11 '11 at 14:48
@VextoR: No, it first calls f1<999>(), then prints 1000. – sharptooth Mar 11 '11 at 14:50

Simple enough, each template instanciation create a new function with the changed parameter. Like if you defined: f1_1000(), f1_999() and so on.

Each function call the function with 1 less in it's name. As there is a different template, not recursive, to define f1_1() we also have a stop case.

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This is not guaranteed to be pure compile-time recursion. The compiler will have to instantiate function f1() for all parameters value from 2 to 1000 and they will call each other.

Then the compiler might see that those calls can be just turned into a sequence of cout << ... statements. Maybe it eliminates calls, maybe not - this is up to the compiler. From the point of C++ this is a chain of function calls and the compiler can do whatever as long as it doesn't alter behavior.

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You have factorial calculation explained here.

btw that a note that your function doesn't work for negative numbers.

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