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I have to write same code dependent on compile time constant parameter, something like:

map["text 0"] = vec[0];
map["text 1"] = vec[1];
...
map["text n"] = vec[n];

The problem is that I don't know n when I'm writing the code, I receive it as template parameter. The obvious solution is to use one loop and generate the "text k" inside the loop and use vec[k], but this has runtime overhead when it should be done at compile time. Another solution would be to specialize the function for different N values, but in this way I'll have to write same code by hand multiple times and there is no reason to make it template.

I know there are some smart macros that can repeat similar things N times(like BOOST_PP_REPEAT macro family), but I can't find one solution for my specific problem.

Do you have any solution for this problem?

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Can you use C++11? –  jrok Mar 29 '13 at 9:00
    
@jrok Yes, but not all features(VS2010 and latest Xcode) –  Felics Mar 29 '13 at 9:01
    
Templates and a loop could probably be optimised by the compiler. –  Alex Chamberlain Mar 29 '13 at 9:07
    
What is vec and what is map ? (just to be clear) and could you write an example of the function that you intend the use so that we have a starting point in our reflexion; because at the moment, I am afraid it's not so clear :x –  Matthieu M. Mar 29 '13 at 9:11

3 Answers 3

up vote 4 down vote accepted

Unless you have really, really tight performance constraints, there is no reason to worry about the run-time overhead. Insertions are going to be performed at run-time anyway, and insertion time is definitely going to dominate the time required to change a character in a string.

Moreover, macros are hard to debug and to maintain: avoid them if possible. Here, I would suggest to unroll a simple loop:

std::string s = "text 0";
std::map<std::string, int> m;
for (int i = 0; i < N; i++)
{
    m[s] = vec[i];
    s[5] = '1' + i; // This is going to be the run-time overhead...
}

If your numbers grow higher than 9, in C++11 you could use the to_string() function for converting an integer into a string:

std::string const s = "text ";
std::map<std::string, int> m;
for (int i = 0; i < N; i++)
{
    m[s + std::to_string(i)] = vec[i];
}

If performance will prove to be an issue, then you can try a more hardcore approach based on macros. However, if your measurements won't indicate a significant overhead, prefer simplicity and clarity and unroll a simple loop.

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This will trigger undefined behavior, I can't modify a const char* - "text 0" is const char* even if it's not declared as const. –  Felics Mar 29 '13 at 9:28
1  
@Felics: The string literal "text 0" has type const char [], but that's what you are using to initialize an array of char, which is modifiable. You are not modifying the original literal, so no UB here. And if your pattern is more complex, you can use std::string. –  Andy Prowl Mar 29 '13 at 9:29
    
Even if you declare it as non const, there is a conversion from const to non const(accepted by 2003 standard, not accepted by 2011 standard). Also N can have more than one digit. –  Felics Mar 29 '13 at 9:32
    
@Felics: It is perfectly valid to initialize a const with a copy of a non-const. E.g. int a = 5; const int b = a;. –  MSalters Mar 29 '13 at 9:33
    
@MFelics: I am not doing char s* = "Hello", which is probably what you refer to. Here I am doing a copy of "Hello" into the array. And again, if the pattern is more complicated, use std::string. This is unlikely to become a sensible overhead at run-time. –  Andy Prowl Mar 29 '13 at 9:37

I believe the following should work:

#include <boost/preprocessor.hpp> 
//... or just the required sub-headers

// Will generate code for 0, 1, ... (N_END - 1)
#define N_END 10

#define ONE_ASSIGNMENT(maZ, maIter, maData) \
    if (maIter <= n) map["text " BOOST_PP_STRINGIZE(maIter)] = vec[maIter];

BOOST_PP_REPEAT(N_END, ONE_ASSIGNMENT, %%) //this generates the code

#undef ONE_ASSIGNMENT
#undef N_END

Note that the if() compares a literal to a template parameter (n), so any optimiser worth its salt will generate branchless code from this.

I use %% as "this value is never used." It's passed into the maData argument, so if you'd have something useful to actually pass (such as "text "), you can do it instead.

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Note that "n" is received as template parameter... –  Matthieu M. Mar 29 '13 at 9:09
    
@MatthieuM. Yup. That's fine. I am even relying on this to make the optimiser turn the if() into just the body or a nop, since it knows both the literal (maIter) and the compile-time constant (n) involved in the condition. Of course, the code would also work without the optimisation (but it's really just compile-time condition elimination). –  Angew Mar 29 '13 at 9:11
    
Then I don't quite understand why the <= n, should not it be == n ? (I am not sure I understood the question anwyay...) –  Matthieu M. Mar 29 '13 at 9:13
    
@MatthieuM. The way I understand the question (I admit it could be clearer) is that doTheWork<n> should set entries 0, 1, ... n. That's what the code in my answer does, anyway. –  Angew Mar 29 '13 at 9:20

Repetition does not seem a problem to me, but compile-time conversion of int to string and subsequent concatenation does. The repetition problem can be solved along the following technique (untested):

template<k,l> struct fill_vector {
    static void doIt (... & vec) {
        vec [INT_TO_TEXT (k)] = k;
        fill_vector<k+1,l-1>::doIt (vec);
    }
};

template<k> struct fill_vector<k,0> {
    static void doIt (... & vec) {
        vec [INT_TO_TEXT (k)] = k;
    }
};

//...

fill_vector<0,n>::doIt (vec);

Maybe somebody has an idea how to implement INT_TO_TEXT

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