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I redefined some maths functions (so that they're faster -ie: less accurate-, or use templates). I put these functions in a namespace and they work just fine.

It happens often, though, that I forget to call functions from my namespace (ie: I forget to write mymath::cos or using mymath::cos; when I want to call cos), and it's pretty tough to find out where I forgot it (until now I found it out only by profiling).

Given that

  • I only include standard math.h or cmath headers within my math header, and that
  • I need to include standard math headers (because some of my functions are just wrappers for standard one, and I want them to be inline or they're templated),

is there a portable way to hide standard math function so that a compile error is reported, if global namespace (ie: without a namespace) math functions are used?

A solution could be putting an using namespace mymath; at the bottom of my math header file, but this solution doesn't seem that great: it breaks the whole purpose of namespaces; I'd prefer having to explicity say whether to use a function from mymath or from std so that I am forced to choose between a fester or a more accurate function without the risk of forgetting about it.


EDIT:

Many answers say that if I use cos from global namespace (without using std nor mymath), and include cmath (and not math.h), compilation should fail.

I don't know what the standard says about it, but:

#include <cmath>
int main( ) {
    cos( M_PI );
    return 0;
}

compiles fine with GNU GCC (g++) 4.5.1 (and older versions).

share|improve this question
    
You're correct regarding the EDIT: "It is unspecified whether these names are first declared within the global namespace scope and are then injected into namespace std by explicit using-declarations". – ybungalobill Dec 11 '10 at 11:51
up vote 4 down vote accepted

Put this in a header file, and #include it everywhere:

namespace DontUseMe {  
double cos (double) ;  
// ...etc.  
}  
using namespace DontUseMe ;
share|improve this answer
    
Uh, this looks nice! Using Boost.StaticAssert it will give me compile time errors whenever I use a global namespace math function... – peoro Dec 11 '10 at 11:56
3  
Well, somebody voted it down. I wonder why! – TonyK Dec 11 '10 at 12:08
    
When you do this and in some compilation unit cmath is included, the compiler will tell you that double cos(double) is ambiguous. Hence the namespace wrestling ;) – Marcus Fritzsch Dec 11 '10 at 13:47
    
@Fritschy: That's the whole point! It forces an explicit namespace qualifier. Which is exactly what OP wanted. – TonyK Dec 11 '10 at 14:18
    
OK, TonyK, :) haven't thought of purposefully breaking a program :). – Marcus Fritzsch Dec 11 '10 at 14:31

If you only include cmath and not math.h, all functions from that header should be in the std:: namespace. Just never use using namespace std; and you'll be fine. (cmath is just math.h with all things in a namespace)

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3  
Nope, not with cmath from GNU GCC 4.5.1. I mean, yeah, it provides math functions in std namespace, but it also provides math functions at global namespace (ie: ::cos, without any namespace), which is what I want to avoid. – peoro Dec 11 '10 at 11:25

Do you need to include the math.h and cmath headers directly in your header file? If you do need to, try including the header like this:

namespace arbitrary_name
{
  #include <math.h>
}

This will contain all of the math.h definitions inside a new namespace, so you won't accidentally use them elsewhere.

This is not ideal solution. Perhaps there is a better way to do this using anonymous namespaces, but the solution isn't clear to me.

share|improve this answer
    
This will work, but only if math.h contains C code only. I'd prefer to include cmath, so that it declares many overloaded functions with the same name of standard functions (ie: double cos(double x);, float cos(float x); ...). -- Anyway I think this is the best I can do... – peoro Dec 11 '10 at 11:44
    
The River, this won't work as all symbols exported by that lib aren't in the namespace you put the header in. – Marcus Fritzsch Dec 11 '10 at 13:44

Unfortunately the most robust solution will be to not use the same function names as the standard library. Luckily the standard function names are terse and heavily abbreviated so names such as cosine(), sine(), exponent(), arctan() would be unique (and arguably better) without having to adorn the name with clumsy prefixes.

Alternatively you might keep the same names but capitalise them: Sin(), Cos(), Exp() etc.

share|improve this answer
    
It'll of course work, but as I forget to explicitly use a given namespace, I'm sure I'll often forget to use my custom names for standard functions. However it'd be easier to find where I use standard function names... – peoro Dec 11 '10 at 11:57
    
I'd rather go for full name than play on capitalization. – Matthieu M. Dec 11 '10 at 12:47
    
@Matthieu: I entirely agree, it's horrible but may appeal to some. – Clifford Dec 11 '10 at 14:40

How about this idea: after including < math.h>, use define as follows:

#define sin blahblahblah    (just to generate an error)
#define cos blahblahblah    (just to generate an error)

What happens is that every sin will be replaced by blahblahblah, which will cause an error. But what will happen is that mymath::sin will be replaced by mymath::blahblahblah (because #define works literally), so it will also generate an error. In this case, if you want to make the task easier for you just temporarily define the function blahblahblah in mymath to avoid showing error for mymath::sin, then compile, and fix all those errors.

However, I would recommend just making "Find in Files" and going through all the functions, and I am sure it will not talk you more than an hour for a very large scale project.

Hope that helps.

Regards,
Rafid

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This is a possible solution. The standard math functions from the standard library are often macros. – Alexandre C. Dec 11 '10 at 11:42
    
Hum, was hoping to find a way to do this at compile time, without having two steps for compiling (one to check functions validity, and the other to actually compile)... Anyway yes, this would work. – peoro Dec 11 '10 at 11:46
1  
This won't work, you would have to define them as function style macros and you would have to check and undef them as they are allowed to be macros (as well as functions) in math.h. If you use non-function style macros then any attempt to use (std::sin)(x) or (mymath::sin)(y) would still be mangled by these macros. – Charles Bailey Dec 11 '10 at 11:47
    
This is not allowed: "A translation unit that includes a standard library header shall not #define or #undef names declared in any standard library header" – ybungalobill Dec 11 '10 at 12:16
    
@Charles, yes, they are non-function macro style, which is only used to make a remapping for functions names. I already explained this in my answer, this is why I suggested he define the function blahblahblah in mymath namespace. – Rafid Dec 11 '10 at 12:39

Write some wrapper functions in a separate file.

#include <math.h>

namespace my_wrapper
{

float sin(float n)
{
    return std::sin(float n);
}

};

Or something like that. And then only use those in your other files and don't even include or in the other soure files. Yes it's a small pain to write forwarding functions for them all but it's just a one off job and there aren't that many...

With a modern compiler that does link time code generation and can inline across object files this shouldn't be inefficient...

share|improve this answer
    
How about templates? template< typename T1, typename T2 > PROMOTE(T1,T2) pow( T1 x, T2 y ) { return std::pow( (PROMOTE(T1,T2)) x, (PROMOTE(T1,T2)) y ); } ? (PROMOTE is a macro I defined that uses templates to promote types - ie: PROMOTE(int,double) is double). – peoro Dec 11 '10 at 11:53
    
@peoro: use export. – ybungalobill Dec 11 '10 at 12:19
    
export is not C++0x standard. – peoro Dec 11 '10 at 12:32

Clifford's my favorite answer so far, but there is another alternative you might envisage: modify the standard headers for this project (only).

There should be an option with your compiler of choice to indicate where the standard library lies, therefore you can duplicate the STL in your project, and modify the files so that the offending names are no longer injected in the global namespace.

It is hackish, but that's the only way I can think of, short of checking the code with a script for any occurrence of cos / sin that is not qualified (ie immediately preceded by ::).

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