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Okay, up until now, I thought that functions defined in header files are treated like inline functions, just like template stuff, defined once, and all that.

I also use inclusion guards, yet I still got linker errors of multiple defined objects, and I know that is because of all those different units duplicating stuff the linker tries to pick out which item is the right one.

I also know that inline is merely a suggestion, and might not even get used by the compiler, etc.

Yet I have to explicitly define all those small functions in that little header only toolset I wrote.

Even if the functions were huge, I'd have to declare them inline, and the compiler would still possibly disregard the hint.

Yet I have to define them so anyway.

Example:

#ifndef texture_math_h__
#define texture_math_h__

float TexcoordToPixel(float coord, float dimension)
{
    return coord * dimension;
}

float PixelToTexcoord(float pixel, float dimension)
{
    return pixel / dimension;
}

float RecalcTexcoord(float coord,float oldDimension, float newDimension)
{
    return PixelToTexcoord(TexcoordToPixel(coord,oldDimension),newDimension);
}
#endif // texture_math_h__

Errors are , blabla already defined in xxx.obj, for each unit that includes the file

When I declare all of those inline, it links correctly.

What's the reason for that? It's not a huge problem, and heck, optimizations probably inline stuff found in cpp, too, right?

I'm just curious about the why here, hope it's not too much of a duplicate and thank you for your time.

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1  
Can you please provide a code example? –  the_drow May 1 '11 at 9:48
1  
    
@Anycorn : So that 'auto' inline shtick only applies to class member functions, not regular functions then? –  Erius May 1 '11 at 9:56

3 Answers 3

up vote 4 down vote accepted

Inclusion guards only guard against the code being included twice in the same translation unit. So if you have multiple files that include the same header, the code is included multiple times. Functions defined in a header are not inline by default, so this will give you linker errors - you need to define those function with the inline keyword, unless they are member functions of a class.

Also, note that names that contain double-underscores are reserved for the purposes of the C++ implementation - you are not allowed to create such names in your own code.

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Alright, thank your for cementing that down for me then. I assumed that this implied inline thing goes beyond classes. Cheers! Edit: Well those ifdef names came from visual assist x's 'surround with inclusion guard' feature. I wouldn't use this convention for names myself, yeah. –  Erius May 1 '11 at 10:02
    
concerning the double-underscores: doesn't that only apply for the beginning of the identifier? –  MFH May 1 '11 at 10:03
    
@MFH No, that is for single underscores, followed by an uppercase letter, or followed by anything if used at global scope. –  nbt May 1 '11 at 10:05

Member functions are potencially inlined - you can't force inlining! - if (a) they are defined inside the class or if (b) you use the inline-clause in the definition. Note if you are using the inline-clause you shouldn't define the function in the header - the only exception would be templates as these are "special".
As you just updated the question:
Every user of this header will have a definition of the functions -> multiple defintions. You need to separate definition and declaration!

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I see, so I was actually sporting bad style here? Still green and all that. –  Erius May 1 '11 at 9:59
    
Why shouldn't you define the functions in the header? That is the main purpose of the inline keyword! –  nbt May 1 '11 at 10:01
    
More then that. I always think, that if you define your inline function in the .cpp instead of .h compiler in most cases will be unable to inline your function (cause it will have no access to it's implementation). –  beduin May 1 '11 at 10:05
    
@unapersson: defining in a header leads to multiply definintions, which leads to linking errors which leads to compilation errors… The main purpose of inline is to optimize as you don't have to jump around in the assembly. Inline is an implementation detail an has nothing to do with an interface! –  MFH May 1 '11 at 10:07
    
No, the main purpose of inline is to prevent multiple definition errors - the compiler is at complete liberty to ignore its other meaning, or to "inline" functions that are not explicitly declared as such. –  nbt May 1 '11 at 10:09

It's all about the one definition rule. This states that you can only have one definition for each non-inline function (along with various other types of entity) in a C++ program across all the translation units that you link in to make the program.

Marking a function inline enables an exception to the usual one definition rule. It states (paraphrased) that you can have one definition of an inline function per translation unit provided that all the definitions match and that a definition is provided in each translation in which the inline function is used.

Include guards will prevent you from accidentally providing more than one definition per translation unit by including the header file containing the definitions multiple times.

To satisfy the one definition rule for a non-inline function you would still have to ensure that there is only one translation unit containing the function definitions. The usualy way to do this is by only declaring the functions in the header file and having a single source file containing the definitions.

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