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Ok, not a C/C++ expert by any means, but I thought the point of a header file was to declare the functions, then the C/CPP file was to define the implementation.

However, reviewing some C++ code tonight, I found this in a class's header file...

public:
    UInt32 GetNumberChannels() const { return _numberChannels; } // <-- Huh??

private:
    UInt32 _numberChannels;

So why is there an implementation in a header? Does it have to do with the const keyword? Does that inline a class method? What exactly is the benefit/point of doing it this way vs. defining the implementation in the CPP file?

Update

I see a lot of similar answers, but ironically not one of them explain the const keyword here, (although someone did in the comments to this question.) Since all the answers basically say the same thing about inlining, the first answer that also explains that const word will get the vote.

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2  
The function is inlined. –  Joachim Pileborg Jan 25 '13 at 7:51
    
This is just one of the ways to declare an inline function in C++. –  Michael Burr Jan 25 '13 at 7:52
1  
RE the const qualifier; it only means that the method won't alter the object's state. –  Michael Jan 25 '13 at 7:54
2  
@Alex: you are incorrect that the compiler must inline the function. The compiler/linker have to deal with the multiple definitions (inline functions are not subject to the one definition rule). –  Michael Burr Jan 25 '13 at 7:55
2  
@Alex no the compiler does not have to inlien it. It may inline it in some translation untis, but does not need to do so in all TU's. Yes, there are multiple definitions, but since the function is (implicitly) declared inline, the compiler marks the symbol if it does not inline it, and the linker knows it has to pick only one of the exported symbols. It's the same for template instantiations. –  Arne Mertz Jan 25 '13 at 7:58
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6 Answers 6

up vote 7 down vote accepted

Ok, not a C/C++ expert by any means, but I thought the point of a header file was to declare the functions, then the C/CPP file was to define the implementation.

The true purpose of a header file is to share code amongst multiple source files. It is commonly used to separate declarations from implementations for better code management, but that is not a requirement. It is possible to write code that does not rely on header files, and it is possible to write code that is made up of just header files (the STL and Boost libraries are good examples of that). Remember, when the preprocessor encounters an #include statement, it replaces the statement with the contents of the file being referenced, then the compiler only sees the completed pre-processed code.

So, for example, if you have the following files:

Foo.h:

#ifndef FooH
#define FooH

class Foo
{
public:
    UInt32 GetNumberChannels() const;

private:
    UInt32 _numberChannels;
};

#endif

Foo.cpp:

#include "Foo.h"

UInt32 Foo::GetNumberChannels() const
{
    UInt32 _numberChannels;
}

Bar.cpp:

#include "Foo.h"

Foo f;
UInt32 chans = f.GetNumberChannels();

The preprocessor parses Foo.cpp and Bar.cpp separately and produces the following code that the compiler then parses:

Foo.cpp:

class Foo
{
public:
    UInt32 GetNumberChannels() const;

private:
    UInt32 _numberChannels;
};

UInt32 Foo::GetNumberChannels() const
{
    UInt32 _numberChannels;
}

Bar.cpp:

class Foo
{
public:
    UInt32 GetNumberChannels() const;

private:
    UInt32 _numberChannels;
};

Foo f;
UInt32 chans = f.GetNumberChannels();

Bar.cpp compiles into Bar.obj and contains a reference to call into Foo::GetNumberChannels(). Foo.cpp compiles into Foo.obj and contains the actual implementation of Foo::GetNumberChannels(). After compiling, the linker then matches up the .obj files and links them together to produce the final executable.

So why is there an implementation in a header?

It is being implicitally declared as inlined (there is an actual inline keyword that can be explicitally used as well). Indicating that the compiler should inline a function is only a hint which does not guarantee that the function will actually get inlined. But if it does, then wherever the inlined function is called from, the contents of the function are copied directly into the call site, instead of generating a CALL statement to jump into the function and jump back to the caller upon exiting. The compiler can then take the surrounding code into account and optimize the copied code further, if possible.

Does it have to do with the const keyword?

No. The const keyword merely indicates to the compiler that the method will not alter the state of the object it is being called on at runtime.

What exactly is the benefit/point of doing it this way vs. defining the implementation in the CPP file?

When used effectively, it allows the compiler to usually produce faster and better optimized machine code.

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1  
Does this mean, by your explanation, that you can declare a class directly in your CPP file, and even declare the contents of the member functions within the braces wrapping that class declaration, so you wouldn't have to use the :: syntax outside of it? (I understand that is not considered good coding. I'm asking only if it's valid coding.) And to that effect, would that mean that all members would be inlined, or at least marked to be? (And is there something that you can say don't inline this?) –  MarqueIV Jan 25 '13 at 8:32
    
Good pedagogical answer. However, you should make it clearer that the inline keyword and implicit inlining is only a hint which doesn't guarantee the function gets inlined and that the compiler is always allowed to inline any function. Do this and you get a tasty +1 from me. –  Agentlien Jan 25 '13 at 8:42
    
@MarqueIV What you describe is technically possible, but it would prevent you from using that class anywhere outside of the compilation unit defined by the .cpp file (essentially, the cpp file itself, ubless you #include it in other files. Which is a huge no-no!). You could, however, still use pointers or references to the class (just never dereference them or access members via the pointers or references), if you forward-declare the class in other files. –  Agentlien Jan 25 '13 at 8:55
    
Yeah, I know I couldn't use them that way. This was more of a 'can you do it' kinda thing, not a 'should you do it'. I was more asking if it would successfully compile, which it would. Anyway, you got the answer because of the detail and you also being the only person to ref the const keyword in your answer (at least when I approved it anyway.) Thanks! :) –  MarqueIV Jan 25 '13 at 9:09
    
@Agentlien: I added a note about the inline hinting. –  Remy Lebeau Jan 25 '13 at 10:20
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It is perfectly valid to have an implementation of a function in a header file. The only issue with this is breaking the one-definition-rule. That is, if you include the header from multiple other files, you will get a compiler error.

However, there is one exception. If you declare a function to be inline, it is exempt from the one-definition-rule. This is what is happening here, since member functions defined inside a class definition are implicitly inline.

Inline itself is a hint to the compiler that a function may be a good candidate for inlining. That is, expanding any call to it into the definition of the function, rather than a simple function call. This is an optimization which trades the size of the generated file for faster code. In modern compilers, providing this inlining hint for a function is mostly ignored, except for the effects it has on the one-definition-rule. Also, a compiler is always free to inline any function it sees fit, even if it has not been declared inline (explicitly or implicitly).

In your example, the use of const after the argument list signals that the member function does not modify the object on which it is called. In practice, this means that the object pointed to by this, and by extension all class members, will be considered const. That is, trying to modify them will generate a compile-time error.

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1  
"since member functions defined inside a class definition are implicitly inline." Valuable info. Did not know that. But what about that const word? –  MarqueIV Jan 25 '13 at 8:09
    
@MarqueIV I've updated my answer to include this. –  Agentlien Jan 25 '13 at 8:39
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It is implicitly declared inline by virtue of being a member function defined within the class declaration. This does not mean the compiler has to inline it, but it means you won't break the one definition rule. It is completely unrelated to const*. It is also unrelated to the length and complexity of the function.

If it were a non-member function, then you would have to explicitly declare it as inline:

inline void foo() { std::cout << "foo!\n"; }

* See here for more on const at the end of a member function.

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Um... isn't any function you define for a class a 'member function'? Or do you mean a function that declares the body there too? –  MarqueIV Jan 25 '13 at 7:58
    
@MarqueIV I mean member function + implemented at the point of definition. Alex's edit has clarified this (thanks Alex!) –  juanchopanza Jan 25 '13 at 7:59
    
What about the const word? What is that doing here? –  MarqueIV Jan 25 '13 at 8:10
1  
@MarqueIV it is totally unrelated. It means that the member function cannot modify and of the classes data members (unless they are declared mutable) of call any other member functions that are not declared const. The jargon is that GetNumberOfChannels is a "const method". –  juanchopanza Jan 25 '13 at 8:12
    
@MarqueIV see here for more on const. –  juanchopanza Jan 25 '13 at 8:13
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As far as I know, there are two kinds of methods, which can be safely implemented inside the header file.

  • Inline methods - their implementation is copied to places, where they are used, so there is no problem with double-definition linker errors;
  • Template methods - they are actually compiled at the moment of template instantiation (eg. when someone inputs a type in place of template), so again there is no possibility of double-definition problem.

I believe, your example fits the first case.

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Even in plain C, it is possible to put code in a header file. If you do it, you usually need to declare it static or else multiple .c files including the same header will cause a "multiply defined function" error.

The preprocessor textually includes an include file, so the code in an include file becomes part of the source file (at least from the compiler's point of view).

The designers of C++ wanted to enable object-oriented programming with good data hiding, so they expected to see lots of getter and setter functions. They didn't want an unreasonable performance penalty. So, they designed C++ so that the getters and setters could not only be declared in the header but actually implemented, so they would inline. That function you showed is a getter, and when that C++ code is compiled, there won't be any function call; code to fetch out that value will just be compiled in place.

It is possible to make a computer language that doesn't have the header file/source file distinction, but just has actual "modules" that the compiler understands. (C++ didn't do that; they just built on top of the successful C model of source files and textually included header files.) If source files are modules, it would be possible for a compiler to pull code out of the module and then inline that code. But the way C++ did it is simpler to implement.

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Keeping the implementation in the class header file works, as I'm sure you know if you compiled your code. The const keyword ensures you don't change any members, it keeps the instance immutable for the duration of the method call.

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