Anyone can elaborate the reason?
Source files are compiled independently of one another into executable code, then later linked in to the main program. Template functions on the other hand, cannot be compiled without the template parameters. So, the file that uses them needs to have that code in order for it to be compiled. Therefore the functions need to be visible in the header file.
The only requirements of class T here are that it has a public assignment operator(=). That's just about every class that has ever been implemented or conceived. However, each class implements the assignment operator in it's own way. The same machine code cannot be generated for swap<int>, swap<double> and swap<string>. Each one of those functions has to be unique. At the same time, the compiler cannot possibly anticipate all the myriad of different types that you might pass to this function, so it can't generate the functions ahead of time. So it has to wait until the function is called, and then it can get compiled.
For example, let's say I have that function above defined in "swap.h". Then in "main.cpp", I do this:
In this example, 3 different functions were created. One to swap ints, one to swap doubles, and one to swap strings. In order to create those functions, the compiler needed to be able to see the template code. If it was in a separate source file, "swap.cpp" for example, the compiler wouldn't be able to see it, because like I said before, each source file is compiled independently of one another.
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Are you asking why template bodies have to be in header files? It's because the compiler needs to know both the body and the template parameter(s) at the same time in order to generate machine code. The template parameters are known where the template is used (instantiated). This gives you one trivial case and two non-trivial ones:
The short answer to your question is that there is no obligation for declaration and definition of template classes to be in the same source files.
In fact, i consider this a bad thing, but it's completely understandable, given that it's pretty difficult to use them separately (but it can be done !).
Suppose you have
Simply include myTemplateClass.h in main.cpp and create myTemplateClassInt.cpp as follows :
Doing that, you tell the compiler to instantiate all template methods of MyTemplateClass for template parameter "int". Since it has access to myTemplateClass.hpp, such methods will be generated flawlessly... And the linker won't complain.
Of course, this approach requires that you use some place where instantiated versions of your template classes are defined.