There is not any standard, C++ is a very open-minded world you will see ; )
It is all about making what works best for you, but usually taking advices from people that have already experimented cannot hurt.
Personally, I try to follow this convention
/libs <- Libraries go here
/Models <- Assuming you want to make a library out of your models
... <- Putting header and implementations together is not a problem,
they should be edited in parallel oftentimes
/Utilities <- Should your library grow, you can make it more modular
by creating subdirectories
(that could contain subdirectories, etc.)
/apps <- define your applications here.
They probably rely on classes and functions defined in one or several of your libaries define above.
# Below are 'environment specific' folders.
/vs <- Visual studio project files
/xcode <- Xcode project files
Headers and implementations
- Header files (.h, or .hpp, or no extension) are indeed defining the interface that will be implemented in the implementation file (.cpp). Nonetheless, it is very common to give the same basename to both, and only distinguish them by extension(or absence of). Adding an additional
.interface part probably does not buy you much, and could confuse your IDE (or other tools), that is otherwise able to relate a header file to its implementation file.
- For the same reason (not confusing some tools), it can be easier to put both files in the same folder: they are very closely related anyway.
- Additionally, if later on you need to change your folders structures (eg. to modularize), having only one place to make subfolders (instead of two in your approach) will also make life a bit easier.
C++ offers classes for the programmer to define custom types. It is very common to define custom types in their own pair of header/implementation file. In your case,
DBConnection.h would define a DBConnection class, whose (non-inline) methods would be implemented in
Personnaly, I would not be afraid to create one pair of files per type, which makes it easier for future-you and other programmers to find the file defining a type. You can manage the growing number of files by making subfolders, that will force you to modularize your design.
Of course, sometimes you will need to define a very short class, tightly coupled to another class. It is up to you to include both classes in a common pair of files if you feel the link between them is strong enough.
It may not be a concern to all projects, but this directory structure is extensible in terms of environments and build management.
Keeping project files in separate folders at the top level, and defining out-of-source builds, allows to create project files for other IDEs further down the line.
This hierarchy is also easily amenable to CMake build management, if you should go this way. A
CMakeLists.txt file will be placed at the top level (under ProjectName/), this file invoking
add_subdirectory(src), in turn caling a
CMakeLists.txt in ProjectName/src/, etc.