What order should headers be declared in a header / cpp file? Obviously those that are required by subsequent headers should be earlier and class specific headers should be in cpp scope not header scope, but is there a set order convention / best practice?
In a header file you have to include ALL the headers to make it compilable. And don't forget to use forward declarations instead of some headers.
In a source file:
- corresponded header file
- necessary project headers
- 3rd party libraries headers
- standard libraries headers
- system headers
In that order you will not miss any of your header files that forgot to include libraries by their own.
Good practice: every .h file should have a .cpp that includes that .h first before anything else. This proves that any .h file can be put first.
Even if the header requires no implementation, you make a .cpp that just includes that .h file and nothing else.
This then means that you can answer your question any way you like. It doesn't matter what order you include them in.
For further great tips, try this book: Large-Scale C++ Software Design - it's a shame it's so expensive, but it is practically a survival guide for C++ source code layout.
In header files, I tend to put standard headers first, then my own headers (both lists being ordered alphabetically). In implementation files, I put first the header corresponding (if any), then standards headers and other dependency headers.
Order is of little importance, except if you make a great use of macros and
#define ; in that case, you must checked that a macro you defined doesn't replace a previously included one (except if that's what you want, of course).
Concerning this statement
those that are required by subsequent headers should be earlier
A header shouldn't rely on other headers being included before it! If it requires headers, it just includes them. Header guards will prevent multiple inclusion:
#ifndef FOO_HEADER_H #define FOO_HEADER_H ... #endif
Since I wrote this answer, I changed my way of ordering the include directives in my code. Now, I try to always put headers in increasing order of standardization, so the headers of my project come first, followed by 3rd party libraries headers, followed by standard headers.
For instance, if one of my file uses a library I wrote, Qt, Boost and the standard library, I will order the includes as follow:
//foo.cpp #include "foo.hpp" #include <my_library.hpp> // other headers related to my_library #include <QtCore/qalgorithms.h> // other Qt headers #include <boost/format.hpp> // Boost is arguably more standard than Qt // other boost headers #include <algorithms> // other standard algorithms
The reason why I do that is to detect missing dependencies in my own headers: let's assume for instance that
std::copy, but doesn't include
<algorithm>. If I include it after
foo.cpp, this missing dependency will go unnoticed. On the contrary, with the order I just presented, the compiler will complain that
std::copy has not been declared, allowing me to correct
In each "library" group, I try to keep the include directives ordered alphabetically, to find them more easily.
On a sidenote, a good practice is also to limit at a maximum the dependency between header files. Files should include as little headers as possible, especially headers file. Indeed, the more headers you include, the more code needs to be recompiled when something changes. A good way to limit these dependencies is to use forward declaration, which is very often sufficient in header files (see When can I use a forward declaration?).
In dir/foo.cc, whose main purpose is to implement or test the stuff in dir2/foo2.h, order your includes as follows:
- dir2/foo2.h (preferred location — see details below).
- C system files.
- C++ system files.
- Other libraries' .h files.
- Your project's .h files.
For .cpp files, you should include the header of the class or whatever you are implementing first, so you catch the case where this header is missing some includes. After that, most coding guidelines tend to include system headers first, project headers second, for example the Google C++ Style Guide.
It's a dependency thing and it depends largely on what you put in our headers. A fact is that you can be really notorious about this and minimize to keep your includes strict but you'll eventually run into a scenario where you'll wanna use inclusion guards.
#ifndef MY_HEADER_H #define MY_HEADER_H //... #endif
The problem isn't that apparent in the beginning, but as the complexity of your software grows so does your dependencies. You can do well, and be smart about it but larger C++ projects are generally riddled with includes. You can try, but you can only do so much. So be diligent and think about your includes, YES! But you'll most certainly have cyclic dependencies at some point and that is why you need inclusion guards.
If a header needs other headers then it just includes them in that header.
Try to structure your code so you pass pointers or references and forward declare where you can.
In the implementation then the header that defines it should be listed first (except in Visual Studio if you are using pch then stdafx would go first).
I generally list them as I need.
I've found the following convention the most useful:
// this is the header used to trigger inclusion of precompiled headers #include <precompiled.h> // this ensures that anything that includes "module.h" works #include "module.h" // other headers, usually system headers, the project
The important thing is to put the module's header as the first non-precompiled header. This ensures "module.h" has no unexpected dependencies.
If you're working on a large project with slow disk access times, I've seen this style used to decrease build times:
// this is the header used to trigger inclusion of precompiled headers #include <precompiled.h> // this ensures that anything that includes "module.h" works #include "module.h" // other headers, usually system headers, the project #if !defined _OTHER_MODULE_GUARD_ #include "other_module.h" #endif #if !defined _ANOTHER_MODULE_GUARD_ #include "another_module.h" #endif
It's a bit verbose but does save on disk seeking since the header won't be searched for / opened if it's already been included. Without the guard check, the compiler will seek for and open the header file, parse the whole file to end up
#ifdefing the whole file out.