Modern headers should be self-contained, which means that a program that needs to use the facilities defined by
header.h can include that header (
#include "header.h") and not worry about whether other headers need to be included first.
Recommendation: Header files should be self-contained.
Historically, this has been a mildly contentious subject.
Once upon another millennium, the AT&T Indian Hill C Style and Coding Standards stated:
Header files should not be nested. The prologue for a header file should, therefore, describe what other headers need to be #included for the header to be functional. In extreme cases, where a large number of header files are to be included in several different source files, it is acceptable to put all common #includes in one include file.
This is the antithesis of self-containment.
However, since then, opinion has tended in the opposite direction. If a source file needs to use the facilities declared by a header
header.h, the programmer should be able to write:
and (subject only to having the correct search paths set on the command line), any necessary pre-requisite headers will be included by
header.h without needing any further headers added to the source file.
This provides better modularity for the source code. It also protects the source from the “guess why this header was added” conundrum that arises after the code has been modified and hacked for a decade or two.
The NASA Goddard Space Flight Center (GSFC) coding standards for C is one of the more modern standards — but is now a little hard to track down. It states that headers should be self-contained. It also provides a simple way to ensure that headers are self-contained: the implementation file for the header should include the header as the first header. If it is not self-contained, that code will not compile.
The rationale given by GSFC includes:
§2.1.1 Header include rationale
This standard requires a unit’s header to contain #include statements for all other headers required by the unit header. Placing #include for the unit header first in the unit body allows the compiler to verify that the header contains all required #include statements.
An alternate design, not permitted by this standard, allows no #include statements in headers; all #includes are done in the body files. Unit header files then must contain #ifdef statements that check that the required headers are included in the proper order.
One advantage of the alternate design is that the #include list in the body file is exactly the dependency list needed in a makefile, and this list is checked by the compiler. With the standard design, a tool must be used to generate the dependency list. However, all of the branch recommended development environments provide such a tool.
A major disadvantage of the alternate design is that if a unit’s required header list changes, each file that uses that unit must be edited to update the #include statement list. Also, the required header list for a compiler library unit may be different on different targets.
Another disadvantage of the alternate design is that compiler library header files, and other third party files, must be modified to add the required #ifdef statements.
Thus, self-containment means that:
- If a header
header.hneeds a new nested header
extra.h, you do not have to check every source file that uses
header.hto see whether you need to add
- If a header
header.hno longer needs to include a specific header
notneeded.h, you do not have to check every source file that uses
header.hto see whether you can safely remove
notneeded.h(but see Include what you use.
- You do not have to establish the correct sequence for including the pre-requisite headers (which requires a topological sort to do the job properly).
See Linking against a static library for a script
chkhdr that can be used to test idempotence and self-containment of a header file.