The usual approach is to have one precompiled header in a project that contains the most common includes.

The problem is, that it is either too small or two big. When it is too small, it doesn't cover all the used headers so these have to be processed over and over in every module. When it is too large, it slows down the compilation too much for two reasons:

  1. The project needs to be recompiled too often when you change something in header contained in the precompiled header.
  2. The precompiled header is too large, so including it in every file actually slows down compilation.

What if I made all of the header files in a project precompiled. This would add some additional compiler work to precompile them, but then it would work very nicely, as no header would have to be processed twice (even preparing the precompiled header would use precompiled headers recursively), no extra stuff would have to be put into modules and only modules that are actually needed to be recompiled would be recompiled. In other words, for extra work O(N) complexity I would (theoretically) optimise O(n^2) comlexity of C++ includes. The precosseor to O(N), the processing of precompiled data would still be O(N^2), but at least minimised.

Did anyone tried this? Can it boost compile times in real life scenarios?

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    It fails on templates. You cannot precompile <vector> for example, because you don't know what T will be. You can precompile it with a bunch of types, but which ones? I would expect that every non-trivial header #includes some STL header, making this approach not feasible. – nwp Dec 10 '15 at 10:19
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    You can precompile vector. The textual include file will be processed and prepared in the internal binary format for the compiler to be used later. The templates obviously need to be compiled again, but at least the file doesn't need to be preprocessed again. – kovarex Dec 10 '15 at 10:22
  • Then what would be the advantage? I don't think the internal binary format will be significantly faster to process than the header itself, and the expensive optimization steps still have to be redone. Also you don't remove the redundant recompilation of headers for the same types. – nwp Dec 10 '15 at 10:29
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    Including every .h file in every TU is very unlikely to be productive. Not just because of the namespace pollution, every minor change is going the recompile everything. Precompiled headers are useful when you have large headers that very rarely or never change. Like those of an operating system, a framework, a utility library. – Hans Passant Dec 10 '15 at 11:24

With GCC, the reliable way to use precompiled headers is to have one single (big) header (which #include-s many standard headers ...), and perhaps include some small header after the precompiled one.

See this answer for a more detailed explanation (for GCC specifically).

  • Yes, I know the standard way of using precompiled headers, but it will not help with duplicate processing of headers inside the project. – kovarex Dec 10 '15 at 10:24

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