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That is a wrong approach (of having one header file per function). For a single-person project (of less than a hundred thousand lines of code, a.k.a. KLOC = kilo line of code), it is quite reasonable -at least for small projects- to have a single common header file (which you could pre-compile if using GCC), which will contain declarations of all public functions and types, and perhaps definitions of static inline functions (those small enough and called frequently enough to profit from inlining). For example, the sash shell is organized that way (and so is the lout formatter, with 52 KLOC).

That is a wrong approach (of having one header file per function). For a single-person project (of less than a hundred thousand lines of code, a.k.a. KLOC = kilo line of code), it is quite reasonable -at least for small projects- to have a single common header file (which you could pre-compile if using GCC), which will contain declarations of all public functions and types, and perhaps definitions of static inline functions (those small enough and called frequently enough to profit from inlining). For example, the sash shell is organized that way (and so is the lout formatter, with 52 KLOC).

I don't see why that would be useful (except in very weird cases). It is much better (and very usual and common practice) to compile each translation unit (e.g. each .c file) into its object file (a .o ELF file on Linux) and link them later. This is easy with make, and you can ask it to compile object files in parallel using make -j (and then your build goes really fast on your multi-core processor).

I don't see why that would be useful (except in very weird cases). It is much better (and very usual and common practice) to compile each translation unit (e.g. each .c file) into its object file (a .o ELF file on Linux) and link them later. This is easy with make (in practice, when you'll change only one .c file e.g. to fix a bug, only that file gets compiled and the incremental build is really quick), and you can ask it to compile object files in parallel using make -j (and then your build goes really fast on your multi-core processor).

That is a wrong approach (of having one header file per function). For a single-person project (of less than a hundred thousand lines), it is quite reasonable -at least for small projects- to have a single common header file (which you could pre-compile if using GCC), which will contain declarations of all public functions and types, and perhaps definitions of static inline functions (those small enough and called frequently enough to profit from inlining). For example, the sash shell is organized that way (and so is the lout formatter, with 52 KLOC).

If you begin to work on a single-person project in C, I would suggest to first have one header file (and pre-compile it) and several .c translation units. In practice, you'll change .c files much more often than .h ones. Once you have more than 10 KLOC of code you might refactor that into several header files. Such a refactoring is tricky to design, but easy to do (just a lot of copy&pasting chunk of codes). Other people would have different suggestions and hints (and that is ok!). But don't forget to enable all warnings and debug information when compiling (so compile with gcc -Wall -g, perhaps setting CFLAGS= -Wall -g in your Makefile). Use the gdb debugger (and valgrind...). Ask for optimizations (-O2) when you benchmark an already-debugged program. Also use a version control system like Git.

That is a wrong approach (of having one header file per function). For a single-person project (of less than a hundred thousand lines of code, a.k.a. KLOC = kilo line of code), it is quite reasonable -at least for small projects- to have a single common header file (which you could pre-compile if using GCC), which will contain declarations of all public functions and types, and perhaps definitions of static inline functions (those small enough and called frequently enough to profit from inlining). For example, the sash shell is organized that way (and so is the lout formatter, with 52 KLOC).

If you begin to work on a single-person project in C, I would suggest to first have one header file (and pre-compile it) and several .c translation units. In practice, you'll change .c files much more often than .h ones. Once you have more than 10 KLOC you might refactor that into several header files. Such a refactoring is tricky to design, but easy to do (just a lot of copy&pasting chunk of codes). Other people would have different suggestions and hints (and that is ok!). But don't forget to enable all warnings and debug information when compiling (so compile with gcc -Wall -g, perhaps setting CFLAGS= -Wall -g in your Makefile). Use the gdb debugger (and valgrind...). Ask for optimizations (-O2) when you benchmark an already-debugged program. Also use a version control system like Git.