The dependencies are everything whose change requires recompiling the source code. That includes not only your
#include-d headers, but also the indirectly included system headers, and even (in principle) the compiler and build chain itself (when you upgrade your C++ compiler, you should recompile all your software). If some of your C++ code is generated from some source (e.g. by tools like GNU bison or Qt moc, or by your own script), both the sources and the generating tools are dependencies. Read also about package managers.
Practically speaking, the GCC compiler is able to output most
make dependencies, notably with
-M and related processor options. Read also about auto dependencies generation. See also this.
(in practice, you generally don't code in your
Makefile some explicit dependency on the compiler itself; but you should not forget to
make clean when the compiler has been upgraded)
main.cpp is including
my_strings.cpp (which is not conventional and is very bad taste), your
make rule won't have a dependency from
main.o. But probably your
#include-ing (directly or indirectly)
main.o should depend not only on
main.cpp but also on
As a rule of thumb, your object file
my_strings.o depends on the source file
my_strings.cpp and all the header files which are directly or indirectly
#include-d in it. Your main
program executable depends on all its object files and the libraries you are linking into it. Order of program arguments to
g++ matters a lot.
It uses it like a library, right?
From what you are showing, you don't have any own libraries (but you probably use the standard C++ library, and perhaps some other system libraries). On Linux these are
lib*.a files (static libraries) or
lib*.so files (shared libraries). A library is an organized agglomeration of object code -and sometimes other resources.
I'm a bit lost on dependencies and how linking works.
Understand the difference between source code files, object files (they contain relocation information) and executables (on Linux, object files and executable files and shared libraries are using the ELF format). Read also about the role of compilers, linkers (the
g++ program can run both) & build automation (for which you are using
Read Program Library HowTo and much more about translation units and linkers (& name mangling), notably Levine's book on Linkers & loaders.
See also this & that & this (examples about
Makefile for C++ programs).
BTW, you should use
gcc) when compiling C++ code. There are significant differences (even if
gcc is sometimes able to compile C++ or Fortran code, you'll mostly use
gcc to compile C code). And (assuming you use specifically GNU make) your
Makefile should mention
g++). You need to understand the builtin rules of
make (run once
make -p to get them) and you'll better take advantage of them (e.g. use
$(COMPILE.cpp) etc...). You certainly should pass
-Wall -Wextra (to get all warnings, and even more), and
-g (to get debugging information) to
g++. Practically speaking, you should set your
CXXFLAGS variable in your
Take time to carefully read GNU make documentation and Invoking GCC.
Look into the
Makefile-s of existing free software projects. For various reasons, some projects are generating their
Makefile-s with tools like
cmake. But most simple projects don't need that generality, and you should be able to write your own
Makefile for your C++ projects. Of course, take inspiration from existing code.