If the code is "known" in the compile unit, and the function is not overly complex, most modern compilers will inline the code anyway. If the function is also declared
static, then it will not generate a "real function".
static: When a free function (not a member of a class) is available to make inline, if the compiler isn't sure that all places this function is called are inlined, it produces an out-of-line function (aka "real function") as well.
If a free function is declared
static it tells the compiler that this function is "local to this compile unit", so nothing else will ever call this function. If the compiler then inlines all calls in this compile unit, then it doesn't need to produce an "out-of-line" function as well, since the compiler can know all the calls to the function.
Note also that taking the address of a function will also force the compiler to make an out-of-line function, since the function pointer must point somewhere [although under very special circumstances, I've seen compilers inline functions called through function pointers too]
As with all performance matters, if it's really critical in your application, then benchmarking the actual code (and different variants of it), and profiling, is key to getting things right. There is no such thing as "this is the right answer", different compilers (on different platforms) with different settings will do different things.
Edit: Unless there is evidence that the code is worthwhile the penalty of being less readable, don't sacrifice readability for optimisation. Very little of the overall code is typically important for performance anyway.
Edit2: If you can also REUSE some of the code in other functions, that's an extra bonus. But making code readable is the key goal of splitting into functions in the first place, typically.