# Is this valid usage of inline functions?

Let's say I have this code (don't mind the fact that SecondsToMinutes and MinutesToHours are carbon copies of each other)

``````inline float SecondsToMinutes(float seconds)
{
return seconds / 60.0;
}
inline float MinutesToHours(float minutes)
{
return minutes / 60.0;
}
inline float HoursToDays(float minutes)
{
return minutes / 24.0;
}
inline float SeconndsToHours(float seconds)
{
return MinutesToHours(SecondsToMinutes(seconds));
}
inline float MinutesToDays(float minutes)
{
return HoursToDays(MinutesToHours(minutes));
}
inline float SeconndsDays(float seconds)
{
return MinutesToDays(SecondsToMinutes(seconds));
}
``````

Is this valid usage of inline? Does it make sense? Is this good practice? After all, if I recall correctly, inline means that function calls are replaced by function bodies, so

``````return MinutesToDays(SecondsToMinutes(seconds))
``````

should be equivalent to

``````return seconds / 60.0 / 60.0 / 24.0
``````

Right?

Or is it better to just use macros for this?

``````#define EXCHANGE_SEC_MIN(x) (x / 60.0)
#define EXCHANGE_MIN_H(x) (x / 60.0)
#define EXCHANGE_H_D(x) (x / 24.0)
#define EXCHANGE_SEC_H(x) (EXCHANGE_MIN_H(EXCHANGE_SEC_MIN(x)))
#define EXCHANGE_MIN_D(x) (EXCHANGE_H_D(EXCHANGE_MIN_H(x)))
#define EXCHANGE_SEC_D(x) (EXCHANGE_MIN_D(EXCHANGE_SEC_MIN(x)))
``````

Which one is the better practice? Or neither is? I'd like others cents on this.

• Macros are almost always the wrong way :-) Oct 27, 2016 at 8:47
• Also your macros are wrong: what happens if you use it like `EXCHANGE_SEC_MIN(a+b)`?
– mch
Oct 27, 2016 at 8:49
• Macros are almost always the wrong way In other words, if there is a simple alternative to macro (which in this case is a function, no matter inline or not) prefer to avoid the macro
– Leon
Oct 27, 2016 at 8:50
• I know that macros are wrong, but to answer the question about `EXCHANGE_SEC_MIN(a+b)` ... What if I created a function that wrapped around the macro? `{ return EXCHANGE_SEC_MIN(x); }` , then you can give a+b as the argument to the actual (non-macro function.) Not that I'd do it that way, since macros are wrong, as you guys said it. Oct 27, 2016 at 8:55
• Inline means "this function could be defined in several translation units". In practice, the definition can be in a header file and you won't get a multiple definitiin error. Nothing more, nothing less. Oct 27, 2016 at 8:59

Is this valid usage of inline? Does it make sense? Is this good practice? After all, if I recall correctly, inline means that function calls are replaced by function bodies, so

Sure it is. You make it more legible which is always good.

``````return seconds / 60.0 / 60.0 / 24.0
``````

Yes that's how it turns out. Or should. `inline` is just a hint, the compile just might decide otherwise. But for such one liner, the compiler will inline it.

Macros? Why? If it can be done with functions, why use macros?

• Thank you for your answer :) I'll be sure to make use of inline functions in the future, now that I know what they are good for. Oct 27, 2016 at 8:51
• `inline` can turn out pretty useful for such small functions, but caution when doing this on bigger functions. Code bloat is bad. Caution! The compiler will NOT reduce your code to a single division, because of floating point math! If you don't mind about breaking compatibility, enable the flag `-ffast-math`. See the difference with and without it on godbolt.
– asu
Oct 27, 2016 at 9:01

Is this valid usage of inline? Does it make sense?

Well, yeah but no.

It doesn't hurt anything at this point but doesn't do what you think it does either.

In an excellent post about `inline` deft_code correctly says :

It is said that `inline` hints to the compiler that you think the function should be inlined. That may have been true in 1998, but a decade later the compiler needs no such hints. Not to mention humans are usually wrong when it comes to optimizing code, so most compilers flat out ignore the 'hint'.

So, it doesn't hurt anyone if you do it but the chance your compiler will listen to your hint is practically 0. If it sees fit to inline the code, it will do so itself.

`inline` nowadays is used mostly for the linker since it allows multiple definitions in multiple compilation units.

If you want to make sure your code is as fast as possible and you have access to C++11 you should use `constexpr`:

``````constexpr float SecondsToMinutes(float seconds)
{
return seconds / 60.0;
}
//etc..
``````
• Note that `constexpr` is still just a hint. It's not required to be evaluated at compile time unless it is used in a constant expression (e.g. a template non-type argument). It can't be evaluated at compile time if its arguments are not known at compile time, and C++98 compilers could already do constant folding on arguments that are known at compile time. Oct 27, 2016 at 12:29
• @Oktalist Very true, however in this case it's way more likely to be used by the compiler than the `inline` keyword. Oct 27, 2016 at 12:30

`inline` does not mean that function calls are replaced by function bodies. At least it hasn't meant that for the past fifteen-something years: optimizers are now way beyond taking orders from the developer, and will perform inlining whether or not you specified `inline`.

`inline` actually means "this function may be defined multiple times, and the linker should sort it out and keep at most a single definition at the end. I'm responsible for ensuring that all definitions are identical".

If you really, really want to enforce inlining (the actual insertion of the function's body inside the caller) yourself, you'll have to use compiler-specific extensions such as `__attribute__((always_inline))`.

You typically need `inline` when the functions are defined in a header, since this header will eventually be included in several translation units, thus the definitions will be duplicated. As such, assuming your code is inside a header, this is a good use of `inline`.

Assuming the definitions of your inline functions are visible to the compiler at the point of use (e.g. they are in a header file that is `#include`d as needed in each compilation unit), then your usage is valid.

However, `inline` is only a hint to the compiler. The standards permit the compiler to ignore that hint, and not inline the function. The criteria by which compilers do not inline functions is highly compiler dependent.

Macros are an alternative, but have other concerns .... including that they don't respect program scope, and it is easy to write macros - deliberately or accidentally - that result in different behaviour than a person might expect. So inline functions are often considered preferable.