[m-users.] Best way to implement constants ?

Sean Charles (emacstheviking) objitsu at gmail.com
Fri Aug 18 18:55:33 AEST 2023 

> 
> I mean, constants like "1 / 2.75" will sure be evaluated at compile time.
> And even if not, it's just a division, nothing expensive.

Do you know where in the docs it says that will happen? I couldn't find anything as reassurance, and I assumed then that a floating point division would take place, at that point, every time, which feels inefficient, given that it is in fact a constant and should require zero calculation at runtime.

Expensive is relative I guess. I come from the days when a 1MHz CPU was considered exotic.


> 
> Volker
> 
>> 
>> Volker
>> 
>> 
>> Am Freitag, dem 18.08.2023 um 09:26 +0100 schrieb Sean Charles
>> (emacstheviking):
>>> I am currently working on a simple 2D game engine using raylib, all good.
>>> I'm implementing a tweening library based on -the- easing equations by
>>> Robert Penner.
>>> 
>>> The ones I need I have implemented, but I don't think I will need the
>>> complete set. On implementing the easeInBounce, easeOutBounce and
>>> easeInOutBounce, using this as my guide, the raylib Rust easing
>>> source: https://docs.rs/raylib/latest/src/raylib/ease.rs.html#242-256 , I
>>> noticed that there are some constants which I decided I didn't want to
>>> have to recalculate at run time.
>>> 
>>> In a game loop, anything you can do to save pointless repetition means
>>> more rendering time between frames.
>>> 
>>> This MIGHT be over eager optimisation I guess as all I am doing at the
>>> moment is a simple proof-of-concept for a 2D engine which I will then port
>>> over as the core of my transpiler IDE I have started.
>>> 
>>> Here is what I ended up for as the implementation of easeOutBounce, I
>>> decided to use the apostrophe naming rule so that the code reads like the
>>> source code, and I also did this because I wasn't really sure what those
>>> constants are for, I have a rough idea but I couldn't decide on an
>>> effectively communicable name for the source so I opted to call them what
>>> they do!
>>> 
>>> 
>>> tween_(bounce_out, Time, Range, Duration) = V :-
>>>     Percent = Time / Duration,
>>>     ( if Percent < '1 / 2.75' then
>>>         V = Range * n1 * Percent * Percent
>>> 
>>>     else if Percent < '2 / 2.75' then
>>>         Td1 = Percent - '1.5 / 2.75',
>>>         V = Range * ( n1 * Td1 * Td1 +0.75 )
>>> 
>>>     else if Percent < '2.5 / 2.75' then
>>>         Td1 = Percent - '2.25 / 2.75',
>>>         V = Range * ( n1 * Td1 * Td1 +0.9375 )
>>>     else
>>>         Td1 = Percent - '2.625 / 2.75',
>>>         V = Range * ( n1 * Td1 * Td1 + 0.984375 )
>>>     ),
>>>     trace [io(!IO)] (
>>>         io.format("bounce_out: %f\n", [f(V)], !IO)
>>>     ).
>>> 
>>> The above code then make suse of the following constants, I read somewhere
>>> that small functions are automatically inlined (but not 100% sure I read
>>> it) so I explicitly made then inlined, the idea being that at runtime,
>>> referential transparency would be applied, like in Haskell...
>>> 
>>> 
>>>     % Bounce constants.
>>> 
>>> :- pragma inline(func(n1/0)).
>>> :- func n1 = (float::out) is det.
>>> n1 = 7.5625.
>>> 
>>> :- pragma inline(func(d1/0)).
>>> :- func d1 = (float::out) is det.
>>> d1 = 2.75.
>>> 
>>> :- pragma inline(func('1.5 / 2.75'/0)).
>>> :- func '1.5 / 2.75' = (float::out) is det.
>>> '1.5 / 2.75' = 0.5454.
>>> 
>>> :- pragma inline(func('1 / 2.75'/0)).
>>> :- func '1 / 2.75' = (float::out) is det.
>>> '1 / 2.75' = 0.3636.
>>> 
>>> :- pragma inline(func('2 / 2.75'/0)).
>>> :- func '2 / 2.75' = (float::out) is det.
>>> '2 / 2.75' = 0.7272.
>>> 
>>> :- pragma inline(func('2.25 / 2.75'/0)).
>>> :- func '2.25 / 2.75' = (float::out) is det.
>>> '2.25 / 2.75' = 0.8181.
>>> 
>>> :- pragma inline(func('2.5 / 2.75'/0)).
>>> :- func '2.5 / 2.75' = (float::out) is det.
>>> '2.5 / 2.75' = 0.909.
>>> 
>>> :- pragma inline(func('2.625 / 2.75'/0)).
>>> :- func '2.625 / 2.75' = (float::out) is det.
>>> '2.625 / 2.75' = 0.9545.
>>> 
>>> My question is simple this: is what I have done 'ok' or is it a diabolical
>>> insult to all that as beautiful and holy in the Mercury world?
>>> Could I have used some other aspect / feature of the language?
>>> 
>>> Thanks
>>> Sean
>>> 
>>> _______________________________________________
>>> users mailing list
>>> users at lists.mercurylang.org
>>> https://lists.mercurylang.org/listinfo/users
>> 
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