- cross-posted to:
- workshop
- cross-posted to:
- workshop
cross-posted from: https://board.minimally.online/post/12268
The math behind the game is
atan2
which I use to get the angle from a thing to another thing:
function ato(from,to) return atan2( to.x-from.x, to.y-from.y ) end
And then when you give that angle to
cos
for the x axis andsin
for the y axis you get (x,y) coords that can be multiplied by the number of pixels you want to “move” in that direction. So this function assumes a table like{x,y,a,s}
and returns new a new x,y multiplied bys
for “speed”…
function amove(●,s) s=s or ●.s return ●.x+cos(●.a)*s, ●.y+sin(●.a)*s end
I use both those together like this to move the worms each frame. (This symbol: ∧ looks more like a worm in the Pico-8 font. If you didn’t notice I like the emoji for variables 😋)
for ∧ in all(∧s) do ∧.a=ato(∧,웃) ∧.x,∧.y=amove(∧) end
The astitue reader may have noticed
amove
allows one to supply their owns
instead of the table’ss
… this is useful when you want to calculate things along something like a line, I mean the length of a worm. For example if we put everything together then we get this loop that, after a bullet (✽
) moves, checks every part of a worm (for ∧t=0,∧.l do
where∧.l
is worm length and∧t
is each “tail” pixel) and if they collided deletes both and plays a sound effect.amove
is given each∧t
but it’s not actually used to move the worm, just to reconstruct it’s body for collision detection.
for ∧ in all(∧s) do for ∧t=0,∧.l do ∧x,∧y=amove(∧,∧t) if flr(✽.x)==flr(∧x) and flr(✽.y)==flr(∧y) then del(bullets,✽) del(∧s,∧) if #∧s==0 then sfx(2) else sfx(1) end end end end