-- Averages an arbitrary number of angles (in radians). function math.averageAngles(...) local x,y = 0,0 for i=1,select('#',...) do local a= select(i,...) x, y = x+math.cos(a), y+math.sin(a) end return math.atan2(y, x) end -- Returns the distance between two points. function math.dist(x1,y1, x2,y2) return ((x2-x1)^2+(y2-y1)^2)^0.5 end -- Returns the angle between two points. function math.angle(x1,y1, x2,y2) return math.atan2(x2-x1, y2-y1) end -- Returns the closest multiple of 'size' (defaulting to 10). function math.multiple(n, size) size = size or 10 return math.round(n/size)*size end -- Clamps a number to within a certain range. function math.clamp(low, n, high) return math.min(math.max(low, n), high) end -- Linear interpolation between two numbers. function lerp(a,b,t) return a+(b-a)*t end -- Cosine interpolation between two numbers. function cerp(a,b,t) local f=(1-math.cos(t*math.pi))*.5 return a*(1-f)+b*f end -- Normalize two numbers. function math.normalize(x,y) local l=(x*x+y*y)^.5 if l==0 then return 0,0,0 else return x/l,y/l,l end end -- Returns 'n' rounded to the nearest 'deci'th (defaulting whole numbers). function math.round(n, deci) deci = 10^(deci or 0) return math.floor(n*deci+.5)/deci end -- Randomly returns either -1 or 1. function math.rsign() return math.random(2) == 2 and 1 or -1 end -- Returns 1 if number is positive, -1 if it's negative, or 0 if it's 0. function math.sign(n) return n>0 and 1 or n<0 and -1 or 0 end -- Checks if two lines intersect (or line segments if seg is true) -- Lines are given as four numbers (two coordinates) function findIntersect(l1p1x,l1p1y, l1p2x,l1p2y, l2p1x,l2p1y, l2p2x,l2p2y, seg1, seg2) local a1,b1,a2,b2 = l1p2y-l1p1y, l1p1x-l1p2x, l2p2y-l2p1y, l2p1x-l2p2x local c1,c2 = a1*l1p1x+b1*l1p1y, a2*l2p1x+b2*l2p1y local det,x,y = a1*b2 - a2*b1 if det==0 then return false, "The lines are parallel." end x,y = (b2*c1-b1*c2)/det, (a1*c2-a2*c1)/det if seg1 or seg2 then local min,max = math.min, math.max if seg1 and not (min(l1p1x,l1p2x) <= x and x <= max(l1p1x,l1p2x) and min(l1p1y,l1p2y) <= y and y <= max(l1p1y,l1p2y)) or seg2 and not (min(l2p1x,l2p2x) <= x and x <= max(l2p1x,l2p2x) and min(l2p1y,l2p2y) <= y and y <= max(l2p1y,l2p2y)) then return false, "The lines don't intersect." end end return x,y end