Collision = {} --[[ Collision [bool flag] isDisabled > if true used for collision [bool flag] isColliding > if true, this collision is colliding [vec2 position] from - x, y > top right corner of collision box [vec2 position] to - x, y > bottom left corner of collision box [int property] width > width of collision box [int property] height > height of collision box --]] -- can also be called with only ox and oy, where they become the width and height instead function Collision:New(ox,oy,tx,ty) local o = {isColliding = false, isDisabled = false} if tx ~= nil and ty ~= nil then o.from = {x = ox, y = oy} o.to = {x = tx, y = ty} o.width = o.to.x - o.from.x o.height = o.to.y - o.from.y else o.width = ox o.height = oy o.from = {x = 0, y = 0} o.to = {x = 0, y = 0} end setmetatable(o, self) self.__index = self return o end function Collision:CenterAt(x, y) self.from.x = x-self.width/2 self.from.y = y-self.height/2 self.to.x = x+self.width/2 self.to.y = y+self.height/2 end function Collision:PlaceAt(x, y) self.from.x = x or self.from.x self.from.y = y or self.from.y self.to.x = self.from.x + self.width self.to.y = self.from.x + self.height end function Collision:Draw(color) if self.isColliding == true then love.graphics.setColor(0,1,0,0.5) elseif color == 1 then love.graphics.setColor(1,0,0,0.5) elseif color == 2 then love.graphics.setColor(0,1,1,0.5) end love.graphics.rectangle("fill",self.from.x-Camera.pos.x, self.from.y-Camera.pos.y, self.width, self.height) love.graphics.setColor(0,1,90,0.5) love.graphics.rectangle("line",self.from.x-Camera.pos.x, self.from.y-Camera.pos.y, self.width, self.height) end