%import gfx_lores %import math main { const ubyte MAX_NUM_CIRCLES = 80 const ubyte GROWTH_RATE = 2 uword[MAX_NUM_CIRCLES] circle_x uword[MAX_NUM_CIRCLES] circle_y ubyte[MAX_NUM_CIRCLES] circle_radius ubyte num_circles = 0 ubyte background_color sub start() { gfx_lores.graphics_mode() repeat { background_color = math.rnd() gfx_lores.clear_screen(background_color) num_circles = 0 draw_circles() } } sub draw_circles() { uword @zp x uword @zp y ubyte @zp radius while num_circles bool { if num_circles==0 return true ubyte @zp c for c in 0 to num_circles-1 { if distance(c) < (radius as uword) + circle_radius[c] return false } return true } sub distance(ubyte cix) -> uword { word dx = x as word - circle_x[cix] word dy = y as word - circle_y[cix] uword sqx = dx*dx as uword uword sqy = dy*dy as uword return sqrt(sqx + sqy) } sub not_edge() -> bool { if x as word - radius < 0 return false if x + radius >= gfx_lores.WIDTH return false if y as word - radius < 0 return false if y + radius >= gfx_lores.HEIGHT return false return true } } }