local cd = {} local function calc_dims(self, get_file_dims) return assert(cd[self.type])(self, get_file_dims) end function cd:file(d) return d(self.filename) end do local function base_dim(self, get_dims) return calc_dims(self.base, get_dims) end cd.opacity = base_dim cd.invert = base_dim cd.brighten = base_dim cd.noalpha = base_dim cd.makealpha = base_dim cd.lowpart = base_dim cd.mask = base_dim cd.multiply = base_dim cd.colorize = base_dim cd.colorizehsl = base_dim cd.hsl = base_dim cd.screen = base_dim cd.contrast = base_dim end do local function wh(self) return self.w, self.h end cd.resize = wh cd.combine = wh end function cd:fill(get_dims) if self.base then return calc_dims(self.base, get_dims) end return self.w, self.h end do local function upscale_to_higher_res(self, get_dims) local base_w, base_h = calc_dims(self.base, get_dims) local over_w, over_h = calc_dims(self.over, get_dims) if base_w * base_h > over_w * over_h then return base_w, base_h end return over_w, over_h end cd.blit = upscale_to_higher_res cd.hardlight = upscale_to_higher_res end function cd:transform(get_dims) if self.rotation_deg % 180 ~= 0 then local base_w, base_h = calc_dims(self.base, get_dims) return base_h, base_w end return calc_dims(self.base, get_dims) end do local math_clamp = modlib.math.clamp local function next_pow_of_2(x) -- I don't want to use a naive 2^ceil(log(x)/log(2)) due to possible float precision issues. local m, e = math.frexp(x) -- x = _*2^e, _ in [0.5, 1) if m == 0.5 then e = e - 1 end -- x = 2^(e-1) return math.ldexp(1, e) -- 2^e, premature optimization here we go end function cd:inventorycube(get_dims) local top_w, top_h = calc_dims(self.top, get_dims) local left_w, left_h = calc_dims(self.left, get_dims) local right_w, right_h = calc_dims(self.right, get_dims) local d = math_clamp(next_pow_of_2(math.max(top_w, top_h, left_w, left_h, right_w, right_h)), 2, 64) return d, d end end do local function frame_dims(self, get_dims) local base_w, base_h = calc_dims(self.base, get_dims) return base_w, math.floor(base_h / self.framecount) end cd.verticalframe = frame_dims cd.crack = frame_dims cd.cracko = frame_dims end function cd:sheet(get_dims) local base_w, base_h = calc_dims(self.base, get_dims) return math.floor(base_w / self.w), math.floor(base_h / self.h) end function cd:png() local png = modlib.minetest.decode_png(modlib.text.inputstream(self.data)) return png.width, png.height end return calc_dims