Water_Line_I = table.duplicate(PfxM_Box); table.inbox(Water_Line_I, "hi-light[fx]: Water Line I","Char",true,false,"#FFFFFF","#008DFF","#000000","0","0","0","l.start_time + 20*(char.i - char.n/2 - 1)","l.end_time + 20*(char.i - char.n/2 + 1)","","","","","char.center","char.bottom","","","2","0","fx.pos_x","fx.pos_y","","1","","char.text","format('\\\\org(%s,%s)%s\\\\t(%s,%s,\\\\1vc%s\\\\3vc%s\\\\blur5)\\\\t(%s,%s,\\\\1vc%s\\\\3vc%s\\\\blur0)\\\\t(%s,%s,\\\\fscy%s\\\\fscy%s)%s\\\\fad(300,300)', fx.pos_x-10000, fx.pos_y, var.char.Ang(l.width/100, 0.02)[4], syl.syl_start, syl.syl_start + 1, color.vc('&HFFFFFF&'), color.vc('&HFFFFFF&'), syl.syl_end-100, syl.syl_end+200, text.color1, text.color3, char.syl_start, char.syl_end+200, 2.5*l.scale_y, l.scale_y, tag.oscill(fx.dur, 720, var.char.Ang(l.width/100, 0.02)))","Ang = function(Domain, angle) ang = angle or 0.04 a = {} for i = 0, 3 do a[i + 1] = math.round(ang*sin(Domain*pi*module1 + i*pi/2), 3) end return table.concat1(a, '\\\\fr') end"); table.insert(hilight_fx_library, Water_Line_I); table.insert(hilight_fx, "Water Line I")