Rufey range
red/green background
study("Rufey range", overlay=true)
len_di_plus1 = 12
len_di_minus1 = 4
vh1 = highest(avg(low, open, close), len_di_minus1)
vl1 = lowest(avg(high, open, close), len_di_plus1)
// TEMA
ema1 = ema(open, 8)
ema2 = ema(ema1, 8)
ema3 = ema(ema2, 8)
tema = 3 * (ema1 - ema2) + ema3
vc = tema
up1 = change(vh1)
down1 = -change(vl1)
true_range1 = max(max(vh1-vl1, abs(vh1-nz(vc))), abs(vl1-nz(vc)))
trur_di_plus1 = rma(true_range1, len_di_plus1)
trur_di_minus1 = rma(true_range1, len_di_minus1)
plus1 = fixnan(100 * rma(up1 > down1 and up1 > 0 ? up1 : 0, len_di_plus1) / trur_di_plus1)
minus1 = fixnan(100 * rma(down1 > up1 and down1 > 0 ? down1 : 0, len_di_minus1) / trur_di_minus1)
c1 = ((plus1 > minus1)) ? lime : ((plus1 < minus1)) ? red : na
bgcolor(c1, transp=90)
h = rma(high-low, 4)
v1 = avg(vh1, vl1)
v_high1 = v1+(h/2)*0.61803398875
v_low1 = v1-(h/2)*0.61803398875
// ---
len_di_plus2 = 12
len_di_minus2 = 4
vh2 = highest(avg(low, open, close), len_di_plus2)
vl2 = lowest(avg(high, open, close), len_di_minus2)
up2 = change(vh2)
down2 = -change(vl2)
true_range2 = max(max(vh2-vl2, abs(vh2-nz(vc))), abs(vl2-nz(vc)))
trur_di_plus2 = rma(true_range2, len_di_plus2)
trur_di_minus2 = rma(true_range2, len_di_minus2)
plus2 = fixnan(100 * rma(up2 > down2 and up2 > 0 ? up2 : 0, len_di_plus2) / trur_di_plus2)
minus2 = fixnan(100 * rma(down2 > up2 and down2 > 0 ? down2 : 0, len_di_minus2) / trur_di_minus2)
c2 = ((plus2 > minus2)) ? lime : ((plus2 < minus2)) ? red : na
bgcolor(c2, transp=90)
v2 = avg(vh2, vl2)
v_high2 = v2+(h/2)*0.61803398875
v_low2 = v2-(h/2)*0.61803398875
//plot(rma(max(v_high1,v_high2), 9), color=orange)
//plot(rma(min(v_low1,v_low2), 9), color=red)
//plot(rma(low, 9), color=blue)
//plot(rma(high, 9), color=green)