conversionPeriods = input.int(9, minval=1, title="Conversion Line Length")
basePeriods = input.int(26, minval=1, title="Base Line Length")
laggingSpan2Periods = input.int(52, minval=1, title="Leading Span B Length")
displacement = input.int(26, minval=1, title="Lagging Span")
donchian ( len ) => math. avg (ta.lowest( len ), ta.highest( len ))
conversionLine = donchian (conversionPeriods)
baseLine = donchian (basePeriods)
leadLine1 = math. avg (conversionLine, baseLine)
leadLine2 = donchian (laggingSpan2Periods)
plot(conversionLine, color=#2962FF, title="Conversion Line")
plot(baseLine, color=#B71C1C, title="Base Line")
plot(close, offset = -displacement + 1, color=#43A047, title="Lagging Span")
p1 = plot(leadLine1, offset = displacement - 1, color=#A5D6A7,
title="Leading Span A")
p2 = plot(leadLine2, offset = displacement - 1, color=#EF9A9A,
title="Leading Span B")
plot(leadLine1 > leadLine2 ? leadLine1 : leadLine2, offset = displacement - 1, title = "Kumo Cloud Upper Line", display = display.none)
plot(leadLine1 < leadLine2 ? leadLine1 : leadLine2, offset = displacement - 1, title = "Kumo Cloud Lower Line", display = display.none)
fill(p1, p2, color = leadLine1 > leadLine2 ? color. rgb (67, 160, 71, 90) : color. rgb (244, 67, 54, 90))