# Define inputs
input lookback = 1;
input minVolumeMultiplier = 1.5;
# Calculate engulfing condition
def engulfingBullish = close > open and open < close and close > open;
def volumeMultiplier = volume / Average(volume, lookback);
# Plotting the bubble if engulfing condition is met with high volume
plot engulfingWithHighVolume = engulfingBullish and volumeMultiplier >= minVolumeMultiplier;
# Mark the candle with a bubble
AddChartBubble(engulfingWithHighVolume, high, "Bullish Engulfing", color.green, yes);
input lookback = 1;
input minVolumeMultiplier = 1.5;
# Calculate engulfing condition
def engulfingBullish = close > open and open < close and close > open;
def volumeMultiplier = volume / Average(volume, lookback);
# Plotting the bubble if engulfing condition is met with high volume
plot engulfingWithHighVolume = engulfingBullish and volumeMultiplier >= minVolumeMultiplier;
# Mark the candle with a bubble
AddChartBubble(engulfingWithHighVolume, high, "Bullish Engulfing", color.green, yes);