Candlestick Patterns

Inverted Hammer

Introduction

Create a new Inverted Hammer candlestick pattern to indicate the pattern's presence.

To view the implementation of this candlestick pattern, see the LEAN GitHub repository.

Using InvertedHammer Indicator

To create an automatic indicator for InvertedHammer, call the InvertedHammerinverted_hammer helper method from the QCAlgorithm class. The InvertedHammerinverted_hammer method creates a InvertedHammer object, hooks it up for automatic updates, and returns it so you can used it in your algorithm. In most cases, you should call the helper method in the Initializeinitialize method.

public class InvertedHammerAlgorithm : QCAlgorithm
{
    private Symbol _symbol;
    private InvertedHammer _invertedHammer;

    public override void Initialize()
    {
        _symbol = AddEquity("SPY", Resolution.Daily).Symbol;
        _invertedHammer = CandlestickPatterns.InvertedHammer(_symbol);
    }

    public override void OnData(Slice data)
    {
        if (_invertedHammer.IsReady)
        {
            // The current value of _invertedHammer is represented by itself (_invertedHammer)
            // or _invertedHammer.Current.Value
            Plot("InvertedHammer", "invertedHammer", _invertedHammer);
        }
    }
}
class InvertedHammerAlgorithm(QCAlgorithm):
    def initialize(self) -> None:
        self._symbol = self.add_equity("SPY", Resolution.DAILY).symbol
        self._inverted_hammer = self.candlestick_patterns.inverted_hammer(self._symbol)

    def on_data(self, slice: Slice) -> None:
        if self._inverted_hammer.is_ready:
            # The current value of self._inverted_hammer is represented by self._inverted_hammer.current.value
            self.plot("InvertedHammer", "inverted_hammer", self._inverted_hammer.current.value)

For more information about this method, see the CandlestickPatterns classCandlestickPatterns class.

You can manually create a InvertedHammer indicator, so it doesn't automatically update. Manual indicators let you update their values with any data you choose.

Updating your indicator manually enables you to control when the indicator is updated and what data you use to update it. To manually update the indicator, call the Updateupdate method. The indicator will only be ready after you prime it with enough data.

public class InvertedHammerAlgorithm : QCAlgorithm
{
    private Symbol _symbol;
    private InvertedHammer _invertedHammer;

    public override void Initialize()
    {
        _symbol = AddEquity("SPY", Resolution.Daily).Symbol;
        _invertedHammer = new InvertedHammer();
    }

    public override void OnData(Slice data)
    {
        if (data.Bars.TryGetValue(_symbol, out var bar))
            _invertedHammer.Update(bar);

        if (_invertedHammer.IsReady)
        {
            // The current value of _invertedHammer is represented by itself (_invertedHammer)
            // or _invertedHammer.Current.Value
            Plot("InvertedHammer", "invertedHammer", _invertedHammer);
        }
    }
}
class InvertedHammerAlgorithm(QCAlgorithm):
    def initialize(self) -> None:
        self._symbol = self.add_equity("SPY", Resolution.DAILY).symbol
        self._inverted_hammer = InvertedHammer()

    def on_data(self, slice: Slice) -> None:
        bar = slice.bars.get(self._symbol)
        if bar:
            self._inverted_hammer.update(bar)

        if self._inverted_hammer.is_ready:
            # The current value of self._inverted_hammer is represented by self._inverted_hammer.current.value
            self.plot("InvertedHammer", "inverted_hammer", self._inverted_hammer.current.value)

For more information about this indicator, see its referencereference.

Indicator History

To get the historical data of the InvertedHammer indicator, call the IndicatorHistoryself.indicator_history method. This method resets your indicator, makes a history request, and updates the indicator with the historical data. Just like with regular history requests, the IndicatorHistoryindicator_history method supports time periods based on a trailing number of bars, a trailing period of time, or a defined period of time. If you don't provide a resolution argument, it defaults to match the resolution of the security subscription. 

public class InvertedHammerAlgorithm : QCAlgorithm
{
    private Symbol _symbol;
    private InvertedHammer _invertedHammer;

    public override void Initialize()
    {
        _symbol = AddEquity("SPY", Resolution.Daily).Symbol;
        _invertedHammer = CandlestickPatterns.InvertedHammer(_symbol);

        var indicatorHistory = IndicatorHistory(_invertedHammer, _symbol, 100, Resolution.Minute);
        var timeSpanIndicatorHistory = IndicatorHistory(_invertedHammer, _symbol, TimeSpan.FromDays(10), Resolution.Minute);
        var timePeriodIndicatorHistory = IndicatorHistory(_invertedHammer, _symbol, new DateTime(2024, 7, 1), new DateTime(2024, 7, 5), Resolution.Minute);
    }
}
class InvertedHammerAlgorithm(QCAlgorithm):
    def initialize(self) -> None:
        self._symbol = self.add_equity("SPY", Resolution.DAILY).symbol
        self._inverted_hammer = self.candlestick_patterns.inverted_hammer(self._symbol)

        indicator_history = self.indicator_history(self._inverted_hammer, self._symbol, 100, Resolution.MINUTE)
        timedelta_indicator_history = self.indicator_history(self._inverted_hammer, self._symbol, timedelta(days=10), Resolution.MINUTE)
        time_period_indicator_history = self.indicator_history(self._inverted_hammer, self._symbol, datetime(2024, 7, 1), datetime(2024, 7, 5), Resolution.MINUTE)

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