Candlestick Patterns
Abandoned Baby
Introduction
Create a new Abandoned Baby candlestick pattern to indicate the pattern's presence.
To view the implementation of this candlestick pattern, see the LEAN GitHub repository.
Using AbandonedBaby Indicator
To create an automatic indicators for AbandonedBaby, call the AbandonedBaby helper method from the QCAlgorithm class. The AbandonedBaby method creates a AbandonedBaby 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 Initialize method.
public class AbandonedBabyAlgorithm : QCAlgorithm
{
private Symbol _symbol;
private AbandonedBaby _abandonedbaby;
public override void Initialize()
{
_symbol = AddEquity("SPY", Resolution.Daily).Symbol;
_abandonedbaby = CandlestickPatterns.AbandonedBaby(_symbol);
}
public override void OnData(Slice data)
{
if (_abandonedbaby.IsReady)
{
// The current value of _abandonedbaby is represented by itself (_abandonedbaby)
// or _abandonedbaby.Current.Value
Plot("AbandonedBaby", "abandonedbaby", _abandonedbaby);
}
}
} class AbandonedBabyAlgorithm(QCAlgorithm):
def Initialize(self) -> None:
self.symbol = self.AddEquity("SPY", Resolution.Daily).Symbol
self.abandonedbaby = self.CandlestickPatterns.AbandonedBaby(self.symbol)
def OnData(self, slice: Slice) -> None:
if self.abandonedbaby.IsReady:
# The current value of self.abandonedbaby is represented by self.abandonedbaby.Current.Value
self.Plot("AbandonedBaby", "abandonedbaby", self.abandonedbaby.Current.Value)
The following reference table describes the AbandonedBaby method:
AbandonedBaby()1/1
AbandonedBaby QuantConnect.Algorithm.CandlestickPatterns.AbandonedBaby (
Symbol symbol,
*Nullable<Resolution> resolution,
*Func<IBaseData, TradeBar> selector
)
Creates a new AbandonedBaby pattern indicator. The indicator will be automatically updated on the given resolution.
If you don't provide a resolution, it defaults to the security resolution. If you provide a resolution, it must be greater than or equal to the resolution of the security. For instance, if you subscribe to hourly data for a security, you should update its indicator with data that spans 1 hour or longer.
For more information about the selector argument, see Alternative Price Fields.
For more information about plotting indicators, see Plotting Indicators.
You can manually create a AbandonedBaby 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 Update method with a TradeBar. The indicator will only be ready after you prime it with enough data.
public class AbandonedBabyAlgorithm : QCAlgorithm
{
private Symbol _symbol;
private AbandonedBaby _abandonedbaby;
public override void Initialize()
{
_symbol = AddEquity("SPY", Resolution.Daily).Symbol;
_abandonedbaby = new AbandonedBaby();
}
public override void OnData(Slice data)
{
if (data.Bars.TryGeValue(_symbol, out var bar))
{
_abandonedbaby.Update(bar);
}
if (_abandonedbaby.IsReady)
{
// The current value of _abandonedbaby is represented by itself (_abandonedbaby)
// or _abandonedbaby.Current.Value
Plot("AbandonedBaby", "abandonedbaby", _abandonedbaby);
}
}
} class AbandonedBabyAlgorithm(QCAlgorithm):
def Initialize(self) -> None:
self.symbol = self.AddEquity("SPY", Resolution.Daily).Symbol
self.abandonedbaby = AbandonedBaby()
def OnData(self, slice: Slice) -> None:
bar = slice.Bars.get(self.symbol)
if bar:
self.abandonedbaby.Update(bar)
if self.abandonedbaby.IsReady:
# The current value of self.abandonedbaby is represented by self.abandonedbaby.Current.Value
self.Plot("AbandonedBaby", "abandonedbaby", self.abandonedbaby.Current.Value)
To register a manual indicator for automatic updates with the security data, call the RegisterIndicator method.
public class AbandonedBabyAlgorithm : QCAlgorithm
{
private Symbol _symbol;
private AbandonedBaby _abandonedbaby;
public override void Initialize()
{
_symbol = AddEquity("SPY", Resolution.Daily).Symbol;
_abandonedbaby = new AbandonedBaby();
RegisterIndicator(_symbol, _abandonedbaby, Resolution.Daily);
}
public override void OnData(Slice data)
{
if (_abandonedbaby.IsReady)
{
// The current value of _abandonedbaby is represented by itself (_abandonedbaby)
// or _abandonedbaby.Current.Value
Plot("AbandonedBaby", "abandonedbaby", _abandonedbaby);
}
}
} class AbandonedBabyAlgorithm(QCAlgorithm):
def Initialize(self) -> None:
self.symbol = self.AddEquity("SPY", Resolution.Daily).Symbol
self.abandonedbaby = AbandonedBaby()
self.RegisterIndicator(self.symbol, self.abandonedbaby, Resolution.Daily)
def OnData(self, slice: Slice) -> None:
if self.abandonedbaby.IsReady:
# The current value of self.abandonedbaby is represented by self.abandonedbaby.Current.Value
self.Plot("AbandonedBaby", "abandonedbaby", self.abandonedbaby.Current.Value)
The following reference table describes the AbandonedBaby constructor:
AbandonedBaby()1/3
AbandonedBaby QuantConnect.Indicators.CandlestickPatterns.AbandonedBaby (
string name,
*decimal penetration
)
Initializes a new instance of the AbandonedBaby class using the specified name.
AbandonedBaby()2/3
AbandonedBaby QuantConnect.Indicators.CandlestickPatterns.AbandonedBaby (
decimal penetration
)
Initializes a new instance of the AbandonedBaby class.
AbandonedBaby()3/3
AbandonedBaby QuantConnect.Indicators.CandlestickPatterns.AbandonedBaby (
)
Initializes a new instance of the AbandonedBaby class.
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