Filters Reference

SessionFilter

class backtrader.filters.SessionFilter(data)

This class can be applied to a data source as a filter and will filter outintraday bars which fall outside of the regular session times (ie: pre/postmarket data)

This is a “non-simple” filter and must manage the stack of the data (passedduring init andcall)

It needs no “last” method because it has nothing to deliver

SessionFilterSimple

class backtrader.filters.SessionFilterSimple(data)

This class can be applied to a data source as a filter and will filter outintraday bars which fall outside of the regular session times (ie: pre/postmarket data)

This is a “simple” filter and must NOT manage the stack of the data (passedduring init andcall)

It needs no “last” method because it has nothing to deliver

Bar Management will be done by the SimpleFilterWrapper class made which isadded durint the DataBase.addfilter_simple call

SessionFilller

class backtrader.filters.SessionFiller(data)

Bar Filler for a Data Source inside the declared session start/end times.

The fill bars are constructed using the declared Data Sourcetimeframeandcompression (used to calculate the intervening missing times)

Params:

• fill_price (def: None):

  If None is passed, the closing price of the previous bar will beused. To end up with a bar which for example takes time but it is notdisplayed in a plot … use float(‘Nan’)

• fill_vol (def: float(‘NaN’)):

  Value to use to fill the missing volume

• fill_oi (def: float(‘NaN’)):

  Value to use to fill the missing Open Interest

• skip_first_fill (def: True):

  Upon seeing the 1^st valid bar do not fill from the sessionstart up tothat bar

CalendarDays

class backtrader.filters.CalendarDays(data)

Bar Filler to add missing calendar days to trading days

Params:

• fill_price (def: None):

  0: The given value to fill0 or None: Use the last known closing price-1: Use the midpoint of the last bar (High-Low average)

• fill_vol (def: float(‘NaN’)):

  Value to use to fill the missing volume

• fill_oi (def: float(‘NaN’)):

  Value to use to fill the missing Open Interest

BarReplayer_Open

class backtrader.filters.BarReplayer_Open(data)

This filters splits a bar in two parts:

• Open: the opening price of the bar will be used to deliver an initial price bar in which the four components (OHLC) are equal

  The volume/openinterest fields are 0 for this initial bar

• OHLC: the original bar is delivered complete with the originalvolume/openinterest

The split simulates a replay without the need to use thereplay filter.

DaySplitter_Close

class backtrader.filters.DaySplitter_Close(data)

Splits a daily bar in two parts simulating 2 ticks which will be used toreplay the data:

• First tick:OHLX

  TheClose will be replaced by theaverage ofOpen,HighandLow

  The session opening time is used for this tick

and

• Second tick:CCCC

  TheClose price will be used for the four components of the price

  The session closing time is used for this tick

The volume will be split amongst the 2 ticks using the parameters:

• closevol (default:0.5) The value indicate which percentage, in absolute terms from 0.0 to 1.0, has to be assigned to theclosing tick. The rest will be assigned to theOHLX tick.

This filter is meant to be used together withcerebro.replaydata

HeikinAshi

class backtrader.filters.HeikinAshi(data)

The filter remodels the open, high, low, close to make HeikinAshicandlesticks

See:

* [https://en.wikipedia.org/wiki/Candlestick_chart#Heikin_Ashi_candlesticks](https://en.wikipedia.org/wiki/Candlestick_chart#Heikin_Ashi_candlesticks)* [http://stockcharts.com/school/doku.php?id=chart_school:chart_analysis:heikin_ashi](http://stockcharts.com/school/doku.php?id=chart_school:chart_analysis:heikin_ashi)

Renko

class backtrader.filters.Renko(data)

Modify the data stream to draw Renko bars (or bricks)

Params:

• hilo (default:False) Use high and low instead of close to decide if a new brick is needed

• size (default:None) The size to consider for each brick

• autosize (default:20.0) Ifsize isNone, this will be used to autocalculate the size of the bricks (simply dividing the current price by the given value)

• dynamic (default:False) IfTrue and usingautosize, the size of the bricks will be recalculated when moving to a new brick. This will of course eliminate the perfect alignment of Renko bricks.

• align (default:1.0) Factor use to align the price boundaries of the bricks. If the price is for example3563.25 andalign is10.0, the resulting aligned price will be3560. The calculation:

  • 3563.25 / 10.0 = 356.325

  • round it and remove the decimals -> 356

  • 356 * 10.0 -> 3560

See:

* [http://stockcharts.com/school/doku.php?id=chart_school:chart_analysis:renko](http://stockcharts.com/school/doku.php?id=chart_school:chart_analysis:renko)