PINE LIBRARY
MetaWorldEngineFilterLibrary3
Library "MetaWorldEngineFilterLibrary3"
GetCandleStickSize(Rule, Rule)
returns size of the candle
Parameters:
Rule: 1: (float) _src_high
Rule: 2: (float) _src_low
Returns: candlestick size
GetCandleStickBodySize(Rule, Rule)
returns size of the candle body
Parameters:
Rule: 1: (float) _src_open
Rule: 2: (float) _src_close
Returns: candlestick body size
FilterLongerLowerWickCandles(Rule, Rule, Rule)
Alters Candlestick Value to Magnify Candles with Long Wicks
Parameters:
Rule: 1: (float) open
Rule: 2: (float) close
Rule: 2: (float) low
Returns: Midpoint of the candle body less the lower wick. If value returned has a large delta from midpoint of the body, then it is short wick
IsBullish(Rule, Rule)
Determine if Candle is Bullish or Bearish
Parameters:
Rule: 1: (float) open
Rule: 2: (float) close
Returns: True is Bullish
IsDoji(Rule, Rule)
Determine if Candle is a Doji
Parameters:
Rule: 1: (int) Candle Index
Rule: 2: (float) Percentage of candle size. Larger the Number the less stringent the doji criterion
Returns: True if a Doji
MACD(Rule, Rule, Rule, Rule)
Computes MACD
Parameters:
Rule: 1: (float) _src
Rule: 2: (int) _fastLength input fast ema length
Rule: 2: (int) _slowLength input slow ema length
Rule: 3: (int) _signalLength input length of signal line (sma of MACD line)
Returns: Returns MACD and Signal Line
isFastSlowCrossed(Rule, Rule)
Computes if SeriesA crosses SeriesB
Parameters:
Rule: 1: (float) Series Input
Rule: 2: (float) Series Input
Returns: if SeriesA crosses SeriesB then true else false
isReversalUpTrend(Rule, Rule)
Computes if SeriesA crosses over SeriesB to determine reversal uptrend
Parameters:
Rule: 1: (float) Series Input
Rule: 2: (float) Series Input
Returns: if SeriesA crosses over SeriesB then true else false
isReversalDownTrend(Rule, Rule)
Computes if SeriesA crosses over SeriesB to determine reversal uptrend
Parameters:
Rule: 1: (float) Series Input
Rule: 2: (float) Series Input
Returns: if SeriesA crosses over SeriesB then true else false
SSMA(Rule, Rule)
Computes smoothed SMA
Parameters:
Rule: 1: (float) source
Rule: 2: (float) sma length
Returns: a single concatenated string for evaluation
GetTimeFrame()
Get Current timeframe in minutes
Returns: an integer value in minutes
getMA(float, int, string, float)
Gets a Moving Average based on type
Parameters:
float: _src The source data
int: length The MA period
string: maType The type of MA
float: sigma / smoothness of ALMA, else NA
Returns: A moving average with the given parameters
GetCandleStickSize(Rule, Rule)
returns size of the candle
Parameters:
Rule: 1: (float) _src_high
Rule: 2: (float) _src_low
Returns: candlestick size
GetCandleStickBodySize(Rule, Rule)
returns size of the candle body
Parameters:
Rule: 1: (float) _src_open
Rule: 2: (float) _src_close
Returns: candlestick body size
FilterLongerLowerWickCandles(Rule, Rule, Rule)
Alters Candlestick Value to Magnify Candles with Long Wicks
Parameters:
Rule: 1: (float) open
Rule: 2: (float) close
Rule: 2: (float) low
Returns: Midpoint of the candle body less the lower wick. If value returned has a large delta from midpoint of the body, then it is short wick
IsBullish(Rule, Rule)
Determine if Candle is Bullish or Bearish
Parameters:
Rule: 1: (float) open
Rule: 2: (float) close
Returns: True is Bullish
IsDoji(Rule, Rule)
Determine if Candle is a Doji
Parameters:
Rule: 1: (int) Candle Index
Rule: 2: (float) Percentage of candle size. Larger the Number the less stringent the doji criterion
Returns: True if a Doji
MACD(Rule, Rule, Rule, Rule)
Computes MACD
Parameters:
Rule: 1: (float) _src
Rule: 2: (int) _fastLength input fast ema length
Rule: 2: (int) _slowLength input slow ema length
Rule: 3: (int) _signalLength input length of signal line (sma of MACD line)
Returns: Returns MACD and Signal Line
isFastSlowCrossed(Rule, Rule)
Computes if SeriesA crosses SeriesB
Parameters:
Rule: 1: (float) Series Input
Rule: 2: (float) Series Input
Returns: if SeriesA crosses SeriesB then true else false
isReversalUpTrend(Rule, Rule)
Computes if SeriesA crosses over SeriesB to determine reversal uptrend
Parameters:
Rule: 1: (float) Series Input
Rule: 2: (float) Series Input
Returns: if SeriesA crosses over SeriesB then true else false
isReversalDownTrend(Rule, Rule)
Computes if SeriesA crosses over SeriesB to determine reversal uptrend
Parameters:
Rule: 1: (float) Series Input
Rule: 2: (float) Series Input
Returns: if SeriesA crosses over SeriesB then true else false
SSMA(Rule, Rule)
Computes smoothed SMA
Parameters:
Rule: 1: (float) source
Rule: 2: (float) sma length
Returns: a single concatenated string for evaluation
GetTimeFrame()
Get Current timeframe in minutes
Returns: an integer value in minutes
getMA(float, int, string, float)
Gets a Moving Average based on type
Parameters:
float: _src The source data
int: length The MA period
string: maType The type of MA
float: sigma / smoothness of ALMA, else NA
Returns: A moving average with the given parameters
Release Notes
Deleted the chart which erroneously showed another indicatorRelease Notes
v3Added:
ATRSwitch(float, float, int)
Average True Range Trailing Stops by Sylvain Vervoort
Parameters:
float: _src the source data
float: ATRMult ATR Multiple
int: ATRlength ATR Length
Returns: upper ATR Line, lower ATR Line and the switch point
Release Notes
v4Pine library
In true TradingView spirit, the author has published this Pine code as an open-source library so that other Pine programmers from our community can reuse it. Cheers to the author! You may use this library privately or in other open-source publications, but reuse of this code in a publication is governed by House rules.
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