PINE LIBRARY
تم تحديثه f_maSelect
Library "f_maSelect"
Easy to use drop-in facade function to lots of different moving average calculations, including some that are not natively available in PineScript v5 such as Zero-Lag EMA. Simply call f_maSelect(series float serie, simple string ma_type="sma", ma_length=14) instead of a ta.*ma() call and you get access to all MAs offered by PineScript and more.
zema(src, len)
Zero-lag EMA (ZLMA)
Parameters:
src: Input series
len: Lookback period
Returns: Series smoothed with ZLMA
approximate_sma(x, ma_length)
Approximate Standard Moving Average, which substracts the average instead of popping the oldest element, hence losing the base frequency and is why it is approximative. For some reason, this appears to give the same results as a standard RMA
Parameters:
x: Input series.
ma_length: Lookback period.
Returns: Approximate SMA series.
f_maSelect(serie, ma_type, ma_length)
Generalized moving average selector
Parameters:
serie: Input series
ma_type: String describing which moving average to use
ma_length: Lookback period
Returns: Serie smoothed with the selected moving average.
generalized_dev(src, length, avg, lmode)
Generalized deviation calculation: Whereas other Bollinger Bands often just change the basis but not the stdev calculation, the correct way to change the basis is to also change it inside the stdev calculation.
Parameters:
src: Series to use (default: close)
length: Lookback period
avg: Average basis to use to calculate the standard deviation
lmode: L1 or L2 regularization? (ie, lmode=1 uses abs() to cutoff negative values hence it calculates the Mean Absolute Deviation as does the ta.dev(), lmode=2 uses sum of squares hence it calculates the true Standard Deviation as the ta.stdev() function does). See also the research works of everget:![[RESEARCH] Mean Absolute Deviation](https://s3.tradingview.com/q/qXc06HaE_mid.png)
Returns: stdev Standard deviation series
generalized_dev_discount(src, length, avg, lmode, temporal_discount)
Standard deviation calculation but with different probabilities assigned to each bar, with newer bars having more weights en.wikipedia.org/wiki/Standard_deviation
Parameters:
src: Series to use (default: close)
length: Lookback period
avg: Average basis to use to calculate the standard deviation
lmode: L1 or L2 regularization? (ie, lmode=1 uses abs() to cutoff negative values hence it calculates the Mean Absolute Deviation as does the ta.dev(), lmode=2 uses sum of squares hence it calculates the true Standard Deviation as the ta.stdev() function does). See also the research works of everget:
temporal_discount: Probabilistic gamma factor to discount old values in favor of new ones, higher value = more weight to newer bars
Returns: stdev Standard deviation series
median_absdev(src, length, median)
Median Absolute Deviation
Parameters:
src: Input series
length: Lookback period
median: Median already calculated on the input series
Returns: mad, the median absolute deviation value
Easy to use drop-in facade function to lots of different moving average calculations, including some that are not natively available in PineScript v5 such as Zero-Lag EMA. Simply call f_maSelect(series float serie, simple string ma_type="sma", ma_length=14) instead of a ta.*ma() call and you get access to all MAs offered by PineScript and more.
zema(src, len)
Zero-lag EMA (ZLMA)
Parameters:
src: Input series
len: Lookback period
Returns: Series smoothed with ZLMA
approximate_sma(x, ma_length)
Approximate Standard Moving Average, which substracts the average instead of popping the oldest element, hence losing the base frequency and is why it is approximative. For some reason, this appears to give the same results as a standard RMA
Parameters:
x: Input series.
ma_length: Lookback period.
Returns: Approximate SMA series.
f_maSelect(serie, ma_type, ma_length)
Generalized moving average selector
Parameters:
serie: Input series
ma_type: String describing which moving average to use
ma_length: Lookback period
Returns: Serie smoothed with the selected moving average.
generalized_dev(src, length, avg, lmode)
Generalized deviation calculation: Whereas other Bollinger Bands often just change the basis but not the stdev calculation, the correct way to change the basis is to also change it inside the stdev calculation.
Parameters:
src: Series to use (default: close)
length: Lookback period
avg: Average basis to use to calculate the standard deviation
lmode: L1 or L2 regularization? (ie, lmode=1 uses abs() to cutoff negative values hence it calculates the Mean Absolute Deviation as does the ta.dev(), lmode=2 uses sum of squares hence it calculates the true Standard Deviation as the ta.stdev() function does). See also the research works of everget:
Returns: stdev Standard deviation series
generalized_dev_discount(src, length, avg, lmode, temporal_discount)
Standard deviation calculation but with different probabilities assigned to each bar, with newer bars having more weights en.wikipedia.org/wiki/Standard_deviation
Parameters:
src: Series to use (default: close)
length: Lookback period
avg: Average basis to use to calculate the standard deviation
lmode: L1 or L2 regularization? (ie, lmode=1 uses abs() to cutoff negative values hence it calculates the Mean Absolute Deviation as does the ta.dev(), lmode=2 uses sum of squares hence it calculates the true Standard Deviation as the ta.stdev() function does). See also the research works of everget:
temporal_discount: Probabilistic gamma factor to discount old values in favor of new ones, higher value = more weight to newer bars
Returns: stdev Standard deviation series
median_absdev(src, length, median)
Median Absolute Deviation
Parameters:
src: Input series
length: Lookback period
median: Median already calculated on the input series
Returns: mad, the median absolute deviation value
ملاحظات الأخبار
* Minor changes in text (remove unnecessary references to Bollinger Bands)مكتبة باين
كمثال للقيم التي تتبناها TradingView، نشر المؤلف شيفرة باين كمكتبة مفتوحة المصدر بحيث يمكن لمبرمجي باين الآخرين من مجتمعنا استخدامه بحرية. تحياتنا للمؤلف! يمكنك استخدام هذه المكتبة بشكل خاص أو في منشورات أخرى مفتوحة المصدر، ولكن إعادة استخدام هذا الرمز في المنشورات تخضع لقواعد الموقع.
إخلاء المسؤولية
لا يُقصد بالمعلومات والمنشورات أن تكون، أو تشكل، أي نصيحة مالية أو استثمارية أو تجارية أو أنواع أخرى من النصائح أو التوصيات المقدمة أو المعتمدة من TradingView. اقرأ المزيد في شروط الاستخدام.
مكتبة باين
كمثال للقيم التي تتبناها TradingView، نشر المؤلف شيفرة باين كمكتبة مفتوحة المصدر بحيث يمكن لمبرمجي باين الآخرين من مجتمعنا استخدامه بحرية. تحياتنا للمؤلف! يمكنك استخدام هذه المكتبة بشكل خاص أو في منشورات أخرى مفتوحة المصدر، ولكن إعادة استخدام هذا الرمز في المنشورات تخضع لقواعد الموقع.
إخلاء المسؤولية
لا يُقصد بالمعلومات والمنشورات أن تكون، أو تشكل، أي نصيحة مالية أو استثمارية أو تجارية أو أنواع أخرى من النصائح أو التوصيات المقدمة أو المعتمدة من TradingView. اقرأ المزيد في شروط الاستخدام.