PINE LIBRARY
已更新 MathTransform
Library "MathTransform"
Auxiliary functions for transforming data using mathematical and statistical methods
scaler_zscore(x, lookback_window)
Calculates Z-Score normalization of a series.
Parameters:
x (float): : floating point series to normalize
lookback_window (int): : lookback period for calculating mean and standard deviation
Returns: Z-Score normalized series
scaler_min_max(x, lookback_window, min_val, max_val, empiric_min, empiric_max, empiric_mid)
Performs Min-Max scaling of a series within a given window, user-defined bounds, and optional midpoint
Parameters:
x (float): : floating point series to transform
lookback_window (int): : int : optional lookback window size to consider for scaling.
min_val (float): : float : minimum value of the scaled range. Default is 0.0.
max_val (float): : float : maximum value of the scaled range. Default is 1.0.
empiric_min (float): : float : user-defined minimum value of the input data. This means that the output could exceed the `min_val` bound if there is data in `x` lesser than `empiric_min`. If na, it's calculated from `x` and `lookback_window`.
empiric_max (float): : float : user-defined maximum value of the input data. This means that the output could exceed the `max_val` bound if there is data in `x` greater than `empiric_max`. If na, it's calculated from `x` and `lookback_window`.
empiric_mid (float): : float : user-defined midpoint value of the input data. If na, it's calculated from `empiric_min` and `empiric_max`.
Returns: rescaled series
log(x, base)
Applies logarithmic transformation to a value, base can be user-defined.
Parameters:
x (float): : floating point value to transform
base (float): : logarithmic base, must be greater than 0
Returns: logarithm of the value to the given base, if x <= 0, returns logarithm of 1 to the given base
exp(x, base)
Applies exponential transformation to a value, base can be user-defined.
Parameters:
x (float): : floating point value to transform
base (float): : base of the exponentiation, must be greater than 0
Returns: the result of raising the base to the power of the value
power(x, exponent)
Applies power transformation to a value, exponent can be user-defined.
Parameters:
x (float): : floating point value to transform
exponent (float): : exponent for the transformation
Returns: the value raised to the given exponent, preserving the sign of the original value
tanh(x, scale)
The hyperbolic tangent is the ratio of the hyperbolic sine and hyperbolic cosine. It limits an output to a range of −1 to 1.
Parameters:
x (float): : floating point series
scale (float)
sigmoid(x, scale, offset)
Applies the sigmoid function to a series.
Parameters:
x (float): : floating point series to transform
scale (float): : scaling factor for the sigmoid function
offset (float): : offset for the sigmoid function
Returns: transformed series using the sigmoid function
sigmoid_double(x, scale, offset)
Applies a double sigmoid function to a series, handling positive and negative values differently.
Parameters:
x (float): : floating point series to transform
scale (float): : scaling factor for the sigmoid function
offset (float): : offset for the sigmoid function
Returns: transformed series using the double sigmoid function
logistic_decay(a, b, c, t)
Calculates logistic decay based on given parameters.
Parameters:
a (float): : parameter affecting the steepness of the curve
b (float): : parameter affecting the direction of the decay
c (float): : the upper bound of the function's output
t (float): : time variable
Returns: value of the logistic decay function at time t
Auxiliary functions for transforming data using mathematical and statistical methods
scaler_zscore(x, lookback_window)
Calculates Z-Score normalization of a series.
Parameters:
x (float): : floating point series to normalize
lookback_window (int): : lookback period for calculating mean and standard deviation
Returns: Z-Score normalized series
scaler_min_max(x, lookback_window, min_val, max_val, empiric_min, empiric_max, empiric_mid)
Performs Min-Max scaling of a series within a given window, user-defined bounds, and optional midpoint
Parameters:
x (float): : floating point series to transform
lookback_window (int): : int : optional lookback window size to consider for scaling.
min_val (float): : float : minimum value of the scaled range. Default is 0.0.
max_val (float): : float : maximum value of the scaled range. Default is 1.0.
empiric_min (float): : float : user-defined minimum value of the input data. This means that the output could exceed the `min_val` bound if there is data in `x` lesser than `empiric_min`. If na, it's calculated from `x` and `lookback_window`.
empiric_max (float): : float : user-defined maximum value of the input data. This means that the output could exceed the `max_val` bound if there is data in `x` greater than `empiric_max`. If na, it's calculated from `x` and `lookback_window`.
empiric_mid (float): : float : user-defined midpoint value of the input data. If na, it's calculated from `empiric_min` and `empiric_max`.
Returns: rescaled series
log(x, base)
Applies logarithmic transformation to a value, base can be user-defined.
Parameters:
x (float): : floating point value to transform
base (float): : logarithmic base, must be greater than 0
Returns: logarithm of the value to the given base, if x <= 0, returns logarithm of 1 to the given base
exp(x, base)
Applies exponential transformation to a value, base can be user-defined.
Parameters:
x (float): : floating point value to transform
base (float): : base of the exponentiation, must be greater than 0
Returns: the result of raising the base to the power of the value
power(x, exponent)
Applies power transformation to a value, exponent can be user-defined.
Parameters:
x (float): : floating point value to transform
exponent (float): : exponent for the transformation
Returns: the value raised to the given exponent, preserving the sign of the original value
tanh(x, scale)
The hyperbolic tangent is the ratio of the hyperbolic sine and hyperbolic cosine. It limits an output to a range of −1 to 1.
Parameters:
x (float): : floating point series
scale (float)
sigmoid(x, scale, offset)
Applies the sigmoid function to a series.
Parameters:
x (float): : floating point series to transform
scale (float): : scaling factor for the sigmoid function
offset (float): : offset for the sigmoid function
Returns: transformed series using the sigmoid function
sigmoid_double(x, scale, offset)
Applies a double sigmoid function to a series, handling positive and negative values differently.
Parameters:
x (float): : floating point series to transform
scale (float): : scaling factor for the sigmoid function
offset (float): : offset for the sigmoid function
Returns: transformed series using the double sigmoid function
logistic_decay(a, b, c, t)
Calculates logistic decay based on given parameters.
Parameters:
a (float): : parameter affecting the steepness of the curve
b (float): : parameter affecting the direction of the decay
c (float): : the upper bound of the function's output
t (float): : time variable
Returns: value of the logistic decay function at time t
發行說明
v2Added:
scaler_robust(x, lookback_window)
Performs robust scaling of a series within a given window
sinh(x, scale)
The hyperbolic sine (sinh) is defined as the half-difference of the exponential function of its argument.
cosh(x, scale)
The hyperbolic cosine (cosh) is defined as the half-sum of the exponential function of its argument.
Updated:
tanh(x, scale)
The Inversie Fisher Transform, or hyperbolic tangent (tanh), is the ratio of the hyperbolic sine and hyperbolic cosine.
發行說明
v3Updated:
- most docstrings for better readability
Added:
- `root_mean_square()` transformation
- `box_cox()` transformation - EXPERIMENTAL
發行說明
Added:- Logarithmic Interpolation Scaler
- Root Mean Square (RMS)
- Mean Squared Error (MSE)
- Root Mean Squared Error (RMSE)
- Mean Absolute Error (MAE)
- Root Mean Squared Logarithmic Error (RMSLE)
- Huber Loss
- Quantile Loss (Pinball Loss)
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💬 Discord server (including YaeBot): discord.gg/ef6Tu4kha3
👔 personal LinkedIn: linkedin.com/in/arthur-nazarian
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Pine腳本庫
秉持 TradingView 一貫的共享精神,作者將此 Pine 程式碼發佈為開源庫,讓社群中的其他 Pine 程式設計師能夠重複使用。向作者致敬!您可以在私人專案或其他開源發佈中使用此庫,但在公開發佈中重複使用該程式碼需遵守社群規範。
🌸 ---- GoemonYae Trading System (GYTS) ---- 🌸
🌐 Website (launching soon): goemonyae.com
💬 Discord server (including YaeBot): discord.gg/ef6Tu4kha3
👔 personal LinkedIn: linkedin.com/in/arthur-nazarian
🌐 Website (launching soon): goemonyae.com
💬 Discord server (including YaeBot): discord.gg/ef6Tu4kha3
👔 personal LinkedIn: linkedin.com/in/arthur-nazarian
免責聲明
這些資訊和出版物並不意味著也不構成TradingView提供或認可的金融、投資、交易或其他類型的意見或建議。請在使用條款閱讀更多資訊。