PINE LIBRARY
Interpolation
Library "Interpolation"
Functions for interpolating values. Can be useful in signal processing or applied as a sigmoid function.
linear(k, delta, offset, unbound) Returns the linear adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the line the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
quadIn(k, delta, offset, unbound) Returns the quadratic (easing-in) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
quadOut(k, delta, offset, unbound) Returns the quadratic (easing-out) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
quadInOut(k, delta, offset, unbound) Returns the quadratic (easing-in-out) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
cubicIn(k, delta, offset, unbound) Returns the cubic (easing-in) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
cubicOut(k, delta, offset, unbound) Returns the cubic (easing-out) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
cubicInOut(k, delta, offset, unbound) Returns the cubic (easing-in-out) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
expoIn(k, delta, offset, unbound) Returns the exponential (easing-in) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
expoOut(k, delta, offset, unbound) Returns the exponential (easing-out) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
expoInOut(k, delta, offset, unbound) Returns the exponential (easing-in-out) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
using(fn, k, delta, offset, unbound) Returns the adjusted value by function name.
Parameters:
fn: The name of the function. Allowed values: linear, quadIn, quadOut, quadInOut, cubicIn, cubicOut, cubicInOut, expoIn, expoOut, expoInOut.
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
Functions for interpolating values. Can be useful in signal processing or applied as a sigmoid function.
linear(k, delta, offset, unbound) Returns the linear adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the line the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
quadIn(k, delta, offset, unbound) Returns the quadratic (easing-in) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
quadOut(k, delta, offset, unbound) Returns the quadratic (easing-out) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
quadInOut(k, delta, offset, unbound) Returns the quadratic (easing-in-out) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
cubicIn(k, delta, offset, unbound) Returns the cubic (easing-in) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
cubicOut(k, delta, offset, unbound) Returns the cubic (easing-out) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
cubicInOut(k, delta, offset, unbound) Returns the cubic (easing-in-out) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
expoIn(k, delta, offset, unbound) Returns the exponential (easing-in) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
expoOut(k, delta, offset, unbound) Returns the exponential (easing-out) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
expoInOut(k, delta, offset, unbound) Returns the exponential (easing-in-out) adjusted value.
Parameters:
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
using(fn, k, delta, offset, unbound) Returns the adjusted value by function name.
Parameters:
fn: The name of the function. Allowed values: linear, quadIn, quadOut, quadInOut, cubicIn, cubicOut, cubicInOut, expoIn, expoOut, expoInOut.
k: A number (float) from 0 to 1 representing where the on the curve the value is.
delta: The amount the value should change as k reaches 1.
offset: The start value.
unbound: When true, k values less than 0 or greater than 1 are still calculated. When false (default), k values less than 0 will return the offset value and values greater than 1 will return (offset + delta).
Thư viện Pine
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 publications is governed by House Rules.
Thông báo miễn trừ trách nhiệm
Thông tin và ấn phẩm không có nghĩa là và không cấu thành, tài chính, đầu tư, kinh doanh, hoặc các loại lời khuyên hoặc khuyến nghị khác được cung cấp hoặc xác nhận bởi TradingView. Đọc thêm trong Điều khoản sử dụng.
Thư viện Pine
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 publications is governed by House Rules.
Thông báo miễn trừ trách nhiệm
Thông tin và ấn phẩm không có nghĩa là và không cấu thành, tài chính, đầu tư, kinh doanh, hoặc các loại lời khuyên hoặc khuyến nghị khác được cung cấp hoặc xác nhận bởi TradingView. Đọc thêm trong Điều khoản sử dụng.