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).
Bibliothèque Pine
Dans l'esprit TradingView, l'auteur a publié ce code Pine sous forme de bibliothèque open source afin que d'autres programmeurs Pine de notre communauté puissent le réutiliser. Bravo à l'auteur! Vous pouvez utiliser cette bibliothèque à titre privé ou dans d'autres publications open source, mais la réutilisation de ce code dans des publications est régie par nos Règles.
Clause de non-responsabilité
Les informations et publications ne sont pas destinées à être, et ne constituent pas, des conseils ou recommandations financiers, d'investissement, de trading ou autres fournis ou approuvés par TradingView. Pour en savoir plus, consultez les Conditions d'utilisation.
Bibliothèque Pine
Dans l'esprit TradingView, l'auteur a publié ce code Pine sous forme de bibliothèque open source afin que d'autres programmeurs Pine de notre communauté puissent le réutiliser. Bravo à l'auteur! Vous pouvez utiliser cette bibliothèque à titre privé ou dans d'autres publications open source, mais la réutilisation de ce code dans des publications est régie par nos Règles.
Clause de non-responsabilité
Les informations et publications ne sont pas destinées à être, et ne constituent pas, des conseils ou recommandations financiers, d'investissement, de trading ou autres fournis ou approuvés par TradingView. Pour en savoir plus, consultez les Conditions d'utilisation.