PINE LIBRARY
更新済 waves
█ OVERVIEW
This library intended for use in Bar Replay provides functions to generate various wave forms (sine, cosine, triangle, square) based on time and customizable parameters. Useful for testing and in creating oscillators, indicators, or visual effects.
█ FUNCTIONS
• getSineWave()
• getCosineWave()
• getTriangleWave()
• getSquareWave()
█ USAGE EXAMPLE
Pine Script®
█ NOTES
* barsPerSecond defaults to 10. Adjust this if not using 10x in Bar Replay.
* Phase shift is in degrees.
---
Library "waves"
getSineWave(cyclesPerMinute, bar, barsPerSecond, amplitude, verticalShift, phaseShift)
`getSineWave`
> Calculates a sine wave based on bar index, cycles per minute (BPM), and wave parameters.
Parameters:
cyclesPerMinute (float): (float) The desired number of cycles per minute (BPM). Default is 30.0.
bar (int): (int) The current bar index. Default is bar_index.
barsPerSecond (float): (float) The number of bars per second. Default is 10.0 for Bar Replay
amplitude (float): (float) The amplitude of the sine wave. Default is 1.0.
verticalShift (float): (float) The vertical shift of the sine wave. Default is 0.0.
phaseShift (float): (float) The phase shift of the sine wave in radians. Default is 0.0.
Returns: (float) The calculated sine wave value.
getCosineWave(cyclesPerMinute, bar, barsPerSecond, amplitude, verticalShift, phaseShift)
`getCosineWave`
> Calculates a cosine wave based on bar index, cycles per minute (BPM), and wave parameters.
Parameters:
cyclesPerMinute (float): (float) The desired number of cycles per minute (BPM). Default is 30.0.
bar (int): (int) The current bar index. Default is bar_index.
barsPerSecond (float): (float) The number of bars per second. Default is 10.0 for Bar Replay
amplitude (float): (float) The amplitude of the cosine wave. Default is 1.0.
verticalShift (float): (float) The vertical shift of the cosine wave. Default is 0.0.
phaseShift (float): (float) The phase shift of the cosine wave in radians. Default is 0.0.
Returns: (float) The calculated cosine wave value.
getTriangleWave(cyclesPerMinute, bar, barsPerSecond, amplitude, verticalShift, phaseShift)
`getTriangleWave`
> Calculates a triangle wave based on bar index, cycles per minute (BPM), and wave parameters.
Parameters:
cyclesPerMinute (float): (float) The desired number of cycles per minute (BPM). Default is 30.0.
bar (int): (int) The current bar index. Default is bar_index.
barsPerSecond (float): (float) The number of bars per second. Default is 10.0 for Bar Replay
amplitude (float): (float) The amplitude of the triangle wave. Default is 1.0.
verticalShift (float): (float) The vertical shift of the triangle wave. Default is 0.0.
phaseShift (float): (float) The phase shift of the triangle wave in radians. Default is 0.0.
Returns: (float) The calculated triangle wave value.
getSquareWave(cyclesPerMinute, bar, barsPerSecond, amplitude, verticalShift, dutyCycle, phaseShift)
`getSquareWave`
> Calculates a square wave based on bar index, cycles per minute (BPM), and wave parameters.
Parameters:
cyclesPerMinute (float): (float) The desired number of cycles per minute (BPM). Default is 30.0.
bar (int): (int) The current bar index. Default is bar_index.
barsPerSecond (float): (float) The number of bars per second. Default is 10.0 for Bar Replay
amplitude (float): (float) The amplitude of the square wave. Default is 1.0.
verticalShift (float): (float) The vertical shift of the square wave. Default is 0.0.
dutyCycle (float): (float) The duty cycle of the square wave (0.0 to 1.0). Default is 0.5 (50% duty cycle).
phaseShift (float): (float) The phase shift of the square wave in radians. Default is 0.0.
Returns: (float) The calculated square wave value.
This library intended for use in Bar Replay provides functions to generate various wave forms (sine, cosine, triangle, square) based on time and customizable parameters. Useful for testing and in creating oscillators, indicators, or visual effects.
█ FUNCTIONS
• getSineWave()
• getCosineWave()
• getTriangleWave()
• getSquareWave()
█ USAGE EXAMPLE
//@version=6
indicator("Wave Example")
import kaigouthro/waves/1
plot(waves.getSineWave(cyclesPerMinute=15))
█ NOTES
* barsPerSecond defaults to 10. Adjust this if not using 10x in Bar Replay.
* Phase shift is in degrees.
---
Library "waves"
getSineWave(cyclesPerMinute, bar, barsPerSecond, amplitude, verticalShift, phaseShift)
`getSineWave`
> Calculates a sine wave based on bar index, cycles per minute (BPM), and wave parameters.
Parameters:
cyclesPerMinute (float): (float) The desired number of cycles per minute (BPM). Default is 30.0.
bar (int): (int) The current bar index. Default is bar_index.
barsPerSecond (float): (float) The number of bars per second. Default is 10.0 for Bar Replay
amplitude (float): (float) The amplitude of the sine wave. Default is 1.0.
verticalShift (float): (float) The vertical shift of the sine wave. Default is 0.0.
phaseShift (float): (float) The phase shift of the sine wave in radians. Default is 0.0.
Returns: (float) The calculated sine wave value.
getCosineWave(cyclesPerMinute, bar, barsPerSecond, amplitude, verticalShift, phaseShift)
`getCosineWave`
> Calculates a cosine wave based on bar index, cycles per minute (BPM), and wave parameters.
Parameters:
cyclesPerMinute (float): (float) The desired number of cycles per minute (BPM). Default is 30.0.
bar (int): (int) The current bar index. Default is bar_index.
barsPerSecond (float): (float) The number of bars per second. Default is 10.0 for Bar Replay
amplitude (float): (float) The amplitude of the cosine wave. Default is 1.0.
verticalShift (float): (float) The vertical shift of the cosine wave. Default is 0.0.
phaseShift (float): (float) The phase shift of the cosine wave in radians. Default is 0.0.
Returns: (float) The calculated cosine wave value.
getTriangleWave(cyclesPerMinute, bar, barsPerSecond, amplitude, verticalShift, phaseShift)
`getTriangleWave`
> Calculates a triangle wave based on bar index, cycles per minute (BPM), and wave parameters.
Parameters:
cyclesPerMinute (float): (float) The desired number of cycles per minute (BPM). Default is 30.0.
bar (int): (int) The current bar index. Default is bar_index.
barsPerSecond (float): (float) The number of bars per second. Default is 10.0 for Bar Replay
amplitude (float): (float) The amplitude of the triangle wave. Default is 1.0.
verticalShift (float): (float) The vertical shift of the triangle wave. Default is 0.0.
phaseShift (float): (float) The phase shift of the triangle wave in radians. Default is 0.0.
Returns: (float) The calculated triangle wave value.
getSquareWave(cyclesPerMinute, bar, barsPerSecond, amplitude, verticalShift, dutyCycle, phaseShift)
`getSquareWave`
> Calculates a square wave based on bar index, cycles per minute (BPM), and wave parameters.
Parameters:
cyclesPerMinute (float): (float) The desired number of cycles per minute (BPM). Default is 30.0.
bar (int): (int) The current bar index. Default is bar_index.
barsPerSecond (float): (float) The number of bars per second. Default is 10.0 for Bar Replay
amplitude (float): (float) The amplitude of the square wave. Default is 1.0.
verticalShift (float): (float) The vertical shift of the square wave. Default is 0.0.
dutyCycle (float): (float) The duty cycle of the square wave (0.0 to 1.0). Default is 0.5 (50% duty cycle).
phaseShift (float): (float) The phase shift of the square wave in radians. Default is 0.0.
Returns: (float) The calculated square wave value.
リリースノート
v2Float input for bar ( Just because )
Updated:
getSineWave(cyclesPerMinute, bar, barsPerSecond, amplitude, verticalShift, phaseShift)
`getSineWave`
> Calculates a sine wave based on bar index, cycles per minute (BPM), and wave parameters.
Parameters:
cyclesPerMinute (float): (float) The desired number of cycles per minute (BPM). Default is 30.0.
bar (float): (int) The current bar index. Default is bar_index.
barsPerSecond (float): (float) The number of bars per second. Default is 10.0 for Bar Replay
amplitude (float): (float) The amplitude of the sine wave. Default is 1.0.
verticalShift (float): (float) The vertical shift of the sine wave. Default is 0.0.
phaseShift (float): (float) The phase shift of the sine wave in radians. Default is 0.0.
Returns: (float) The calculated sine wave value.
getCosineWave(cyclesPerMinute, bar, barsPerSecond, amplitude, verticalShift, phaseShift)
`getCosineWave`
> Calculates a cosine wave based on bar index, cycles per minute (BPM), and wave parameters.
Parameters:
cyclesPerMinute (float): (float) The desired number of cycles per minute (BPM). Default is 30.0.
bar (float): (int) The current bar index. Default is bar_index.
barsPerSecond (float): (float) The number of bars per second. Default is 10.0 for Bar Replay
amplitude (float): (float) The amplitude of the cosine wave. Default is 1.0.
verticalShift (float): (float) The vertical shift of the cosine wave. Default is 0.0.
phaseShift (float): (float) The phase shift of the cosine wave in radians. Default is 0.0.
Returns: (float) The calculated cosine wave value.
getTriangleWave(cyclesPerMinute, bar, barsPerSecond, amplitude, verticalShift, phaseShift)
`getTriangleWave`
> Calculates a triangle wave based on bar index, cycles per minute (BPM), and wave parameters.
Parameters:
cyclesPerMinute (float): (float) The desired number of cycles per minute (BPM). Default is 30.0.
bar (float): (int) The current bar index. Default is bar_index.
barsPerSecond (float): (float) The number of bars per second. Default is 10.0 for Bar Replay
amplitude (float): (float) The amplitude of the triangle wave. Default is 1.0.
verticalShift (float): (float) The vertical shift of the triangle wave. Default is 0.0.
phaseShift (float): (float) The phase shift of the triangle wave in radians. Default is 0.0.
Returns: (float) The calculated triangle wave value.
getSquareWave(cyclesPerMinute, bar, barsPerSecond, amplitude, verticalShift, dutyCycle, phaseShift)
`getSquareWave`
> Calculates a square wave based on bar index, cycles per minute (BPM), and wave parameters.
Parameters:
cyclesPerMinute (float): (float) The desired number of cycles per minute (BPM). Default is 30.0.
bar (float): (int) The current bar index. Default is bar_index.
barsPerSecond (float): (float) The number of bars per second. Default is 10.0 for Bar Replay
amplitude (float): (float) The amplitude of the square wave. Default is 1.0.
verticalShift (float): (float) The vertical shift of the square wave. Default is 0.0.
dutyCycle (float): (float) The duty cycle of the square wave (0.0 to 1.0). Default is 0.5 (50% duty cycle).
phaseShift (float): (float) The phase shift of the square wave in radians. Default is 0.0.
Returns: (float) The calculated square wave value.
Pineライブラリ
TradingViewの精神に則り、作者はPineコードをオープンソースライブラリとして公開し、コミュニティ内の他のPineプログラマーが再利用できるようにしました。作者に敬意を表します!このライブラリを個人的に、または他のオープンソースの投稿で使用することができますが、このコードを投稿で再利用するには、ハウスルールに準拠する必要があります。
免責事項
これらの情報および投稿は、TradingViewが提供または保証する金融、投資、取引、またはその他の種類のアドバイスや推奨を意図したものではなく、またそのようなものでもありません。詳しくは利用規約をご覧ください。
Pineライブラリ
TradingViewの精神に則り、作者はPineコードをオープンソースライブラリとして公開し、コミュニティ内の他のPineプログラマーが再利用できるようにしました。作者に敬意を表します!このライブラリを個人的に、または他のオープンソースの投稿で使用することができますが、このコードを投稿で再利用するには、ハウスルールに準拠する必要があります。
免責事項
これらの情報および投稿は、TradingViewが提供または保証する金融、投資、取引、またはその他の種類のアドバイスや推奨を意図したものではなく、またそのようなものでもありません。詳しくは利用規約をご覧ください。