PINE LIBRARY
reversal
Library "reversals"
psar(af_start, af_increment, af_max)
Calculates Parabolic Stop And Reverse (SAR)
Parameters:
af_start (simple float): Initial acceleration factor (Wilder's original: 0.02)
af_increment (simple float): Acceleration factor increment per new extreme (Wilder's original: 0.02)
af_max (simple float): Maximum acceleration factor (Wilder's original: 0.20)
Returns: SAR value (stop level for current trend)
fractals()
Detects Williams Fractal patterns (5-bar pattern)
Returns: Tuple [up_fractal, down_fractal] with fractal values (na if no fractal)
swings(lookback, source_high, source_low)
Detects swing highs and swing lows using lookback period
Parameters:
lookback (simple int): Number of bars on each side to confirm swing point
source_high (float): Price series for swing high detection (typically high)
source_low (float): Price series for swing low detection (typically low)
Returns: Tuple [swing_high, swing_low] with swing point values (na if no swing)
pivot(tf)
Calculates classic/standard/floor pivot points
Parameters:
tf (simple string): Timeframe for pivot calculation ("D", "W", "M")
Returns: Tuple [pp, r1, r2, r3, s1, s2, s3] with pivot levels
pivotcam(tf)
Calculates Camarilla pivot points with 8 levels for short-term trading
Parameters:
tf (simple string): Timeframe for pivot calculation ("D", "W", "M")
Returns: Tuple [pp, r1, r2, r3, r4, s1, s2, s3, s4] with pivot levels
pivotdem(tf)
Calculates d-mark pivot points with conditional open/close logic
Parameters:
tf (simple string): Timeframe for pivot calculation ("D", "W", "M")
Returns: Tuple [pp, r1, s1] with pivot levels (only 3 levels)
pivotext(tf)
Calculates extended traditional pivot points with R4-R5 and S4-S5 levels
Parameters:
tf (simple string): Timeframe for pivot calculation ("D", "W", "M")
Returns: Tuple [pp, r1, r2, r3, r4, r5, s1, s2, s3, s4, s5] with pivot levels
pivotfib(tf)
Calculates Fibonacci pivot points using Fibonacci ratios
Parameters:
tf (simple string): Timeframe for pivot calculation ("D", "W", "M")
Returns: Tuple [pp, r1, r2, r3, s1, s2, s3] with pivot levels
pivotwood(tf)
Calculates Woodie's pivot points with weighted closing price
Parameters:
tf (simple string): Timeframe for pivot calculation ("D", "W", "M")
Returns: Tuple [pp, r1, r2, r3, s1, s2, s3] with pivot levels
psar(af_start, af_increment, af_max)
Calculates Parabolic Stop And Reverse (SAR)
Parameters:
af_start (simple float): Initial acceleration factor (Wilder's original: 0.02)
af_increment (simple float): Acceleration factor increment per new extreme (Wilder's original: 0.02)
af_max (simple float): Maximum acceleration factor (Wilder's original: 0.20)
Returns: SAR value (stop level for current trend)
fractals()
Detects Williams Fractal patterns (5-bar pattern)
Returns: Tuple [up_fractal, down_fractal] with fractal values (na if no fractal)
swings(lookback, source_high, source_low)
Detects swing highs and swing lows using lookback period
Parameters:
lookback (simple int): Number of bars on each side to confirm swing point
source_high (float): Price series for swing high detection (typically high)
source_low (float): Price series for swing low detection (typically low)
Returns: Tuple [swing_high, swing_low] with swing point values (na if no swing)
pivot(tf)
Calculates classic/standard/floor pivot points
Parameters:
tf (simple string): Timeframe for pivot calculation ("D", "W", "M")
Returns: Tuple [pp, r1, r2, r3, s1, s2, s3] with pivot levels
pivotcam(tf)
Calculates Camarilla pivot points with 8 levels for short-term trading
Parameters:
tf (simple string): Timeframe for pivot calculation ("D", "W", "M")
Returns: Tuple [pp, r1, r2, r3, r4, s1, s2, s3, s4] with pivot levels
pivotdem(tf)
Calculates d-mark pivot points with conditional open/close logic
Parameters:
tf (simple string): Timeframe for pivot calculation ("D", "W", "M")
Returns: Tuple [pp, r1, s1] with pivot levels (only 3 levels)
pivotext(tf)
Calculates extended traditional pivot points with R4-R5 and S4-S5 levels
Parameters:
tf (simple string): Timeframe for pivot calculation ("D", "W", "M")
Returns: Tuple [pp, r1, r2, r3, r4, r5, s1, s2, s3, s4, s5] with pivot levels
pivotfib(tf)
Calculates Fibonacci pivot points using Fibonacci ratios
Parameters:
tf (simple string): Timeframe for pivot calculation ("D", "W", "M")
Returns: Tuple [pp, r1, r2, r3, s1, s2, s3] with pivot levels
pivotwood(tf)
Calculates Woodie's pivot points with weighted closing price
Parameters:
tf (simple string): Timeframe for pivot calculation ("D", "W", "M")
Returns: Tuple [pp, r1, r2, r3, s1, s2, s3] with pivot levels
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.