PINE LIBRARY
업데이트됨 eHarmonicpatternsExtended
Library "eHarmonicpatternsExtended"
Library provides an alternative method to scan harmonic patterns. This is helpful in reducing iterations. Republishing as new library instead of existing eHarmonicpatterns because I need that copy for existing scripts.
scan_xab(bcdRatio, err_min, err_max, patternArray) Checks if bcd ratio is in range of any harmonic pattern
Parameters:
bcdRatio: AB/XA ratio
err_min: minimum error threshold
err_max: maximum error threshold
patternArray: Array containing pattern check flags. Checks are made only if flags are true. Upon check flgs are overwritten.
scan_abc_axc(abcRatio, axcRatio, err_min, err_max, patternArray) Checks if abc or axc ratio is in range of any harmonic pattern
Parameters:
abcRatio: BC/AB ratio
axcRatio: XC/AX ratio
err_min: minimum error threshold
err_max: maximum error threshold
patternArray: Array containing pattern check flags. Checks are made only if flags are true. Upon check flgs are overwritten.
scan_bcd(bcdRatio, err_min, err_max, patternArray) Checks if bcd ratio is in range of any harmonic pattern
Parameters:
bcdRatio: CD/BC ratio
err_min: minimum error threshold
err_max: maximum error threshold
patternArray: Array containing pattern check flags. Checks are made only if flags are true. Upon check flgs are overwritten.
scan_xad_xcd(xadRatio, xcdRatio, err_min, err_max, patternArray) Checks if xad or xcd ratio is in range of any harmonic pattern
Parameters:
xadRatio: AD/XA ratio
xcdRatio: CD/XC ratio
err_min: minimum error threshold
err_max: maximum error threshold
patternArray: Array containing pattern check flags. Checks are made only if flags are true. Upon check flgs are overwritten.
isHarmonicPattern(x, a, b, c, d, flags, errorPercent) Checks for harmonic patterns
Parameters:
x: X coordinate value
a: A coordinate value
b: B coordinate value
c: C coordinate value
d: D coordinate value
flags: flags to check patterns. Send empty array to enable all
errorPercent: Error threshold
Returns: [patternArray, patternLabelArray] Array of boolean values which says whether valid pattern exist and array of corresponding pattern names
isHarmonicProjection(x, a, b, c, flags, errorPercent) Checks for harmonic pattern projection
Parameters:
x: X coordinate value
a: A coordinate value
b: B coordinate value
c: C coordinate value
flags: flags to check patterns. Send empty array to enable all
errorPercent: Error threshold
Returns: [patternArray, patternLabelArray] Array of boolean values which says whether valid pattern exist and array of corresponding pattern names.
get_prz_range(x, a, b, c, patternArray, errorPercent, start_adj, end_adj) Provides PRZ range based on BCD and XAD ranges
Parameters:
x: X coordinate value
a: A coordinate value
b: B coordinate value
c: C coordinate value
patternArray: Pattern flags for which PRZ range needs to be calculated
errorPercent: Error threshold
start_adj: - Adjustments for entry levels
end_adj: - Adjustments for stop levels
Returns: [dStart, dEnd] Start and end of consolidated PRZ range
get_prz_range_xad(x, a, b, c, patternArray, errorPercent, start_adj, end_adj) Provides PRZ range based on XAD range only
Parameters:
x: X coordinate value
a: A coordinate value
b: B coordinate value
c: C coordinate value
patternArray: Pattern flags for which PRZ range needs to be calculated
errorPercent: Error threshold
start_adj: - Adjustments for entry levels
end_adj: - Adjustments for stop levels
Returns: [dStart, dEnd] Start and end of consolidated PRZ range
Library provides an alternative method to scan harmonic patterns. This is helpful in reducing iterations. Republishing as new library instead of existing eHarmonicpatterns because I need that copy for existing scripts.
scan_xab(bcdRatio, err_min, err_max, patternArray) Checks if bcd ratio is in range of any harmonic pattern
Parameters:
bcdRatio: AB/XA ratio
err_min: minimum error threshold
err_max: maximum error threshold
patternArray: Array containing pattern check flags. Checks are made only if flags are true. Upon check flgs are overwritten.
scan_abc_axc(abcRatio, axcRatio, err_min, err_max, patternArray) Checks if abc or axc ratio is in range of any harmonic pattern
Parameters:
abcRatio: BC/AB ratio
axcRatio: XC/AX ratio
err_min: minimum error threshold
err_max: maximum error threshold
patternArray: Array containing pattern check flags. Checks are made only if flags are true. Upon check flgs are overwritten.
scan_bcd(bcdRatio, err_min, err_max, patternArray) Checks if bcd ratio is in range of any harmonic pattern
Parameters:
bcdRatio: CD/BC ratio
err_min: minimum error threshold
err_max: maximum error threshold
patternArray: Array containing pattern check flags. Checks are made only if flags are true. Upon check flgs are overwritten.
scan_xad_xcd(xadRatio, xcdRatio, err_min, err_max, patternArray) Checks if xad or xcd ratio is in range of any harmonic pattern
Parameters:
xadRatio: AD/XA ratio
xcdRatio: CD/XC ratio
err_min: minimum error threshold
err_max: maximum error threshold
patternArray: Array containing pattern check flags. Checks are made only if flags are true. Upon check flgs are overwritten.
isHarmonicPattern(x, a, b, c, d, flags, errorPercent) Checks for harmonic patterns
Parameters:
x: X coordinate value
a: A coordinate value
b: B coordinate value
c: C coordinate value
d: D coordinate value
flags: flags to check patterns. Send empty array to enable all
errorPercent: Error threshold
Returns: [patternArray, patternLabelArray] Array of boolean values which says whether valid pattern exist and array of corresponding pattern names
isHarmonicProjection(x, a, b, c, flags, errorPercent) Checks for harmonic pattern projection
Parameters:
x: X coordinate value
a: A coordinate value
b: B coordinate value
c: C coordinate value
flags: flags to check patterns. Send empty array to enable all
errorPercent: Error threshold
Returns: [patternArray, patternLabelArray] Array of boolean values which says whether valid pattern exist and array of corresponding pattern names.
get_prz_range(x, a, b, c, patternArray, errorPercent, start_adj, end_adj) Provides PRZ range based on BCD and XAD ranges
Parameters:
x: X coordinate value
a: A coordinate value
b: B coordinate value
c: C coordinate value
patternArray: Pattern flags for which PRZ range needs to be calculated
errorPercent: Error threshold
start_adj: - Adjustments for entry levels
end_adj: - Adjustments for stop levels
Returns: [dStart, dEnd] Start and end of consolidated PRZ range
get_prz_range_xad(x, a, b, c, patternArray, errorPercent, start_adj, end_adj) Provides PRZ range based on XAD range only
Parameters:
x: X coordinate value
a: A coordinate value
b: B coordinate value
c: C coordinate value
patternArray: Pattern flags for which PRZ range needs to be calculated
errorPercent: Error threshold
start_adj: - Adjustments for entry levels
end_adj: - Adjustments for stop levels
Returns: [dStart, dEnd] Start and end of consolidated PRZ range
릴리즈 노트
v2Minor correction :(
릴리즈 노트
v3Added:
getSupportedPatterns(patternLabelArray) Returns the list of supported patterns in order
Parameters:
patternLabelArray: Supported Patterns
get_projection_range(x, a, b, c, patternArray, errorPercent, start_adj, end_adj) Provides Projection range based on BCD and XAD ranges
Parameters:
x: X coordinate value
a: A coordinate value
b: B coordinate value
c: C coordinate value
patternArray: Pattern flags for which PRZ range needs to be calculated
errorPercent: Error threshold
start_adj: - Adjustments for entry levels
end_adj: - Adjustments for stop levels
Returns: [startRange, endRange] Array containing start and end ranges
릴리즈 노트
v4릴리즈 노트
v5Removed:
scan_xab(bcdRatio, err_min, err_max, patternArray)
Checks if bcd ratio is in range of any harmonic pattern
scan_abc_axc(abcRatio, axcRatio, err_min, err_max, patternArray)
Checks if abc or axc ratio is in range of any harmonic pattern
scan_bcd(bcdRatio, err_min, err_max, patternArray)
Checks if bcd ratio is in range of any harmonic pattern
scan_xad_xcd(xadRatio, xcdRatio, err_min, err_max, patternArray)
Checks if xad or xcd ratio is in range of any harmonic pattern
릴리즈 노트
v6Minor logical updates
파인 라이브러리
진정한 트레이딩뷰 정신에 따라 작성자는 이 파인 코드를 오픈 소스 라이브러리로 공개하여 커뮤니티의 다른 파인 프로그래머들이 재사용할 수 있도록 했습니다. 작성자에게 건배! 이 라이브러리는 개인적으로 또는 다른 오픈 소스 출판물에서 사용할 수 있지만, 출판물에서 이 코드를 재사용하는 것은 하우스 룰의 적용을 받습니다.
Trial - trendoscope.io/trial
Subscribe - trendoscope.io/pricing
Blog - docs.trendoscope.io
Subscribe - trendoscope.io/pricing
Blog - docs.trendoscope.io
면책사항
이 정보와 게시물은 TradingView에서 제공하거나 보증하는 금융, 투자, 거래 또는 기타 유형의 조언이나 권고 사항을 의미하거나 구성하지 않습니다. 자세한 내용은 이용 약관을 참고하세요.
파인 라이브러리
진정한 트레이딩뷰 정신에 따라 작성자는 이 파인 코드를 오픈 소스 라이브러리로 공개하여 커뮤니티의 다른 파인 프로그래머들이 재사용할 수 있도록 했습니다. 작성자에게 건배! 이 라이브러리는 개인적으로 또는 다른 오픈 소스 출판물에서 사용할 수 있지만, 출판물에서 이 코드를 재사용하는 것은 하우스 룰의 적용을 받습니다.
Trial - trendoscope.io/trial
Subscribe - trendoscope.io/pricing
Blog - docs.trendoscope.io
Subscribe - trendoscope.io/pricing
Blog - docs.trendoscope.io
면책사항
이 정보와 게시물은 TradingView에서 제공하거나 보증하는 금융, 투자, 거래 또는 기타 유형의 조언이나 권고 사항을 의미하거나 구성하지 않습니다. 자세한 내용은 이용 약관을 참고하세요.