PROTECTED SOURCE SCRIPT
RRE Line
Step 1: Initialize Parameters
length: Period of the indicator (default: 99)
src: Source input, typically the close price
ama: Initialize at 0.0 (Adaptive Moving Average value)
Step 2: Calculate Highest High Signal (hh)
hh
=
max
(
sign
(
Δ
highest
(
n
)
)
,
0
)
hh=max(sign(Δhighest(n)),0)
Breakdown:
highest(n) finds the highest price over the last n periods
Δ calculates the change from the previous bar
sign() returns +1 if positive, -1 if negative, 0 if zero
max(..., 0) ensures result is either 1 or 0
Result: hh = 1 when a new highest high is made, otherwise 0
Step 3: Calculate Lowest Low Signal (ll)
ll
=
max
(
sign
(
Δ
lowest
(
n
)
×
−
1
)
,
0
)
ll=max(sign(Δlowest(n)×−1),0)
Breakdown:
lowest(n) finds the lowest price over the last n periods
Δ calculates the change from the previous bar
Multiply by -1 to invert the sign
sign() processes the inverted value
max(..., 0) ensures result is either 1 or 0
Result: ll = 1 when a new lowest low is made, otherwise 0
Step 4: Calculate Trend Coefficient (tc)
t
c
(
t
)
=
[
SMA
(
RegularitySignal
,
n
)
]
2
tc(t)=[SMA(RegularitySignal,n)]
2
Breakdown:
RegularitySignal = 1 if (hh = 1 OR ll = 1), else 0
Calculate simple moving average of the signal over n periods
Square the result to amplify adaptive behavior
Result: tc represents the squared average frequency of new highs/lows
length: Period of the indicator (default: 99)
src: Source input, typically the close price
ama: Initialize at 0.0 (Adaptive Moving Average value)
Step 2: Calculate Highest High Signal (hh)
hh
=
max
(
sign
(
Δ
highest
(
n
)
)
,
0
)
hh=max(sign(Δhighest(n)),0)
Breakdown:
highest(n) finds the highest price over the last n periods
Δ calculates the change from the previous bar
sign() returns +1 if positive, -1 if negative, 0 if zero
max(..., 0) ensures result is either 1 or 0
Result: hh = 1 when a new highest high is made, otherwise 0
Step 3: Calculate Lowest Low Signal (ll)
ll
=
max
(
sign
(
Δ
lowest
(
n
)
×
−
1
)
,
0
)
ll=max(sign(Δlowest(n)×−1),0)
Breakdown:
lowest(n) finds the lowest price over the last n periods
Δ calculates the change from the previous bar
Multiply by -1 to invert the sign
sign() processes the inverted value
max(..., 0) ensures result is either 1 or 0
Result: ll = 1 when a new lowest low is made, otherwise 0
Step 4: Calculate Trend Coefficient (tc)
t
c
(
t
)
=
[
SMA
(
RegularitySignal
,
n
)
]
2
tc(t)=[SMA(RegularitySignal,n)]
2
Breakdown:
RegularitySignal = 1 if (hh = 1 OR ll = 1), else 0
Calculate simple moving average of the signal over n periods
Square the result to amplify adaptive behavior
Result: tc represents the squared average frequency of new highs/lows
受保护脚本
此脚本以闭源形式发布。 但是,您可以自由使用它,没有任何限制 — 在此处了解更多信息。
免责声明
这些信息和出版物并不意味着也不构成TradingView提供或认可的金融、投资、交易或其它类型的建议或背书。请在使用条款阅读更多信息。
受保护脚本
此脚本以闭源形式发布。 但是,您可以自由使用它,没有任何限制 — 在此处了解更多信息。
免责声明
这些信息和出版物并不意味着也不构成TradingView提供或认可的金融、投资、交易或其它类型的建议或背书。请在使用条款阅读更多信息。