STOCK INSIGHT
STOCK INSIGHT — SYSTEM OVERVIEW
A Multi‑Layer Decision Framework for Retail Traders
(Note: Resource‑heavy script — best used for homework)
1. Fundamentals — “Is this a good business?”
Stock Insight begins with a structural read of the company itself.
This layer evaluates:
Fundamentals do not determine timing — they determine whether the stock deserves long‑term attention.
2. Valuation — “Is it priced fairly?”
Valuation is assessed relative to:
Determine whether the stock is a value opportunity, a premium compounder, or a potential trap.
3. Sector Context — “Is the environment helping or hurting?”
Sector analysis includes:
4. Sentiment — “Is the stock in play?”
A 0–100 composite score blending:
Filter out stocks that are not worth trading right now.
5. Environment (Overwatch) — “Is the timing safe?”
This is the real‑time behavioral engine:
Identify whether the environment is constructive, dangerous, or neutral.
This is the timing layer — the part that actually matters for entries and exits.
6. Retail Cues — “What should I do right now?”
The translation layer converts all system signals into simple, actionable guidance:
Provide a clean, honest, non‑hyped instruction based on the entire system.
Why a Low‑Quality Stock Can Still Be a “Strong Stock”
Stock Insight separates:
The Point
Stock Insight is not a signal generator.
It is a decision framework that mirrors institutional workflow:
Exp:
IBM
AXON
ALSN
ADBE
Stock_Insight
(Study Link) http://tos.mx/!zgP1wJyI
(Homework Grid) http://tos.mx/!PCRzZvgY
Code:
STOCK INSIGHT — SYSTEM OVERVIEW
A Multi‑Layer Decision Framework for Retail Traders
(Note: Resource‑heavy script — best used for homework)
1. Fundamentals — “Is this a good business?”
Stock Insight begins with a structural read of the company itself.
This layer evaluates:
- Profitability
- Cash Flow
- Balance Sheet Strength
- Returns & Efficiency
- Growth
- Long‑Term CAGR
These six categories roll into a 12‑point Fundamental Quality Score.
Purpose:Identify whether the underlying business is durable, fragile, improving, or deteriorating.
Key Insight:Fundamentals do not determine timing — they determine whether the stock deserves long‑term attention.
2. Valuation — “Is it priced fairly?”
Valuation is assessed relative to:
- Growth
- Profitability
- Historical ranges
- Market posture
- Cheap
- Fair
- Expensive
Determine whether the stock is a value opportunity, a premium compounder, or a potential trap.
3. Sector Context — “Is the environment helping or hurting?”
Sector analysis includes:
- Sector Strength
- RS–SPY Spread (Note: Sector selections in study options, default is SPY)
- Trend
- Divergence
- Alignment
- Confidence Score
Reveal whether the stock is being helped or hindered by its sector.
Key Insight:A stock can be a weak business but strong stock if the sector is leading — or the opposite.
4. Sentiment — “Is the stock in play?”
A 0–100 composite score blending:
- Trend
- Volatility
- Valuation posture
- Growth posture
- Strong Candidate
- Tradeable
- High Risk
- Avoid
Filter out stocks that are not worth trading right now.
5. Environment (Overwatch) — “Is the timing safe?”
This is the real‑time behavioral engine:
- MicroState
- DOOM
- Pressure
- Exhaustion
- Flow
- Volatility Regime
- Structure
Identify whether the environment is constructive, dangerous, or neutral.
This is the timing layer — the part that actually matters for entries and exits.
6. Retail Cues — “What should I do right now?”
The translation layer converts all system signals into simple, actionable guidance:
- Accumulate on Dips
- Wait for Pullback
- High Volatility — Reduce Size
- Blowoff Risk — Do Not Add
- Base Building
- Early Trend Starting
- Sector Tailwind / No Tailwind / Sector Headwind
Provide a clean, honest, non‑hyped instruction based on the entire system.
Why a Low‑Quality Stock Can Still Be a “Strong Stock”
Stock Insight separates:
- Business Strength (Fundamentals)
- Market Strength (Relative Performance)
- Weak business + strong stock
- Strong business + weak stock
- Strong + strong
- Weak + weak
The Point
Stock Insight is not a signal generator.
It is a decision framework that mirrors institutional workflow:
- What is the business?
- What is it worth?
- What is the sector doing?
- Is sentiment supportive?
- Is the environment safe?
- What should retail do right now?
Exp:
IBM
AXON
ALSN
ADBE
Stock_Insight
(Study Link) http://tos.mx/!zgP1wJyI
(Homework Grid) http://tos.mx/!PCRzZvgY
Code:
Ruby:
# Stock - Insight
#Assebled: ATCSAM, playing it Forward 03/07/2026
# ---------------------------------------------------------
# DISCLAIMER
# This study is for informational and educational purposes only.
# It is NOT financial advice, trading advice, or a recommendation
# to buy or sell any security. All outputs, classifications, and
# cues are analytical tools designed to help traders understand
# market structure, sentiment, and context.
#
# Market conditions can change rapidly. All trading involves risk.
# You are solely responsible for your own investment decisions.
# Past performance does not guarantee future results.
# ---------------------------------------------------------
# Credits
# usethinkscript Community
#Fundamental Data Labels _Mobius 4/26/20 (found on OneNote)
#
# @MerryDay revised 4/21:
# my interpretation of positive/negative values; should be modified to meet your strategy
# then calculated an overall weighted score based on:
#[email protected]
#This study is used for Ken Rose's Generating Income with Dividend Stocks webcast Monday's 7PM ET
# CAGR Total Chart Timeframe
# Source: Pensar, 03.06.2021
# Modified by golden.nonce, 02.14.2022
#========================================================
# Fundamental Quality Engine
#========================================================
declare lower;
#-----------------------------
# Global Colors
#-----------------------------
DefineGlobalColor("Strong", CreateColor(0, 165, 0)); # Full Green
DefineGlobalColor("Neutral", Color.LIGHT_GRAY); # Neutral
DefineGlobalColor("Weak", CreateColor(220, 180, 180)); # Soft Red/Pink
DefineGlobalColor("Bad", CreateColor(225, 0, 0)); # Red
DefineGlobalColor("Info", CreateColor(50, 200, 255)); # Cyan
DefineGlobalColor("Warn", CreateColor(200, 125, 0)); # Amber
DefineGlobalColor("Danger", CreateColor(255, 60, 60));
#-----------------------------
# Aggregation Helpers
#-----------------------------
def isDaily = GetAggregationPeriod() == AggregationPeriod.DAY;
def isWeekly = GetAggregationPeriod() == AggregationPeriod.WEEK;
def isMonthly = GetAggregationPeriod() == AggregationPeriod.MONTH;
#-----------------------------
# shared
# Actual earnings per event (TOS often returns N/A for CEFs, REITs, ETFs)
def AE = if IsNaN(GetActualEarnings()) then 0 else GetActualEarnings();
# Manual trailing earnings (TTM) based on bar type
def epsTTM_manual =
if isDaily then Sum(AE, 252)
else if isWeekly then Sum(AE, 52)
else if isMonthly then Sum(AE, 12)
else 0;
# Safe EPS (fallback to tiny positive number to avoid divide-by-zero)
def _epsTTM_manual = if IsNaN(epsTTM_manual) or epsTTM_manual == 0
then 0.0001
else epsTTM_manual;
#-----------------------------
# Dividend Yield & Payout
#-----------------------------
def divYieldPct = if IsNaN(GetYield()) then Double.NaN else Round(GetYield() * 100, 2);
rec DCont = if IsNaN(GetDividend()) then DCont[1] else GetDividend();
def divAnnual = if DCont <> 0 then DCont * 4 else Double.NaN;
def payoutRatio =
if !IsNaN(divAnnual) and epsTTM_manual != 0 and !IsNaN(epsTTM_manual)
then Round(divAnnual * 100 / epsTTM_manual, 2)
else Double.NaN;
#-----------------------------
# 52-Week High Context
#-----------------------------
def len52 =
if isDaily then 252
else if isWeekly then 52
else if isMonthly then 12
else Double.NaN;
def top52 = Highest(high, len52);
def pctOffHigh =
if top52 != 0 and !IsNaN(top52)
then (close / top52) - 1
else Double.NaN;
def newHigh = high == top52;
#-----------------------------
# Manual EPS / PE (AE-based)
#-----------------------------
# Actual earnings per event (TOS often returns N/A for CEFs, REITs, ETFs)
# Manual trailing earnings (TTM) based on bar type
# Raw PE calculation
def PE_raw = Round(close / _epsTTM_manual, 2);
# Trap missing/invalid EPS as extremely high PE
def PE = if IsNaN(PE_raw) or PE_raw < 0 then 999 else PE_raw;
def PE_safe = if IsNaN(PE) then 999 else PE;
# PE trap flag
def PE_isTrapped = PE >= 999;
#-----------------------------
# SAFE INPUTS
#-----------------------------
def _pctOffHigh = if IsNaN(pctOffHigh) then 0 else pctOffHigh;
def _divYieldPct = if IsNaN(divYieldPct) then 0 else divYieldPct;
# -----------------------------
# SAFE, CAGR
# -----------------------------
def agg = AggregationPeriod.YEAR;
def c = close(period = agg);
def yearbars = if c then yearbars[1] + 1 else yearbars[1];
def o = First(open(period = agg));
def CAGR = Power(c / o, 1 / yearbars) - 1;
def hasYears = yearbars >= 3 and !IsNaN(o) and o > 0 and !IsNaN(c);
def CAGR_safe = if hasYears then CAGR else Double.NaN;
#-----------------------------
# Core Fundamental Metrics
#-----------------------------
def gpMargin =
if IsNaN(GrossProfitMargin()) then gpMargin[1] else GrossProfitMargin();
def opMargin =
if IsNaN(OperatingProfitMargin()) then opMargin[1] else OperatingProfitMargin();
def netMargin =
if IsNaN(NetProfitMargin()) then netMargin[1] else NetProfitMargin();
def fcfPerShare =
if IsNaN(FreeCashFlowPerShare()) then fcfPerShare[1] else FreeCashFlowPerShare();
def epsTTM =
if IsNaN(EarningsPerShareTTM()) then epsTTM[1] else EarningsPerShareTTM();
def fixCov =
if IsNaN(FixedChargeCoverageRatio()) then fixCov[1] else FixedChargeCoverageRatio();
def curRatio =
if IsNaN(CurrentRatio()) then curRatio[1] else CurrentRatio();
def quickRatio =
if IsNaN(QuickRatio()) then quickRatio[1] else QuickRatio();
def ltdToCap =
if IsNaN(LongTermDebtToCapital()) then ltdToCap[1] else LongTermDebtToCapital();
def roa =
if IsNaN(ReturnOnAssets()) then roa[1] else ReturnOnAssets();
def roe =
if IsNaN(ReturnOnEquity()) then roe[1] else ReturnOnEquity();
def assetTurn =
if IsNaN(TotalAssetTurnover()) then assetTurn[1] else TotalAssetTurnover();
def salesPerShare =
if IsNaN(SalesPerShare()) then salesPerShare[1] else SalesPerShare();
#-----------------------------
# Category Scoring (0–3 each)
#-----------------------------
# Profitability
def scoreProfitability =
if gpMargin > 0 and opMargin > 0 and netMargin > 0 then 3
else if (gpMargin > 0 and (opMargin > 0 or netMargin > 0)) then 2
else if gpMargin > 0 or opMargin > 0 or netMargin > 0 then 1
else 0;
# Cash Flow
def scoreCashFlow =
if fcfPerShare > 0 and epsTTM > 0 and fixCov >= 1 then 3
else if (fcfPerShare > 0 and epsTTM > 0) or (fcfPerShare > 0 and fixCov >= 1) then 2
else if fcfPerShare > 0 or epsTTM > 0 or fixCov >= 1 then 1
else 0;
# Balance Sheet
def scoreBalance =
if quickRatio >= 1 and curRatio >= 1 and ltdToCap < 40 then 3
else if (quickRatio >= 1 and curRatio >= 1) or (curRatio >= 1 and ltdToCap < 60) then 2
else if quickRatio >= 1 or curRatio >= 1 then 1
else 0;
# Returns & Efficiency
def scoreReturns =
if roa >= 10 and roe >= 15 and assetTurn > 1 then 3
else if (roa >= 5 and roe >= 10) or (roe >= 15 and assetTurn > 0.8) then 2
else if roa > 0 or roe > 0 or assetTurn > 0.5 then 1
else 0;
# Growth
def scoreGrowth =
if CAGR > 0.08 and salesPerShare > 0 then 3
else if CAGR >= 0.03 and salesPerShare > 0 then 2
else if CAGR > 0 or salesPerShare > 0 then 1
else 0;
#-----------------------------
# Final Quality Score (0–12)
#-----------------------------
def rawTotal =
scoreProfitability +
scoreCashFlow +
scoreBalance +
scoreReturns +
scoreGrowth;
def qualityScore = Round(rawTotal * 12 / 15, 0);
# ------------------
# Label Hierarchy
AddLabel(
yes,
"P/E : " +
(if PE_isTrapped
then "N/A (High)"
else AsText(PE)),
if PE_isTrapped then GlobalColor("Danger")
else if PE < 20 then GlobalColor("Strong")
else if PE < 40 then GlobalColor("Warn")
else GlobalColor("Weak")
);
AddLabel(!IsNaN(divYieldPct),
"Dividend Yield: " + divYieldPct + "%",
if IsNaN(divYieldPct) then GlobalColor("Neutral")
else if divYieldPct < 2 then GlobalColor("Neutral")
else if divYieldPct <= 6 then GlobalColor("Strong")
else GlobalColor("Warn"));
AddLabel(!IsNaN(payoutRatio),
"Payout Ratio: " + payoutRatio + "%",
if IsNaN(payoutRatio) then GlobalColor("Neutral")
else if payoutRatio < 60 then GlobalColor("Strong")
else if payoutRatio <= 100 then GlobalColor("Warn")
else GlobalColor("Bad"));
AddLabel(!IsNaN(pctOffHigh) and !newHigh,
AsPercent(pctOffHigh) + " off 52 Wk High: ",
if pctOffHigh >= -0.10 then GlobalColor("Strong")
else if pctOffHigh >= -0.25 then GlobalColor("Warn")
else GlobalColor("Weak"));
AddLabel(newHigh,
"New 52-Week High TODAY",
GlobalColor("Info"));
AddLabel(1,
if hasYears
then "CAGR: " + AsPercent(CAGR_safe) + " " + (yearbars - 1) + "/Yrs"
else "CAGR: N/A (Insufficient Data)",
if hasYears and CAGR_safe > 0.08 then GlobalColor("Strong")
else if hasYears and CAGR_safe >= 0.03 then CreateColor(120, 200, 120)
else GlobalColor("Weak")
);
AddLabel(yes,
"Profitability: " +
(if scoreProfitability == 3 then "Strong"
else if scoreProfitability == 2 then "Moderate"
else if scoreProfitability == 1 then "Weak"
else "Bad"),
if scoreProfitability == 3 then GlobalColor("Strong")
else if scoreProfitability == 2 then GlobalColor("Neutral")
else if scoreProfitability == 1 then GlobalColor("Weak")
else GlobalColor("Bad"));
AddLabel(yes,
"Cash Flow: " +
(if scoreCashFlow == 3 then "Strong"
else if scoreCashFlow == 2 then "Moderate"
else if scoreCashFlow == 1 then "Weak"
else "Bad"),
if scoreCashFlow == 3 then GlobalColor("Strong")
else if scoreCashFlow == 2 then GlobalColor("Neutral")
else if scoreCashFlow == 1 then GlobalColor("Weak")
else GlobalColor("Bad"));
AddLabel(yes,
"Balance Sheet: " +
(if scoreBalance == 3 then "Strong"
else if scoreBalance == 2 then "Moderate"
else if scoreBalance == 1 then "Weak"
else "Bad"),
if scoreBalance == 3 then GlobalColor("Strong")
else if scoreBalance == 2 then GlobalColor("Neutral")
else if scoreBalance == 1 then GlobalColor("Weak")
else GlobalColor("Bad"));
AddLabel(yes,
"Returns/Efficiency: " +
(if scoreReturns == 3 then "Strong"
else if scoreReturns == 2 then "Moderate"
else if scoreReturns == 1 then "Weak"
else "Bad"),
if scoreReturns == 3 then GlobalColor("Strong")
else if scoreReturns == 2 then GlobalColor("Neutral")
else if scoreReturns == 1 then GlobalColor("Weak")
else GlobalColor("Bad"));
AddLabel(yes,
"Growth: " +
(if scoreGrowth == 3 then "Strong"
else if scoreGrowth == 2 then "Moderate"
else if scoreGrowth == 1 then "Weak"
else "Bad"),
if scoreGrowth == 3 then GlobalColor("Strong")
else if scoreGrowth == 2 then CreateColor(120, 200, 120)
else if scoreGrowth == 1 then GlobalColor("Weak")
else GlobalColor("Bad"));
#------ FontSize.LARGE size test -----------------
AddLabel(yes,
"Fundamental Quality: " + qualityScore + " / 12",
if qualityScore >= 10 then GlobalColor("Strong")
else if qualityScore >= 7 then CreateColor(120, 200, 120)
else if qualityScore >= 4 then GlobalColor("Weak")
else GlobalColor("Bad"), size = FontSize.Medium);
#Spcer
#addLabel (Yes,"-----------------------",size = FontSize.SMALL);
#===========================================================
# VALUATION ENGINE
#===========================================================
#-----------------------------------------
# Valuation Score (0–3)
#-----------------------------------------
# Missing PE → treat as expensive
def valuationScore =
if PE_safe == 999 then 1
# Undervalued: Cheap PE AND supportive discount/yield
else if PE_safe < 15 and (_pctOffHigh <= -0.25 or _divYieldPct > 3) then 3
# Fair: Mid PE OR moderate discount OR moderate yield
else if (PE_safe >= 15 and PE_safe <= 25)
or (_pctOffHigh > -0.25 and _pctOffHigh <= -0.10)
or (_divYieldPct >= 1 and _divYieldPct <= 3) then 2
# Expensive: High PE AND no discount AND low yield
else if PE_safe > 25 and _pctOffHigh > -0.10 and _divYieldPct < 1 then 1
else 2; # Default to Fair if mixed signals
AddLabel(
yes,
"Valuation: " +
(if valuationScore == 3 then "UnderValued"
else if valuationScore == 2 then "Fair"
else if valuationScore == 1 then "Expensive"
else "Very Expensive"),
if valuationScore == 3 then GlobalColor("Strong")
else if valuationScore == 2 then CreateColor(120, 200, 120)
else if valuationScore == 1 then GlobalColor("Warn")
else GlobalColor("Danger"),size = FontSize.Medium
);
#===========================================================
# DISCOUNT / VALUE OPPORTUNITY
#===========================================================
def isHighQuality = qualityScore >= 9;
def isDiscounted = pctOffHigh <= -0.20;
def isFairOrCheap = valuationScore >= 2;
def valueOpportunity = isHighQuality and isDiscounted and isFairOrCheap;
AddLabel(valueOpportunity,
"Value Opportunity: High Quality, Discounted",
CreateColor(120, 200, 120));
AddLabel(!valueOpportunity and isHighQuality and isDiscounted,
"Discounted, but valuation rich",
GlobalColor("Warn"));
AddLabel(!valueOpportunity and isHighQuality and !isDiscounted,
"High Quality, but not discounted",
GlobalColor("Neutral"));
#===========================================================
# NARRATIVE LAYER
#===========================================================
#-----------------------------------------
# 1. Cheap but Extended
#-----------------------------------------
def cheapButExtended =
PE_safe < 15 and pctOffHigh > -0.05;
AddLabel(cheapButExtended,
"Cheap but Extended (Wait for Pullback)",
GlobalColor("Warn"));
#-----------------------------------------
# 2. High Quality on Sale
#-----------------------------------------
def highQualityOnSale =
qualityScore >= 9 and pctOffHigh <= -0.20 and valuationScore >= 2;
AddLabel(highQualityOnSale,
"High Quality on Sale (Institutional Accumulation Zone)",
CreateColor(120, 200, 120));
#-----------------------------------------
# 3. Value Trap Risk
#-----------------------------------------
def valueTrapRisk =
valuationScore == 3 and qualityScore <= 4 and (epsTTM < 0 or fcfPerShare < 0);
AddLabel(valueTrapRisk,
"Value Trap Risk (Cheap for a Reason)",
GlobalColor("Bad"));
#-----------------------------------------
# 4. Rich Valuation but Improving Fundamentals
#-----------------------------------------
rec improvingQuality = if qualityScore > qualityScore[1] then 1 else 0;
def richValImproving =
valuationScore == 1 and improvingQuality == 1;
AddLabel(richValImproving,
"Rich Valuation but Improving Fundamentals",
GlobalColor("Warn"));
#-----------------------------------------
# 5. Speculative Growth — Fundamentals Not Applicable
#-----------------------------------------
def speculativeGrowth =
qualityScore <= 3 and fcfPerShare < 0 and epsTTM < 0 and ltdToCap > 50;
AddLabel(speculativeGrowth,
"Speculative Growth — Fundamentals Not Applicable",
GlobalColor("Bad"));
#-----------------------------------------
# 6. Cash-Flow Machine Trading at a Premium
#-----------------------------------------
def cashFlowMachine =
fcfPerShare > 0 and epsTTM > 0 and valuationScore == 1 and qualityScore >= 9;
AddLabel(cashFlowMachine,
"Cash-Flow Machine Trading at a Premium",
GlobalColor("Info"));
#===========================================================
# LONG-TERM CANDIDATE / ACCUMULATION
#===========================================================
def longTermCandidate =
qualityScore >= 9 and
valuationScore >= 2 and
pctOffHigh <= -0.05 and
pctOffHigh >= -0.40 and
fcfPerShare > 0 and
epsTTM > 0;
AddLabel(longTermCandidate,
"! Long-Term Candidate (Accumulate)",
Color.CYAN);
#===============================
# Sector Strength / Alignment Panel
#===============================
#-------------------------------
# USER INPUTS
#-------------------------------
input sector =
{
default Market_SPY,
Materials,
Energy,
Financials,
Industrials,
Technology,
Consumer_Staples,
Utilities,
Healthcare,
Consumer_Discretionary,
Real_Estate,
Communications
};
input rsLength = 20;
input rsSmoothing = 5;
input showRS = no;
input showSPYTrend = no;
#-------------------------------
# SECTOR SYMBOL RESOLUTION
#-------------------------------
def na = Double.NaN;
def isSPY = sector == sector.Market_SPY;
def isMAT = sector == sector.Materials;
def isENE = sector == sector.Energy;
def isFIN = sector == sector.Financials;
def isIND = sector == sector.Industrials;
def isTECH = sector == sector.Technology;
def isCST = sector == sector.Consumer_Staples;
def isUTL = sector == sector.Utilities;
def isHLT = sector == sector.Healthcare;
def isCSD = sector == sector.Consumer_Discretionary;
def isRE = sector == sector.Real_Estate;
def isCOM = sector == sector.Communications;
def spyClose = close("SPY");
def matClose = close("XLB");
def eneClose = close("XLE");
def finClose = close("XLF");
def indClose = close("XLI");
def techClose = close("XLK");
def cstClose = close("XLP");
def utlClose = close("XLU");
def hltClose = close("XLV");
def csdClose = close("XLY");
def reClose = close("XLRE");
def comClose = close("XLC");
def sectorClose =
if isSPY then spyClose else
if isMAT then matClose else
if isENE then eneClose else
if isFIN then finClose else
if isIND then indClose else
if isTECH then techClose else
if isCST then cstClose else
if isUTL then utlClose else
if isHLT then hltClose else
if isCSD then csdClose else
if isRE then reClose else
if isCOM then comClose else
na;
#-------------------------------
# RELATIVE STRENGTH ENGINE
#-------------------------------
def okData = !IsNaN(close) and !IsNaN(sectorClose);
def rawRS = if okData and sectorClose != 0 then close / sectorClose else na;
def baseRS = if !IsNaN(rawRS[rsLength]) and rawRS[rsLength] != 0 then rawRS / rawRS[rsLength] else na;
def sectorRS = ExpAverage(baseRS, rsSmoothing);
def normRS_unweighted = sectorRS - 1;
#-------------------------------
# SPY TREND (UNWEIGHTED, PLOTTED)
#-------------------------------
def spyTrendChange = spyClose - spyClose[rsLength];
def spyTrendPct = if spyClose[rsLength] != 0 then spyTrendChange / spyClose[rsLength] else 0;
#-------------------------------
# VOLATILITY-WEIGHTED RS (LOGIC ONLY)
#-------------------------------
def atrr = Average(TrueRange(high, close, low), rsLength);
def atrNorm = if close != 0 then atrr / close else 0;
def volFactor = Sqrt(atrNorm);
def normRS_weighted =
if volFactor != 0 then (sectorRS - 1) / volFactor else 0;
#-------------------------------
# SPREAD (WEIGHTED RS - RAW SPY TREND)
#-------------------------------
def spread1 = normRS_weighted - spyTrendPct;
AddLabel(yes,
"Sector: " +
(if isSPY then "Market (SPY)" else
if isMAT then "Materials" else
if isENE then "Energy" else
if isFIN then "Financials" else
if isIND then "Industrials" else
if isTECH then "Technology" else
if isCST then "Consumer Staples" else
if isUTL then "Utilities" else
if isHLT then "Healthcare" else
if isCSD then "Consumer Discretionary" else
if isRE then "Real Estate" else
if isCOM then "Communications" else
"Unknown"),
Color.WHITE
);
AddLabel(yes,
"RS–SPY Spread: " + AsPercent(spread1),
if spread1 > 0 then Color.GREEN else
if spread1 < 0 then Color.RED else
Color.GRAY
);
#-------------------------------
# SECTOR STRENGTH (NUMERIC CODE)
#-------------------------------
def strengthCode =
if sectorRS > 1 then 1 else
if sectorRS < 1 then -1 else
0;
#-------------------------------
# 5-STATE TREND MODEL
#-------------------------------
def trendChange = if okData and !IsNaN(sectorClose[rsLength]) then sectorClose - sectorClose[rsLength] else 0;
def trendPct = if okData and sectorClose[rsLength] != 0 then trendChange / sectorClose[rsLength] else 0;
def strongUpThresh = 0.04;
def weakUpThresh = 0.01;
def strongDownThresh = -0.04;
def weakDownThresh = -0.01;
def trendCode =
if trendPct >= strongUpThresh then 1 else
if trendPct >= weakUpThresh then 2 else
if trendPct <= strongDownThresh then -1 else
if trendPct <= weakDownThresh then -2 else
0;
#-------------------------------
# DIVERGENCE
#-------------------------------
def stockStrong = sectorRS > 1;
def stockWeak = sectorRS < 1;
def divCode =
if (trendCode == -1 or trendCode == -2) and stockStrong then 1 else
if (trendCode == 1 or trendCode == 2) and stockWeak then -1 else
0;
#-------------------------------
# ALIGNMENT
#-------------------------------
def alignmentCode =
if strengthCode == 1 and stockStrong then 1 else
if strengthCode == -1 and stockStrong then 2 else
if strengthCode == 1 and stockWeak then 3 else
if strengthCode == -1 and stockWeak then 4 else
0;
#-------------------------------
# CONFIDENCE SCORE
#-------------------------------
# RS Strength Component (0–1)
def confRS = Min(1, AbsValue(normRS_weighted) / 0.5);
# Agreement Component (RS vs SPY)
def confAgreement =
if normRS_weighted > 0 and spyTrendPct <= 0 then 1
else if normRS_weighted < 0 and spyTrendPct >= 0 then 1
else 0.5;
# Smoothness Component (RS stability)
def rsVol = StDev(normRS_unweighted, rsLength);
def confSmooth = 1 - Min(1, rsVol / 0.1);
# Final Confidence Score (0–1)
def confidence =
(confRS * 0.5) +
(confAgreement * 0.3) +
(confSmooth * 0.2);
AddLabel(yes,
"Confidence: " + AsPercent(confidence),
if confidence > 0.75 then Color.GREEN
else if confidence > 0.5 then Color.DARK_GREEN
else if confidence > 0.35 then Color.ORANGE
else Color.RED
);
#-------------------------------
# LABELS
#-------------------------------
AddLabel(yes,
if strengthCode == 1 then "Strong (Leading)" else
if strengthCode == -1 then "Weak (Lagging)" else
"Neutral",
if strengthCode == 1 then Color.GREEN else
if strengthCode == -1 then Color.RED else
Color.GRAY
);
AddLabel(yes,
(if isSPY then "SPY Trend: " else "Sector Trend: ") +
(if trendCode == 1 then "Strong Up" else
if trendCode == 2 then "Weak Up" else
if trendCode == -2 then "Weak Down" else
if trendCode == -1 then "Strong Down" else
"Drift"),
if trendCode == 1 then Color.GREEN else
if trendCode == 2 then Color.DARK_GREEN else
if trendCode == -2 then Color.DARK_RED else
if trendCode == -1 then Color.RED else
Color.GRAY
);
AddLabel(yes,
"Divergence: " +
(if divCode == 1 then "Bullish" else
if divCode == -1 then "Bearish" else
"None"),
if divCode == 1 then Color.GREEN else
if divCode == -1 then Color.RED else
Color.GRAY
);
AddLabel(yes,
"Alignment: " +
(if alignmentCode == 1 then "Leader in Strong Sector" else
if alignmentCode == 2 then "Leader in Weak Sector" else
if alignmentCode == 3 then "Laggard in Strong Sector" else
if alignmentCode == 4 then "Laggard in Weak Sector" else
"Neutral"),
if alignmentCode == 1 then Color.GREEN else
if alignmentCode == 2 then Color.DARK_GREEN else
if alignmentCode == 3 then Color.ORANGE else
if alignmentCode == 4 then Color.RED else
Color.GRAY
);
############################################
# OVERWATCH — CONDENSED CORE ENGINE
############################################
input price = close;
############################################
# PART A — Z ENGINE + MICROSTATE + PRESSURE
############################################
# --- Z-Score Engine ---
def zMean50 = Average(price, 50);
def zDev50 = StDev(price, 50);
def z50 = if zDev50 != 0 then (price - zMean50) / zDev50 else 0;
def zMean30 = Average(price, 30);
def zDev30 = StDev(price, 30);
def z30 = if zDev30 != 0 then (price - zMean30) / zDev30 else 0;
def zMean20 = Average(price, 20);
def zDev20 = StDev(price, 20);
def z20 = if zDev20 != 0 then (price - zMean20) / zDev20 else 0;
def zMean10 = Average(price, 10);
def zDev10 = StDev(price, 10);
def z10 = if zDev10 != 0 then (price - zMean10) / zDev10 else 0;
def zScore =
if AbsValue(z50) > 3 then z10 else
if AbsValue(z50) > 2 then z20 else
if AbsValue(z50) > 1.5 then z30 else
z50;
def zSlope = zScore - zScore[1];
# Secondary Z
def z2Mean = Average(zScore, 20);
def z2Dev = StDev(zScore, 20);
def z2 = if z2Dev != 0 then (zScore - z2Mean) / z2Dev else 0;
# --- STAR-C Baseline (structural reference only) ---
def smaBase = Average(price, 6);
def atr = Average(TrueRange(high, close, low), 15);
def upperBand = smaBase + 2 * atr;
def lowerBand = smaBase - 2 * atr;
# --- Dome Engine ---
def zStretch = Max(0, AbsValue(zScore) - 1.6);
def zCurve = Power(zStretch, 1.5);
def atrMean = Average(atr, 20);
def volWeight = if atrMean != 0 then atr / atrMean else 1;
def zExpandRaw = zCurve * atr * volWeight;
def zExpand = ExpAverage(zExpandRaw, 3);
def domeSmooth = ExpAverage(zExpand, 5);
def domeROC = domeSmooth - domeSmooth[3];
def domeNorm =
if HighestAll(domeSmooth) == LowestAll(domeSmooth)
then 0
else 100 * (domeSmooth - LowestAll(domeSmooth)) /
(HighestAll(domeSmooth) - LowestAll(domeSmooth));
def domeCompression = domeROC < 0;
def domeExpansion = domeROC > 0;
# Doom regime (kept for internal hybrid use)
def doomRegime =
if domeCompression then 0
else if domeExpansion then 2
else 1;
# --- Trend Quality × Volatility ---
def tq_source = close;
def tq_delta = AbsValue(tq_source - tq_source[1]);
def tq_maxDelta = Highest(tq_delta, 200);
def tq_safeMaxDelta = if tq_maxDelta == 0 then 1 else tq_maxDelta;
def tq_accelFactor = tq_delta / tq_safeMaxDelta;
def tq_dynLen = 5 + ((tq_source + Highest(tq_source,200)) / (2*Highest(tq_source,200))) * (50 - 5);
def tq_alphaBase = 2 / (tq_dynLen + 1);
def tq_alphaRaw = tq_alphaBase * (1 + tq_accelFactor * 5);
def tq_alpha = Min(1, tq_alphaRaw);
rec tq_dynEMA =
if BarNumber() == 1 then tq_source
else tq_alpha * tq_source + (1 - tq_alpha) * tq_dynEMA[1];
def tq_speed = tq_dynEMA - tq_dynEMA[1];
def tq_trendSpeed = HullMovingAvg(tq_speed, 5);
def tq_trendSpeedSmooth = ExpAverage(tq_trendSpeed, 3);
def tq_min = Lowest(tq_trendSpeedSmooth, 100);
def tq_max = Highest(tq_trendSpeedSmooth, 100);
def tq_normQ =
if tq_max == tq_min then 0
else (tq_trendSpeedSmooth - tq_min) / (tq_max - tq_min);
def microTrend =
if tq_normQ >= 0.75 then 3 else
if tq_normQ >= 0.50 then 2 else
if tq_normQ >= 0.25 then 1 else 0;
def tqVolHybrid = microTrend * doomRegime;
# --- Bias Engine ---
def ema3 = ExpAverage(close, 3);
def ema3Slope = ema3 - ema3[1];
def mom3 = close - close[3];
def upBodies =
(close > open) +
(close[1] > open[1]) +
(close[2] > open[2]);
def dnBodies =
(close < open) +
(close[1] < open[1]) +
(close[2] < open[2]);
def bullBias = ema3Slope > 0 and mom3 > 0 and upBodies >= 2;
def bearBias = ema3Slope < 0 and mom3 < 0 and dnBodies >= 2;
# --- Micro Diagnostics ---
def spread = high - low;
def avgSpread = Average(spread, 20);
def avgVol = Average(volume, 20);
def rotRaw = (spread / avgSpread) * (volume / avgVol);
def rotNorm = if HighestAll(rotRaw) == 0 then 0 else rotRaw / HighestAll(rotRaw);
def trendMa = ExpAverage(price, 50);
def trendEnergy = trendMa - trendMa[2];
def trendDecel = trendEnergy < 0;
def zPhaseDown = zSlope < 0;
# --- Commitment & Stability ---
def barRange = high - low;
def bodySize = AbsValue(close - open);
def safeRange = if barRange == 0 then 0.0001 else barRange;
def bodyFrac = bodySize / safeRange;
def bullBar = close > open;
def bearBar = close < open;
def followThroughUp = bullBar and close > close[1];
def followThroughDown = bearBar and close < close[1];
def upperWick = high - Max(open, close);
def lowerWick = Min(open, close) - low;
def wickAlignedBull = bullBar and lowerWick > upperWick;
def wickAlignedBear = bearBar and upperWick > lowerWick;
def overlap =
(high <= high[1] and low >= low[1]) or
(high[1] <= high and low[1] >= low);
def dcRaw =
(if bodyFrac > 0.5 then 1 else 0) +
(if followThroughUp or followThroughDown then 1 else 0) +
(if wickAlignedBull or wickAlignedBear then 1 else 0) +
(if !overlap then 1 else 0);
def dcNorm = dcRaw / 4;
rec dcSmooth =
if IsNaN(dcSmooth[1]) then dcNorm
else dcSmooth[1] + 0.2 * (dcNorm - dcSmooth[1]);
def dirBar = if close > open then 1 else if close < open then -1 else 0;
def dirSlope = if ema3Slope > 0 then 1 else if ema3Slope < 0 then -1 else 0;
def dirMom = if mom3 > 0 then 1 else if mom3 < 0 then -1 else 0;
def dsNormRaw =
(AbsValue(Sum(dirBar,5))/5 +
AbsValue(Sum(dirSlope,5))/5 +
AbsValue(Sum(dirMom,5))/5) / 3;
rec dsSmooth =
if IsNaN(dsSmooth[1]) then dsNormRaw
else dsSmooth[1] + 0.2 * (dsNormRaw - dsSmooth[1]);
def dcNormH = Max(0, Min(1, dcSmooth));
def dsNorm = Max(0, Min(1, dsSmooth));
# --- Volatility Burst ---
def volBurst = domeROC > domeSmooth * 0.15;
# --- MicroState (0–3) ---
def microState =
if domeCompression and !volBurst and dsNorm >= 0.5 then 0 else
if domeCompression and volBurst then 1 else
if domeExpansion and !volBurst and dsNorm >= 0.5 then 2 else
if domeExpansion and volBurst then 3 else 0;
############################################
# PART B — DANGER ENGINE + P-STATE LOGIC
############################################
# --- Danger Channels ---
def d_dome = domeNorm >= 70 or domeNorm <= 30;
def d_micro = microState == 3;
def d_z = zPhaseDown;
def d_rot = rotNorm > 0.6;
def d_trend = trendDecel;
def d_dc = dcNormH < 0.5;
def d_ds = dsNorm < 0.5;
def nonDomeScore =
(if d_micro then 1 else 0) +
(if d_z then 1 else 0) +
(if d_rot then 1 else 0) +
(if d_trend then 1 else 0) +
(if d_dc then 1 else 0) +
(if d_ds then 1 else 0);
# --- MicroPressure → P-State (0–3) ---
def microPressure =
(if domeCompression then 1 else 0) +
(if zPhaseDown then 1 else 0) +
(if rotNorm > 0.6 then 1 else 0) +
(if trendDecel then 1 else 0) +
(if dcNormH < 0.5 then 1 else 0) +
(if dsNorm < 0.5 then 1 else 0);
def pState =
if microPressure == 0 then 0 else
if microPressure == 1 then 1 else
if microPressure == 2 or microPressure == 3 then 2 else
if microPressure == 4 or microPressure == 5 then 3 else 4;
# --- P2 Danger ---
def p2Danger =
pState == 2 and
(
(d_dome and nonDomeScore >= 1) or
(!d_dome and nonDomeScore >= 3)
);
# --- Pressure Descriptor (Early vs Light) ---
def wasP2 = pState[1] == 2;
def wasDanger = p2Danger[1];
def lightPressure = pState == 1 and (wasP2 or wasDanger);
def earlyPressure = pState == 1 and !lightPressure;
# --- Directional Mapping (P2-red / P2-green) ---
def p2Color =
if pState == 2 and bullBias and p2Danger then 1 else
if pState == 2 and bearBias and p2Danger then -1 else 0;
############################################
# COMPATIBILITY LAYER FOR TSI (volState + exhaustionState)
############################################
def volState =
if domeExpansion and AbsValue(domeROC) > domeSmooth * 0.20 then 0 else
if domeExpansion then 1 else
if !domeExpansion and !domeCompression then 2 else
if domeCompression and AbsValue(domeROC) < domeSmooth * 0.10 then 3 else
4;
input zExtreme = 2.5;
input zLate = 1.5;
input zEarly = 0.5;
def isExhausted = AbsValue(zScore) > zExtreme and zSlope < 0 and z2 < 0;
def isLateMove = AbsValue(zScore) > zLate and zSlope <= 0;
def isNeutral = AbsValue(zScore) between zEarly and zLate;
def isEarlyMove = AbsValue(zScore) < zEarly and zSlope > 0;
def isFresh = zScore crosses above 0 or zScore crosses below 0;
def exhaustionState =
if isExhausted then 0 else
if isLateMove then 1 else
if isNeutral then 2 else
if isEarlyMove then 3 else
if isFresh then 4 else 2;
############################################
# INTERNAL OVERWATCH OUTPUTS
############################################
def Overwatch_PState = pState;
def Overwatch_P2Danger = if p2Danger then 1 else 0;
def Overwatch_P2Color = p2Color;
def Overwatch_MicroState = microState;
def Overwatch_BullBias = bullBias;
def Overwatch_BearBias = bearBias;
############################################
# NUMERIC ENUM TAGS (REQUIRED FOR TSI)
############################################
def priceValuationCode =
if valueOpportunity then 8 else
if cheapButExtended then 1 else
if highQualityOnSale then 2 else
if valueTrapRisk then 3 else
if richValImproving then 4 else
if speculativeGrowth then 5 else
if cashFlowMachine then 6 else
if longTermCandidate then 7 else
0;
def narrativeCode =
if cheapButExtended then 1 else
if highQualityOnSale then 2 else
if valueTrapRisk then 3 else
if richValImproving then 4 else
if speculativeGrowth then 5 else
if cashFlowMachine then 6 else
if longTermCandidate then 7 else
0;
############################################
# TRADE SENTIMENT INDICATOR (TSI) v1.2
############################################
input wTrend = 25;
input wValuation = 20;
input wGrowth = 15;
input wVolatility = 15;
input wExhaustion = 10;
input wNarrative = 15;
def totalWeight =
wTrend + wValuation + wGrowth +
wVolatility + wExhaustion + wNarrative;
def trendScore =
if microState == 0 then 25 else
if microState == 1 then 45 else
if microState == 2 then 75 else
if microState == 3 then 90 else
50;
def tsiValuationScore =
if valuationScore == 3 then 80 else
if valuationScore == 2 then 60 else
if valuationScore == 1 then 35 else
15;
def growthScore =
if CAGR < 0 then 10 else
if CAGR < 0.05 then 35 else
if CAGR < 0.10 then 55 else
if CAGR < 0.20 then 75 else
90;
def volScore =
if volState == 0 then 15 else
if volState == 1 then 35 else
if volState == 2 then 55 else
if volState == 3 then 75 else
if volState == 4 then 90 else
50;
def exhaustionScore =
if exhaustionState == 0 then 15 else
if exhaustionState == 1 then 35 else
if exhaustionState == 2 then 55 else
if exhaustionState == 3 then 75 else
if exhaustionState == 4 then 90 else
50;
def tsiNarrativeScore =
if narrativeCode == 1 then 35 else
if narrativeCode == 2 then 85 else
if narrativeCode == 3 then 15 else
if narrativeCode == 4 then 65 else
if narrativeCode == 5 then 20 else
if narrativeCode == 6 then 75 else
if narrativeCode == 7 then 90 else
50;
def priceValuationScore =
if priceValuationCode == 8 then 90 else
if priceValuationCode == 1 then 35 else
if priceValuationCode == 2 then 85 else
if priceValuationCode == 3 then 15 else
if priceValuationCode == 4 then 65 else
if priceValuationCode == 5 then 20 else
if priceValuationCode == 6 then 75 else
if priceValuationCode == 7 then 90 else
50;
def sentimentScore =
(trendScore * wTrend +
tsiValuationScore * wValuation +
growthScore * wGrowth +
volScore * wVolatility +
exhaustionScore * wExhaustion +
tsiNarrativeScore * (wNarrative * 0.5) +
priceValuationScore * (wNarrative * 0.5)
) / totalWeight;
def sentimentClass =
if sentimentScore < 30 then 0 else
if sentimentScore < 50 then 1 else
if sentimentScore < 70 then 2 else
if sentimentScore < 85 then 3 else
4;
AddLabel(1,
"Sentiment: " + Round(sentimentScore, 0),
if sentimentClass == 0 then Color.RED
else if sentimentClass == 1 then Color.DARK_ORANGE
else if sentimentClass == 2 then Color.YELLOW
else if sentimentClass == 3 then Color.GREEN
else Color.CYAN,size = FontSize.Medium
);
AddLabel(1,
if sentimentClass == 0 then "Avoid"
else if sentimentClass == 1 then "High Risk"
else if sentimentClass == 2 then "Tradeable"
else if sentimentClass == 3 then "Strong Candidate"
else "High-Quality Opportunity",
Color.WHITE,size = FontSize.Medium
);
############################################
# BEHAVIOR NARRATIVE (OVERWATCH ENVIRONMENT)
############################################
def behaviorNarrative =
if microState == 3 then 3 else # Blowoff Risk (highest priority)
if exhaustionState == 0 then 1 else # Exhausted Move
if exhaustionState == 4 then 2 else # Fresh Move
if volState == 0 then 5 else # High Volatility / Turbulent
if volState == 4 then 6 else # Controlled Compression
if microState == 0 then 4 else # Compression / Base Building
0; # Neutral Environment
AddLabel(1,
if behaviorNarrative == 1 then "Exhausted Move" else
if behaviorNarrative == 2 then "Fresh Move" else
if behaviorNarrative == 3 then "Blowoff Risk" else
if behaviorNarrative == 4 then "Compression" else
if behaviorNarrative == 5 then "High Volatility" else
if behaviorNarrative == 6 then "Controlled Compression" else
"Neutral Environment",
Color.LIGHT_GRAY
);
############################################
# TRADE ADVICE (OVERWATCH COMBINATIONS)
############################################
# --- 1. Blowoff Risk — Do Not Add ---
def cueBlowoff =
microState == 3 and
exhaustionState <= 1; # blowoff or late move
AddLabel(cueBlowoff,
"Blowoff Risk — Do Not Add",
Color.RED
);
# --- 2. Exhausted Move — Avoid New Entries ---
def cueExhausted =
exhaustionState == 0 and
microState != 3;
AddLabel(cueExhausted,
"Exhausted Move — Avoid New Entries",
Color.DARK_RED
);
# --- 3. High Volatility — Reduce Size ---
def cueHighVol =
volState == 0 and
exhaustionState != 4 and
microState != 0;
AddLabel(cueHighVol,
"High Volatility — Reduce Size",
Color.ORANGE
);
# --- 4. Early Trend Starting ---
def cueEarlyTrend =
exhaustionState == 4 and # fresh move
Overwatch_P2Color == 1 and # P2-Green
(microState == 1 or microState == 2) and
(volState == 1 or volState == 2);
AddLabel(cueEarlyTrend,
"Early Trend Starting",
Color.CYAN
);
# --- 5. Accumulate / Add on Dips ---
def cueAccumulate =
behaviorNarrative == 6 and # Controlled Compression
Overwatch_P2Color == 1 and # P2-Green
exhaustionState != 0 and # not exhausted
microState != 3; # not blowoff
AddLabel(cueAccumulate,
"Accumulate / Add on Dips",
Color.GREEN
);
# --- 6. Wait for Pullback ---
def cueWaitPullback =
Overwatch_P2Color == 1 and # P2-Green
exhaustionState == 1 and # late move
(microState == 2 or microState == 3);
AddLabel(cueWaitPullback,
"Wait for Pullback",
Color.YELLOW
);
# --- 7. Base Building — Watch for Breakout ---
def cueBaseBuilding =
microState == 0 and # compression coil
(volState == 3 or volState == 4) and
exhaustionState == 2;
AddLabel(cueBaseBuilding,
"Compression Base — Breakout Possible",
Color.LIGHT_GRAY
);
# --- 8. Neutral — No Clear Edge ---
def cueNeutral =
!cueBlowoff and
!cueExhausted and
!cueHighVol and
!cueEarlyTrend and
!cueAccumulate and
!cueWaitPullback and
!cueBaseBuilding;
AddLabel(cueNeutral,
"Neutral — No Clear Edge",
Color.GRAY
);
## Trade Labels ###################
############################################
# SECTOR-AWARE RETAIL CUES (MODERATE)
############################################
# --- 1. Strong Stock in Strong Sector ---
def cueStrongStrong =
strengthCode == 1 and
alignmentCode == 1 and
confidence > 0.40;
AddLabel(cueStrongStrong,
"Strong Stock & Sector — Follow-Through Likely",
Color.GREEN
);
# --- 2. Strong Stock in Weak Sector ---
def cueStrongWeak =
strengthCode == -1 and
alignmentCode == 2 and
confidence > 0.30;
AddLabel(cueStrongWeak,
"Strong Stock in Weak Sector — Reduce Size / Expect Chop",
Color.DARK_GREEN
);
# --- 3. Laggard in Strong Sector ---
def cueLaggardStrong =
strengthCode == 1 and
alignmentCode == 3 and
confidence > 0.30;
AddLabel(cueLaggardStrong,
"Laggard in Strong Sector — Avoid Until Strength Improves",
Color.ORANGE
);
# --- 4. Laggard in Weak Sector ---
def cueLaggardWeak =
strengthCode == -1 and
alignmentCode == 4 and
confidence > 0.25;
AddLabel(cueLaggardWeak,
"Laggard in Weak Sector — No Tailwind",
Color.RED
);
# --- 5. Sector Drift / Low Confidence ---
def cueSectorDrift =
trendCode == 0 and
confidence < 0.35;
AddLabel(cueSectorDrift,
"Sector Drift — Expect Low Follow-Through",
Color.GRAY
);
# --- 6. Sector Tailwind ---
def cueTailwind =
trendCode > 0 and
strengthCode == 1 and
confidence > 0.50;
AddLabel(cueTailwind,
"Sector Tailwind — Moves Have Support",
Color.GREEN
);
# --- 7. Sector Headwind ---
def cueHeadwind =
trendCode < 0 and
strengthCode == -1 and
confidence > 0.50;
AddLabel(cueHeadwind,
"Sector Headwind — Expect Resistance",
Color.RED
);
# --- 8. Neutral Sector Context ---
def cueSectorNeutral =
!cueStrongStrong and
!cueStrongWeak and
!cueLaggardStrong and
!cueLaggardWeak and
!cueSectorDrift and
!cueTailwind and
!cueHeadwind;
AddLabel(cueSectorNeutral,
"Sector Neutral — No Major Influence",
Color.LIGHT_GRAY
);
Last edited by a moderator:
What to Look For — Quick Operator Cheat Sheet
