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Vizion-Trading-EA/Scripts/moneyglixtc5.mq5

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chore: push all current workspace files
2026-02-19 23:18:10 -06:00
<EFBFBD><EFBFBD>//+------------------------------------------------------------------+
//| QuarterTheory_OPTIMIZED.mq5 |
//| OPTIMIZED: Wide SL + Strong MA TPs + Liquidity Sweeps |
//| Stronger MAs (230+) are Major Triggers & TPs - Stay in Longer |
//+------------------------------------------------------------------+
#property copyright "Optimized System - Hit TPs, Re-enter Sweeps"
#property version "9.00"
#property strict
#include <Trade/Trade.mqh>
CTrade Trade;
//================ INPUT PARAMETERS ==================//
input group "=== GENERAL ==="
input int MagicNumber = 456789;
input double Risk_Per_Trade = 1.5;
input int Max_Simultaneous_Trades = 6;
input group "=== RISK MANAGEMENT (WIDER SL) ==="
input int Initial_SL_Points = 300; // WIDER! 30 pips for Gold
input int BreakEven_Points = 100; // Later BE
input bool Use_Wider_SL_On_Strong = true; // Even wider on 3+ MA alignment
input int Strong_Signal_SL_Points = 450; // 45 pips when 3+ MAs
input group "=== MOVING AVERAGES ==="
input int MA_1 = 7; // Fast - Entry signal
input int MA_2 = 14; // Fast - Entry signal
input int MA_3 = 21; // Fast - Entry signal
input int MA_4 = 50; // Medium - Entry signal
input int MA_5 = 140; // Medium - Entry signal
input int MA_6 = 230; // STRONG - Major trigger/TP
input int MA_7 = 500; // STRONG - Major TP
input int MA_8 = 1000; // STRONG - Major TP
input int MA_9 = 1100; // STRONG - Major TP
input int MA_10 = 1300; // STRONG - Final TP
input group "=== MA STRENGTH RULES ==="
input bool Strong_MAs_Are_Magnets = true; // 230+ are powerful TPs
input int MA_Touch_Buffer_Points = 20; // Buffer for MA "kiss"
input int Min_Aligned_For_Entry = 3; // Min MAs aligned
input int Strong_Aligned_Count = 5; // 5+ = very strong
input bool Stay_In_On_Strong = true; // Hold longer if 5+ aligned
input group "=== LIQUIDITY SWEEP RE-ENTRY ==="
input bool Trade_Liquidity_Sweeps = true; // Re-enter after SL hit
input int Sweep_Detection_Points = 50; // How far past level = sweep
input int Sweep_Cooldown_Bars = 3; // Wait 3 bars after sweep
input bool Only_Sweep_At_Fib = true; // Only sweep at Fib levels
input group "=== DYNAMIC TAKE PROFIT ==="
// WEAK (3 MAs aligned)
input double Weak_Close_At_MA6 = 20.0; // Close 20% at MA 230
input double Weak_Close_At_MA7 = 30.0; // Close 30% at MA 500
input double Weak_Close_At_MA8 = 30.0; // Close 30% at MA 1000
// MEDIUM (4 MAs aligned)
input double Medium_Close_At_MA6 = 15.0; // Close 15% at MA 230
input double Medium_Close_At_MA7 = 25.0; // Close 25% at MA 500
input double Medium_Close_At_MA8 = 25.0; // Close 25% at MA 1000
// STRONG (5+ MAs aligned)
input double Strong_Close_At_MA6 = 10.0; // Close 10% at MA 230
input double Strong_Close_At_MA7 = 20.0; // Close 20% at MA 500
input double Strong_Close_At_MA8 = 25.0; // Close 25% at MA 1000
// Remaining runs to MA 1100 and 1300
input group "=== TRAILING STRATEGY ==="
input bool Trail_To_Strong_MAs = true; // Trail SL to 230+
input int Trail_Start_Points = 150; // Start trailing
input int Trail_Step_Points = 30;
input int Trail_Stop_Points = 50;
input group "=== PRICE LEVELS ==="
input int Lookback_Bars = 200;
input int Level_Buffer_Points = 40;
input bool Show_Levels = true;
input group "=== DAILY LIMITS ==="
input double Max_Daily_Loss_Percent = 4.0; // Higher tolerance
input double Max_Daily_Profit_Percent = 20.0; // Higher target
input int Max_Trades_Per_Day = 25;
//================ GLOBALS ==================//
double PriceLevels[];
string LevelTypes[];
int TotalLevels = 0;
int MA_Handles[10];
double MA_Current[10];
double MA_Previous[10];
int TRIX_Handle;
double TRIX_Current = 0;
struct Position
{
ulong ticket;
double entry;
double original_lot;
bool is_buy;
int ma_strength; // 3=weak, 4=medium, 5+=strong
double last_sl_hit; // Track liquidity sweeps
datetime sweep_time;
bool tp_ma6_hit; // MA 230
bool tp_ma7_hit; // MA 500
bool tp_ma8_hit; // MA 1000
bool tp_ma9_hit; // MA 1100
};
Position OpenPositions[];
struct SweepMemory
{
double level;
bool was_buy;
datetime time;
int bars_ago;
};
SweepMemory RecentSweeps[50];
int TotalSweeps = 0;
double DailyStart = 0;
int TodayTrades = 0;
datetime LastDay = 0;
//+------------------------------------------------------------------+
int OnInit()
{
Print("========================================");
Print("OPTIMIZED EA v9.0");
Print("Wide SL + Strong MA TPs + Liquidity Sweeps");
Print("========================================");
Trade.SetExpertMagicNumber(MagicNumber);
Trade.SetDeviationInPoints(50);
// Initialize MAs
int periods[10] = {MA_1, MA_2, MA_3, MA_4, MA_5, MA_6, MA_7, MA_8, MA_9, MA_10};
for(int i=0; i<10; i++)
{
MA_Handles[i] = iMA(_Symbol, PERIOD_CURRENT, periods[i], 0, MODE_EMA, PRICE_CLOSE);
if(MA_Handles[i] == INVALID_HANDLE)
{
Print("ERROR: MA ", periods[i], " failed");
return INIT_FAILED;
}
}
TRIX_Handle = iMA(_Symbol, PERIOD_CURRENT, 18, 0, MODE_EMA, PRICE_CLOSE);
CalculatePriceLevels();
if(Show_Levels) DrawLevels();
DailyStart = AccountInfoDouble(ACCOUNT_BALANCE);
Print("Entry: ", Min_Aligned_For_Entry, "+ MAs | Strong: ", Strong_Aligned_Count, "+");
Print("SL: ", Initial_SL_Points, " pts | Strong: ", Strong_Signal_SL_Points, " pts");
Print("Strong MAs (230+) are MAJOR TPs");
return INIT_SUCCEEDED;
}
//+------------------------------------------------------------------+
void OnDeinit(const int reason)
{
for(int i=0; i<10; i++) IndicatorRelease(MA_Handles[i]);
IndicatorRelease(TRIX_Handle);
ObjectsDeleteAll(0, "Level_");
ObjectsDeleteAll(0, "Arrow_");
ObjectsDeleteAll(0, "Sweep_");
Print("EA Stopped");
}
//+------------------------------------------------------------------+
void CalculatePriceLevels()
{
ArrayResize(PriceLevels, 0);
ArrayResize(LevelTypes, 0);
TotalLevels = 0;
double high = iHigh(_Symbol, PERIOD_CURRENT, 1);
double low = iLow(_Symbol, PERIOD_CURRENT, 1);
for(int i=2; i<=Lookback_Bars; i++)
{
double h = iHigh(_Symbol, PERIOD_CURRENT, i);
double l = iLow(_Symbol, PERIOD_CURRENT, i);
if(h > high) high = h;
if(l < low) low = l;
}
double range = high - low;
// Fibonacci levels
AddLevel(low, "FIB_0.0");
AddLevel(low + range * 0.236, "FIB_0.236");
AddLevel(low + range * 0.382, "FIB_0.382");
AddLevel(low + range * 0.5, "FIB_0.5");
AddLevel(low + range * 0.618, "FIB_0.618");
AddLevel(low + range * 0.786, "FIB_0.786");
AddLevel(high, "FIB_1.0");
AddLevel(high + range * 0.618, "FIB_1.618");
// Quarter + Eighth
AddLevel(low + range * 0.25, "QUARTER_0.25");
AddLevel(low + range * 0.75, "QUARTER_0.75");
AddLevel(low + range * 0.125, "EIGHTH_0.125");
AddLevel(low + range * 0.375, "EIGHTH_0.375");
AddLevel(low + range * 0.625, "EIGHTH_0.625");
AddLevel(low + range * 0.875, "EIGHTH_0.875");
Print("Levels calculated: ", TotalLevels);
}
void AddLevel(double price, string type)
{
int size = ArraySize(PriceLevels);
ArrayResize(PriceLevels, size+1);
ArrayResize(LevelTypes, size+1);
PriceLevels[size] = price;
LevelTypes[size] = type;
TotalLevels++;
}
void DrawLevels()
{
ObjectsDeleteAll(0, "Level_");
for(int i=0; i<TotalLevels; i++)
{
string name = "Level_" + IntegerToString(i);
color clr = clrGray;
int width = 1;
if(StringFind(LevelTypes[i], "FIB_0.5") >= 0 ||
StringFind(LevelTypes[i], "FIB_0.618") >= 0)
{
clr = clrYellow;
width = 2;
}
else if(StringFind(LevelTypes[i], "FIB") >= 0)
{
clr = clrDodgerBlue;
}
ObjectCreate(0, name, OBJ_HLINE, 0, 0, PriceLevels[i]);
ObjectSetInteger(0, name, OBJPROP_COLOR, clr);
ObjectSetInteger(0, name, OBJPROP_STYLE, STYLE_DOT);
ObjectSetInteger(0, name, OBJPROP_WIDTH, width);
ObjectSetInteger(0, name, OBJPROP_BACK, true);
ObjectSetString(0, name, OBJPROP_TEXT, LevelTypes[i]);
}
}
//+------------------------------------------------------------------+
void UpdateMAs()
{
for(int i=0; i<10; i++)
{
double curr[1], prev[1];
CopyBuffer(MA_Handles[i], 0, 0, 1, curr);
CopyBuffer(MA_Handles[i], 0, 1, 1, prev);
MA_Current[i] = curr[0];
MA_Previous[i] = prev[0];
}
}
//+------------------------------------------------------------------+
//| COUNT ALIGNED MAs (Strength detector)
//+------------------------------------------------------------------+
int CountAlignedMAs(bool bullish)
{
UpdateMAs();
int aligned = 0;
// Check all MAs for proper stacking
for(int i=0; i<9; i++)
{
if(bullish)
{
if(MA_Current[i] > MA_Current[i+1])
aligned++;
}
else
{
if(MA_Current[i] < MA_Current[i+1])
aligned++;
}
}
return aligned;
}
//+------------------------------------------------------------------+
//| CHECK IF PRICE TOUCHING STRONG MA (230+)
//+------------------------------------------------------------------+
bool IsPriceAtStrongMA(double price, bool &at_ma230, bool &at_ma500, bool &at_ma1000)
{
double buffer = MA_Touch_Buffer_Points * _Point;
at_ma230 = MathAbs(price - MA_Current[5]) <= buffer;
at_ma500 = MathAbs(price - MA_Current[6]) <= buffer;
at_ma1000 = MathAbs(price - MA_Current[7]) <= buffer;
return (at_ma230 || at_ma500 || at_ma1000);
}
//+------------------------------------------------------------------+
//| CHECK FOR LIQUIDITY SWEEP
//+------------------------------------------------------------------+
bool IsLiquiditySweep(double current_price, bool check_buy, bool &is_fib)
{
if(!Trade_Liquidity_Sweeps) return false;
is_fib = false;
double sweep_dist = Sweep_Detection_Points * _Point;
// Look for recent price that swept past a level then reversed
for(int i=0; i<TotalLevels; i++)
{
double level = PriceLevels[i];
// Check if this is a Fib level
bool level_is_fib = StringFind(LevelTypes[i], "FIB") >= 0;
if(Only_Sweep_At_Fib && !level_is_fib) continue;
if(check_buy)
{
// Bullish sweep: Price dropped below level, now back above
double low_recent = iLow(_Symbol, PERIOD_CURRENT, 1);
double low_2 = iLow(_Symbol, PERIOD_CURRENT, 2);
if((low_recent < level || low_2 < level) && current_price > level + sweep_dist)
{
is_fib = level_is_fib;
Print("LIQUIDITY SWEEP detected: Bulls | Level: ", level, " | Type: ", LevelTypes[i]);
return true;
}
}
else
{
// Bearish sweep: Price spiked above level, now back below
double high_recent = iHigh(_Symbol, PERIOD_CURRENT, 1);
double high_2 = iHigh(_Symbol, PERIOD_CURRENT, 2);
if((high_recent > level || high_2 > level) && current_price < level - sweep_dist)
{
is_fib = level_is_fib;
Print("LIQUIDITY SWEEP detected: Bears | Level: ", level, " | Type: ", LevelTypes[i]);
return true;
}
}
}
return false;
}
//+------------------------------------------------------------------+
bool IsPriceAtLevel(double price)
{
double buffer = Level_Buffer_Points * _Point;
for(int i=0; i<TotalLevels; i++)
if(MathAbs(price - PriceLevels[i]) <= buffer)
return true;
return false;
}
//+------------------------------------------------------------------+
double GetLotSize(int sl_points, int ma_strength)
{
// Adjust risk based on strength
double risk_multiplier = 1.0;
if(ma_strength >= Strong_Aligned_Count)
risk_multiplier = 1.2; // Take 20% more risk on strong setups
double risk = AccountInfoDouble(ACCOUNT_BALANCE) * Risk_Per_Trade * risk_multiplier / 100.0;
double tickValue = SymbolInfoDouble(_Symbol, SYMBOL_TRADE_TICK_VALUE);
double tickSize = SymbolInfoDouble(_Symbol, SYMBOL_TRADE_TICK_SIZE);
double lot = risk / ((sl_points * _Point / tickSize) * tickValue);
double minLot = SymbolInfoDouble(_Symbol, SYMBOL_VOLUME_MIN);
double maxLot = SymbolInfoDouble(_Symbol, SYMBOL_VOLUME_MAX);
double step = SymbolInfoDouble(_Symbol, SYMBOL_VOLUME_STEP);
lot = MathMax(lot, minLot);
lot = MathMin(lot, maxLot);
lot = NormalizeDouble(lot / step, 0) * step;
return lot;
}
//+------------------------------------------------------------------+
bool CheckLimits()
{
MqlDateTime dt;
TimeCurrent(dt);
dt.hour = 0; dt.min = 0; dt.sec = 0;
datetime today = StructToTime(dt);
if(today != LastDay)
{
DailyStart = AccountInfoDouble(ACCOUNT_BALANCE);
TodayTrades = 0;
LastDay = today;
}
if(TodayTrades >= Max_Trades_Per_Day) return false;
double balance = AccountInfoDouble(ACCOUNT_BALANCE);
double pl = ((balance - DailyStart) / DailyStart) * 100.0;
if(pl <= -Max_Daily_Loss_Percent || pl >= Max_Daily_Profit_Percent)
return false;
return true;
}
//+------------------------------------------------------------------+
void OpenTrade(bool buy, double price, int ma_strength, string reason)
{
// Determine SL size based on strength
int sl_points = Initial_SL_Points;
if(Use_Wider_SL_On_Strong && ma_strength >= Strong_Aligned_Count)
sl_points = Strong_Signal_SL_Points;
double lot = GetLotSize(sl_points, ma_strength);
if(lot < SymbolInfoDouble(_Symbol, SYMBOL_VOLUME_MIN)) return;
double sl = buy ? price - sl_points * _Point : price + sl_points * _Point;
string strength_text = "WEAK";
if(ma_strength >= Strong_Aligned_Count) strength_text = "STRONG";
else if(ma_strength >= 4) strength_text = "MEDIUM";
string comment = strength_text + " | " + IntegerToString(ma_strength) + "MAs | " + reason;
bool result = false;
if(buy)
result = Trade.Buy(lot, _Symbol, price, sl, 0, comment);
else
result = Trade.Sell(lot, _Symbol, price, sl, 0, comment);
if(result)
{
TodayTrades++;
ulong ticket = Trade.ResultOrder();
int size = ArraySize(OpenPositions);
ArrayResize(OpenPositions, size+1);
OpenPositions[size].ticket = ticket;
OpenPositions[size].entry = price;
OpenPositions[size].original_lot = lot;
OpenPositions[size].is_buy = buy;
OpenPositions[size].ma_strength = ma_strength;
OpenPositions[size].tp_ma6_hit = false;
OpenPositions[size].tp_ma7_hit = false;
OpenPositions[size].tp_ma8_hit = false;
OpenPositions[size].tp_ma9_hit = false;
Print("========== TRADE ", TodayTrades, " ==========");
Print(buy ? "BUY" : "SELL", " @ ", price);
Print("Strength: ", strength_text, " (", ma_strength, " MAs)");
Print("SL: ", sl_points, " points");
Print("Reason: ", reason);
Print("===================================");
// Draw arrow
string arrow_name = "Arrow_" + IntegerToString(ticket);
ObjectCreate(0, arrow_name, OBJ_ARROW, 0, TimeCurrent(), price);
ObjectSetInteger(0, arrow_name, OBJPROP_COLOR, buy ? clrLime : clrRed);
ObjectSetInteger(0, arrow_name, OBJPROP_ARROWCODE, buy ? 233 : 234);
ObjectSetInteger(0, arrow_name, OBJPROP_WIDTH, 3);
}
}
//+------------------------------------------------------------------+
void ManagePositions()
{
UpdateMAs();
for(int i=PositionsTotal()-1; i>=0; i--)
{
ulong ticket = PositionGetTicket(i);
if(ticket == 0) continue;
if(PositionGetString(POSITION_SYMBOL) != _Symbol) continue;
if(PositionGetInteger(POSITION_MAGIC) != MagicNumber) continue;
int idx = -1;
for(int j=0; j<ArraySize(OpenPositions); j++)
if(OpenPositions[j].ticket == ticket)
{
idx = j;
break;
}
if(idx == -1) continue;
double entry = PositionGetDouble(POSITION_PRICE_OPEN);
double sl = PositionGetDouble(POSITION_SL);
bool is_buy = OpenPositions[idx].is_buy;
int strength = OpenPositions[idx].ma_strength;
double current = is_buy ? SymbolInfoDouble(_Symbol, SYMBOL_BID)
: SymbolInfoDouble(_Symbol, SYMBOL_ASK);
double profit_points = is_buy ? (current - entry) / _Point
: (entry - current) / _Point;
// Breakeven (later for strong signals)
int be_threshold = BreakEven_Points;
if(strength >= Strong_Aligned_Count)
be_threshold = BreakEven_Points + 50; // Give it more room
if(profit_points >= be_threshold)
{
if((is_buy && sl < entry) || (!is_buy && sl > entry))
{
Trade.PositionModify(ticket, entry, 0);
Print("BE: Position ", ticket, " | Strength: ", strength);
}
}
double lot = PositionGetDouble(POSITION_VOLUME);
// DYNAMIC TP based on strength
double close_ma6_pct, close_ma7_pct, close_ma8_pct;
if(strength >= Strong_Aligned_Count)
{
close_ma6_pct = Strong_Close_At_MA6;
close_ma7_pct = Strong_Close_At_MA7;
close_ma8_pct = Strong_Close_At_MA8;
}
else if(strength >= 4)
{
close_ma6_pct = Medium_Close_At_MA6;
close_ma7_pct = Medium_Close_At_MA7;
close_ma8_pct = Medium_Close_At_MA8;
}
else
{
close_ma6_pct = Weak_Close_At_MA6;
close_ma7_pct = Weak_Close_At_MA7;
close_ma8_pct = Weak_Close_At_MA8;
}
// TP at MA 230 (Strong MA!)
if(!OpenPositions[idx].tp_ma6_hit)
{
bool hit = is_buy ? (current >= MA_Current[5]) : (current <= MA_Current[5]);
if(hit)
{
double close_size = NormalizeDouble(OpenPositions[idx].original_lot * close_ma6_pct / 100.0, 2);
if(close_size > 0 && close_size <= lot)
{
Trade.PositionClosePartial(ticket, close_size);
OpenPositions[idx].tp_ma6_hit = true;
Print("TP: MA 230 hit | Closed ", close_ma6_pct, "% | Ticket: ", ticket);
}
}
}
// TP at MA 500
if(!OpenPositions[idx].tp_ma7_hit)
{
bool hit = is_buy ? (current >= MA_Current[6]) : (current <= MA_Current[6]);
if(hit)
{
double close_size = NormalizeDouble(OpenPositions[idx].original_lot * close_ma7_pct / 100.0, 2);
if(close_size > 0 && close_size <= lot)
{
Trade.PositionClosePartial(ticket, close_size);
OpenPositions[idx].tp_ma7_hit = true;
Print("TP: MA 500 hit | Closed ", close_ma7_pct, "% | Ticket: ", ticket);
}
}
}
// TP at MA 1000
if(!OpenPositions[idx].tp_ma8_hit)
{
bool hit = is_buy ? (current >= MA_Current[7]) : (current <= MA_Current[7]);
if(hit)
{
double close_size = NormalizeDouble(OpenPositions[idx].original_lot * close_ma8_pct / 100.0, 2);
if(close_size > 0 && close_size <= lot)
{
Trade.PositionClosePartial(ticket, close_size);
OpenPositions[idx].tp_ma8_hit = true;
Print("TP: MA 1000 hit | Closed ", close_ma8_pct, "% | Ticket: ", ticket);
}
}
}
// Trailing - to strong MAs or fixed points
if(profit_points >= Trail_Start_Points)
{
if(Trail_To_Strong_MAs)
{
// Trail to highest broken strong MA
double trail_level = 0;
if(is_buy)
{
// Trail to highest MA below current price
if(MA_Current[5] < current && MA_Current[5] > trail_level) // 230
trail_level = MA_Current[5];
if(MA_Current[6] < current && MA_Current[6] > trail_level) // 500
trail_level = MA_Current[6];
if(MA_Current[7] < current && MA_Current[7] > trail_level) // 1000
trail_level = MA_Current[7];
if(MA_Current[8] < current && MA_Current[8] > trail_level) // 1100
trail_level = MA_Current[8];
if(trail_level > sl + Trail_Step_Points * _Point)
{
Trade.PositionModify(ticket, trail_level, 0);
Print("Trail: SL <00>! MA level ", trail_level);
}
}
else
{
// Trail to lowest MA above current price
trail_level = 999999;
if(MA_Current[5] > current && MA_Current[5] < trail_level)
trail_level = MA_Current[5];
if(MA_Current[6] > current && MA_Current[6] < trail_level)
trail_level = MA_Current[6];
if(MA_Current[7] > current && MA_Current[7] < trail_level)
trail_level = MA_Current[7];
if(MA_Current[8] > current && MA_Current[8] < trail_level)
trail_level = MA_Current[8];
if(trail_level < 999999 && trail_level < sl - Trail_Step_Points * _Point)
{
Trade.PositionModify(ticket, trail_level, 0);
Print("Trail: SL <00>! MA level ", trail_level);
}
}
}
else
{
// Standard trailing
double newSL = is_buy ? current - Trail_Stop_Points * _Point
: current + Trail_Stop_Points * _Point;
if((is_buy && newSL > sl + Trail_Step_Points * _Point) ||
(!is_buy && newSL < sl - Trail_Step_Points * _Point))
{
Trade.PositionModify(ticket, newSL, 0);
}
}
}
}
}
//+------------------------------------------------------------------+
void OnTick()
{
ManagePositions();
if(!CheckLimits()) return;
int open = 0;
for(int i=0; i<PositionsTotal(); i++)
{
if(PositionGetTicket(i) == 0) continue;
if(PositionGetString(POSITION_SYMBOL) == _Symbol &&
PositionGetInteger(POSITION_MAGIC) == MagicNumber)
open++;
}
if(open >= Max_Simultaneous_Trades) return;
static datetime last_calc = 0;
if(TimeCurrent() - last_calc > 1800)
{
CalculatePriceLevels();
if(Show_Levels) DrawLevels();
last_calc = TimeCurrent();
}
double bid = SymbolInfoDouble(_Symbol, SYMBOL_BID);
double ask = SymbolInfoDouble(_Symbol, SYMBOL_ASK);
double current = (bid + ask) / 2;
// Count aligned MAs (strength)
int bull_strength = CountAlignedMAs(true);
int bear_strength = CountAlignedMAs(false);
// Check if at price level
bool at_level = IsPriceAtLevel(current);
// Check if touching strong MAs
bool at_ma230=false, at_ma500=false, at_ma1000=false;
bool at_strong_ma = IsPriceAtStrongMA(current, at_ma230, at_ma500, at_ma1000);
// Check for liquidity sweeps
bool is_fib_sweep = false;
bool bull_sweep = IsLiquiditySweep(current, true, is_fib_sweep);
bool bear_sweep = IsLiquiditySweep(current, false, is_fib_sweep);
// === ENTRY LOGIC ===
// BUY signals
bool buy_signal = false;
string buy_reason = "";
// 1. Strong MAs aligned + at level
if(bull_strength >= Min_Aligned_For_Entry && at_level)
{
buy_signal = true;
buy_reason = IntegerToString(bull_strength) + " MAs + Level";
}
// 2. Touching strong MA (230+) + MAs aligned
if(Strong_MAs_Are_Magnets && bull_strength >= Min_Aligned_For_Entry && at_strong_ma)
{
buy_signal = true;
if(at_ma230) buy_reason = "MA 230 Kiss + " + IntegerToString(bull_strength) + " MAs";
else if(at_ma500) buy_reason = "MA 500 Kiss + " + IntegerToString(bull_strength) + " MAs";
else if(at_ma1000) buy_reason = "MA 1000 Kiss + " + IntegerToString(bull_strength) + " MAs";
}
// 3. Liquidity sweep + strong alignment
if(bull_sweep && bull_strength >= Min_Aligned_For_Entry)
{
buy_signal = true;
buy_reason = "Liquidity Sweep (Bull) + " + IntegerToString(bull_strength) + " MAs";
}
// 4. Very strong alignment (5+) = auto entry at any level
if(bull_strength >= Strong_Aligned_Count && at_level)
{
buy_signal = true;
buy_reason = "STRONG " + IntegerToString(bull_strength) + " MAs ALIGNED!";
}
// SELL signals
bool sell_signal = false;
string sell_reason = "";
// 1. Strong MAs aligned + at level
if(bear_strength >= Min_Aligned_For_Entry && at_level)
{
sell_signal = true;
sell_reason = IntegerToString(bear_strength) + " MAs + Level";
}
// 2. Touching strong MA (230+) + MAs aligned
if(Strong_MAs_Are_Magnets && bear_strength >= Min_Aligned_For_Entry && at_strong_ma)
{
sell_signal = true;
if(at_ma230) sell_reason = "MA 230 Kiss + " + IntegerToString(bear_strength) + " MAs";
else if(at_ma500) sell_reason = "MA 500 Kiss + " + IntegerToString(bear_strength) + " MAs";
else if(at_ma1000) sell_reason = "MA 1000 Kiss + " + IntegerToString(bear_strength) + " MAs";
}
// 3. Liquidity sweep + strong alignment
if(bear_sweep && bear_strength >= Min_Aligned_For_Entry)
{
sell_signal = true;
sell_reason = "Liquidity Sweep (Bear) + " + IntegerToString(bear_strength) + " MAs";
}
// 4. Very strong alignment (5+) = auto entry
if(bear_strength >= Strong_Aligned_Count && at_level)
{
sell_signal = true;
sell_reason = "STRONG " + IntegerToString(bear_strength) + " MAs ALIGNED!";
}
// EXECUTE
if(buy_signal)
{
OpenTrade(true, ask, bull_strength, buy_reason);
}
if(sell_signal)
{
OpenTrade(false, bid, bear_strength, sell_reason);
}
}
//+------------------------------------------------------------------+
Reference in a new issue Copy permalink