tickdata / simulate_causal.py
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import pandas as pd
import numpy as np
def calculate_adx(df, period=14):
df['h_l'] = df['high'] - df['low']
df['h_pc'] = (df['high'] - df['close'].shift(1)).abs()
df['l_pc'] = (df['low'] - df['close'].shift(1)).abs()
df['tr'] = df[['h_l', 'h_pc', 'l_pc']].max(axis=1)
df['+dm'] = np.where((df['high'] - df['high'].shift(1)) > (df['low'].shift(1) - df['low']),
np.maximum(df['high'] - df['high'].shift(1), 0), 0)
df['-dm'] = np.where((df['low'].shift(1) - df['low']) > (df['high'] - df['high'].shift(1)),
np.maximum(df['low'].shift(1) - df['low'], 0), 0)
alpha = 1 / period
df['tr_smooth'] = df['tr'].ewm(alpha=alpha, adjust=False).mean() * period
df['+dm_smooth'] = df['+dm'].ewm(alpha=alpha, adjust=False).mean() * period
df['-dm_smooth'] = df['-dm'].ewm(alpha=alpha, adjust=False).mean() * period
df['+di'] = 100 * (df['+dm_smooth'] / df['tr_smooth'])
df['-di'] = 100 * (df['-dm_smooth'] / df['tr_smooth'])
df['dx'] = 100 * (df['+di'] - df['-di']).abs() / (df['+di'] + df['-di']).replace(0, 1)
df['adx'] = df['dx'].ewm(alpha=alpha, adjust=False).mean()
return df
def run_simulation():
print("--- V14.19 Quatum Pendulum Simulator ---")
print("Loading OHLC Parquet data...")
m1 = pd.read_parquet('native_rates_M1.parquet')
m5 = pd.read_parquet('native_rates_M5.parquet')
m15 = pd.read_parquet('native_rates_M15.parquet')
m1['time_dt'] = pd.to_datetime(m1['time'], unit='s')
m5['time_dt'] = pd.to_datetime(m5['time'], unit='s')
m15['time_dt'] = pd.to_datetime(m15['time'], unit='s')
print("Calculating ADX & DMI Vectors...")
m1 = calculate_adx(m1, 14)
m5 = calculate_adx(m5, 14)
m15 = calculate_adx(m15, 14)
m1.set_index('time_dt', inplace=True)
m5.set_index('time_dt', inplace=True)
m15.set_index('time_dt', inplace=True)
df = m1[['open', 'high', 'low', 'close', 'adx', '+di', '-di']].copy()
df.rename(columns={'adx': 'adx_M1', '+di': 'di_plus_M1', '-di': 'di_minus_M1'}, inplace=True)
m5_cols = m5[['adx', '+di', '-di']].rename(columns={'adx': 'adx_M5', '+di': 'di_plus_M5', '-di': 'di_minus_M5'})
m5_cols.index = m5_cols.index + pd.Timedelta(minutes=5)
df = df.join(m5_cols)
df[['adx_M5', 'di_plus_M5', 'di_minus_M5']] = df[['adx_M5', 'di_plus_M5', 'di_minus_M5']].ffill()
m15_cols = m15[['adx', '+di', '-di']].rename(columns={'adx': 'adx_M15', '+di': 'di_plus_M15', '-di': 'di_minus_M15'})
m15_cols.index = m15_cols.index + pd.Timedelta(minutes=15)
df = df.join(m15_cols)
df[['adx_M15', 'di_plus_M15', 'di_minus_M15']] = df[['adx_M15', 'di_plus_M15', 'di_minus_M15']].ffill()
df.dropna(inplace=True)
# Static thresholds based on average spread
t_M1 = 18.0
t_M5 = 18.0
t_M15 = 18.0
print("Mapping 8 Quantum Phases...")
a1 = (df['adx_M1'] >= t_M1).astype(int)
a5 = (df['adx_M5'] >= t_M5).astype(int)
a15 = (df['adx_M15'] >= t_M15).astype(int)
# 8-Phase Mapping (Binary Logic)
df['phase'] = 1
df.loc[(a15==0) & (a5==0) & (a1==0), 'phase'] = 1
df.loc[(a15==0) & (a5==0) & (a1==1), 'phase'] = 2
df.loc[(a15==0) & (a5==1) & (a1==0), 'phase'] = 3
df.loc[(a15==1) & (a5==0) & (a1==0), 'phase'] = 4
df.loc[(a15==0) & (a5==1) & (a1==1), 'phase'] = 5
df.loc[(a15==1) & (a5==0) & (a1==1), 'phase'] = 6
df.loc[(a15==1) & (a5==1) & (a1==0), 'phase'] = 7
df.loc[(a15==1) & (a5==1) & (a1==1), 'phase'] = 8
df['phase_prev'] = df['phase'].shift(1)
df['phase_transition'] = df['phase'] != df['phase_prev']
# DMI Score (using M15 as commanding direction)
sum_di = df['di_plus_M15'] + df['di_minus_M15']
df['dmi_dir'] = np.where(df['di_plus_M15'] > df['di_minus_M15'], 1, -1)
df['dmi_score'] = (df[['di_plus_M15', 'di_minus_M15']].max(axis=1) / sum_di) * 100
# DMI Score M5 (for Death Zone check)
sum_di_m5 = df['di_plus_M5'] + df['di_minus_M5']
df['dmi_dir_m5'] = np.where(df['di_plus_M5'] > df['di_minus_M5'], 1, -1)
df['dmi_score_m5'] = (df[['di_plus_M5', 'di_minus_M5']].max(axis=1) / sum_di_m5) * 100
# Tick Phase Age
age = []
current_age = 0
curr_p = df['phase'].iloc[0]
for p in df['phase']:
if p == curr_p:
current_age += 1
else:
current_age = 1
curr_p = p
age.append(current_age)
df['phase_age'] = age
print("Executing FULL 4-Pendulum Trigger Matrix V14.19...\n")
stats = {
'L0_Mega': {'trades': 0, 'wins': 0, 'total_pips': 0.0, 'mult': 3.0},
'L0_Snipe': {'trades': 0, 'wins': 0, 'total_pips': 0.0, 'mult': 2.0},
'L0_Scout': {'trades': 0, 'wins': 0, 'total_pips': 0.0, 'mult': 1.0},
'D0_Grinder': {'trades': 0, 'wins': 0, 'total_pips': 0.0, 'mult': 1.0},
'R0_Fade': {'trades': 0, 'wins': 0, 'total_pips': 0.0, 'mult': 1.5},
'DeathZone_Trap': {'trades': 0, 'wins': 0, 'total_pips': 0.0, 'mult': 1.0}
}
stats_L0_Trap = {'dodges': 0}
# Simulate entries
tp_pips = 30.0
sl_pips = 30.0
tp_d0 = 15.0 # D0 takes smaller cuts
sl_d0 = 15.0
tp_r0 = 20.0 # R0 (Fade) takes quick mean-reversion scalps
sl_r0 = 20.0
for i in range(1, len(df)-60):
if df['phase_transition'].iloc[i]:
pf_prev = df['phase_prev'].iloc[i]
pf_curr = df['phase'].iloc[i]
dmi_score = df['dmi_score'].iloc[i]
dir_mult = df['dmi_dir'].iloc[i]
entry_price = df['close'].iloc[i]
gun = None
is_d0 = False
is_r0 = False
is_deathzone = False
# --- Pendulum 4 (#5 -> #8): Mega & Snipe ---
if pf_prev == 5 and pf_curr == 8:
if dmi_score > 75:
gun = 'L0_Mega'
elif dmi_score > 65:
gun = 'L0_Snipe'
# --- The Return Stroke (#8 -> #7): R0 Fade ---
elif pf_prev == 8 and pf_curr == 7:
# Trạng thái rớt đài của siêu Trend (M1 rụng), nảy sinh nhịp Pullback ngược hướng
gun = 'R0_Fade'
is_r0 = True
dir_mult = dir_mult * -1 # Bắn ngược lại với hướng Trend chính
# --- Pendulum 2 (#4 -> #7) : Scout ---
elif pf_prev == 4 and pf_curr == 7:
if dmi_score > 55:
gun = 'L0_Scout'
# --- Pendulum 1 (#1 <-> #2) : D0 Grinder ---
elif (pf_prev == 1 and pf_curr == 2) or (pf_prev == 2 and pf_curr == 1):
if dmi_score < 60: # Neutral DMI
gun = 'D0_Grinder'
is_d0 = True
dir_mult = 1 if df['close'].iloc[i] < df['open'].iloc[i] else -1
# --- Pendulum 3 (#3 <-> #6) : DEATH ZONE TRAP ---
elif pf_prev == 3 and pf_curr == 6:
gun = 'DeathZone_Trap'
dir_mult = df['dmi_dir_m5'].iloc[i]
is_deathzone = True
if gun is None:
continue
future_highs = df['high'].iloc[i+1:i+61]
future_lows = df['low'].iloc[i+1:i+61]
pnl = 0
win = 0
# Dynamic TP/SL setup
t_tp = tp_pips
t_sl = sl_pips
if is_d0:
t_tp, t_sl = tp_d0, sl_d0
elif is_r0:
t_tp, t_sl = tp_r0, sl_r0
if dir_mult == 1:
for h, l in zip(future_highs, future_lows):
if h >= entry_price + (t_tp * 0.01):
pnl = t_tp
win = 1
break
elif l <= entry_price - (t_sl * 0.01):
pnl = -t_sl
win = 0
break
else:
for h, l in zip(future_highs, future_lows):
if l <= entry_price - (t_tp * 0.01):
pnl = t_tp
win = 1
break
elif h >= entry_price + (t_sl * 0.01):
pnl = -t_sl
win = 0
break
# If no exit hit in 60 mins (closed by time)
if pnl == 0:
pnl = ((df['close'].iloc[i+60] - entry_price) / 0.01) * dir_mult
if pnl > 0: win = 1
stats[gun]['trades'] += 1
stats[gun]['wins'] += win
stats[gun]['total_pips'] += pnl
# --- Trap Dodge Verification ---
if df['phase'].iloc[i] == 8 and df['phase_age'].iloc[i] == 50:
stats_L0_Trap['dodges'] += 1
# Print Dashboard
print(f"|=================================================|")
print(f"| FULL 4-PENDULUM MATRIX BACKTEST (10 DAYS) |")
print(f"|=================================================|")
for name, s in stats.items():
tr = s['trades']
if tr == 0:
print(f" * {name:<14} | Trades: 0")
continue
wr = (s['wins']/tr)*100
net_profit = s['total_pips'] * s['mult']
if "DeathZone" in name:
print(f" ☠️ {name:<14} | Trades: {tr:<4} | WinRate: {wr:>5.1f}% | Net Margin Delta: {net_profit:+.1f} units")
else:
print(f" * {name:<14} | Trades: {tr:<4} | WinRate: {wr:>5.1f}% | Net Margin Delta: {net_profit:+.1f} units")
print(f"\\n - L0_Trap (Old L0 Top Execution Prevented): Avoided {stats_L0_Trap['dodges']} exact local tops/bottoms.")
print(f"|=================================================|")
if __name__ == '__main__':
run_simulation()