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StocksenseGG

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import streamlit as st
import yfinance as yf
import numpy as np
import pandas as pd
import plotly.graph_objects as go
from plotly.subplots import make_subplots
from sklearn.preprocessing import MinMaxScaler
from sklearn.metrics import mean_absolute_error, mean_squared_error
from datetime import timedelta
import math, gc, warnings
warnings.filterwarnings("ignore")

import torch
import torch.nn as nn

# ── Page config ───────────────────────────────────────────────────────────────
st.set_page_config(
    page_title="StockSense · ML Dashboard",
    page_icon="📈",
    layout="wide",
    initial_sidebar_state="expanded",
)

# ── CSS ───────────────────────────────────────────────────────────────────────
st.markdown("""
<style>
@import url('https://fonts.googleapis.com/css2?family=JetBrains+Mono:wght@400;600&family=Syne:wght@700;800&display=swap');

html, body, [class*="css"] {
    background-color: #0d1117 !important;
    color: #e2e8f0 !important;
    font-family: 'JetBrains Mono', monospace !important;
}
section[data-testid="stSidebar"] {
    background-color: #0d1117 !important;
    border-right: 1px solid #1f2937 !important;
}
.stButton > button {
    background: linear-gradient(135deg, #2d6a4f, #1a7a4a) !important;
    border: 1px solid #48bb78 !important;
    color: #f0fff4 !important;
    font-family: 'JetBrains Mono', monospace !important;
    font-weight: 600 !important;
    letter-spacing: 0.05em !important;
    width: 100% !important;
    padding: 0.6rem !important;
    border-radius: 6px !important;
}
.stButton > button:hover {
    background: linear-gradient(135deg, #48bb78, #2d6a4f) !important;
    box-shadow: 0 0 20px rgba(72,187,120,0.3) !important;
}
.metric-card {
    background: #111827;
    border: 1px solid #1f2937;
    border-radius: 8px;
    padding: 16px 20px;
    text-align: center;
}
.metric-label {
    font-size: 10px;
    letter-spacing: 0.15em;
    color: #4b5563;
    margin-bottom: 6px;
}
.metric-value {
    font-size: 1.4rem;
    font-weight: 600;
    color: #f0fff4;
}
.metric-sub {
    font-size: 11px;
    color: #48bb78;
    margin-top: 4px;
}
div[data-testid="stSelectbox"] label,
div[data-testid="stSlider"] label {
    color: #6b7280 !important;
    font-size: 10px !important;
    letter-spacing: 0.12em !important;
}
.arch-box {
    background: #0d1117;
    border: 1px solid #1f2937;
    border-radius: 6px;
    padding: 14px;
    font-size: 10px;
    color: #4b5563;
    line-height: 1.9;
    margin-top: 12px;
}
.arch-title { color: #48bb78; font-weight: 600; margin-bottom: 4px; }
.stSpinner > div { border-top-color: #48bb78 !important; }
</style>
""", unsafe_allow_html=True)

# ── Constants ─────────────────────────────────────────────────────────────────
STOCKS = {
    "🍎 Apple (AAPL)":            "AAPL",
    "🔍 Google (GOOGL)":          "GOOGL",
    "🪟 Microsoft (MSFT)":        "MSFT",
    "🚗 Tesla (TSLA)":            "TSLA",
    "📦 Amazon (AMZN)":           "AMZN",
    "📱 Meta (META)":              "META",
    "🟢 NVIDIA (NVDA)":           "NVDA",
    "🛢️ Reliance (RELIANCE.NS)":  "RELIANCE.NS",
    "💻 TCS (TCS.NS)":            "TCS.NS",
    "🏦 HDFC Bank (HDFCBANK.NS)": "HDFCBANK.NS",
}
CURRENCY = {
    "AAPL":"$","GOOGL":"$","MSFT":"$","TSLA":"$","AMZN":"$","META":"$","NVDA":"$",
    "RELIANCE.NS":"₹","TCS.NS":"₹","HDFCBANK.NS":"₹",
}

# ── Technical Indicators ──────────────────────────────────────────────────────
def compute_rsi(s, p=14):
    d = s.diff()
    g = d.clip(lower=0).rolling(p).mean()
    l = (-d.clip(upper=0)).rolling(p).mean()
    return 100 - 100 / (1 + g / (l + 1e-10))

def compute_macd(s, fast=12, slow=26, sig=9):
    ef = s.ewm(span=fast, adjust=False).mean()
    es = s.ewm(span=slow, adjust=False).mean()
    m  = ef - es
    sg = m.ewm(span=sig, adjust=False).mean()
    return m, sg, m - sg

def compute_bollinger(s, p=20, w=2):
    sma = s.rolling(p).mean()
    sd  = s.rolling(p).std()
    return sma + w*sd, sma, sma - w*sd

# ── PyTorch LSTM ──────────────────────────────────────────────────────────────
class StockLSTM(nn.Module):
    def __init__(self, seq_len):
        super().__init__()
        self.conv  = nn.Sequential(
            nn.Conv1d(1, 32, kernel_size=3, padding=1),
            nn.ReLU(),
            nn.MaxPool1d(2),
        )
        self.lstm1 = nn.LSTM(32, 64, batch_first=True, bidirectional=True)
        self.drop1 = nn.Dropout(0.25)
        self.lstm2 = nn.LSTM(128, 32, batch_first=True, bidirectional=True)
        self.drop2 = nn.Dropout(0.25)
        self.fc    = nn.Sequential(nn.Linear(64, 32), nn.ReLU(), nn.Linear(32, 1))

    def forward(self, x):
        x = x.permute(0, 2, 1)
        x = self.conv(x)
        x = x.permute(0, 2, 1)
        x, _ = self.lstm1(x)
        x = self.drop1(x)
        x, _ = self.lstm2(x)
        x = self.drop2(x[:, -1, :])
        return self.fc(x)

def train_model(X_tr, y_tr, X_te, y_te, seq_len, epochs, progress_bar):
    model   = StockLSTM(seq_len)
    opt     = torch.optim.Adam(model.parameters(), lr=1e-3)
    sched   = torch.optim.lr_scheduler.ReduceLROnPlateau(opt, patience=3, factor=0.5)
    loss_fn = nn.HuberLoss()

    Xtr = torch.tensor(X_tr, dtype=torch.float32)
    ytr = torch.tensor(y_tr, dtype=torch.float32)
    Xte = torch.tensor(X_te, dtype=torch.float32)
    yte = torch.tensor(y_te, dtype=torch.float32)

    ds     = torch.utils.data.TensorDataset(Xtr, ytr)
    loader = torch.utils.data.DataLoader(ds, batch_size=32, shuffle=True)

    best_val, best_state, patience_cnt = float('inf'), None, 0
    for ep in range(int(epochs)):
        model.train()
        for xb, yb in loader:
            opt.zero_grad()
            loss_fn(model(xb).squeeze(), yb.squeeze()).backward()
            nn.utils.clip_grad_norm_(model.parameters(), 1.0)
            opt.step()
        model.eval()
        with torch.no_grad():
            val = loss_fn(model(Xte).squeeze(), yte.squeeze()).item()
        sched.step(val)
        if val < best_val:
            best_val = val
            best_state = {k: v.clone() for k, v in model.state_dict().items()}
            patience_cnt = 0
        else:
            patience_cnt += 1
            if patience_cnt >= 6:
                break
        progress_bar.progress(int((ep + 1) / epochs * 100),
                               text=f"Training epoch {ep+1}/{epochs} · val_loss={val:.5f}")
    if best_state:
        model.load_state_dict(best_state)
    return model

def predict(model, X):
    model.eval()
    with torch.no_grad():
        return model(torch.tensor(X, dtype=torch.float32)).squeeze().numpy()

# ── Sentiment (lazy) ──────────────────────────────────────────────────────────
@st.cache_resource(show_spinner=False)
def load_finbert():
    from transformers import pipeline as hf_pipeline
    return hf_pipeline("sentiment-analysis", model="ProsusAI/finbert",
                        truncation=True, max_length=256, device=-1, batch_size=4)

def get_sentiment(ticker):
    try:
        pipe   = load_finbert()
        news   = yf.Ticker(ticker).news[:8] or []
        heads  = [n.get("title", "") for n in news if n.get("title")]
        if not heads:
            return None, "_No recent headlines found._"
        res    = pipe(heads)
        pos    = sum(1 for r in res if r['label'] == 'positive')
        neg    = sum(1 for r in res if r['label'] == 'negative')
        neu    = sum(1 for r in res if r['label'] == 'neutral')
        score  = (pos - neg) / len(res)
        label  = "🟢 Bullish" if score > 0.2 else ("🔴 Bearish" if score < -0.2 else "🟡 Neutral")
        rows   = []
        for h, r in zip(heads, res):
            e = {"positive": "🟢", "negative": "🔴", "neutral": "🟡"}.get(r['label'], "⚪")
            rows.append(f"{e} **{r['score']*100:.1f}%** — {h[:85]}")
        return score, (
            f"**Sentiment: {label}** &nbsp;·&nbsp; "
            f"FinBERT analyzed {len(res)} headlines &nbsp;·&nbsp; "
            f"🟢 {pos} &nbsp;🔴 {neg} &nbsp;🟡 {neu}\n\n" + "\n\n".join(rows)
        )
    except Exception as e:
        return None, f"_Sentiment unavailable: {e}_"

# ── Header ────────────────────────────────────────────────────────────────────
st.markdown("""
<div style="text-align:center; padding: 24px 0 4px 0;">
  <div style="font-size:2.8rem; font-weight:800;
              background: linear-gradient(135deg, #ffffff 0%, #a3f7c4 50%, #93dcf8 100%);
              -webkit-background-clip: text; -webkit-text-fill-color: transparent;
              background-clip: text;
              font-family:'Syne',sans-serif; line-height:1.1; letter-spacing:-.01em;
              filter: drop-shadow(0 0 18px rgba(72,187,120,0.55));">
    STOCKSENSE
  </div>
  <div style="font-size:11px; color:#718096; letter-spacing:.18em; margin-top:6px;">
    PyTorch LSTM &nbsp;·&nbsp; FinBERT &nbsp;·&nbsp; Technical Analysis &nbsp;·&nbsp; Monte Carlo CI
  </div>
  <div style="width:56px; height:2px; background:linear-gradient(90deg,#48bb78,#63b3ed);
              margin:14px auto 0; border-radius:2px;
              box-shadow: 0 0 10px rgba(72,187,120,0.6);"></div>
</div>
""", unsafe_allow_html=True)

st.markdown("<br>", unsafe_allow_html=True)

# ── Sidebar ───────────────────────────────────────────────────────────────────
with st.sidebar:
    st.markdown("### ⚙️ Configuration")
    stock_label  = st.selectbox("STOCK", list(STOCKS.keys()))
    period       = st.selectbox("HISTORICAL PERIOD", ["6mo","1y","2y","3y","5y"], index=2)
    forecast_days= st.slider("FORECAST DAYS", 3, 14, 7)
    epochs       = st.slider("TRAINING EPOCHS", 10, 40, 20, step=5)
    run_btn      = st.button("▶  RUN ANALYSIS")
    st.markdown("""
    <div class="arch-box">
      <div class="arch-title">MODEL ARCHITECTURE</div>
      Conv1D(32) → MaxPool<br>
      BiLSTM(64) → Dropout(0.25)<br>
      BiLSTM(32) → Dropout(0.25)<br>
      Dense(32) → Dense(1)<br>
      Loss: Huber &nbsp;·&nbsp; Opt: Adam<br>
      LR: ReduceLROnPlateau<br>
      <div class="arch-title" style="margin-top:10px;">NLP SENTIMENT</div>
      ProsusAI/FinBERT<br>
      Live Yahoo Finance headlines
    </div>
    """, unsafe_allow_html=True)
    st.markdown("""
    <div style="font-size:9px; color:#374151; margin-top:16px; text-align:center; line-height:1.7;">
      ⚠️ Academic ML project<br>Not financial advice
    </div>
    """, unsafe_allow_html=True)

# ── Main logic ────────────────────────────────────────────────────────────────
if not run_btn:
    st.markdown("""
    <div style="text-align:center; padding:60px 0; color:#374151;">
      <div style="font-size:3rem; margin-bottom:16px;">📈</div>
      <div style="font-size:14px; letter-spacing:.1em;">
        SELECT A STOCK AND CLICK RUN ANALYSIS
      </div>
    </div>
    """, unsafe_allow_html=True)
    st.stop()

ticker = STOCKS[stock_label]
curr   = CURRENCY.get(ticker, "$")
SEQ    = 60

# ── Fetch data ────────────────────────────────────────────────────────────────
with st.spinner("Fetching live market data..."):
    try:
        df = yf.download(ticker, period=period, progress=False, auto_adjust=True)
    except Exception as e:
        st.error(f"yfinance error: {e}")
        st.stop()

    st.caption(f"DEBUG — rows: {len(df)}, cols: {list(df.columns)}")

    if df.empty:
        st.error(f"No data returned for {ticker}. Try again in 30s.")
        st.stop()

    if isinstance(df.columns, pd.MultiIndex):
        df.columns = df.columns.get_level_values(0)

    df.dropna(inplace=True)

    if len(df) < SEQ + 20:
        st.error(f"Only {len(df)} rows — need {SEQ+20}+. Try a longer period.")
        st.stop()

    close = df["Close"].squeeze()

# ── Indicators ────────────────────────────────────────────────────────────────
with st.spinner("Computing technical indicators..."):
    rsi              = compute_rsi(close)
    macd, sig, hist  = compute_macd(close)
    bb_up, bb_mid, bb_low = compute_bollinger(close)

# ── Prepare sequences ─────────────────────────────────────────────────────────
prices = close.values.reshape(-1, 1).astype(float)
scaler = MinMaxScaler()
scaled = scaler.fit_transform(prices)

X, y = [], []
for i in range(SEQ, len(scaled)):
    X.append(scaled[i-SEQ:i])
    y.append(scaled[i, 0])
X = np.array(X, dtype=np.float32)
y = np.array(y, dtype=np.float32)

split = int(len(X) * 0.85)
X_tr, X_te = X[:split], X[split:]
y_tr, y_te = y[:split], y[split:]

# ── Train ─────────────────────────────────────────────────────────────────────
st.markdown("**Training LSTM model...**")
pb    = st.progress(0, text="Starting training...")
model = train_model(X_tr, y_tr, X_te, y_te, SEQ, epochs, pb)
pb.empty()

# ── Predictions ───────────────────────────────────────────────────────────────
with st.spinner("Generating predictions..."):
    pred_s = predict(model, X_te).reshape(-1, 1)
    pred   = scaler.inverse_transform(pred_s).flatten()
    actual = scaler.inverse_transform(y_te.reshape(-1, 1)).flatten()
    mae    = mean_absolute_error(actual, pred)
    rmse   = math.sqrt(mean_squared_error(actual, pred))
    mape   = float(np.mean(np.abs((actual - pred) / (actual + 1e-10)))) * 100
    test_dates = close.index[SEQ + split:]

# ── Forecast ──────────────────────────────────────────────────────────────────
with st.spinner("Forecasting future prices..."):
    cur_seq  = scaled[-SEQ:].copy()
    forecast = []
    for _ in range(forecast_days):
        inp = cur_seq.reshape(1, SEQ, 1).astype(np.float32)
        out = float(predict(model, inp))
        forecast.append(out)
        cur_seq = np.append(cur_seq[1:], [[out]], axis=0)
    forecast_prices = scaler.inverse_transform(
        np.array(forecast, dtype=np.float32).reshape(-1, 1)).flatten()

    mc = []
    for _ in range(30):
        sq = scaled[-SEQ:].copy(); run = []
        for _ in range(forecast_days):
            inp = sq.reshape(1, SEQ, 1).astype(np.float32)
            o   = float(predict(model, inp)) + np.random.normal(0, 0.006)
            run.append(o)
            sq  = np.append(sq[1:], [[o]], axis=0)
        mc.append(scaler.inverse_transform(
            np.array(run, dtype=np.float32).reshape(-1, 1)).flatten())
    mc       = np.array(mc)
    ci_upper = np.percentile(mc, 90, axis=0)
    ci_lower = np.percentile(mc, 10, axis=0)

    last_date      = close.index[-1]
    forecast_dates = pd.bdate_range(
        start=last_date + timedelta(days=1), periods=forecast_days)

# ── Metric cards ─────────────────────────────────────────────────────────────
direction  = "📈 UP" if forecast_prices[-1] > float(close.iloc[-1]) else "📉 DOWN"
pct        = ((forecast_prices[-1] - float(close.iloc[-1])) / float(close.iloc[-1])) * 100
color      = "#48bb78" if pct > 0 else "#fc8181"

c1, c2, c3, c4, c5 = st.columns(5)
for col, label, val, sub in [
    (c1, "CURRENT PRICE",    f"{curr}{float(close.iloc[-1]):.2f}", ticker),
    (c2, f"{forecast_days}D TARGET",  f"{curr}{forecast_prices[-1]:.2f}",
         f"{'↑' if pct>0 else '↓'} {abs(pct):.2f}%"),
    (c3, "MAE",  f"{curr}{mae:.2f}", "mean abs error"),
    (c4, "RMSE", f"{curr}{rmse:.2f}", "root mean sq error"),
    (c5, "MAPE", f"{mape:.2f}%", "mean abs pct error"),
]:
    col.markdown(f"""
    <div class="metric-card">
      <div class="metric-label">{label}</div>
      <div class="metric-value">{val}</div>
      <div class="metric-sub">{sub}</div>
    </div>""", unsafe_allow_html=True)

st.markdown("<br>", unsafe_allow_html=True)

# ── Chart 1: Price + Indicators ───────────────────────────────────────────────
n  = min(200, len(close))
xh = close.index[-n:]

fig1 = make_subplots(rows=3, cols=1, shared_xaxes=True,
                      row_heights=[0.55, 0.25, 0.20], vertical_spacing=0.03,
                      subplot_titles=("Price · Bollinger Bands · LSTM Predictions",
                                      "MACD", "RSI (14)"))
fig1.add_trace(go.Scatter(
    x=list(xh) + list(xh[::-1]),
    y=list(bb_up[-n:]) + list(bb_low[-n:][::-1]),
    fill='toself', fillcolor='rgba(99,179,237,0.07)',
    line=dict(color='rgba(0,0,0,0)'), showlegend=False, name='BB Band'
), row=1, col=1)
fig1.add_trace(go.Scatter(x=xh, y=close[-n:], name='Close',
                           line=dict(color='#63b3ed', width=1.5)), row=1, col=1)
fig1.add_trace(go.Scatter(x=xh, y=bb_up[-n:], name='BB Upper',
                           line=dict(color='#4299e1', width=1, dash='dot')), row=1, col=1)
fig1.add_trace(go.Scatter(x=xh, y=bb_low[-n:], name='BB Lower',
                           line=dict(color='#4299e1', width=1, dash='dot')), row=1, col=1)
fig1.add_trace(go.Scatter(x=test_dates, y=actual, name='Actual (Test)',
                           line=dict(color='#68d391', width=2)), row=1, col=1)
fig1.add_trace(go.Scatter(x=test_dates, y=pred, name='LSTM Predicted',
                           line=dict(color='#f6ad55', width=2, dash='dash')), row=1, col=1)
fig1.add_trace(go.Scatter(x=xh, y=macd[-n:], name='MACD',
                           line=dict(color='#b794f4', width=1.5)), row=2, col=1)
fig1.add_trace(go.Scatter(x=xh, y=sig[-n:], name='Signal',
                           line=dict(color='#fc8181', width=1.5)), row=2, col=1)
fig1.add_trace(go.Bar(x=xh, y=hist[-n:], name='Hist',
                       marker_color='rgba(160,174,192,0.35)'), row=2, col=1)
fig1.add_trace(go.Scatter(x=xh, y=rsi[-n:], name='RSI',
                           line=dict(color='#f6e05e', width=1.5)), row=3, col=1)
fig1.add_hline(y=70, line_dash='dot', line_color='rgba(252,129,129,0.5)', row=3, col=1)
fig1.add_hline(y=30, line_dash='dot', line_color='rgba(104,211,145,0.5)', row=3, col=1)
fig1.update_layout(template='plotly_dark', paper_bgcolor='#0d1117', plot_bgcolor='#0d1117',
                    height=600, margin=dict(l=10, r=10, t=40, b=10),
                    font=dict(family='monospace', size=11, color='#a0aec0'),
                    legend=dict(orientation='h', y=-0.02, font=dict(size=10)),
                    hovermode='x unified')
fig1.update_xaxes(gridcolor='#1a2332', zeroline=False)
fig1.update_yaxes(gridcolor='#1a2332', zeroline=False)
st.plotly_chart(fig1, use_container_width=True)

# ── Chart 2: Forecast ─────────────────────────────────────────────────────────
fig2 = go.Figure()
fig2.add_trace(go.Scatter(x=close.index[-60:], y=close[-60:],
                           name='Recent History', line=dict(color='#63b3ed', width=2)))
fig2.add_trace(go.Scatter(
    x=list(forecast_dates) + list(forecast_dates[::-1]),
    y=list(ci_upper) + list(ci_lower[::-1]),
    fill='toself', fillcolor='rgba(252,129,129,0.12)',
    line=dict(color='rgba(0,0,0,0)'), name='80% CI'))
fig2.add_trace(go.Scatter(x=forecast_dates, y=forecast_prices,
    name=f'{forecast_days}-Day Forecast', mode='lines+markers',
    line=dict(color='#fc8181', width=2.5),
    marker=dict(size=7, symbol='circle-open', line=dict(width=2))))
fig2.add_annotation(x=forecast_dates[-1], y=float(forecast_prices[-1]),
    text=f"<b>{curr}{forecast_prices[-1]:.2f}</b>",
    showarrow=True, arrowhead=2, arrowcolor='#fc8181',
    bgcolor='#1a2332', bordercolor='#fc8181',
    font=dict(color='#fc8181', size=12))
fig2.add_vline(x=last_date.timestamp() * 1000, line_dash='dash',
               line_color='rgba(160,174,192,0.4)',
               annotation_text='Today', annotation_font_color='#718096')
fig2.update_layout(template='plotly_dark', paper_bgcolor='#0d1117', plot_bgcolor='#0d1117',
                    height=400, margin=dict(l=10, r=10, t=30, b=10),
                    font=dict(family='monospace', size=11, color='#a0aec0'),
                    legend=dict(orientation='h', y=-0.1), hovermode='x unified',
                    title=dict(text=f'{ticker} — {forecast_days}-Day Forecast · 80% Confidence Interval',
                               font=dict(size=13, color='#e2e8f0')))
fig2.update_xaxes(gridcolor='#1a2332')
fig2.update_yaxes(gridcolor='#1a2332')
st.plotly_chart(fig2, use_container_width=True)

# ── Sentiment ─────────────────────────────────────────────────────────────────
with st.spinner("Running FinBERT sentiment analysis..."):
    _, sent_text = get_sentiment(ticker)

with st.expander("📰 FinBERT News Sentiment", expanded=True):
    st.markdown(sent_text)

gc.collect()