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	# app.py — ST_GeoMech_YM (mirrors your UCS GUI, adapted for Young's Modulus)
	import io, json, os, base64, math
	from pathlib import Path
	import streamlit as st
	import pandas as pd
	import numpy as np
	import joblib
	from datetime import datetime

	# Matplotlib for PREVIEW modal and the CROSS-PLOT (static)
	import matplotlib
	matplotlib.use("Agg")
	import matplotlib.pyplot as plt
	from matplotlib.ticker import FuncFormatter

	import plotly.graph_objects as go
	from sklearn.metrics import mean_squared_error

	# =========================
	# Constants (Ym variant)
	# =========================
	APP_NAME = "ST_GeoMech_YM"
	TAGLINE = "Real-Time Young's Modulus Tracking"

	FEATURES = ["WOB(klbf)", "TORQUE(kft.lbf)", "SPP(psi)", "RPM(1/min)", "ROP(ft/h)", "Flow Rate, gpm"]
	TARGET = "Actual Ym"
	PRED_COL = "Ym_Pred"

	MODELS_DIR = Path("models")
	DEFAULT_MODEL = MODELS_DIR / "ym_rf.joblib"
	MODEL_FALLBACKS = [MODELS_DIR / "model.joblib", MODELS_DIR / "model.pkl"]
	COLORS = {"pred": "#1f77b4", "actual": "#f2b702", "ref": "#5a5a5a"}

	# ---- Plot sizing controls ----
	CROSS_W = 350
	CROSS_H = 350
	TRACK_H = 1000
	TRACK_W = 500
	FONT_SZ = 13
	BOLD_FONT = "Arial Black, Arial, sans-serif"

	# =========================
	# Page / CSS
	# =========================
	st.set_page_config(page_title=APP_NAME, page_icon="logo.png", layout="wide")

	st.markdown("""
	<style>
	.brand-logo { width: 200px; height: auto; object-fit: contain; }
	.sidebar-header { display:flex; align-items:center; gap:12px; }
	.sidebar-header .text h1 { font-size: 1.05rem; margin:0; line-height:1.1; }
	.sidebar-header .text .tag { font-size: .85rem; color:#6b7280; margin:2px 0 0; }
	.centered-container { display: flex; flex-direction: column; align-items: center; text-align: center; }
	</style>
	""", unsafe_allow_html=True)

	# Sticky helpers
	st.markdown("""
	<style>
	.main .block-container { overflow: unset !important; }
	div[data-testid="stVerticalBlock"] { overflow: unset !important; }
	</style>
	""", unsafe_allow_html=True)

	# Hide uploader helper text
	st.markdown("""
	<style>
	section[data-testid="stFileUploader"] div[data-testid="stMarkdownContainer"]{display:none !important;}
	section[data-testid="stFileUploader"] [data-testid="stFileUploaderDropzone"] > div:first-child{display:none !important;}
	section[data-testid="stFileUploader"] [data-testid="stFileUploaderInstructions"]{display:none !important;}
	section[data-testid="stFileUploader"] p, section[data-testid="stFileUploader"] small{display:none !important;}
	</style>
	""", unsafe_allow_html=True)

	# Make the Preview expander title & tabs sticky (pinned to the top)
	st.markdown("""
	<style>
	div[data-testid="stExpander"] > details > summary {
	position: sticky; top: 0; z-index: 10; background: #fff; border-bottom: 1px solid #eee;
	}
	div[data-testid="stExpander"] div[data-baseweb="tab-list"] {
	position: sticky; top: 42px; z-index: 9; background: #fff; padding-top: 6px;
	}
	</style>
	""", unsafe_allow_html=True)

	# Center text in all pandas Styler tables
	TABLE_CENTER_CSS = [
	dict(selector="th", props=[("text-align", "center")]),
	dict(selector="td", props=[("text-align", "center")]),
	]

	# Message box CSS
	st.markdown("""
	<style>
	.st-message-box { background-color: #f0f2f6; color: #333; padding: 10px; border-radius: 10px; border: 1px solid #e6e9ef; }
	.st-message-box.st-success { background-color: #d4edda; color: #155724; border-color: #c3e6cb; }
	.st-message-box.st-warning { background-color: #fff3cd; color: #856404; border-color: #ffeeba; }
	.st-message-box.st-error { background-color: #f8d7da; color: #721c24; border-color: #f5c6cb; }
	</style>
	""", unsafe_allow_html=True)

	# =========================
	# Password gate
	# =========================
	def inline_logo(path="logo.png") -> str:
	try:
	p = Path(path)
	if not p.exists(): return ""
	return f"data:image/png;base64,{base64.b64encode(p.read_bytes()).decode('ascii')}"
	except Exception:
	return ""

	def add_password_gate() -> None:
	try:
	required = st.secrets.get("APP_PASSWORD", "")
	except Exception:
	required = os.environ.get("APP_PASSWORD", "")

	if not required:
	st.warning("Set APP_PASSWORD in Secrets (or environment) and restart.")
	st.stop()

	if st.session_state.get("auth_ok", False):
	return

	st.sidebar.markdown(f"""
	<div class="centered-container">
	<img src="{inline_logo('logo.png')}" style="width: 200px; height: auto; object-fit: contain;">
	<div style='font-weight:800;font-size:1.2rem; margin-top: 10px;'>{APP_NAME}</div>
	<div style='color:#667085;'>Smart Thinking • Secure Access</div>
	</div>
	""", unsafe_allow_html=True
	)
	pwd = st.sidebar.text_input("Access key", type="password", placeholder="••••••••")
	if st.sidebar.button("Unlock", type="primary"):
	if pwd == required:
	st.session_state.auth_ok = True
	st.rerun()
	else:
	st.error("Incorrect key.")
	st.stop()

	add_password_gate()

	# =========================
	# Utilities
	# =========================
	def rmse(y_true, y_pred) -> float:
	return float(np.sqrt(mean_squared_error(y_true, y_pred)))

	def pearson_r(y_true, y_pred) -> float:
	a = np.asarray(y_true, dtype=float)
	p = np.asarray(y_pred, dtype=float)
	if a.size < 2: return float("nan")
	# Guard constant series
	if np.all(a == a[0]) or np.all(p == p[0]): return float("nan")
	return float(np.corrcoef(a, p)[0, 1])

	@st.cache_resource(show_spinner=False)
	def load_model(model_path: str):
	return joblib.load(model_path)

	@st.cache_data(show_spinner=False)
	def parse_excel(data_bytes: bytes):
	bio = io.BytesIO(data_bytes)
	xl = pd.ExcelFile(bio)
	return {sh: xl.parse(sh) for sh in xl.sheet_names}

	def read_book_bytes(b: bytes): return parse_excel(b) if b else {}

	def _normalize_columns(df: pd.DataFrame) -> pd.DataFrame:
	out = df.copy()
	out.columns = [c.strip() for c in out.columns]
	# Fix flow-rate typo variants
	out = out.rename(columns={
	"Fow Rate, gpm": "Flow Rate, gpm",
	"Fow Rate, gpm ": "Flow Rate, gpm"
	})
	return out

	def ensure_cols(df: pd.DataFrame, cols: list[str]) -> bool:
	miss = [c for c in cols if c not in df.columns]
	if miss:
	st.error(f"Missing columns: {miss}\nFound: {list(df.columns)}")
	return False
	return True

	def find_sheet(book, names):
	low2orig = {k.lower(): k for k in book.keys()}
	for nm in names:
	if nm.lower() in low2orig: return low2orig[nm.lower()]
	return None

	def _nice_tick0(xmin: float, step: float = 0.1) -> float:
	# Rounded start tick for continuous Ym scales (unit-agnostic)
	return step * math.floor(xmin / step) if np.isfinite(xmin) else xmin

	def df_centered_rounded(df: pd.DataFrame, hide_index=True):
	out = df.copy()
	numcols = out.select_dtypes(include=[np.number]).columns
	styler = (
	out.style
	.format({c: "{:.2f}" for c in numcols})
	.set_properties(**{"text-align": "center"})
	.set_table_styles(TABLE_CENTER_CSS)
	)
	st.dataframe(styler, use_container_width=True, hide_index=hide_index)

	# === Excel export helpers =================================================
	def _excel_engine() -> str:
	try:
	import xlsxwriter # noqa: F401
	return "xlsxwriter"
	except Exception:
	return "openpyxl"

	def _excel_safe_name(name: str) -> str:
	bad = '[]:*?/\\'
	safe = ''.join('_' if ch in bad else ch for ch in str(name))
	return safe[:31]

	def mape(y_true, y_pred, eps: float = 1e-8) -> float:
	a = np.asarray(y_true, dtype=float)
	p = np.asarray(y_pred, dtype=float)
	denom = np.where(np.abs(a) < eps, np.nan, np.abs(a)) # ignore near-zero actuals
	return float(np.nanmean(np.abs(a - p) / denom) * 100.0) # percent

	def _round_numeric(df: pd.DataFrame, ndigits: int = 3) -> pd.DataFrame:
	out = df.copy()
	for c in out.columns:
	if pd.api.types.is_float_dtype(out[c]) or pd.api.types.is_integer_dtype(out[c]):
	out[c] = pd.to_numeric(out[c], errors="coerce").round(ndigits)
	return out

	def _summary_table(df: pd.DataFrame, cols: list[str]) -> pd.DataFrame:
	cols = [c for c in cols if c in df.columns]
	if not cols:
	return pd.DataFrame()
	tbl = (df[cols]
	.agg(['min','max','mean','std'])
	.T.rename(columns={"min":"Min","max":"Max","mean":"Mean","std":"Std"})
	.reset_index(names="Field"))
	return _round_numeric(tbl, 3)

	def _train_ranges_df(ranges: dict[str, tuple[float, float]]) -> pd.DataFrame:
	if not ranges:
	return pd.DataFrame()
	df = pd.DataFrame(ranges).T.reset_index()
	df.columns = ["Feature", "Min", "Max"]
	return _round_numeric(df, 3)

	def _excel_autofit(writer, sheet_name: str, df: pd.DataFrame, min_w: int = 8, max_w: int = 40):
	"""Auto-fit columns when using xlsxwriter."""
	try:
	import xlsxwriter # noqa: F401
	except Exception:
	return
	ws = writer.sheets[sheet_name]
	for i, col in enumerate(df.columns):
	series = df[col].astype(str)
	max_len = max([len(str(col))] + series.map(len).tolist())
	ws.set_column(i, i, max(min_w, min(max_len + 2, max_w)))
	ws.freeze_panes(1, 0)

	def _add_sheet(sheets: dict, order: list, name: str, df: pd.DataFrame, ndigits: int):
	if df is None or df.empty:
	return
	sheets[name] = _round_numeric(df, ndigits)
	order.append(name)

	def _available_sections() -> list[str]:
	"""Compute which sections exist (offered in the export dropdown)."""
	res = st.session_state.get("results", {})
	sections = []
	if "Train" in res: sections += ["Training","Training_Metrics","Training_Summary"]
	if "Test" in res: sections += ["Testing","Testing_Metrics","Testing_Summary"]
	if "Validate" in res: sections += ["Validation","Validation_Metrics","Validation_Summary","Validation_OOR"]
	if "PredictOnly" in res: sections += ["Prediction","Prediction_Summary"]
	if st.session_state.get("train_ranges"): sections += ["Training_Ranges"]
	sections += ["Info"]
	return sections

	def build_export_workbook(selected: list[str], ndigits: int = 3, do_autofit: bool = True) -> tuple[bytes\|None, str\|None, list[str]]:
	"""Builds an in-memory Excel workbook for selected sheets; fixed rounding to 3 decimals."""
	res = st.session_state.get("results", {})
	if not res:
	return None, None, []

	sheets: dict[str, pd.DataFrame] = {}
	order: list[str] = []

	# Training
	if "Training" in selected and "Train" in res:
	_add_sheet(sheets, order, "Training", res["Train"], ndigits)
	if "Training_Metrics" in selected and res.get("m_train"):
	_add_sheet(sheets, order, "Training_Metrics", pd.DataFrame([res["m_train"]]), ndigits)
	if "Training_Summary" in selected and "Train" in res:
	tr_cols = FEATURES + [c for c in [TARGET, PRED_COL] if c in res["Train"].columns]
	_add_sheet(sheets, order, "Training_Summary", _summary_table(res["Train"], tr_cols), ndigits)

	# Testing
	if "Testing" in selected and "Test" in res:
	_add_sheet(sheets, order, "Testing", res["Test"], ndigits)
	if "Testing_Metrics" in selected and res.get("m_test"):
	_add_sheet(sheets, order, "Testing_Metrics", pd.DataFrame([res["m_test"]]), ndigits)
	if "Testing_Summary" in selected and "Test" in res:
	te_cols = FEATURES + [c for c in [TARGET, PRED_COL] if c in res["Test"].columns]
	_add_sheet(sheets, order, "Testing_Summary", _summary_table(res["Test"], te_cols), ndigits)

	# Validation
	if "Validation" in selected and "Validate" in res:
	_add_sheet(sheets, order, "Validation", res["Validate"], ndigits)
	if "Validation_Metrics" in selected and res.get("m_val"):
	_add_sheet(sheets, order, "Validation_Metrics", pd.DataFrame([res["m_val"]]), ndigits)
	if "Validation_Summary" in selected and res.get("sv_val"):
	_add_sheet(sheets, order, "Validation_Summary", pd.DataFrame([res["sv_val"]]), ndigits)
	if "Validation_OOR" in selected and isinstance(res.get("oor_tbl"), pd.DataFrame) and not res["oor_tbl"].empty:
	_add_sheet(sheets, order, "Validation_OOR", res["oor_tbl"].reset_index(drop=True), ndigits)

	# Prediction
	if "Prediction" in selected and "PredictOnly" in res:
	_add_sheet(sheets, order, "Prediction", res["PredictOnly"], ndigits)
	if "Prediction_Summary" in selected and res.get("sv_pred"):
	_add_sheet(sheets, order, "Prediction_Summary", pd.DataFrame([res["sv_pred"]]), ndigits)

	# Training ranges
	if "Training_Ranges" in selected and st.session_state.get("train_ranges"):
	rr = _train_ranges_df(st.session_state["train_ranges"])
	_add_sheet(sheets, order, "Training_Ranges", rr, ndigits)

	# Info
	if "Info" in selected:
	info = pd.DataFrame([
	{"Key": "AppName", "Value": APP_NAME},
	{"Key": "Tagline", "Value": TAGLINE},
	{"Key": "Target", "Value": TARGET},
	{"Key": "PredColumn", "Value": PRED_COL},
	{"Key": "Features", "Value": ", ".join(FEATURES)},
	{"Key": "ExportedAt", "Value": datetime.now().strftime("%Y-%m-%d %H:%M:%S")},
	])
	_add_sheet(sheets, order, "Info", info, ndigits)

	if not order:
	return None, None, []

	bio = io.BytesIO()
	engine = _excel_engine()
	with pd.ExcelWriter(bio, engine=engine) as writer:
	for name in order:
	df = sheets[name]
	sheet = _excel_safe_name(name)
	df.to_excel(writer, sheet_name=sheet, index=False)
	if do_autofit:
	_excel_autofit(writer, sheet, df)
	bio.seek(0)

	fname = f"YM_Export_{datetime.now().strftime('%Y%m%d_%H%M%S')}.xlsx"
	return bio.getvalue(), fname, order

	# --------- SIMPLE export UI (dropdown checklist, starts empty) ----------
	def render_export_button(phase_key: str) -> None:
	"""
	Export UI — one multiselect dropdown that starts EMPTY.
	The download button is disabled until at least one sheet is selected.
	"""
	res = st.session_state.get("results", {})
	if not res:
	return

	st.divider()
	st.markdown("### Export to Excel")

	options = _available_sections() # only what exists right now
	selected_sheets = st.multiselect(
	"Sheets to include",
	options=options,
	default=[],
	placeholder="Choose option(s)",
	help="Pick the sheets you want to include in the Excel export.",
	key=f"sheets_{phase_key}",
	)

	if not selected_sheets:
	st.caption("Select one or more sheets above to enable the export.")
	st.download_button(
	label="⬇️ Export Excel",
	data=b"",
	file_name="YM_Export.xlsx",
	mime="application/vnd.openxmlformats-officedocument.spreadsheetml.sheet",
	disabled=True,
	key=f"download_{phase_key}",
	)
	return

	data, fname, names = build_export_workbook(selected=selected_sheets, ndigits=3, do_autofit=True)
	if names:
	st.caption("Will include: " + ", ".join(names))

	st.download_button(
	"⬇️ Export Excel",
	data=(data or b""),
	file_name=(fname or "YM_Export.xlsx"),
	mime="application/vnd.openxmlformats-officedocument.spreadsheetml.sheet",
	disabled=(data is None),
	key=f"download_{phase_key}",
	)

	# =========================
	# Cross plot (Matplotlib) — auto-scaled for Ym
	# =========================
	def cross_plot_static(actual, pred, xlabel="Actual Ym", ylabel="Predicted Ym"):
	a = pd.Series(actual, dtype=float)
	p = pd.Series(pred, dtype=float)

	lo = float(min(a.min(), p.min()))
	hi = float(max(a.max(), p.max()))
	pad = 0.03 * (hi - lo if hi > lo else 1.0)
	lo2, hi2 = lo - pad, hi + pad

	ticks = np.linspace(lo2, hi2, 5)

	dpi = 110
	fig, ax = plt.subplots(figsize=(CROSS_W / dpi, CROSS_H / dpi), dpi=dpi, constrained_layout=False)

	ax.scatter(a, p, s=14, c=COLORS["pred"], alpha=0.9, linewidths=0)
	ax.plot([lo2, hi2], [lo2, hi2], linestyle="--", linewidth=1.2, color=COLORS["ref"])

	ax.set_xlim(lo2, hi2)
	ax.set_ylim(lo2, hi2)
	ax.set_xticks(ticks)
	ax.set_yticks(ticks)
	ax.set_aspect("equal", adjustable="box")

	# Generic numeric formatting (2 decimals)
	fmt = FuncFormatter(lambda x, _: f"{x:.2f}")
	ax.xaxis.set_major_formatter(fmt)
	ax.yaxis.set_major_formatter(fmt)

	ax.set_xlabel(xlabel, fontweight="bold", fontsize=10, color="black")
	ax.set_ylabel(ylabel, fontweight="bold", fontsize=10, color="black")
	ax.tick_params(labelsize=6, colors="black")

	ax.grid(True, linestyle=":", alpha=0.3)
	for spine in ax.spines.values():
	spine.set_linewidth(1.1)
	spine.set_color("#444")

	fig.subplots_adjust(left=0.16, bottom=0.16, right=0.98, top=0.98)
	return fig

	# =========================
	# Track plot (Plotly)
	# =========================
	def track_plot(df, include_actual=True):
	# Depth (or index) on Y
	depth_col = next((c for c in df.columns if 'depth' in str(c).lower()), None)
	if depth_col is not None:
	y = pd.Series(df[depth_col]).astype(float)
	ylab = depth_col
	y_range = [float(y.max()), float(y.min())] # reverse
	else:
	y = pd.Series(np.arange(1, len(df) + 1))
	ylab = "Point Index"
	y_range = [float(y.max()), float(y.min())]

	# X range from prediction/actual
	x_series = pd.Series(df.get(PRED_COL, pd.Series(dtype=float))).astype(float)
	if include_actual and TARGET in df.columns:
	x_series = pd.concat([x_series, pd.Series(df[TARGET]).astype(float)], ignore_index=True)
	x_lo, x_hi = float(x_series.min()), float(x_series.max())
	x_pad = 0.03 * (x_hi - x_lo if x_hi > x_lo else 1.0)
	xmin, xmax = x_lo - x_pad, x_hi + x_pad
	tick0 = _nice_tick0(xmin, step=max((xmax - xmin) / 10.0, 0.1))

	fig = go.Figure()
	if PRED_COL in df.columns:
	fig.add_trace(go.Scatter(
	x=df[PRED_COL], y=y, mode="lines",
	line=dict(color=COLORS["pred"], width=1.8),
	name=PRED_COL,
	hovertemplate=f"{PRED_COL}: "+"%{x:.0f}<br>"+ylab+": %{y}<extra></extra>"
	))
	if include_actual and TARGET in df.columns:
	fig.add_trace(go.Scatter(
	x=df[TARGET], y=y, mode="lines",
	line=dict(color=COLORS["actual"], width=2.0, dash="dot"),
	name=f"{TARGET} (actual)",
	hovertemplate=f"{TARGET}: "+"%{x:.0f}<br>"+ylab+": %{y}<extra></extra>"
	))

	fig.update_layout(
	height=TRACK_H,
	width=TRACK_W,
	autosize=False,
	paper_bgcolor="#fff", plot_bgcolor="#fff",
	margin=dict(l=64, r=16, t=36, b=48), hovermode="closest",
	font=dict(size=FONT_SZ, color="#000"),
	legend=dict(x=0.98, y=0.05, xanchor="right", yanchor="bottom",
	bgcolor="rgba(255,255,255,0.75)", bordercolor="#ccc", borderwidth=1),
	legend_title_text=""
	)

	# X axis with NO decimals
	fig.update_xaxes(
	title_text="Ym",
	title_font=dict(size=20, family=BOLD_FONT, color="#000"),
	tickfont=dict(size=15, family=BOLD_FONT, color="#000"),
	side="top",
	range=[xmin, xmax],
	ticks="outside",
	tickformat=",.0f", # integers, thousands separated
	tickmode="auto",
	tick0=tick0,
	showline=True, linewidth=1.2, linecolor="#444", mirror=True,
	showgrid=True, gridcolor="rgba(0,0,0,0.12)", automargin=True
	)
	fig.update_yaxes(
	title_text=ylab,
	title_font=dict(size=20, family=BOLD_FONT, color="#000"),
	tickfont=dict(size=15, family=BOLD_FONT, color="#000"),
	range=y_range,
	ticks="outside",
	showline=True, linewidth=1.2, linecolor="#444", mirror=True,
	showgrid=True, gridcolor="rgba(0,0,0,0.12)", automargin=True
	)
	return fig

	def preview_tracks(df: pd.DataFrame, cols: list[str]):
	"""
	Render quick-look tracks for the selected columns with DISTINCT colors per input,
	and reserve the Y-axis across all plots so depth/index is aligned.
	"""
	cols = [c for c in cols if c in df.columns]
	n = len(cols)
	if n == 0:
	fig, ax = plt.subplots(figsize=(4, 2))
	ax.text(0.5, 0.5, "No selected columns", ha="center", va="center")
	ax.axis("off")
	return fig

	# Depth or fallback to point index
	depth_col = next((c for c in df.columns if 'depth' in str(c).lower()), None)
	if depth_col is not None:
	idx = pd.to_numeric(df[depth_col], errors="coerce")
	y_label = depth_col
	else:
	idx = pd.Series(np.arange(1, len(df) + 1))
	y_label = "Point Index"

	# Y range is reserved across all subplots
	y_min, y_max = float(idx.min()), float(idx.max())

	fig, axes = plt.subplots(1, n, figsize=(2.2 * n, 7.0), sharey=True, dpi=100)
	if n == 1:
	axes = [axes]

	# Stable color palette
	cmap = plt.get_cmap("tab20")
	col_colors = {col: cmap(i % cmap.N) for i, col in enumerate(cols)}

	for i, (ax, col) in enumerate(zip(axes, cols)):
	x = pd.to_numeric(df[col], errors="coerce")
	ax.plot(x, idx, '-', lw=1.6, color=col_colors[col])
	ax.set_xlabel(col)
	ax.xaxis.set_label_position('top')
	ax.xaxis.tick_top()
	ax.set_ylim(y_max, y_min) # reserve and invert depth axis
	ax.grid(True, linestyle=":", alpha=0.3)

	# Only show y-axis label + ticks on the first subplot
	if i == 0:
	ax.set_ylabel(y_label)
	else:
	ax.tick_params(labelleft=False)
	ax.set_ylabel("")

	fig.tight_layout()
	return fig


	# Modal wrapper
	try:
	dialog = st.dialog
	except AttributeError:
	def dialog(title):
	def deco(fn):
	def wrapper(args, *kwargs):
	with st.expander(title, expanded=True):
	return fn(args, *kwargs)
	return wrapper
	return deco

	def preview_modal(book: dict[str, pd.DataFrame]):
	if not book:
	st.info("No data loaded yet."); return
	names = list(book.keys())
	tabs = st.tabs(names)
	for t, name in zip(tabs, names):
	with t:
	df = _normalize_columns(book[name])
	t1, t2 = st.tabs(["Tracks", "Summary"])
	with t1:
	st.pyplot(preview_tracks(df, FEATURES), use_container_width=True)
	with t2:
	present = [c for c in FEATURES if c in df.columns]
	if present:
	tbl = (df[present]
	.agg(['min','max','mean','std'])
	.T.rename(columns={"min":"Min","max":"Max","mean":"Mean","std":"Std"}))
	df_centered_rounded(tbl.reset_index(names="Feature"))
	else:
	st.info("No expected feature columns found to summarize.")

	# =========================
	# Load model
	# =========================
	def ensure_model() -> Path\|None:
	for p in [DEFAULT_MODEL, *MODEL_FALLBACKS]:
	if p.exists() and p.stat().st_size > 0: return p
	url = os.environ.get("MODEL_URL", "")
	if not url: return None
	try:
	import requests
	DEFAULT_MODEL.parent.mkdir(parents=True, exist_ok=True)
	with requests.get(url, stream=True, timeout=30) as r:
	r.raise_for_status()
	with open(DEFAULT_MODEL, "wb") as f:
	for chunk in r.iter_content(1<<20):
	if chunk: f.write(chunk)
	return DEFAULT_MODEL
	except Exception:
	return None

	mpath = ensure_model()
	if not mpath:
	st.error("Model not found. Upload models/ym_rf.joblib (or set MODEL_URL).")
	st.stop()
	try:
	model = load_model(str(mpath))
	except Exception as e:
	st.error(f"Failed to load model: {e}")
	st.stop()

	# ---------- Load meta (optional) ----------
	meta = {}
	meta_candidates = [MODELS_DIR / "meta.json", MODELS_DIR / "ym_meta.json"]
	meta_path = next((p for p in meta_candidates if p.exists()), None)
	if meta_path:
	try:
	meta = json.loads(meta_path.read_text(encoding="utf-8"))
	FEATURES = meta.get("features", FEATURES)
	TARGET = meta.get("target", TARGET)
	except Exception as e:
	st.warning(f"Could not parse meta file ({meta_path.name}): {e}")

	# Optional: version mismatch warning
	import numpy as _np, sklearn as _skl
	mv = meta.get("versions", {})
	if mv:
	msg = []
	if mv.get("numpy") and mv["numpy"] != _np.__version__:
	msg.append(f"NumPy {mv['numpy']} expected, running {_np.__version__}")
	if mv.get("scikit_learn") and mv["scikit_learn"] != _skl.__version__:
	msg.append(f"scikit-learn {mv['scikit_learn']} expected, running {_skl.__version__}")
	if msg:
	st.warning("Environment mismatch: " + " \| ".join(msg))

	# =========================
	# Session state
	# =========================
	st.session_state.setdefault("app_step", "intro")
	st.session_state.setdefault("results", {})
	st.session_state.setdefault("train_ranges", None)
	st.session_state.setdefault("dev_file_name","")
	st.session_state.setdefault("dev_file_bytes",b"")
	st.session_state.setdefault("dev_file_loaded",False)
	st.session_state.setdefault("dev_preview",False)
	st.session_state.setdefault("show_preview_modal", False)

	# =========================
	# Branding in Sidebar
	# =========================
	st.sidebar.markdown(f"""
	<div class="centered-container">
	<img src="{inline_logo('logo.png')}" style="width: 200px; height: auto; object-fit: contain;">
	<div style='font-weight:800;font-size:1.2rem;'>{APP_NAME}</div>
	<div style='color:#667085;'>{TAGLINE}</div>
	</div>
	""", unsafe_allow_html=True
	)

	# =========================
	# Reusable Sticky Header Function
	# =========================
	def sticky_header(title, message):
	st.markdown(
	f"""
	<style>
	.sticky-container {{
	position: sticky; top: 0; background-color: white; z-index: 100;
	padding-top: 10px; padding-bottom: 10px; border-bottom: 1px solid #eee;
	}}
	</style>
	<div class="sticky-container">
	<h3>{title}</h3>
	<p>{message}</p>
	</div>
	""",
	unsafe_allow_html=True
	)

	# =========================
	# INTRO
	# =========================
	if st.session_state.app_step == "intro":
	st.header("Welcome!")
	st.markdown("This software is developed by Smart Thinking AI-Solutions Team to estimate Young's Modulus (Ym) from drilling data.")
	st.subheader("How It Works")
	st.markdown(
	"1) Upload your data to build the case and preview the model performance. \n"
	"2) Click Run Model to compute metrics and plots. \n"
	"3) Proceed to Validation (with actual Ym) or Proceed to Prediction (no Ym)."
	)
	if st.button("Start Showcase", type="primary"):
	st.session_state.app_step = "dev"; st.rerun()

	# =========================
	# CASE BUILDING
	# =========================
	if st.session_state.app_step == "dev":
	st.sidebar.header("Case Building")
	up = st.sidebar.file_uploader("Upload Your Data File", type=["xlsx","xls"])
	if up is not None:
	st.session_state.dev_file_bytes = up.getvalue()
	st.session_state.dev_file_name = up.name
	st.session_state.dev_file_loaded = True
	st.session_state.dev_preview = False
	if st.session_state.dev_file_loaded:
	tmp = read_book_bytes(st.session_state.dev_file_bytes)
	if tmp:
	df0 = next(iter(tmp.values()))
	st.sidebar.caption(f"Data loaded: {st.session_state.dev_file_name} • {df0.shape[0]} rows × {df0.shape[1]} cols")

	if st.sidebar.button("Preview data", use_container_width=True, disabled=not st.session_state.dev_file_loaded):
	st.session_state.show_preview_modal = True
	st.session_state.dev_preview = True

	run = st.sidebar.button("Run Model", type="primary", use_container_width=True)
	if st.sidebar.button("Proceed to Validation ▶", use_container_width=True): st.session_state.app_step="validate"; st.rerun()
	if st.sidebar.button("Proceed to Prediction ▶", use_container_width=True): st.session_state.app_step="predict"; st.rerun()

	if st.session_state.dev_file_loaded and st.session_state.dev_preview:
	sticky_header("Case Building", "Previewed ✓ — now click Run Model.")
	elif st.session_state.dev_file_loaded:
	sticky_header("Case Building", "📄 Preview uploaded data using the sidebar button, then click Run Model.")
	else:
	sticky_header("Case Building", "Upload your data to build a case, then run the model to review development performance.")

	if run and st.session_state.dev_file_bytes:
	book = read_book_bytes(st.session_state.dev_file_bytes)
	sh_train = find_sheet(book, ["Train","Training","training2","train","training"])
	sh_test = find_sheet(book, ["Test","Testing","testing2","test","testing"])
	if sh_train is None or sh_test is None:
	st.markdown('<div class="st-message-box st-error">Workbook must include Train/Training/training2 and Test/Testing/testing2 sheets.</div>', unsafe_allow_html=True)
	st.stop()
	tr = _normalize_columns(book[sh_train].copy())
	te = _normalize_columns(book[sh_test].copy())

	if not (ensure_cols(tr, FEATURES+[TARGET]) and ensure_cols(te, FEATURES+[TARGET])):
	st.markdown('<div class="st-message-box st-error">Missing required columns.</div>', unsafe_allow_html=True)
	st.stop()

	tr[PRED_COL] = model.predict(tr[FEATURES])
	te[PRED_COL] = model.predict(te[FEATURES])

	st.session_state.results["Train"]=tr; st.session_state.results["Test"]=te
	st.session_state.results["m_train"]={
	"R": pearson_r(tr[TARGET], tr[PRED_COL]),
	"RMSE": rmse(tr[TARGET], tr[PRED_COL]),
	"MAPE": mape(tr[TARGET], tr[PRED_COL])
	}
	st.session_state.results["m_test"]={
	"R": pearson_r(te[TARGET], te[PRED_COL]),
	"RMSE": rmse(te[TARGET], te[PRED_COL]),
	"MAPE": mape(te[TARGET], te[PRED_COL])
	}

	tr_min = tr[FEATURES].min().to_dict(); tr_max = tr[FEATURES].max().to_dict()
	st.session_state.train_ranges = {f:(float(tr_min[f]), float(tr_max[f])) for f in FEATURES}
	st.markdown('<div class="st-message-box st-success">Case has been built and results are displayed below.</div>', unsafe_allow_html=True)

	def _dev_block(df, m):
	c1,c2,c3 = st.columns(3)
	c1.metric("R", f"{m['R']:.3f}")
	c2.metric("RMSE", f"{m['RMSE']:.2f}")
	c3.metric("MAPE (%)", f"{m['MAPE']:.2f}")

	st.markdown("""
	<div style='text-align: left; font-size: 0.8em; color: #6b7280; margin-top: -16px; margin-bottom: 8px;'>
	<strong>R:</strong> Pearson Correlation Coefficient<br>
	<strong>RMSE:</strong> Root Mean Square Error<br>
	<strong>MAPE:</strong> Mean Absolute Percentage Error
	</div>
	""", unsafe_allow_html=True)

	col_track, col_cross = st.columns([2, 3], gap="large")
	with col_track:
	st.plotly_chart(
	track_plot(df, include_actual=True),
	use_container_width=False,
	config={"displayModeBar": False, "scrollZoom": True}
	)
	with col_cross:
	st.pyplot(cross_plot_static(df[TARGET], df[PRED_COL]), use_container_width=False)

	if "Train" in st.session_state.results or "Test" in st.session_state.results:
	tab1, tab2 = st.tabs(["Training", "Testing"])
	if "Train" in st.session_state.results:
	with tab1:
	_dev_block(st.session_state.results["Train"], st.session_state.results["m_train"])
	if "Test" in st.session_state.results:
	with tab2:
	_dev_block(st.session_state.results["Test"], st.session_state.results["m_test"])

	# Export UI for this phase (dropdown checklist starts empty)
	render_export_button(phase_key="dev")

	# =========================
	# VALIDATION (with actual Ym)
	# =========================
	if st.session_state.app_step == "validate":
	st.sidebar.header("Validate the Model")
	up = st.sidebar.file_uploader("Upload Validation Excel", type=["xlsx","xls"])
	if up is not None:
	book = read_book_bytes(up.getvalue())
	if book:
	df0 = next(iter(book.values()))
	st.sidebar.caption(f"Data loaded: {up.name} • {df0.shape[0]} rows × {df0.shape[1]} cols")
	if st.sidebar.button("Preview data", use_container_width=True, disabled=(up is None)):
	st.session_state.show_preview_modal = True
	go_btn = st.sidebar.button("Predict & Validate", type="primary", use_container_width=True)
	if st.sidebar.button("⬅ Back to Case Building", use_container_width=True): st.session_state.app_step="dev"; st.rerun()
	if st.sidebar.button("Proceed to Prediction ▶", use_container_width=True): st.session_state.app_step="predict"; st.rerun()

	sticky_header("Validate the Model", "Upload a dataset with the same features and Actual Ym to evaluate performance.")

	if go_btn and up is not None:
	book = read_book_bytes(up.getvalue())
	name = find_sheet(book, ["Validation","Validate","validation2","Val","val"]) or list(book.keys())[0]
	df = _normalize_columns(book[name].copy())
	if not ensure_cols(df, FEATURES+[TARGET]):
	st.markdown('<div class="st-message-box st-error">Missing required columns.</div>', unsafe_allow_html=True); st.stop()
	df[PRED_COL] = model.predict(df[FEATURES])
	st.session_state.results["Validate"]=df

	ranges = st.session_state.train_ranges; oor_pct = 0.0; tbl=None
	if ranges:
	any_viol = pd.DataFrame({f:(df[f]<ranges[f][0])\|(df[f]>ranges[f][1]) for f in FEATURES}).any(axis=1)
	oor_pct = float(any_viol.mean()*100.0)
	if any_viol.any():
	tbl = df.loc[any_viol, FEATURES].copy()
	for c in FEATURES:
	if pd.api.types.is_numeric_dtype(tbl[c]): tbl[c] = tbl[c].round(2)
	tbl["Violations"] = pd.DataFrame({f:(df[f]<ranges[f][0])\|(df[f]>ranges[f][1]) for f in FEATURES}).loc[any_viol].apply(lambda r:", ".join([c for c,v in r.items() if v]), axis=1)
	st.session_state.results["m_val"]={
	"R": pearson_r(df[TARGET], df[PRED_COL]),
	"RMSE": rmse(df[TARGET], df[PRED_COL]),
	"MAPE": mape(df[TARGET], df[PRED_COL])
	}
	st.session_state.results["sv_val"]={"n":len(df), "pred_min":float(df[PRED_COL].min()), "pred_max":float(df[PRED_COL].max()), "oor":oor_pct}
	st.session_state.results["oor_tbl"]=tbl

	if "Validate" in st.session_state.results:
	m = st.session_state.results["m_val"]
	c1,c2,c3 = st.columns(3)
	c1.metric("R", f"{m['R']:.3f}")
	c2.metric("RMSE", f"{m['RMSE']:.2f}")
	c3.metric("MAPE (%)", f"{m['MAPE']:.2f}")

	st.markdown("""
	<div style='text-align: left; font-size: 0.8em; color: #6b7280; margin-top: -16px; margin-bottom: 8px;'>
	<strong>R:</strong> Pearson Correlation Coefficient<br>
	<strong>RMSE:</strong> Root Mean Square Error<br>
	<strong>MAPE:</strong> Mean Absolute Percentage Error
	</div>
	""", unsafe_allow_html=True)

	col_track, col_cross = st.columns([2, 3], gap="large")
	with col_track:
	st.plotly_chart(
	track_plot(st.session_state.results["Validate"], include_actual=True),
	use_container_width=False,
	config={"displayModeBar": False, "scrollZoom": True}
	)
	with col_cross:
	st.pyplot(
	cross_plot_static(st.session_state.results["Validate"][TARGET],
	st.session_state.results["Validate"][PRED_COL]),
	use_container_width=False
	)

	# Export UI for this phase (dropdown checklist starts empty)
	render_export_button(phase_key="validate")

	sv = st.session_state.results["sv_val"]
	if sv["oor"] > 0: st.markdown('<div class="st-message-box st-warning">Some inputs fall outside training min–max ranges.</div>', unsafe_allow_html=True)
	if st.session_state.results["oor_tbl"] is not None:
	st.write("Out-of-range rows (vs. Training min–max):")
	df_centered_rounded(st.session_state.results["oor_tbl"])

	# =========================
	# PREDICTION (no actual Ym)
	# =========================
	if st.session_state.app_step == "predict":
	st.sidebar.header("Prediction (No Actual Ym)")
	up = st.sidebar.file_uploader("Upload Prediction Excel", type=["xlsx","xls"])
	if up is not None:
	book = read_book_bytes(up.getvalue())
	if book:
	df0 = next(iter(book.values()))
	st.sidebar.caption(f"Data loaded: {up.name} • {df0.shape[0]} rows × {df0.shape[1]} cols")
	if st.sidebar.button("Preview data", use_container_width=True, disabled=(up is None)):
	st.session_state.show_preview_modal = True
	go_btn = st.sidebar.button("Predict", type="primary", use_container_width=True)
	if st.sidebar.button("⬅ Back to Case Building", use_container_width=True): st.session_state.app_step="dev"; st.rerun()

	sticky_header("Prediction", "Upload a dataset with the feature columns (no Actual Ym).")

	if go_btn and up is not None:
	book = read_book_bytes(up.getvalue()); name = list(book.keys())[0]
	df = _normalize_columns(book[name].copy())
	if not ensure_cols(df, FEATURES):
	st.markdown('<div class="st-message-box st-error">Missing required columns.</div>', unsafe_allow_html=True); st.stop()
	df[PRED_COL] = model.predict(df[FEATURES])
	st.session_state.results["PredictOnly"]=df

	ranges = st.session_state.train_ranges; oor_pct = 0.0
	if ranges:
	any_viol = pd.DataFrame({f:(df[f]<ranges[f][0])\|(df[f]>ranges[f][1]) for f in FEATURES}).any(axis=1)
	oor_pct = float(any_viol.mean()*100.0)
	st.session_state.results["sv_pred"]={
	"n":len(df),
	"pred_min":float(df[PRED_COL].min()),
	"pred_max":float(df[PRED_COL].max()),
	"pred_mean":float(df[PRED_COL].mean()),
	"pred_std":float(df[PRED_COL].std(ddof=0)),
	"oor":oor_pct
	}

	if "PredictOnly" in st.session_state.results:
	df = st.session_state.results["PredictOnly"]; sv = st.session_state.results["sv_pred"]

	col_left, col_right = st.columns([2,3], gap="large")
	with col_left:
	table = pd.DataFrame({
	"Metric": ["# points","Pred min","Pred max","Pred mean","Pred std","OOR %"],
	"Value": [sv["n"],
	round(sv["pred_min"],3),
	round(sv["pred_max"],3),
	round(sv["pred_mean"],3),
	round(sv["pred_std"],3),
	f'{sv["oor"]:.1f}%']
	})
	st.markdown('<div class="st-message-box st-success">Predictions ready ✓</div>', unsafe_allow_html=True)
	df_centered_rounded(table, hide_index=True)
	st.caption("★ OOR = % of rows whose input features fall outside the training min–max range.")
	with col_right:
	st.plotly_chart(
	track_plot(df, include_actual=False),
	use_container_width=False,
	config={"displayModeBar": False, "scrollZoom": True}
	)

	# Export UI for this phase (dropdown checklist starts empty)
	render_export_button(phase_key="predict")

	# =========================
	# Run preview modal after all other elements
	# =========================
	if st.session_state.show_preview_modal:
	# Select the correct workbook bytes for this step
	book_to_preview = {}
	if st.session_state.app_step == "dev":
	book_to_preview = read_book_bytes(st.session_state.dev_file_bytes)
	elif st.session_state.app_step in ["validate", "predict"] and 'up' in locals() and up is not None:
	book_to_preview = read_book_bytes(up.getvalue())

	with st.expander("Preview data", expanded=True):
	if not book_to_preview:
	st.markdown('<div class="st-message-box">No data loaded yet.</div>', unsafe_allow_html=True)
	else:
	names = list(book_to_preview.keys())
	tabs = st.tabs(names)
	for t, name in zip(tabs, names):
	with t:
	df = _normalize_columns(book_to_preview[name])
	t1, t2 = st.tabs(["Tracks", "Summary"])
	with t1:
	st.pyplot(preview_tracks(df, FEATURES), use_container_width=True)
	with t2:
	feat_present = [c for c in FEATURES if c in df.columns]
	if not feat_present:
	st.info("No feature columns found to summarize.")
	else:
	tbl = (
	df[feat_present]
	.agg(['min','max','mean','std'])
	.T.rename(columns={"min":"Min","max":"Max","mean":"Mean","std":"Std"})
	.reset_index(names="Feature")
	)
	df_centered_rounded(tbl)

	st.session_state.show_preview_modal = False

	# =========================
	# Footer
	# =========================
	st.markdown("""
	<br><br><br>
	<hr>
	<div style='text-align:center;color:#6b7280;font-size:1.0em;'>
	© 2025 Smart Thinking AI-Solutions Team. All rights reserved.<br>
	Website: <a href="https://smartthinking.com.sa" target="_blank" rel="noopener noreferrer">smartthinking.com.sa</a>
	</div>
	""", unsafe_allow_html=True)