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# make_data_grid.py (clean + robust paths)

from __future__ import annotations
from decimal import Decimal
from pathlib import Path
from typing import Dict, List, Tuple, Union
import itertools
import warnings
import os

import numpy as np
import pandas as pd

warnings.filterwarnings("ignore", category=FutureWarning)

# =============================
# Grid & helpers
# =============================
def dseq(start: float, stop: float, step: float, q: str = "0.001") -> List[float]:
    s, e, st = map(lambda x: Decimal(str(x)), [start, stop, step])
    vals, cur = [], s
    while cur <= e + Decimal("1e-12"):
        vals.append(float(cur.quantize(Decimal(q))))
        cur += st
    return vals

def bead_to_lr(bead_value: Union[str, None]) -> Tuple[int, int]:
    mapping = {None:(2,2), "none":(0,0), "right":(0,1), "left":(1,0), "double":(1,1)}
    key = bead_value.lower() if isinstance(bead_value, str) else bead_value
    return mapping.get(key, (0,0))

def make_all_combinations(cfg: Dict) -> pd.DataFrame:
    bead_values = cfg.get("beads") or [None]
    bead_info = [(b, *bead_to_lr(b)) for b in bead_values]

    materials = cfg["materials"]
    thickness = dseq(cfg["min_thickness"], cfg["max_thickness"], cfg["thickness_step"])
    diameter  = [int(x) for x in dseq(cfg["min_diameter"], cfg["max_diameter"], cfg["diameter_step"], q="1")]
    upper_r   = dseq(cfg["upper_min"], cfg["upper_max"], cfg["upper_step"])
    lower_r   = dseq(cfg["lower_min"], cfg["lower_max"], cfg["lower_step"])
    degree    = [int(x) for x in dseq(cfg["min_degree"], cfg["max_degree"], cfg["degree_step"], q="1")]

    grid = itertools.product(materials, thickness, upper_r, lower_r, diameter, degree, bead_info)

    rows = []
    for mat, th, ur, lr, dia, deg, bead_t in grid:
        bead_name, lb, rb = bead_t
        rows.append((str(mat), float(th), float(ur), float(lr), int(dia), int(deg), bead_name, int(lb), int(rb)))

    return pd.DataFrame(
        rows,
        columns=["material","thickness","upper_radius","lower_radius",
                 "diameter","degree","bead","LB","RB"]
    )

# =============================
# Sweep-limit helpers
# =============================
def build_limit_dicts(df_sweep: pd.DataFrame):
    t = df_sweep.copy().replace("F", np.nan)
    if "Sweep" in t.columns:
        t = t.set_index("Sweep")

    new_cols = []
    for c in t.columns:
        try: new_cols.append(int(c))
        except: new_cols.append(c)
    t.columns = new_cols

    long = t.stack(dropna=False).reset_index()
    long.columns = ["row","degree","limit"]

    tmp = long["row"].str.extract(r"(?P<diameter>\d+)_(?P<which>upper|lower)_radius")
    long = pd.concat([long, tmp], axis=1)
    long["diameter"] = pd.to_numeric(long["diameter"], errors="coerce")
    long["degree"]   = pd.to_numeric(long["degree"], errors="coerce")
    long["limit"]    = pd.to_numeric(long["limit"], errors="coerce")

    upper = long[long["which"]=="upper"].dropna(subset=["diameter","degree"])
    lower = long[long["which"]=="lower"].dropna(subset=["diameter","degree"])

    upper_dict = {(int(d), int(g)): v for d, g, v in zip(upper["diameter"], upper["degree"], upper["limit"])}
    lower_dict = {(int(d), int(g)): v for d, g, v in zip(lower["diameter"], lower["degree"], lower["limit"])}
    return upper_dict, lower_dict

def filter_grid_by_sweep_limits(df_grid: pd.DataFrame, df_sweep: pd.DataFrame) -> pd.DataFrame:
    upper_dict, lower_dict = build_limit_dicts(df_sweep)
    key = list(zip(df_grid["diameter"].astype(int), df_grid["degree"].astype(int)))

    df_grid = df_grid.copy()
    df_grid["limit_upper"] = [upper_dict.get(k, np.nan) for k in key]
    df_grid["limit_lower"] = [lower_dict.get(k, np.nan) for k in key]

    not_nan = df_grid["limit_upper"].notna() & df_grid["limit_lower"].notna()
    within  = (df_grid["upper_radius"] <= df_grid["limit_upper"]) & \
              (df_grid["lower_radius"] <= df_grid["limit_lower"])
    return df_grid[not_nan & within].reset_index(drop=True)

# =============================
# Rule-by-bead helpers
# =============================
SHEET_BY_BEAD = {"left":"left", "right":"right", "double":"both", "none":"none"}

def _normalize_input_df(df: pd.DataFrame) -> pd.DataFrame:
    df2 = df.copy()
    df2.columns = [str(c).strip() for c in df2.columns]
    rename = {}
    for c in df2.columns:
        lc = c.lower().strip()
        if lc == "diamater": rename[c] = "diameter"
        elif lc in ("material","diameter","degree","bead"): rename[c] = lc
    df2 = df2.rename(columns=rename)
    need = {"material","diameter","degree","bead"}
    missing = need - set(df2.columns)
    if missing:
        raise ValueError(f"입력 데이터프레임에 필요한 컬럼이 없습니다: {missing}")
    df2["bead"] = df2["bead"].astype(str).str.strip().str.lower()
    for c in ["material","diameter","degree"]:
        df2[c] = pd.to_numeric(df2[c], errors="coerce")
    df2 = df2.dropna(subset=["material","diameter","degree"]).copy()
    return df2

def _read_rule_sheet(xlsx_path: str, sheet_name: str) -> pd.DataFrame:
    rule = pd.read_excel(xlsx_path, sheet_name=sheet_name)
    rule.columns = rule.columns.str.strip().str.lower()
    rule = rule.rename(columns={"diamater":"diameter"})
    need_cols = {"material","diameter","min_degree","max_degree"}
    missing = need_cols - set(rule.columns)
    if missing:
        raise ValueError(f"규칙 시트 '{sheet_name}'에 필요한 컬럼이 없습니다: {missing}")
    for c in need_cols:
        rule[c] = pd.to_numeric(rule[c], errors="coerce")
    rule = rule.dropna(subset=list(need_cols)).copy()
    rule = rule.astype({"material":"int64","diameter":"int64"})
    return rule[["material","diameter","min_degree","max_degree"]]

def _apply_rules(df_part: pd.DataFrame, rule: pd.DataFrame) -> pd.DataFrame:
    if df_part.empty:
        return df_part.copy()
    df_part = df_part[df_part["material"].isin(rule["material"].unique())].copy()
    if df_part.empty:
        return df_part
    merged = df_part.merge(rule, on=["material","diameter"], how="left")
    mask = (
        merged["min_degree"].notna()
        & merged["max_degree"].notna()
        & (merged["degree"] >= merged["min_degree"])
        & (merged["degree"] <= merged["max_degree"])
    )
    kept = merged.loc[mask, df_part.columns].reset_index(drop=True)
    return kept

def filter_all_by_bead(df: pd.DataFrame, rules_xlsx: str) -> pd.DataFrame:
    base = _normalize_input_df(df)
    outs = []
    for bead_value, sheet in SHEET_BY_BEAD.items():
        part = base[base["bead"] == bead_value].copy()
        if part.empty:
            continue
        rule = _read_rule_sheet(rules_xlsx, sheet)
        kept = _apply_rules(part, rule)
        outs.append(kept)
    if not outs:
        return base.iloc[0:0].copy()
    result = pd.concat(outs, axis=0, ignore_index=True)
    return result.reset_index(drop=True)

# =============================
# Predictors (blend models)
# =============================
DISPLAY_TO_MODEL = {"440":"440.0", "590":"590.0", "780":"780.0"}

def _here() -> Path:
    try: return Path(__file__).resolve().parent
    except Exception: return Path.cwd()

def _abs(p: Path | str) -> str:
    return str(Path(p).resolve())

def _find_art_dir(name: str) -> str:
    """
    절대경로 탐색 우선순위:
      1) 환경변수 FS_MF_ART_DIR / FS_THIN_ART_DIR
      2) 이 모듈 파일 기준
      3) 현재 작업 디렉토리
      4) 모듈 상위 경로
    """
    env_map = {
        "artifacts_blend": os.getenv("FS_MF_ART_DIR"),
        "artifacts_blend_thinning": os.getenv("FS_THIN_ART_DIR"),
    }
    hinted = env_map.get(name)
    if hinted and Path(hinted).exists():
        return _abs(hinted)

    for base in (_here(), Path.cwd(), _here().parent):
        cand = (base / name).resolve()
        if cand.exists():
            return _abs(cand)
    return _abs(name)

_predictor_mf = None
_predictor_th = None

def _prep_pred_df(df: pd.DataFrame) -> pd.DataFrame:
    need = ["material","thickness","diameter","degree","upper_radius","lower_radius","LB","RB"]
    missing = [c for c in need if c not in df.columns]
    if missing:
        raise ValueError(f"예측 입력 컬럼 누락: {missing}")
    x = df.copy()
    x["material"] = x["material"].astype(str).map(lambda v: DISPLAY_TO_MODEL.get(v, v))
    x["LB"] = x["LB"].astype(int); x["RB"] = x["RB"].astype(int)
    for c in ["thickness","diameter","degree","upper_radius","lower_radius"]:
        x[c] = pd.to_numeric(x[c], errors="coerce")
    if x[["thickness","diameter","degree","upper_radius","lower_radius"]].isnull().any().any():
        raise ValueError("숫자 컬럼에 NaN이 있습니다.")
    return x[need]

def _get_predictor_mf():
    global _predictor_mf
    if _predictor_mf is not None:
        return _predictor_mf
    from predict_blend import BlendPredictor
    art_dir = _find_art_dir("artifacts_blend")
    _predictor_mf = BlendPredictor(art_dir)
    return _predictor_mf

def _get_predictor_th():
    global _predictor_th
    if _predictor_th is not None:
        return _predictor_th
    try:
        from predict_blend_thinning import BlendPredictor as ThinPredictor
        art_dir = _find_art_dir("artifacts_blend_thinning")
        _predictor_th = ThinPredictor(art_dir)
        return _predictor_th
    except FileNotFoundError:
        # 폴더가 없을 때 간단 휴리스틱 폴백
        def _heuristic_thinning(thickness, upperR, lowerR):
            t = float(thickness); ur = float(upperR); lr = float(lowerR)
            base = 0.18 + (0.9 - t) * 0.25
            geom = max(0.0, ur - lr) * 0.01
            return float(max(0.05, min(0.8, base + geom)))
        class _HeuristicThinPredictor:
            def predict_blend(self, df: pd.DataFrame):
                return np.array([
                    _heuristic_thinning(r["thickness"], r["upper_radius"], r["lower_radius"])
                    for _, r in df.iterrows()
                ], dtype=float)
        _predictor_th = _HeuristicThinPredictor()
        return _predictor_th

def predict_max_failure(df: pd.DataFrame) -> np.ndarray:
    pred_df = _prep_pred_df(df)
    return _get_predictor_mf().predict_blend(pred_df)

def predict_thinning(df: pd.DataFrame) -> np.ndarray:
    pred_df = _prep_pred_df(df)
    return _get_predictor_th().predict_blend(pred_df)