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MultiTaskTox

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from __future__ import annotations

import json
from dataclasses import dataclass
from pathlib import Path
from typing import Dict, Optional, Sequence

import joblib
import lightgbm as lgb
import numpy as np
import optuna
import pandas as pd
from sklearn.metrics import roc_auc_score
from tqdm import tqdm

from .constants import TARGET_NAMES


@dataclass
class TaskTrainingOutput:
    model: lgb.LGBMClassifier
    val_auc: float
    best_iteration: int
    best_params: Dict


def resolve_n_estimators(training_cfg: Dict) -> Sequence[int]:
    """Normalize the n_estimators config entry into a non-empty list of ints."""
    if "n_estimators" in training_cfg:
        raw_value = training_cfg["n_estimators"]
    elif "boosting_rounds" in training_cfg:
        raw_value = training_cfg["boosting_rounds"]
    else:
        raw_value = [50, 500, 1000]

    if isinstance(raw_value, int):
        choices = [int(raw_value)]
    elif isinstance(raw_value, Sequence) and not isinstance(raw_value, (str, bytes)):
        choices = [int(v) for v in raw_value]
    else:
        raise ValueError("training.n_estimators must be an int or a sequence of ints")

    choices = [v for v in choices if v > 0]
    if not choices:
        raise ValueError("training.n_estimators must contain at least one positive value")
    return choices


def _sample_hyperparams(trial: optuna.Trial, base_params: Dict, n_estimators_choices: Sequence[int]) -> Dict:
    params = dict(base_params)
    params.update(
        {
            "learning_rate": trial.suggest_float("learning_rate", 1e-3, 0.2, log=True),
            "num_leaves": trial.suggest_int("num_leaves", 16, 256, log=True),
            "max_depth": trial.suggest_int("max_depth", -1, 12),
            "min_child_samples": trial.suggest_int("min_child_samples", 10, 200),
            "feature_fraction": trial.suggest_float("feature_fraction", 0.5, 1.0),
            "bagging_fraction": trial.suggest_float("bagging_fraction", 0.5, 1.0),
            "bagging_freq": trial.suggest_int("bagging_freq", 1, 10),
            "reg_alpha": trial.suggest_float("reg_alpha", 1e-8, 10.0, log=True),
            "reg_lambda": trial.suggest_float("reg_lambda", 1e-8, 10.0, log=True),
            "n_estimators": trial.suggest_categorical("n_estimators", list(n_estimators_choices)),
        }
    )
    params.setdefault("objective", "binary")
    params.setdefault("metric", "auc")
    params.setdefault("verbosity", -1)
    params.setdefault("boosting_type", "gbdt")
    params.setdefault("n_jobs", -1)
    return params


def train_lightgbm_task(
    X_train: np.ndarray,
    y_train: np.ndarray,
    X_val: np.ndarray,
    y_val: np.ndarray,
    base_params: Dict,
    n_estimators_choices: Sequence[int],
    early_stopping_rounds: int,
    n_trials: int,
    seed: int,
) -> Optional[TaskTrainingOutput]:
    if len(np.unique(y_train)) < 2 or len(np.unique(y_val)) < 2:
        return None

    def objective(trial: optuna.Trial) -> float:
        params = _sample_hyperparams(trial, base_params, n_estimators_choices)
        params["random_state"] = seed
        model = lgb.LGBMClassifier(**params)
        model.fit(
            X_train,
            y_train,
            eval_set=[(X_val, y_val)],
            eval_metric="auc",
            callbacks=[
                lgb.early_stopping(
                    early_stopping_rounds,
                    first_metric_only=True,
                    verbose=False,
                )
            ],
        )
        best_iter = getattr(model, "best_iteration_", params["n_estimators"])
        preds = model.predict_proba(X_val, num_iteration=best_iter)[:, 1]
        return float(roc_auc_score(y_val, preds))

    study = optuna.create_study(direction="maximize")
    study.optimize(objective, n_trials=n_trials, show_progress_bar=False)

    best_params = _sample_hyperparams(study.best_trial, base_params, n_estimators_choices)
    best_params["random_state"] = seed

    final_model = lgb.LGBMClassifier(**best_params)
    final_model.fit(
        X_train,
        y_train,
        eval_set=[(X_val, y_val)],
        eval_metric="auc",
        callbacks=[
            lgb.early_stopping(
                early_stopping_rounds,
                first_metric_only=True,
                verbose=False,
            )
        ],
    )

    best_iteration = getattr(final_model, "best_iteration_", best_params["n_estimators"])
    val_preds = final_model.predict_proba(X_val, num_iteration=best_iteration)[:, 1]
    val_auc = roc_auc_score(y_val, val_preds)

    return TaskTrainingOutput(
        model=final_model,
        val_auc=float(val_auc),
        best_iteration=int(best_iteration),
        best_params=best_params,
    )


def save_stage_metrics(metrics: Dict, path: Path):
    path.parent.mkdir(parents=True, exist_ok=True)
    with path.open("w", encoding="utf-8") as f:
        json.dump(metrics, f, indent=2)


def train_stage_one_models(
    train_features: np.ndarray,
    val_features: Optional[np.ndarray],
    train_df: pd.DataFrame,
    val_df: Optional[pd.DataFrame],
    config: Dict,
    checkpoint_dir: Path,
    target_names: Sequence[str] = TARGET_NAMES,
) -> Dict:
    stage_dir = checkpoint_dir / "stage1"
    stage_dir.mkdir(parents=True, exist_ok=True)

    training_cfg = config.get("training", {})
    base_params = training_cfg.get("lightgbm_params", {})
    n_trials = training_cfg.get("optuna_trials", 40)
    n_estimators_choices = resolve_n_estimators(training_cfg)
    early_stopping = training_cfg.get("early_stopping_rounds", 100)
    seed = config.get("seed", 42)

    task_list = list(target_names)
    n_train = len(train_df)
    n_tasks = len(task_list)

    train_preds = np.full((n_train, n_tasks), 0.5, dtype=np.float32)
    val_preds = (
        np.full((len(val_df), n_tasks), 0.5, dtype=np.float32)
        if val_df is not None and val_features is not None
        else None
    )

    metrics: Dict[str, Dict] = {}
    params_dump: Dict[str, Dict] = {}

    with tqdm(task_list, desc="Stage 1", unit="task") as progress_bar:
        for task_idx, task_name in enumerate(progress_bar):
            progress_bar.set_postfix(task=task_name)
            train_mask = train_df[task_name].notna().values
            if val_df is None or val_features is None:
                metrics[task_name] = {"status": "skipped", "reason": "missing validation split"}
                continue

            val_mask = val_df[task_name].notna().values
            if train_mask.sum() < 2 or val_mask.sum() < 2:
                metrics[task_name] = {"status": "skipped", "reason": "insufficient labeled data"}
                continue

            X_train_task = train_features[train_mask]
            y_train_task = train_df.loc[train_mask, task_name].astype(float).values
            X_val_task = val_features[val_mask]
            y_val_task = val_df.loc[val_mask, task_name].astype(float).values

            if len(np.unique(y_train_task)) < 2 or len(np.unique(y_val_task)) < 2:
                metrics[task_name] = {"status": "skipped", "reason": "single-class labels"}
                continue

            task_result = train_lightgbm_task(
                X_train_task,
                y_train_task,
                X_val_task,
                y_val_task,
                base_params=base_params,
                n_estimators_choices=n_estimators_choices,
                early_stopping_rounds=early_stopping,
                n_trials=n_trials,
                seed=seed,
            )

            if task_result is None:
                metrics[task_name] = {"status": "skipped", "reason": "training failed"}
                continue

            model = task_result.model
            best_iter = task_result.best_iteration

            model_path = stage_dir / f"{task_name}.pkl"
            joblib.dump(model, model_path)

            params_dump[task_name] = {
                **task_result.best_params,
                "best_iteration": best_iter,
                "val_auc": task_result.val_auc,
            }

            full_train_preds = model.predict_proba(
                train_features,
                num_iteration=best_iter,
            )[:, 1]
            train_preds[:, task_idx] = full_train_preds.astype(np.float32)

            if val_preds is not None:
                full_val_preds = model.predict_proba(
                    val_features,
                    num_iteration=best_iter,
                )[:, 1]
                val_preds[:, task_idx] = full_val_preds.astype(np.float32)

            metrics[task_name] = {
                "val_auc": task_result.val_auc,
                "n_train_samples": int(train_mask.sum()),
                "n_val_samples": int(val_mask.sum()),
            }

    save_stage_metrics(metrics, checkpoint_dir / "metrics_stage1.json")
    params_path = checkpoint_dir / "stage1_params.json"
    with params_path.open("w", encoding="utf-8") as f:
        json.dump(params_dump, f, indent=2)

    return {
        "train_full": train_preds,
        "val_full": val_preds,
        "metrics": metrics,
    }