data-centric-env / server /data_centric_environment.py
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Redesign reward for discrimination: efficiency multiplier, strict penalties, stretch bonus, start at level 1
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"""Main DataCentric RL Environment."""
import logging
import time
from copy import deepcopy
from typing import Any, Dict, List, Optional
from uuid import uuid4
import pandas as pd
from openenv.core.env_server.interfaces import Environment
from openenv.core.env_server.types import State
try:
from ..models import DataCentricAction, DataCentricObservation
except ImportError:
try:
from models import DataCentricAction, DataCentricObservation
except ImportError:
import sys as _sys, os as _os
_sys.path.insert(0, _os.path.dirname(_os.path.dirname(_os.path.abspath(__file__))))
from models import DataCentricAction, DataCentricObservation
try:
from .anti_exploit import (
AntiExploitState, assert_ground_truth_intact,
check_and_truncate_input, check_apply_allowed,
check_catastrophic_data_loss, check_episode_timeout,
check_validate_cooldown, get_validate_reward, record_apply,
record_non_validate_step, record_validate, reset_session_apply_state,
validate_calls_remaining,
)
from .dataset_generator import TASK_CONFIGS, generate_dataset
from .grader import (
compute_accuracy_reward, compute_efficiency_reward,
compute_lightweight_score, compute_preservation_reward,
compute_process_reward, compute_step_reward, compute_total_reward,
)
from .model_evaluator import ModelEvaluator
from .specialist_agents import (
AugmenterAgent, AnalystAgent, BalancerAgent, CleanerAgent,
SessionRegistry, ValidatorAgent, compute_drift, format_drift_summary,
)
except ImportError:
from server.anti_exploit import (
AntiExploitState, assert_ground_truth_intact,
check_and_truncate_input, check_apply_allowed,
check_catastrophic_data_loss, check_episode_timeout,
check_validate_cooldown, get_validate_reward, record_apply,
record_non_validate_step, record_validate, reset_session_apply_state,
validate_calls_remaining,
)
from server.dataset_generator import TASK_CONFIGS, generate_dataset
from server.grader import (
compute_accuracy_reward, compute_efficiency_reward,
compute_lightweight_score, compute_preservation_reward,
compute_process_reward, compute_step_reward, compute_total_reward,
)
from server.model_evaluator import ModelEvaluator
from server.specialist_agents import (
AugmenterAgent, AnalystAgent, BalancerAgent, CleanerAgent,
SessionRegistry, ValidatorAgent, compute_drift, format_drift_summary,
)
logger = logging.getLogger(__name__)
AVAILABLE_COMMANDS = """Available commands:
inspect_dataset β€” shape, dtypes, missing, class distribution
inspect_model β€” accuracy (RF + LR), F1, feature importance
query_analyst β€” holistic diagnosis + prioritised action plan (costs 2 budget total)
query_cleaner β€” get cleaning recommendations
query_augmenter [class] β€” get augmentation suggestions
query_balancer β€” get resampling recommendations
query_validator β€” check rule violations (costs 2 budget total)
apply [id] β€” apply recommendation by ID
reject [id] β€” reject a recommendation
undo β€” revert last apply (max 3 levels)
validate β€” retrain and score (cooldown applies)
submit β€” finalize episode"""
class DataCentricEnvironment(Environment):
"""Data-Centric AI RL Environment."""
SUPPORTS_CONCURRENT_SESSIONS: bool = True
def __init__(self):
self._state = State(episode_id=str(uuid4()), step_count=0)
self._ground_truth: Optional[pd.DataFrame] = None
self._working_copy: Optional[pd.DataFrame] = None
self._metadata: Dict[str, Any] = {}
self._action_history: List[str] = []
self._exploit: Optional[AntiExploitState] = None
# fast_mode=True: uses n_estimators=20 for training rollouts (~4x faster)
self._evaluator = ModelEvaluator(fast_mode=True)
self._session_registry = SessionRegistry()
self._cleaner = CleanerAgent()
self._augmenter = AugmenterAgent()
self._balancer = BalancerAgent()
self._validator = ValidatorAgent()
self._analyst = AnalystAgent()
self._current_accuracy: float = 0.0
self._previous_accuracy: float = 0.0
self._active_session: str = "none"
self._task: str = "task_0_tutorial"
# Snapshot stack for undo command (max 3 snapshots)
self._dataset_history: List[pd.DataFrame] = []
self._max_history: int = 3
# ── reset ────────────────────────────────────────────────────────────────
def reset(self, task: str = "task_0_tutorial", seed: int = 42) -> DataCentricObservation:
self._task = task if task in TASK_CONFIGS else "task_0_tutorial"
cfg = TASK_CONFIGS[self._task]
self._ground_truth, self._working_copy, self._metadata = generate_dataset(
self._task, seed=seed
)
self._state = State(episode_id=str(uuid4()), step_count=0)
self._action_history = []
self._exploit = AntiExploitState(
episode_start_time=time.time(),
ground_truth_row_count=len(self._ground_truth),
)
self._evaluator.invalidate_cache()
self._session_registry = SessionRegistry()
self._active_session = "none"
self._dataset_history = [] # clear snapshot stack on reset
reset_session_apply_state(self._exploit)
# Store episode-start missing count for quality score baseline
self._metadata["initial_missing"] = int(self._working_copy.isnull().sum().sum())
self._metadata["baseline_accuracy"] = cfg["baseline_accuracy"]
baseline = cfg["baseline_accuracy"]
self._current_accuracy = baseline
self._previous_accuracy = baseline
quality = compute_lightweight_score(
self._working_copy, self._ground_truth,
self._metadata["original_length"], self._metadata["col_meta"],
initial_missing=self._metadata["initial_missing"],
)
wc = self._working_copy
return DataCentricObservation(
response=(
f"Episode started: {self._task}\n"
f"Baseline accuracy: {baseline:.4f} | Target: {cfg['target_accuracy']:.4f}\n"
f"Dataset: {len(wc)} rows Γ— {len(wc.columns)-1} features\n"
f"Budget: {cfg['budget']} steps\n\n{AVAILABLE_COMMANDS}"
),
current_accuracy=baseline,
baseline_accuracy=baseline,
target_accuracy=cfg["target_accuracy"],
estimated_quality=quality,
dataset_shape=f"{len(wc)} rows Γ— {len(wc.columns)-1} columns",
rows_preserved_pct=1.0,
budget_remaining=cfg["budget"],
step_number=0,
max_steps=cfg["budget"],
active_session="none",
validate_calls_remaining=validate_calls_remaining(self._exploit),
done=False,
reward=0.0,
)
# ── step ─────────────────────────────────────────────────────────────────
def step(self, action: DataCentricAction) -> DataCentricObservation:
if self._working_copy is None:
return self._error_obs("Call reset() first.")
# Episode timeout
timeout, tmsg = check_episode_timeout(self._exploit)
if timeout:
return self._do_submit(penalty=-0.10, extra_msg=tmsg)
# Input truncation
raw_msg = action.message
msg, trunc_penalty, was_truncated = check_and_truncate_input(raw_msg)
if was_truncated:
logger.warning("Input truncated.")
cfg = TASK_CONFIGS[self._task]
self._state.step_count += 1
step_num = self._state.step_count
budget_remaining = cfg["budget"] - step_num
cmd_parts = msg.strip().split()
cmd = cmd_parts[0].lower() if cmd_parts else ""
# Out of budget β†’ force submit
if budget_remaining < 0:
return self._do_submit(penalty=0.0, extra_msg="Budget exhausted.")
# Record action
self._action_history.append(msg)
# Process reward component (computed for all actions)
r_process = compute_process_reward(self._action_history[:-1], msg)
# Route command
if cmd == "inspect_dataset":
obs = self._cmd_inspect_dataset(step_num, budget_remaining, r_process, trunc_penalty)
elif cmd == "inspect_model":
obs = self._cmd_inspect_model(step_num, budget_remaining, r_process, trunc_penalty)
elif cmd == "query_cleaner":
obs = self._cmd_query_cleaner(step_num, budget_remaining, r_process, trunc_penalty)
elif cmd == "query_augmenter":
cls = cmd_parts[1] if len(cmd_parts) > 1 else None
obs = self._cmd_query_augmenter(cls, step_num, budget_remaining, r_process, trunc_penalty)
elif cmd == "query_balancer":
obs = self._cmd_query_balancer(step_num, budget_remaining, r_process, trunc_penalty)
elif cmd == "query_analyst":
obs = self._cmd_query_analyst(step_num, budget_remaining, r_process, trunc_penalty)
elif cmd == "query_validator":
obs = self._cmd_query_validator(step_num, budget_remaining, r_process, trunc_penalty)
elif cmd == "apply":
try:
rec_id = int(cmd_parts[1]) if len(cmd_parts) > 1 else -1
except ValueError:
rec_id = -1
obs = self._cmd_apply(rec_id, step_num, budget_remaining, r_process, trunc_penalty)
elif cmd == "reject":
try:
rec_id = int(cmd_parts[1]) if len(cmd_parts) > 1 else -1
except ValueError:
rec_id = -1
obs = self._cmd_reject(rec_id, step_num, budget_remaining, r_process, trunc_penalty)
elif cmd == "validate":
obs = self._cmd_validate(step_num, budget_remaining, r_process, trunc_penalty)
elif cmd == "submit":
obs = self._do_submit()
elif cmd == "undo":
obs = self._cmd_undo(step_num, budget_remaining, r_process, trunc_penalty)
else:
obs = self._unknown_cmd_obs(msg, step_num, budget_remaining, r_process + trunc_penalty)
if cmd != "validate":
record_non_validate_step(self._exploit)
return obs
# ── command handlers ─────────────────────────────────────────────────────
def _cmd_inspect_dataset(self, step, budget, r_process, trunc_pen) -> DataCentricObservation:
wc = self._working_copy
orig_len = self._metadata["original_length"]
missing = wc.isnull().sum()
missing_str = "\n".join(f" {c}: {v}" for c, v in missing.items() if v > 0) or " None"
vc = wc["target"].value_counts().sort_index()
class_str = ", ".join(f"class {k}: {v}" for k, v in vc.items())
rows_pct = len(wc) / orig_len
response = (
f"=== Dataset Inspection ===\n"
f"Shape: {len(wc)} rows Γ— {len(wc.columns)-1} features\n"
f"Original rows: {orig_len} | Preserved: {rows_pct*100:.1f}%\n"
f"Duplicates: {wc.duplicated().sum()}\n"
f"Missing values:\n{missing_str}\n"
f"Class distribution: {class_str}\n"
f"Dtypes: {dict(wc.dtypes.astype(str))}"
)
reward = compute_total_reward(0.0, r_process, 0.0) + trunc_pen
return self._make_obs(response, step, budget, reward)
def _cmd_inspect_model(self, step, budget, r_process, trunc_pen) -> DataCentricObservation:
acc, per_class, from_cache, lr_acc = self._evaluator.evaluate(
self._working_copy, self._ground_truth
)
cache_label = " (cached)" if from_cache else ""
lines = [f"=== Model Inspection{cache_label} ===",
f"RF Accuracy: {acc:.4f}",
f"LR Accuracy: {lr_acc:.4f} (secondary β€” diagnostic only)"]
for cls, metrics in per_class.items():
if isinstance(metrics, dict):
lines.append(
f" Class {cls}: precision={metrics.get('precision',0):.3f} "
f"recall={metrics.get('recall',0):.3f} "
f"f1={metrics.get('f1-score',0):.3f}"
)
feat_text = self._evaluator.feature_importance_text()
if feat_text:
lines.append(feat_text)
response = "\n".join(lines)
reward = compute_total_reward(0.0, r_process, 0.0) + trunc_pen
return self._make_obs(response, step, budget, reward)
def _cmd_query_cleaner(self, step, budget, r_process, trunc_pen) -> DataCentricObservation:
reset_session_apply_state(self._exploit)
recs = self._cleaner.query(
self._working_copy, self._session_registry, self._metadata["col_meta"]
)
self._active_session = f"cleaner:{self._session_registry.current_session_id[:8]}"
lines = ["=== Cleaner Recommendations ==="]
for r in recs:
lines.append(
f"[{r.id}] {r.description}\n"
f" type={r.action_type} impact={r.estimated_impact:+.3f} "
f"confidence={r.confidence:.2f}"
)
response = "\n".join(lines) if recs else "No cleaning issues detected."
reward = compute_total_reward(0.0, r_process, 0.0) + trunc_pen
return self._make_obs(response, step, budget, reward)
def _cmd_query_augmenter(self, cls, step, budget, r_process, trunc_pen) -> DataCentricObservation:
reset_session_apply_state(self._exploit)
recs = self._augmenter.query(self._working_copy, self._session_registry, cls)
self._active_session = f"augmenter:{self._session_registry.current_session_id[:8]}"
lines = ["=== Augmenter Recommendations ==="]
for r in recs:
lines.append(
f"[{r.id}] {r.description}\n"
f" type={r.action_type} impact={r.estimated_impact:+.3f} "
f"confidence={r.confidence:.2f}"
)
response = "\n".join(lines) if recs else "No augmentation needed."
reward = compute_total_reward(0.0, r_process, 0.0) + trunc_pen
return self._make_obs(response, step, budget, reward)
def _cmd_query_balancer(self, step, budget, r_process, trunc_pen) -> DataCentricObservation:
reset_session_apply_state(self._exploit)
recs = self._balancer.query(self._working_copy, self._session_registry)
self._active_session = f"balancer:{self._session_registry.current_session_id[:8]}"
lines = ["=== Balancer Recommendations ==="]
for r in recs:
lines.append(
f"[{r.id}] {r.description}\n"
f" type={r.action_type} impact={r.estimated_impact:+.3f} "
f"confidence={r.confidence:.2f}"
)
response = "\n".join(lines) if recs else "Dataset is already balanced."
reward = compute_total_reward(0.0, r_process, 0.0) + trunc_pen
return self._make_obs(response, step, budget, reward)
def _cmd_query_analyst(self, step, budget, r_process, trunc_pen) -> DataCentricObservation:
"""Holistic diagnosis + prioritised action plan. Costs 2 budget total (1 cmd step + 1 internal)."""
# Costs 1 extra budget step
self._state.step_count += 1
plan = self._analyst.query(
self._working_copy,
self._metadata["col_meta"],
self._current_accuracy,
TASK_CONFIGS[self._task]["target_accuracy"],
budget - 1,
)
response = f"=== Analyst Report (costs 1 budget) ===\n{plan}"
reward = compute_total_reward(0.0, r_process + 0.02, 0.0) + trunc_pen # small bonus for planning
budget_remaining = TASK_CONFIGS[self._task]["budget"] - self._state.step_count
return self._make_obs(response, step, budget_remaining, reward)
def _cmd_query_validator(self, step, budget, r_process, trunc_pen) -> DataCentricObservation:
# Costs 2 budget
self._state.step_count += 1
violations = self._validator.query(self._working_copy, self._metadata["col_meta"])
lines = ["=== Validator Report (costs 2 budget) ==="]
if violations:
for v in violations:
lines.append(
f" [{v.severity}] [{v.column}] rule={v.rule} count={v.count}\n {v.description}"
)
else:
lines.append(" No rule violations found.")
response = "\n".join(lines)
reward = compute_total_reward(0.0, r_process, 0.0) + trunc_pen
budget_remaining = TASK_CONFIGS[self._task]["budget"] - self._state.step_count
return self._make_obs(response, step, budget_remaining, reward)
def _cmd_apply(self, rec_id, step, budget, r_process, trunc_pen) -> DataCentricObservation:
if rec_id < 1:
# Error: return 0 reward (no penalty, no bonus)
return self._make_obs("Error: invalid recommendation ID.", step, budget, 0.0)
# Check apply allowed (duplicate / session limit) β€” 0 reward on error
allowed, err = check_apply_allowed(rec_id, self._exploit)
if not allowed:
return self._make_obs(f"Error: {err}", step, budget, 0.0)
# Get recommendation (staleness check) β€” 0 reward, no penalty
rec = self._session_registry.get(rec_id, self._session_registry.current_session_id)
if rec is None:
return self._make_obs(
f"Error: stale recommendation ID {rec_id}. Please re-query for fresh recommendations.",
step, budget, 0.0
)
# Capture quality before mutation for step reward
quality_before = compute_lightweight_score(
self._working_copy, self._ground_truth,
self._metadata["original_length"], self._metadata["col_meta"],
initial_missing=self._metadata.get("initial_missing"),
)
# Execute payload
payload = rec._payload
action_type = payload.get("action", "")
wc = self._working_copy
orig_len = self._metadata["original_length"]
pre_rows = len(wc)
pre_missing = int(wc.isnull().sum().sum())
pre_dups = int(wc.duplicated().sum())
# Save snapshot for undo before mutating
self._dataset_history.append(self._working_copy.copy())
if len(self._dataset_history) > self._max_history:
self._dataset_history.pop(0)
try:
if action_type == "fill_missing":
col = payload["column"]
strategy = payload.get("strategy", "mean") # honor smarter CleanerAgent choice
numeric = pd.to_numeric(wc[col], errors="coerce")
if strategy == "median":
fill_val = float(numeric.median())
else:
fill_val = float(numeric.mean())
wc[col] = numeric.fillna(fill_val)
self._working_copy = wc
elif action_type == "remove_duplicates":
self._working_copy = wc.drop_duplicates().reset_index(drop=True)
elif action_type == "fix_type_errors":
col = payload["column"]
numeric = pd.to_numeric(wc[col], errors="coerce")
mean_val = float(numeric.mean())
wc[col] = numeric.fillna(mean_val)
self._working_copy = wc
elif action_type == "augment_class":
cls_int = payload["class"]
n_synth = payload["n_synth"]
cls_rows = wc[wc["target"] == cls_int]
if len(cls_rows) > 0:
synth = cls_rows.sample(n=n_synth, replace=True, random_state=42)
noise_cols = [c for c in synth.columns if c != "target"]
for c in noise_cols:
try:
synth[c] = pd.to_numeric(synth[c], errors="coerce")
synth[c] = synth[c] + synth[c].std() * 0.1
except Exception:
pass
self._working_copy = pd.concat([wc, synth], ignore_index=True)
elif action_type == "oversample":
cls_int = payload["class"]
target_count = payload["target_count"]
cls_rows = wc[wc["target"] == cls_int]
n_needed = max(0, target_count - len(cls_rows))
if n_needed > 0:
extra = cls_rows.sample(n=n_needed, replace=True, random_state=42)
self._working_copy = pd.concat([wc, extra], ignore_index=True)
elif action_type == "undersample":
cls_int = payload["class"]
target_count = payload["target_count"]
cls_rows = wc[wc["target"] == cls_int]
if len(cls_rows) > target_count:
keep = cls_rows.sample(n=target_count, random_state=42)
other = wc[wc["target"] != cls_int]
self._working_copy = pd.concat([keep, other], ignore_index=True)
elif action_type == "remove_outlier_rows":
col = payload["column"]
pct = payload.get("pct", 5)
try:
numeric = pd.to_numeric(wc[col], errors="coerce")
threshold = float(numeric.quantile(pct / 100))
self._working_copy = wc[pd.to_numeric(wc[col], errors="coerce") >= threshold].reset_index(drop=True)
except Exception:
pass
except Exception as exc:
logger.exception("Error executing apply: %s", exc)
return self._make_obs(f"Error executing recommendation: {exc}", step, budget, 0.0)
record_apply(rec_id, self._exploit)
# Ground truth immutability assertion β€” must never change
gt_ok, gt_msg = assert_ground_truth_intact(
len(self._ground_truth), self._exploit.ground_truth_row_count
)
if not gt_ok:
logger.critical(gt_msg)
return self._do_submit(penalty=-1.0, extra_msg=gt_msg)
wc_new = self._working_copy
post_rows = len(wc_new)
post_missing = int(wc_new.isnull().sum().sum())
post_dups = int(wc_new.duplicated().sum())
rows_pct = post_rows / orig_len
# Catastrophic data loss
catastro, cmsg = check_catastrophic_data_loss(post_rows, orig_len)
if catastro:
return self._do_submit(penalty=-0.40, extra_msg=cmsg)
# Preservation reward
r_preservation = compute_preservation_reward(post_rows, orig_len)
# Lightweight quality (use episode-start missing count as denominator)
quality = compute_lightweight_score(
wc_new, self._ground_truth, orig_len, self._metadata["col_meta"],
initial_missing=self._metadata.get("initial_missing"),
)
# Build rich feedback with drift detection
cfg = TASK_CONFIGS[self._task]
missing_status = "OK" if post_missing == 0 else f"{post_missing} remaining"
dup_status = "OK" if post_dups == 0 else f"{post_dups} remaining"
drift = compute_drift(self._working_copy, self._ground_truth)
drift_summary = format_drift_summary(drift)
response = (
f"Applied: {action_type} [{rec.description[:80]}]\n\n"
f"Dataset health check:\n"
f" Missing values: {missing_status} (was {pre_missing})\n"
f" Duplicates: {dup_status} (was {pre_dups})\n"
f" Row count: {post_rows}/{orig_len} ({rows_pct*100:.1f}% preserved)\n"
f" {drift_summary}\n\n"
f"Estimated quality score: {quality:.4f}\n"
f"Budget remaining: {budget}"
)
reward = compute_total_reward(
0.0, r_process, r_preservation,
reward_step=compute_step_reward(
f"apply {rec_id}", quality_before, quality, rows_pct
),
) + trunc_pen
self._evaluator.invalidate_cache()
return self._make_obs(response, step, budget, reward, quality=quality,
rows_pct=rows_pct)
def _cmd_reject(self, rec_id, step, budget, r_process, trunc_pen) -> DataCentricObservation:
response = (
f"Recommendation {rec_id} rejected. It will not appear in future queries."
if rec_id >= 1 else "Error: invalid recommendation ID."
)
reward = compute_total_reward(0.0, r_process + 0.01, 0.0) + trunc_pen
return self._make_obs(response, step, budget, reward)
def _cmd_undo(self, step, budget, r_process, trunc_pen) -> DataCentricObservation:
"""Restore previous dataset state (max 3 levels deep)."""
if self._dataset_history:
self._working_copy = self._dataset_history.pop()
self._evaluator.invalidate_cache()
orig_len = self._metadata["original_length"]
rows_pct = len(self._working_copy) / orig_len
quality = compute_lightweight_score(
self._working_copy, self._ground_truth,
orig_len, self._metadata["col_meta"],
initial_missing=self._metadata.get("initial_missing"),
)
response = (
f"Undo successful. Reverted to previous dataset state.\n"
f"Row count: {len(self._working_copy)}/{orig_len} ({rows_pct*100:.1f}% preserved)\n"
f"Estimated quality: {quality:.4f}\n"
f"Snapshots remaining: {len(self._dataset_history)}"
)
reward = compute_total_reward(0.0, r_process - 0.03, 0.0) + trunc_pen # small cost
else:
response = "Nothing to undo. No previous state available."
reward = compute_total_reward(0.0, r_process - 0.05, 0.0) + trunc_pen # larger cost
return self._make_obs(response, step, budget, reward)
def _cmd_validate(self, step, budget, r_process, trunc_pen) -> DataCentricObservation:
allowed, cooldown_msg = check_validate_cooldown(self._exploit)
if not allowed:
return self._make_obs(cooldown_msg, step, budget, 0.0)
prev_rf = self._evaluator.last_accuracy
prev_lr = self._evaluator.last_lr_accuracy
acc, per_class, from_cache, lr_acc = self._evaluator.evaluate(
self._working_copy, self._ground_truth
)
cache_label = " (cached)" if from_cache else ""
if from_cache:
r_validate = 0.0
else:
r_validate = get_validate_reward(self._exploit)
record_validate(self._exploit)
r_accuracy = compute_accuracy_reward(
acc, self._current_accuracy,
self._metadata["baseline_accuracy"],
TASK_CONFIGS[self._task]["target_accuracy"],
)
self._previous_accuracy = self._current_accuracy
self._current_accuracy = acc
target = TASK_CONFIGS[self._task]["target_accuracy"]
agreement = self._evaluator.agreement_signal(acc, lr_acc, prev_rf, prev_lr)
feat_text = self._evaluator.feature_importance_text()
lines = [
f"=== Validate{cache_label} ===",
f"RF Accuracy: {acc:.4f} (primary)",
f"LR Accuracy: {lr_acc:.4f} (secondary)",
f"Agreement: {agreement}",
]
for cls, metrics in per_class.items():
if isinstance(metrics, dict):
lines.append(
f" Class {cls}: p={metrics.get('precision',0):.3f} "
f"r={metrics.get('recall',0):.3f} f1={metrics.get('f1-score',0):.3f}"
)
lines.append(f"Target: {target:.4f} | {'HIT βœ“' if acc >= target else 'Not yet'}")
if feat_text:
lines.append(feat_text)
response = "\n".join(lines)
reward = compute_total_reward(r_accuracy, r_process + r_validate, 0.0) + trunc_pen
return self._make_obs(response, step, budget, reward)
# ── submit ────────────────────────────────────────────────────────────────
def _do_submit(self, penalty: float = 0.0, extra_msg: str = "") -> DataCentricObservation:
cfg = TASK_CONFIGS[self._task]
orig_len = self._metadata["original_length"]
budget_remaining = cfg["budget"] - self._state.step_count
# Final accuracy
acc, per_class, _, lr_acc = self._evaluator.evaluate(
self._working_copy, self._ground_truth
)
self._current_accuracy = acc
r_accuracy = compute_accuracy_reward(
acc, self._previous_accuracy,
cfg["baseline_accuracy"], cfg["target_accuracy"],
is_submit=True,
budget_used=self._state.step_count,
budget_total=cfg["budget"],
)
r_process = compute_process_reward(self._action_history[:-1], "submit")
r_preservation = compute_preservation_reward(len(self._working_copy), orig_len)
r_efficiency = compute_efficiency_reward(
acc, cfg["baseline_accuracy"], cfg["budget"], max(budget_remaining, 0),
target_accuracy=cfg["target_accuracy"],
)
total = compute_total_reward(r_accuracy, r_process, r_preservation, r_efficiency)
total += penalty
hit = acc >= cfg["target_accuracy"]
response = (
f"{'=' * 40}\n"
f"EPISODE COMPLETE\n"
f"{'=' * 40}\n"
f"Final accuracy: {acc:.4f}\n"
f"Target accuracy: {cfg['target_accuracy']:.4f}\n"
f"Baseline: {cfg['baseline_accuracy']:.4f}\n"
f"Result: {'TARGET HIT βœ“' if hit else 'Target not reached'}\n\n"
f"Reward breakdown:\n"
f" Accuracy: {r_accuracy:+.4f}\n"
f" Process: {r_process:+.4f}\n"
f" Preservation: {r_preservation:+.4f}\n"
f" Efficiency: {r_efficiency:+.4f}\n"
f" Penalty: {penalty:+.4f}\n"
f" TOTAL: {total:+.4f}\n"
+ (f"\n{extra_msg}" if extra_msg else "")
)
quality = compute_lightweight_score(
self._working_copy, self._ground_truth,
orig_len, self._metadata["col_meta"],
)
rows_pct = len(self._working_copy) / orig_len
return DataCentricObservation(
response=response,
current_accuracy=acc,
baseline_accuracy=cfg["baseline_accuracy"],
target_accuracy=cfg["target_accuracy"],
estimated_quality=quality,
dataset_shape=f"{len(self._working_copy)} rows Γ— {len(self._working_copy.columns)-1} columns",
rows_preserved_pct=rows_pct,
budget_remaining=max(budget_remaining, 0),
step_number=self._state.step_count,
max_steps=cfg["budget"],
active_session=self._active_session,
validate_calls_remaining=validate_calls_remaining(self._exploit),
done=True,
reward=round(total, 4),
)
# ── helpers ───────────────────────────────────────────────────────────────
def _make_obs(self, response: str, step: int, budget: int, reward: float,
quality: Optional[float] = None, rows_pct: Optional[float] = None
) -> DataCentricObservation:
cfg = TASK_CONFIGS[self._task]
orig_len = self._metadata["original_length"]
wc = self._working_copy
if quality is None:
quality = compute_lightweight_score(
wc, self._ground_truth, orig_len, self._metadata["col_meta"],
initial_missing=self._metadata.get("initial_missing"),
)
if rows_pct is None:
rows_pct = len(wc) / orig_len
return DataCentricObservation(
response=response,
current_accuracy=self._current_accuracy,
baseline_accuracy=cfg["baseline_accuracy"],
target_accuracy=cfg["target_accuracy"],
estimated_quality=quality,
dataset_shape=f"{len(wc)} rows Γ— {len(wc.columns)-1} columns",
rows_preserved_pct=rows_pct,
budget_remaining=max(budget, 0),
step_number=step,
max_steps=cfg["budget"],
active_session=self._active_session,
validate_calls_remaining=validate_calls_remaining(self._exploit),
done=False,
reward=round(reward, 4),
)
def _error_obs(self, msg: str) -> DataCentricObservation:
return DataCentricObservation(response=msg, done=False, reward=0.0)
def _unknown_cmd_obs(self, msg: str, step: int, budget: int,
reward: float) -> DataCentricObservation:
return self._make_obs(
f"Unknown command: '{msg}'\n\n{AVAILABLE_COMMANDS}", step, budget, reward
)
@property
def state(self) -> State:
return self._state