ems/scripts/diagnose_home01_infeasible.py

#!/usr/bin/env python3
"""Bisect Infeasible na reálných slotech home-01 (MCP run 16674). PYTHONPATH=backend."""
from __future__ import annotations

import json
import sys
from datetime import datetime, timezone
from pathlib import Path
from types import SimpleNamespace

sys.path.insert(0, str(Path(__file__).resolve().parents[1] / "backend"))

from services.planning_engine import PlanningSlot, solve_dispatch, solve_dispatch_two_pass, PLANNER_BUILD_TAG

# Export z MCP: planning_interval run_id=16674 + fn_planning_site_context(2)
SLOTS_JSON = Path(__file__).with_name("home01_run16706_slots.json")
if not SLOTS_JSON.exists():
    SLOTS_JSON = Path(__file__).with_name("home01_run16674_slots.json")
SOC_WH = 37120.0


def _ctx() -> tuple[SimpleNamespace, SimpleNamespace, SimpleNamespace, list]:
    battery = SimpleNamespace(
        usable_capacity_wh=64000.0,
        min_soc_wh=6400.0,
        arb_floor_wh=12800.0,
        reserve_soc_wh=12800.0,
        soc_max_wh=64000.0,
        charge_efficiency=0.95,
        discharge_efficiency=0.95,
        degradation_cost_czk_kwh=0.15,
        max_charge_power_w=18000,
        max_discharge_power_w=18000,
        charge_slot_buffer=1.3,
        discharge_slot_buffer=1.5,
        planner_terminal_soc_value_factor=0.9,
        planner_discharge_floor_percent=5.0,
        planner_extreme_buy_threshold_czk_kwh=-2.0,
        planner_daytime_charge_target_enabled=True,
        planner_charge_commitment_penalty_czk_kwh=0.2,
        planner_night_baseload_buffer_percent=20,
    )
    grid = SimpleNamespace(
        max_import_power_w=17000,
        max_export_power_w=13500,
        block_export_on_negative_sell=False,
        deye_gen_microinverter_cutoff_enabled=False,
    )
    hp = SimpleNamespace(rated_heating_power_w=0, tuv_min_temp_c=45.0, tuv_target_temp_c=55.0)
    vehicles = [
        SimpleNamespace(max_charge_power_w=11000, battery_capacity_kwh=75.0, default_target_soc_pct=80.0),
        SimpleNamespace(max_charge_power_w=7400, battery_capacity_kwh=52.0, default_target_soc_pct=90.0),
    ]
    return battery, hp, grid, vehicles


def load_slots(*, permissive_masks: bool) -> list[PlanningSlot]:
    rows = json.loads(SLOTS_JSON.read_text())
    out: list[PlanningSlot] = []
    for r in rows:
        ts = datetime.fromisoformat(r["interval_start"].replace("Z", "+00:00"))
        pv_surplus = max(0, int(r["pv_a"]) + int(r["pv_b"]) - int(r["load"]))
        out.append(
            PlanningSlot(
                interval_start=ts,
                buy_price=float(r["buy"]),
                sell_price=float(r["sell"]),
                pv_a_forecast_w=int(r["pv_a"]),
                pv_b_forecast_w=int(r["pv_b"]),
                load_baseline_w=int(r["load"]),
                ev1_connected=False,
                ev2_connected=False,
                allow_charge=True if permissive_masks else (float(r["buy"]) < 0 or (float(r["sell"]) < 0 and pv_surplus > 500)),
                allow_discharge_export=permissive_masks,
            )
        )
    return out


def try_solve(label: str, slots: list[PlanningSlot], **kwargs) -> str:
    battery, hp, grid, vehicles = _ctx()
    try:
        if kwargs.pop("two_pass", False):
            solve_dispatch_two_pass(
                slots, battery, hp, grid, [None, None], vehicles, SOC_WH, 55.0,
                operating_mode="AUTO", **kwargs,
            )
        else:
            solve_dispatch(
                slots, battery, hp, grid, [None, None], vehicles, SOC_WH, 55.0,
                operating_mode="AUTO", **kwargs,
            )
        return f"OK  {label}"
    except Exception as e:
        return f"FAIL {label}: {e}"


def main() -> None:
    if not SLOTS_JSON.exists():
        print(f"Chybí {SLOTS_JSON} — spusť export z MCP (run 16674).", file=sys.stderr)
        sys.exit(1)

    print("tag", PLANNER_BUILD_TAG)
    print("slots", len(json.loads(SLOTS_JSON.read_text())))
    neg_buy = [r for r in json.loads(SLOTS_JSON.read_text()) if r["buy"] < 0]
    print("neg_buy slots", len(neg_buy), "first", neg_buy[0]["interval_start"] if neg_buy else None)

    cases = [
        ("permissive masks, 1-pass", dict(permissive_masks=True, two_pass=False)),
        ("permissive masks, 2-pass", dict(permissive_masks=True, two_pass=True)),
        ("realistic masks, 1-pass", dict(permissive_masks=False, two_pass=False)),
        ("realistic masks, 2-pass", dict(permissive_masks=False, two_pass=True)),
        ("realistic + relaxed_expensive", dict(permissive_masks=False, two_pass=False, relaxed_expensive_import=True)),
        ("realistic + both relaxed", dict(permissive_masks=False, two_pass=False, relaxed_expensive_import=True, relaxed_neg_buy_pressure=True)),
    ]
    for label, kw in cases:
        masks = kw.pop("permissive_masks")
        slots = load_slots(permissive_masks=masks)
        print(try_solve(label, slots, **kw))


if __name__ == "__main__":
    main()