org-parking/services/parking.py

"""
Parking Assignment Service
Manager-centric parking spot management with fairness algorithm

Key concepts:
- Managers own parking spots (defined by manager_parking_quota)
- Each manager has a spot prefix (A, B, C...) for display names
- Spots are named like A1, A2, B1, B2 based on manager prefix
- Fairness: users with lowest parking_days/presence_days ratio get priority
"""
import uuid
from datetime import datetime, timezone
from sqlalchemy.orm import Session
from sqlalchemy import func, or_

from database.models import (
    DailyParkingAssignment, User, UserPresence,
    ParkingGuarantee, ParkingExclusion, ManagerClosingDay, ManagerWeeklyClosingDay
)


def get_spot_prefix(manager: User, db: Session) -> str:
    """Get the spot prefix for a manager (from manager_spot_prefix or auto-assign)"""
    if manager.manager_spot_prefix:
        return manager.manager_spot_prefix

    # Auto-assign based on alphabetical order of managers without prefix
    managers = db.query(User).filter(
        User.role == "manager",
        User.manager_spot_prefix == None
    ).order_by(User.name).all()

    # Find existing prefixes
    existing_prefixes = set(
        m.manager_spot_prefix for m in db.query(User).filter(
            User.role == "manager",
            User.manager_spot_prefix != None
        ).all()
    )

    # Find first available letter
    manager_index = next((i for i, m in enumerate(managers) if m.id == manager.id), 0)
    letter = 'A'
    count = 0
    while letter in existing_prefixes or count < manager_index:
        if letter not in existing_prefixes:
            count += 1
        letter = chr(ord(letter) + 1)
        if ord(letter) > ord('Z'):
            letter = 'A'
            break

    return letter


def get_spot_display_name(spot_id: str, manager_id: str, db: Session) -> str:
    """Get display name for a spot (e.g., 'A3' instead of 'spot-3')"""
    manager = db.query(User).filter(User.id == manager_id).first()
    if not manager:
        return spot_id

    prefix = get_spot_prefix(manager, db)
    spot_number = spot_id.replace("spot-", "")
    return f"{prefix}{spot_number}"


def is_closing_day(manager_id: str, date: str, db: Session) -> bool:
    """
    Check if date is a closing day for this manager.
    Checks both specific closing days and weekly recurring closing days.
    """
    # Check specific closing day
    specific = db.query(ManagerClosingDay).filter(
        ManagerClosingDay.manager_id == manager_id,
        ManagerClosingDay.date == date
    ).first()
    if specific:
        return True

    # Check weekly closing day
    date_obj = datetime.strptime(date, "%Y-%m-%d")
    weekday = date_obj.weekday()  # 0=Monday in Python
    # Convert to our format: 0=Sunday, 1=Monday, ..., 6=Saturday
    weekday_sunday_start = (weekday + 1) % 7

    weekly = db.query(ManagerWeeklyClosingDay).filter(
        ManagerWeeklyClosingDay.manager_id == manager_id,
        ManagerWeeklyClosingDay.weekday == weekday_sunday_start
    ).first()

    return weekly is not None


def initialize_parking_pool(manager_id: str, quota: int, date: str, db: Session) -> int:
    """Initialize empty parking spots for a manager's pool on a given date.
    Returns 0 if it's a closing day (no parking available).
    """
    # Don't create pool on closing days
    if is_closing_day(manager_id, date, db):
        return 0

    existing = db.query(DailyParkingAssignment).filter(
        DailyParkingAssignment.manager_id == manager_id,
        DailyParkingAssignment.date == date
    ).count()

    if existing > 0:
        return existing

    for i in range(1, quota + 1):
        spot = DailyParkingAssignment(
            id=str(uuid.uuid4()),
            date=date,
            spot_id=f"spot-{i}",
            user_id=None,
            manager_id=manager_id,
            created_at=datetime.now(timezone.utc).isoformat()
        )
        db.add(spot)

    db.commit()
    return quota


def get_user_parking_ratio(user_id: str, manager_id: str, db: Session) -> float:
    """
    Calculate user's parking ratio: parking_days / presence_days
    Lower ratio = higher priority for next parking spot
    """
    # Count days user was present
    presence_days = db.query(UserPresence).filter(
        UserPresence.user_id == user_id,
        UserPresence.status == "present"
    ).count()

    if presence_days == 0:
        return 0.0  # New user, highest priority

    # Count days user got parking
    parking_days = db.query(DailyParkingAssignment).filter(
        DailyParkingAssignment.user_id == user_id,
        DailyParkingAssignment.manager_id == manager_id
    ).count()

    return parking_days / presence_days


def is_user_excluded(user_id: str, manager_id: str, date: str, db: Session) -> bool:
    """Check if user is excluded from parking for this date"""
    exclusion = db.query(ParkingExclusion).filter(
        ParkingExclusion.manager_id == manager_id,
        ParkingExclusion.user_id == user_id
    ).first()

    if not exclusion:
        return False

    # Check date range
    if exclusion.start_date and date < exclusion.start_date:
        return False
    if exclusion.end_date and date > exclusion.end_date:
        return False

    return True


def has_guarantee(user_id: str, manager_id: str, date: str, db: Session) -> bool:
    """Check if user has a parking guarantee for this date"""
    guarantee = db.query(ParkingGuarantee).filter(
        ParkingGuarantee.manager_id == manager_id,
        ParkingGuarantee.user_id == user_id
    ).first()

    if not guarantee:
        return False

    # Check date range
    if guarantee.start_date and date < guarantee.start_date:
        return False
    if guarantee.end_date and date > guarantee.end_date:
        return False

    return True


def get_users_wanting_parking(manager_id: str, date: str, db: Session) -> list[dict]:
    """
    Get all users who want parking for this date, sorted by fairness priority.
    Returns list of {user_id, has_guarantee, ratio}

    Note: Manager is part of their own team and can get parking from their pool.
    """
    # Get users who marked "present" for this date:
    # - Users managed by this manager (User.manager_id == manager_id)
    # - The manager themselves (User.id == manager_id)
    present_users = db.query(UserPresence).join(User).filter(
        UserPresence.date == date,
        UserPresence.status == "present",
        or_(User.manager_id == manager_id, User.id == manager_id)
    ).all()

    candidates = []
    for presence in present_users:
        user_id = presence.user_id

        # Skip excluded users
        if is_user_excluded(user_id, manager_id, date, db):
            continue

        # Skip users who already have a spot
        existing = db.query(DailyParkingAssignment).filter(
            DailyParkingAssignment.date == date,
            DailyParkingAssignment.user_id == user_id
        ).first()
        if existing:
            continue

        candidates.append({
            "user_id": user_id,
            "has_guarantee": has_guarantee(user_id, manager_id, date, db),
            "ratio": get_user_parking_ratio(user_id, manager_id, db)
        })

    # Sort: guaranteed users first, then by ratio (lowest first for fairness)
    candidates.sort(key=lambda x: (not x["has_guarantee"], x["ratio"]))

    return candidates


def assign_parking_fairly(manager_id: str, date: str, db: Session) -> dict:
    """
    Assign parking spots fairly based on parking ratio.
    Called after presence is set for a date.
    Returns {assigned: [...], waitlist: [...]}
    """
    manager = db.query(User).filter(User.id == manager_id).first()
    if not manager or not manager.manager_parking_quota:
        return {"assigned": [], "waitlist": []}

    # No parking on closing days
    if is_closing_day(manager_id, date, db):
        return {"assigned": [], "waitlist": [], "closed": True}

    # Initialize pool
    initialize_parking_pool(manager_id, manager.manager_parking_quota, date, db)

    # Get candidates sorted by fairness
    candidates = get_users_wanting_parking(manager_id, date, db)

    # Get available spots
    free_spots = db.query(DailyParkingAssignment).filter(
        DailyParkingAssignment.manager_id == manager_id,
        DailyParkingAssignment.date == date,
        DailyParkingAssignment.user_id == None
    ).all()

    assigned = []
    waitlist = []

    for candidate in candidates:
        if free_spots:
            spot = free_spots.pop(0)
            spot.user_id = candidate["user_id"]
            assigned.append(candidate["user_id"])
        else:
            waitlist.append(candidate["user_id"])

    db.commit()

    return {"assigned": assigned, "waitlist": waitlist}


def release_user_spot(manager_id: str, user_id: str, date: str, db: Session) -> bool:
    """Release a user's parking spot and reassign to next in fairness queue"""
    assignment = db.query(DailyParkingAssignment).filter(
        DailyParkingAssignment.manager_id == manager_id,
        DailyParkingAssignment.date == date,
        DailyParkingAssignment.user_id == user_id
    ).first()

    if not assignment:
        return False

    # Release the spot
    assignment.user_id = None
    db.commit()

    # Try to assign to next user in fairness queue
    candidates = get_users_wanting_parking(manager_id, date, db)
    if candidates:
        assignment.user_id = candidates[0]["user_id"]
        db.commit()

    return True


def handle_presence_change(user_id: str, date: str, old_status: str, new_status: str, manager_id: str, db: Session):
    """
    Handle presence status change and update parking accordingly.
    Uses fairness algorithm for assignment.
    manager_id is the user's manager (from User.manager_id).
    """
    # Don't process past dates
    target_date = datetime.strptime(date, "%Y-%m-%d").date()
    if target_date < datetime.now().date():
        return

    # Get manager
    manager = db.query(User).filter(User.id == manager_id, User.role == "manager").first()
    if not manager or not manager.manager_parking_quota:
        return

    # Initialize pool if needed
    initialize_parking_pool(manager.id, manager.manager_parking_quota, date, db)

    if old_status == "present" and new_status in ["remote", "absent"]:
        # User no longer coming - release their spot (will auto-reassign)
        release_user_spot(manager.id, user_id, date, db)

    elif new_status == "present":
        # User coming in - run fair assignment for this date
        assign_parking_fairly(manager.id, date, db)