Brancheneinstufung2/lead-engine/trading_twins/manager.py

import datetime
from sqlalchemy import create_engine, func
from sqlalchemy.orm import sessionmaker
from .models import ProposalJob, ProposedSlot, Base
import uuid

# Konfiguration
DB_PATH = 'sqlite:///trading_twins/trading_twins.db'
MAX_PROPOSALS_PER_SLOT = 3  # Aggressiver Faktor 3

class TradingTwinsManager:
    def __init__(self, db_path=DB_PATH):
        self.engine = create_engine(db_path)
        self.Session = sessionmaker(bind=self.engine)
        Base.metadata.create_all(self.engine)

    def create_proposal_job(self, customer_email, customer_name, customer_company):
        """Erstellt einen neuen Job, sucht Slots und speichert alles."""
        session = self.Session()
        try:
            # 1. Freie Slots finden (Mock für jetzt)
            # Später: real_slots = self.fetch_calendar_availability()
            candidate_slots = self._mock_calendar_availability()
            
            # 2. Beste Slots auswählen (mit Overbooking-Check)
            selected_slots = self._select_best_slots(session, candidate_slots)
            
            if not selected_slots:
                # Fallback: Wenn alles "voll" ist (sehr unwahrscheinlich bei Faktor 3),
                # nehmen wir trotzdem den am wenigsten gebuchten Slot.
                selected_slots = candidate_slots[:2]

            # 3. Job anlegen
            job_uuid = str(uuid.uuid4())
            new_job = ProposalJob(
                job_uuid=job_uuid,
                customer_email=customer_email,
                customer_name=customer_name,
                customer_company=customer_company,
                status='pending'
            )
            session.add(new_job)
            session.flush()  # ID generieren

            # 4. Slots speichern
            for slot in selected_slots:
                new_slot = ProposedSlot(
                    job_id=new_job.id,
                    start_time=slot['start'],
                    end_time=slot['end']
                )
                session.add(new_slot)

            session.commit()
            return new_job.job_uuid, selected_slots

        except Exception as e:
            session.rollback()
            raise e
        finally:
            session.close()

    def _select_best_slots(self, session, candidate_slots):
        """Wählt Slots aus, die noch nicht 'voll' sind (Faktor 3)."""
        valid_slots = []
        
        # Wir betrachten nur Vorschläge der letzten 24h als "aktiv"
        yesterday = datetime.datetime.now() - datetime.timedelta(days=1)

        for slot in candidate_slots:
            # Wie oft wurde dieser Start-Zeitpunkt in den letzten 24h vorgeschlagen?
            count = session.query(func.count(ProposedSlot.id)).filter(ProposedSlot.start_time == slot['start']).filter(ProposedSlot.job.has(ProposalJob.created_at >= yesterday)).scalar()
            
            if count < MAX_PROPOSALS_PER_SLOT:
                valid_slots.append(slot)
            
            if len(valid_slots) >= 2:
                break
        
        return valid_slots

    def _mock_calendar_availability(self):
        """Simuliert freie Termine für morgen."""
        tomorrow = datetime.date.today() + datetime.timedelta(days=1)
        
        # Ein Slot Vormittags (10:30), einer Nachmittags (14:00)
        return [
            {
                'start': datetime.datetime.combine(tomorrow, datetime.time(10, 30)),
                'end': datetime.datetime.combine(tomorrow, datetime.time(11, 15))
            },
            {
                'start': datetime.datetime.combine(tomorrow, datetime.time(14, 0)),
                'end': datetime.datetime.combine(tomorrow, datetime.time(14, 45))
            }
        ]

    def get_job_status(self, job_uuid):
        session = self.Session()
        job = session.query(ProposalJob).filter_by(job_uuid=job_uuid).first()
        status = job.status if job else None
        session.close()
        return status

    def get_job_details(self, job_uuid):
        """Holt alle Details zu einem Job inklusive der Slots."""
        session = self.Session()
        job = session.query(ProposalJob).filter_by(job_uuid=job_uuid).first()
        if not job:
            session.close()
            return None
        
        # Wir müssen die Daten extrahieren, bevor die Session geschlossen wird
        details = {
            'uuid': job.job_uuid,
            'email': job.customer_email,
            'name': job.customer_name,
            'company': job.customer_company,
            'status': job.status,
            'slots': [{'start': s.start_time, 'end': s.end_time} for s in job.slots]
        }
        session.close()
        return details

    def update_job_status(self, job_uuid, new_status):
        session = self.Session()
        job = session.query(ProposalJob).filter_by(job_uuid=job_uuid).first()
        if job:
            job.status = new_status
            if new_status == 'approved':
                job.approved_at = datetime.datetime.now()
            session.commit()
        session.close()