animaltrack/tests/test_web_events_delete.py

# ABOUTME: Tests for event delete with projection verification.
# ABOUTME: Verifies that deleting events properly reverts projections.

import time

from animaltrack.db import get_db
from animaltrack.events.delete import delete_event
from animaltrack.events.enums import LifeStage, Origin, Outcome
from animaltrack.events.payloads import AnimalCohortCreatedPayload, AnimalOutcomePayload
from animaltrack.events.store import EventStore
from animaltrack.migrations import run_migrations
from animaltrack.projections import ProjectionRegistry
from animaltrack.projections.animal_registry import AnimalRegistryProjection
from animaltrack.projections.event_animals import EventAnimalsProjection
from animaltrack.projections.event_log import EventLogProjection
from animaltrack.projections.feed import FeedInventoryProjection
from animaltrack.projections.intervals import IntervalProjection
from animaltrack.projections.products import ProductsProjection
from animaltrack.seeds import run_seeds
from animaltrack.services.animal import AnimalService


class TestEventDeleteProjections:
    """Tests for delete_event with projection updates."""

    def test_delete_animal_outcome_reverts_status(self, tmp_path):
        """Deleting AnimalOutcome should revert animals to alive status."""
        db_path = tmp_path / "test.db"

        # Set up database
        run_migrations(str(db_path), "migrations", verbose=False)
        db = get_db(str(db_path))
        run_seeds(db)

        # Create projections and services
        event_store = EventStore(db)
        registry = ProjectionRegistry()
        registry.register(AnimalRegistryProjection(db))
        registry.register(IntervalProjection(db))
        registry.register(EventAnimalsProjection(db))
        registry.register(ProductsProjection(db))
        registry.register(FeedInventoryProjection(db))
        registry.register(EventLogProjection(db))

        animal_service = AnimalService(db, event_store, registry)

        ts_utc = int(time.time() * 1000)
        location = db.execute("SELECT id FROM locations LIMIT 1").fetchone()[0]

        # Create a cohort
        cohort_payload = AnimalCohortCreatedPayload(
            species="duck",
            count=3,
            origin=Origin.PURCHASED,
            life_stage=LifeStage.ADULT,
            location_id=location,
        )
        cohort_event = animal_service.create_cohort(
            payload=cohort_payload,
            ts_utc=ts_utc,
            actor="test",
        )

        # Get animal IDs
        animal_ids = cohort_event.entity_refs["animal_ids"]

        # Verify all animals are alive
        for aid in animal_ids:
            row = db.execute(
                "SELECT status FROM animal_registry WHERE animal_id = ?",
                (aid,),
            ).fetchone()
            assert row[0] == "alive"

        # Record outcome (sold)
        outcome_payload = AnimalOutcomePayload(
            outcome=Outcome.SOLD,
            resolved_ids=animal_ids,
        )
        outcome_event = animal_service.record_outcome(
            payload=outcome_payload,
            ts_utc=ts_utc + 1000,
            actor="test",
        )

        # Verify animals are now "sold"
        for aid in animal_ids:
            row = db.execute(
                "SELECT status FROM animal_registry WHERE animal_id = ?",
                (aid,),
            ).fetchone()
            assert row[0] == "sold", f"Animal {aid} should be sold, got {row[0]}"

        # Delete the outcome event
        deleted_ids = delete_event(
            db=db,
            event_store=event_store,
            event_id=outcome_event.id,
            actor="test",
            role="admin",
            cascade=False,
            reason="test deletion",
            registry=registry,
        )

        assert len(deleted_ids) == 1
        assert outcome_event.id in deleted_ids

        # Verify animals are back to "alive"
        for aid in animal_ids:
            row = db.execute(
                "SELECT status FROM animal_registry WHERE animal_id = ?",
                (aid,),
            ).fetchone()
            assert row[0] == "alive", f"Animal {aid} should be alive after delete, got {row[0]}"

    def test_delete_without_registry_does_not_revert(self, tmp_path):
        """Without registry projections, delete won't revert status (bug demo)."""
        db_path = tmp_path / "test.db"

        # Set up database
        run_migrations(str(db_path), "migrations", verbose=False)
        db = get_db(str(db_path))
        run_seeds(db)

        # Create projections and services
        event_store = EventStore(db)
        registry = ProjectionRegistry()
        registry.register(AnimalRegistryProjection(db))
        registry.register(IntervalProjection(db))
        registry.register(EventAnimalsProjection(db))
        registry.register(ProductsProjection(db))
        registry.register(FeedInventoryProjection(db))
        registry.register(EventLogProjection(db))

        animal_service = AnimalService(db, event_store, registry)

        ts_utc = int(time.time() * 1000)
        location = db.execute("SELECT id FROM locations LIMIT 1").fetchone()[0]

        # Create a cohort
        cohort_payload = AnimalCohortCreatedPayload(
            species="duck",
            count=2,
            origin=Origin.PURCHASED,
            life_stage=LifeStage.ADULT,
            location_id=location,
        )
        cohort_event = animal_service.create_cohort(
            payload=cohort_payload,
            ts_utc=ts_utc,
            actor="test",
        )

        animal_ids = cohort_event.entity_refs["animal_ids"]

        # Record outcome (sold)
        outcome_payload = AnimalOutcomePayload(
            outcome=Outcome.SOLD,
            resolved_ids=animal_ids,
        )
        outcome_event = animal_service.record_outcome(
            payload=outcome_payload,
            ts_utc=ts_utc + 1000,
            actor="test",
        )

        # Verify animals are "sold"
        for aid in animal_ids:
            row = db.execute(
                "SELECT status FROM animal_registry WHERE animal_id = ?",
                (aid,),
            ).fetchone()
            assert row[0] == "sold"

        # Delete with EMPTY registry (simulating the bug)
        empty_registry = ProjectionRegistry()  # No projections registered!
        deleted_ids = delete_event(
            db=db,
            event_store=event_store,
            event_id=outcome_event.id,
            actor="test",
            role="admin",
            cascade=False,
            reason="test deletion",
            registry=empty_registry,
        )

        assert len(deleted_ids) == 1

        # Bug: Animals are still "sold" because projections weren't reverted
        for aid in animal_ids:
            row = db.execute(
                "SELECT status FROM animal_registry WHERE animal_id = ?",
                (aid,),
            ).fetchone()
            # This demonstrates the bug - with empty registry, status is not reverted
            assert row[0] == "sold", "Without projections, animal should stay sold"

    def test_delete_death_outcome_reverts_to_alive(self, tmp_path):
        """Deleting death outcome should revert animals to alive status."""
        db_path = tmp_path / "test.db"

        # Set up database
        run_migrations(str(db_path), "migrations", verbose=False)
        db = get_db(str(db_path))
        run_seeds(db)

        # Create projections and services
        event_store = EventStore(db)
        registry = ProjectionRegistry()
        registry.register(AnimalRegistryProjection(db))
        registry.register(IntervalProjection(db))
        registry.register(EventAnimalsProjection(db))
        registry.register(ProductsProjection(db))
        registry.register(FeedInventoryProjection(db))
        registry.register(EventLogProjection(db))

        animal_service = AnimalService(db, event_store, registry)

        ts_utc = int(time.time() * 1000)
        location = db.execute("SELECT id FROM locations LIMIT 1").fetchone()[0]

        # Create a cohort
        cohort_payload = AnimalCohortCreatedPayload(
            species="duck",
            count=2,
            origin=Origin.PURCHASED,
            life_stage=LifeStage.ADULT,
            location_id=location,
        )
        cohort_event = animal_service.create_cohort(
            payload=cohort_payload,
            ts_utc=ts_utc,
            actor="test",
        )

        animal_ids = cohort_event.entity_refs["animal_ids"]

        # Record death
        outcome_payload = AnimalOutcomePayload(
            outcome=Outcome.DEATH,
            resolved_ids=animal_ids,
        )
        outcome_event = animal_service.record_outcome(
            payload=outcome_payload,
            ts_utc=ts_utc + 1000,
            actor="test",
        )

        # Verify animals are "dead"
        for aid in animal_ids:
            row = db.execute(
                "SELECT status FROM animal_registry WHERE animal_id = ?",
                (aid,),
            ).fetchone()
            assert row[0] == "dead"

        # Delete the outcome event with proper registry
        deleted_ids = delete_event(
            db=db,
            event_store=event_store,
            event_id=outcome_event.id,
            actor="test",
            role="admin",
            cascade=False,
            reason="test deletion",
            registry=registry,
        )

        assert len(deleted_ids) == 1

        # Verify animals are back to alive
        for aid in animal_ids:
            row = db.execute(
                "SELECT status FROM animal_registry WHERE animal_id = ?",
                (aid,),
            ).fetchone()
            assert row[0] == "alive", f"Animal {aid} should be alive, got {row[0]}"