7 Commits

Author SHA1 Message Date
Joseph Doherty da1f67fb6a test: bump schema_version assertion to 10 (0009 events + 0010 threads) 2026-04-26 20:07:08 -04:00
Joseph Doherty 03ba34272b merge: T51 threads table + projector handlers 2026-04-26 20:06:45 -04:00
Joseph Doherty e26885b011 merge: T50 time_skip event handlers 2026-04-26 20:06:45 -04:00
Joseph Doherty 5b7a195cf5 merge: T49 events table + lifecycle handlers 2026-04-26 20:06:45 -04:00
Joseph Doherty 25bcbac055 feat: threads table + projector handlers (T51) 2026-04-26 20:05:09 -04:00
Joseph Doherty ab2b494c21 feat: time_skip event handlers (T50) 2026-04-26 20:04:46 -04:00
Joseph Doherty b6888ff36a feat: events table + lifecycle handlers (T49) 2026-04-26 20:04:36 -04:00
9 changed files with 856 additions and 2 deletions
+14
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@@ -0,0 +1,14 @@
CREATE TABLE events (
id INTEGER PRIMARY KEY,
event_id TEXT NOT NULL UNIQUE,
chat_id TEXT NOT NULL,
kind TEXT NOT NULL,
status TEXT NOT NULL DEFAULT 'planned',
props_json TEXT NOT NULL DEFAULT '{}',
planned_for TEXT,
started_at TEXT,
completed_at TEXT,
created_at TEXT NOT NULL DEFAULT (datetime('now')),
updated_at TEXT NOT NULL DEFAULT (datetime('now'))
);
CREATE INDEX events_chat_idx ON events(chat_id, status);
+14
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@@ -0,0 +1,14 @@
CREATE TABLE threads (
id INTEGER PRIMARY KEY,
thread_id TEXT NOT NULL UNIQUE,
chat_id TEXT NOT NULL,
title TEXT NOT NULL,
summary TEXT NOT NULL DEFAULT '',
status TEXT NOT NULL DEFAULT 'open',
opened_at TEXT NOT NULL DEFAULT (datetime('now')),
closed_at TEXT,
last_referenced_scene_id INTEGER,
created_at TEXT NOT NULL DEFAULT (datetime('now')),
updated_at TEXT NOT NULL DEFAULT (datetime('now'))
);
CREATE INDEX threads_chat_status_idx ON threads(chat_id, status);
+127
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from __future__ import annotations
import json
from sqlite3 import Connection
from chat.eventlog.projector import on
from chat.eventlog.log import Event
_TERMINAL_STATUSES = {"completed", "cancelled", "expired"}
@on("event_planned")
def _apply_event_planned(conn: Connection, e: Event) -> None:
p = e.payload
conn.execute(
"INSERT OR IGNORE INTO events "
"(event_id, chat_id, kind, status, props_json, planned_for) "
"VALUES (?, ?, ?, 'planned', ?, ?)",
(
p["event_id"],
p["chat_id"],
p["kind"],
json.dumps(p.get("props", {})),
p.get("planned_for"),
),
)
@on("event_started")
def _apply_event_started(conn: Connection, e: Event) -> None:
p = e.payload
# Idempotent: only transition from non-terminal status.
conn.execute(
"UPDATE events SET status = 'active', started_at = ?, updated_at = datetime('now') "
"WHERE event_id = ? AND status NOT IN ('completed','cancelled','expired')",
(p.get("started_at"), p["event_id"]),
)
@on("event_completed")
def _apply_event_completed(conn: Connection, e: Event) -> None:
p = e.payload
conn.execute(
"UPDATE events SET status = 'completed', completed_at = ?, updated_at = datetime('now') "
"WHERE event_id = ? AND status NOT IN ('completed','cancelled','expired')",
(p.get("completed_at"), p["event_id"]),
)
@on("event_cancelled")
def _apply_event_cancelled(conn: Connection, e: Event) -> None:
p = e.payload
conn.execute(
"UPDATE events SET status = 'cancelled', completed_at = ?, updated_at = datetime('now') "
"WHERE event_id = ? AND status NOT IN ('completed','cancelled','expired')",
(p.get("completed_at"), p["event_id"]),
)
@on("event_expired")
def _apply_event_expired(conn: Connection, e: Event) -> None:
p = e.payload
conn.execute(
"UPDATE events SET status = 'expired', completed_at = ?, updated_at = datetime('now') "
"WHERE event_id = ? AND status NOT IN ('completed','cancelled','expired')",
(p.get("completed_at"), p["event_id"]),
)
def get_event(conn: Connection, event_id: str) -> dict | None:
row = conn.execute(
"SELECT event_id, chat_id, kind, status, props_json, planned_for, "
"started_at, completed_at, created_at, updated_at "
"FROM events WHERE event_id = ?",
(event_id,),
).fetchone()
if not row:
return None
return {
"event_id": row[0],
"chat_id": row[1],
"kind": row[2],
"status": row[3],
"props": json.loads(row[4]),
"planned_for": row[5],
"started_at": row[6],
"completed_at": row[7],
"created_at": row[8],
"updated_at": row[9],
}
def list_active_events(conn: Connection, chat_id: str) -> list[dict]:
rows = conn.execute(
"SELECT event_id, chat_id, kind, status, props_json, planned_for, "
"started_at, completed_at, created_at, updated_at "
"FROM events WHERE chat_id = ? AND status IN ('planned','active') "
"ORDER BY id ASC",
(chat_id,),
).fetchall()
return [
{
"event_id": r[0], "chat_id": r[1], "kind": r[2], "status": r[3],
"props": json.loads(r[4]),
"planned_for": r[5], "started_at": r[6], "completed_at": r[7],
"created_at": r[8], "updated_at": r[9],
}
for r in rows
]
def list_events_in_status(conn: Connection, chat_id: str, status: str) -> list[dict]:
rows = conn.execute(
"SELECT event_id, chat_id, kind, status, props_json, planned_for, "
"started_at, completed_at, created_at, updated_at "
"FROM events WHERE chat_id = ? AND status = ? ORDER BY id ASC",
(chat_id, status),
).fetchall()
return [
{
"event_id": r[0], "chat_id": r[1], "kind": r[2], "status": r[3],
"props": json.loads(r[4]),
"planned_for": r[5], "started_at": r[6], "completed_at": r[7],
"created_at": r[8], "updated_at": r[9],
}
for r in rows
]
+123
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from __future__ import annotations
from sqlite3 import Connection
from chat.eventlog.projector import on
from chat.eventlog.log import Event
@on("thread_opened")
def _apply_thread_opened(conn: Connection, e: Event) -> None:
p = e.payload
conn.execute(
"INSERT OR IGNORE INTO threads "
"(thread_id, chat_id, title, summary, status) "
"VALUES (?, ?, ?, ?, 'open')",
(
p["thread_id"],
p["chat_id"],
p["title"],
p.get("summary", ""),
),
)
@on("thread_updated")
def _apply_thread_updated(conn: Connection, e: Event) -> None:
p = e.payload
# Idempotent: closed threads ignore subsequent updates.
conn.execute(
"UPDATE threads SET summary = ?, last_referenced_scene_id = ?, "
"updated_at = datetime('now') "
"WHERE thread_id = ? AND status = 'open'",
(
p.get("summary", ""),
p.get("last_referenced_scene_id"),
p["thread_id"],
),
)
@on("thread_closed")
def _apply_thread_closed(conn: Connection, e: Event) -> None:
p = e.payload
conn.execute(
"UPDATE threads SET status = 'closed', closed_at = ?, "
"updated_at = datetime('now') "
"WHERE thread_id = ? AND status = 'open'",
(p.get("closed_at"), p["thread_id"]),
)
def get_thread(conn: Connection, thread_id: str) -> dict | None:
row = conn.execute(
"SELECT thread_id, chat_id, title, summary, status, "
"opened_at, closed_at, last_referenced_scene_id, "
"created_at, updated_at "
"FROM threads WHERE thread_id = ?",
(thread_id,),
).fetchone()
if not row:
return None
return {
"thread_id": row[0],
"chat_id": row[1],
"title": row[2],
"summary": row[3],
"status": row[4],
"opened_at": row[5],
"closed_at": row[6],
"last_referenced_scene_id": row[7],
"created_at": row[8],
"updated_at": row[9],
}
def list_open_threads(conn: Connection, chat_id: str) -> list[dict]:
rows = conn.execute(
"SELECT thread_id, chat_id, title, summary, status, "
"opened_at, closed_at, last_referenced_scene_id, "
"created_at, updated_at "
"FROM threads WHERE chat_id = ? AND status = 'open' "
"ORDER BY id ASC",
(chat_id,),
).fetchall()
return [
{
"thread_id": r[0], "chat_id": r[1], "title": r[2],
"summary": r[3], "status": r[4],
"opened_at": r[5], "closed_at": r[6],
"last_referenced_scene_id": r[7],
"created_at": r[8], "updated_at": r[9],
}
for r in rows
]
def list_threads(conn: Connection, chat_id: str, status: str | None = None) -> list[dict]:
if status is None:
rows = conn.execute(
"SELECT thread_id, chat_id, title, summary, status, "
"opened_at, closed_at, last_referenced_scene_id, "
"created_at, updated_at "
"FROM threads WHERE chat_id = ? ORDER BY id ASC",
(chat_id,),
).fetchall()
else:
rows = conn.execute(
"SELECT thread_id, chat_id, title, summary, status, "
"opened_at, closed_at, last_referenced_scene_id, "
"created_at, updated_at "
"FROM threads WHERE chat_id = ? AND status = ? "
"ORDER BY id ASC",
(chat_id, status),
).fetchall()
return [
{
"thread_id": r[0], "chat_id": r[1], "title": r[2],
"summary": r[3], "status": r[4],
"opened_at": r[5], "closed_at": r[6],
"last_referenced_scene_id": r[7],
"created_at": r[8], "updated_at": r[9],
}
for r in rows
]
+28
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@@ -29,6 +29,34 @@ def _apply_chat_created(conn: Connection, e: Event) -> None:
)
@on("time_skip_elision")
def _apply_time_skip_elision(conn: Connection, e: Event) -> None:
p = e.payload
conn.execute(
"UPDATE chat_state SET time = ? WHERE chat_id = ?",
(p["new_time"], p["chat_id"]),
)
@on("time_skip_jump")
def _apply_time_skip_jump(conn: Connection, e: Event) -> None:
p = e.payload
chat_id = p["chat_id"]
conn.execute(
"UPDATE chat_state SET time = ? WHERE chat_id = ?",
(p["new_time"], chat_id),
)
if p.get("reset_activity", False):
# Activity rows are keyed by entity_id with a container_id FK.
# Each chat owns its containers, so deleting activity rows whose
# container_id belongs to this chat clears every present entity.
conn.execute(
"DELETE FROM activity "
"WHERE container_id IN (SELECT id FROM containers WHERE chat_id = ?)",
(chat_id,),
)
@on("guest_added")
def _apply_guest_added(conn: Connection, e: Event) -> None:
p = e.payload
+235
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from __future__ import annotations
from chat.db.connection import open_db
from chat.db.migrate import apply_migrations
from chat.eventlog.log import append_and_apply, append_event
from chat.eventlog.projector import project
import chat.state.entities # registers handlers
import chat.state.world # registers handlers
import chat.state.group_node # registers handlers
import chat.state.events # registers handlers
from chat.state.events import (
get_event,
list_active_events,
list_events_in_status,
)
def _bot_payload(bot_id: str, name: str) -> dict:
return {
"id": bot_id,
"name": name,
"persona": "thoughtful, observant",
"voice_samples": [],
"traits": [],
"backstory": "",
"initial_relationship_to_you": "coworker",
"kickoff_prose": "",
}
def _chat_payload(chat_id: str = "chat_bot_a") -> dict:
return {
"id": chat_id,
"host_bot_id": "bot_a",
"guest_bot_id": "bot_b",
"initial_time": "2026-04-26T20:00:00+00:00",
"narrative_anchor": "Day 1 evening",
"weather": "clear",
}
def _seed_chat(conn) -> None:
append_event(conn, kind="bot_authored", payload=_bot_payload("bot_a", "BotA"))
append_event(conn, kind="bot_authored", payload=_bot_payload("bot_b", "BotB"))
append_event(conn, kind="chat_created", payload=_chat_payload())
def test_event_planned_creates_row(tmp_path):
db = tmp_path / "t.db"
apply_migrations(db)
with open_db(db) as conn:
_seed_chat(conn)
append_event(
conn,
kind="event_planned",
payload={
"event_id": "evt_abc",
"chat_id": "chat_bot_a",
"kind": "date_at_park",
"props": {"location": "park"},
"planned_for": "2026-04-30T18:00:00+00:00",
},
)
project(conn)
ev = get_event(conn, "evt_abc")
assert ev is not None
assert ev["event_id"] == "evt_abc"
assert ev["chat_id"] == "chat_bot_a"
assert ev["kind"] == "date_at_park"
assert ev["status"] == "planned"
assert ev["props"]["location"] == "park"
assert ev["planned_for"] == "2026-04-30T18:00:00+00:00"
assert ev["started_at"] is None
assert ev["completed_at"] is None
def test_event_started_then_completed_updates_status(tmp_path):
db = tmp_path / "t.db"
apply_migrations(db)
with open_db(db) as conn:
_seed_chat(conn)
append_event(
conn,
kind="event_planned",
payload={
"event_id": "evt_abc",
"chat_id": "chat_bot_a",
"kind": "date_at_park",
"props": {},
"planned_for": "2026-04-30T18:00:00+00:00",
},
)
append_event(
conn,
kind="event_started",
payload={
"event_id": "evt_abc",
"started_at": "2026-04-30T18:01:00+00:00",
},
)
append_event(
conn,
kind="event_completed",
payload={
"event_id": "evt_abc",
"completed_at": "2026-04-30T20:00:00+00:00",
},
)
project(conn)
ev = get_event(conn, "evt_abc")
assert ev is not None
assert ev["status"] == "completed"
assert ev["started_at"] == "2026-04-30T18:01:00+00:00"
assert ev["completed_at"] == "2026-04-30T20:00:00+00:00"
def test_event_cancelled_terminal_subsequent_transitions_ignored(tmp_path):
db = tmp_path / "t.db"
apply_migrations(db)
with open_db(db) as conn:
_seed_chat(conn)
append_event(
conn,
kind="event_planned",
payload={
"event_id": "evt_abc",
"chat_id": "chat_bot_a",
"kind": "date_at_park",
"props": {},
"planned_for": "2026-04-30T18:00:00+00:00",
},
)
append_event(
conn,
kind="event_cancelled",
payload={
"event_id": "evt_abc",
"completed_at": "2026-04-30T17:00:00+00:00",
},
)
project(conn)
ev = get_event(conn, "evt_abc")
assert ev is not None
assert ev["status"] == "cancelled"
assert ev["completed_at"] == "2026-04-30T17:00:00+00:00"
# Subsequent event_started must be no-oped because status is terminal.
# Use append_and_apply so we apply ONLY this new event without
# replaying earlier non-idempotent handlers (e.g. chat_created).
append_and_apply(
conn,
kind="event_started",
payload={
"event_id": "evt_abc",
"started_at": "2026-04-30T18:01:00+00:00",
},
)
ev2 = get_event(conn, "evt_abc")
assert ev2 is not None
assert ev2["status"] == "cancelled"
assert ev2["started_at"] is None
# completed_at unchanged from the cancelled transition
assert ev2["completed_at"] == "2026-04-30T17:00:00+00:00"
def test_list_active_events_filters_to_planned_and_active(tmp_path):
db = tmp_path / "t.db"
apply_migrations(db)
with open_db(db) as conn:
_seed_chat(conn)
# Four events: one planned, one active, one completed, one cancelled.
for ev_id, kind in [
("evt_planned", "date_at_park"),
("evt_active", "movie_night"),
("evt_done", "dinner"),
("evt_canx", "trip"),
]:
append_event(
conn,
kind="event_planned",
payload={
"event_id": ev_id,
"chat_id": "chat_bot_a",
"kind": kind,
"props": {},
"planned_for": "2026-04-30T18:00:00+00:00",
},
)
append_event(
conn,
kind="event_started",
payload={
"event_id": "evt_active",
"started_at": "2026-04-30T18:01:00+00:00",
},
)
append_event(
conn,
kind="event_started",
payload={
"event_id": "evt_done",
"started_at": "2026-04-30T18:01:00+00:00",
},
)
append_event(
conn,
kind="event_completed",
payload={
"event_id": "evt_done",
"completed_at": "2026-04-30T20:00:00+00:00",
},
)
append_event(
conn,
kind="event_cancelled",
payload={
"event_id": "evt_canx",
"completed_at": "2026-04-30T17:00:00+00:00",
},
)
project(conn)
active = list_active_events(conn, "chat_bot_a")
active_ids = {e["event_id"] for e in active}
assert active_ids == {"evt_planned", "evt_active"}
completed = list_events_in_status(conn, "chat_bot_a", "completed")
assert [e["event_id"] for e in completed] == ["evt_done"]
cancelled = list_events_in_status(conn, "chat_bot_a", "cancelled")
assert [e["event_id"] for e in cancelled] == ["evt_canx"]
+181
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from __future__ import annotations
from chat.db.connection import open_db
from chat.db.migrate import apply_migrations
from chat.eventlog.log import append_and_apply, append_event
from chat.eventlog.projector import project
import chat.state.entities # registers handlers
import chat.state.world # registers handlers
import chat.state.threads # registers handlers
from chat.state.threads import get_thread, list_open_threads
def _bot_payload(bot_id: str, name: str) -> dict:
return {
"id": bot_id,
"name": name,
"persona": "thoughtful, observant",
"voice_samples": [],
"traits": [],
"backstory": "",
"initial_relationship_to_you": "coworker",
"kickoff_prose": "",
}
def _chat_payload(chat_id: str = "chat_bot_a") -> dict:
return {
"id": chat_id,
"host_bot_id": "bot_a",
"guest_bot_id": "bot_b",
"initial_time": "2026-04-26T20:00:00+00:00",
"narrative_anchor": "Day 1 evening",
"weather": "clear",
}
def test_thread_opened_creates_row(tmp_path):
db = tmp_path / "t.db"
apply_migrations(db)
with open_db(db) as conn:
append_event(conn, kind="bot_authored", payload=_bot_payload("bot_a", "BotA"))
append_event(conn, kind="chat_created", payload=_chat_payload())
append_event(
conn,
kind="thread_opened",
payload={
"thread_id": "thr_abc",
"chat_id": "chat_bot_a",
"title": "Maya's job hunt",
"summary": "Maya is looking for a new job",
},
)
project(conn)
t = get_thread(conn, "thr_abc")
assert t is not None
assert t["thread_id"] == "thr_abc"
assert t["chat_id"] == "chat_bot_a"
assert t["title"] == "Maya's job hunt"
assert t["summary"] == "Maya is looking for a new job"
assert t["status"] == "open"
assert t["closed_at"] is None
assert t["last_referenced_scene_id"] is None
def test_thread_updated_changes_summary_and_last_referenced(tmp_path):
db = tmp_path / "t.db"
apply_migrations(db)
with open_db(db) as conn:
append_event(conn, kind="bot_authored", payload=_bot_payload("bot_a", "BotA"))
append_event(conn, kind="chat_created", payload=_chat_payload())
append_event(
conn,
kind="thread_opened",
payload={
"thread_id": "thr_abc",
"chat_id": "chat_bot_a",
"title": "Maya's job hunt",
"summary": "Maya is looking for a new job",
},
)
append_event(
conn,
kind="thread_updated",
payload={
"thread_id": "thr_abc",
"summary": "Maya landed an interview at a startup",
"last_referenced_scene_id": 42,
},
)
project(conn)
t = get_thread(conn, "thr_abc")
assert t is not None
assert t["summary"] == "Maya landed an interview at a startup"
assert t["last_referenced_scene_id"] == 42
assert t["status"] == "open"
def test_thread_closed_terminal(tmp_path):
db = tmp_path / "t.db"
apply_migrations(db)
with open_db(db) as conn:
append_event(conn, kind="bot_authored", payload=_bot_payload("bot_a", "BotA"))
append_event(conn, kind="chat_created", payload=_chat_payload())
append_event(
conn,
kind="thread_opened",
payload={
"thread_id": "thr_abc",
"chat_id": "chat_bot_a",
"title": "Maya's job hunt",
"summary": "Maya is looking for a new job",
},
)
append_event(
conn,
kind="thread_closed",
payload={
"thread_id": "thr_abc",
"closed_at": "2026-04-26T21:00:00+00:00",
},
)
project(conn)
t = get_thread(conn, "thr_abc")
assert t is not None
assert t["status"] == "closed"
assert t["closed_at"] == "2026-04-26T21:00:00+00:00"
# Subsequent updates to a closed thread are no-ops.
append_and_apply(
conn,
kind="thread_updated",
payload={
"thread_id": "thr_abc",
"summary": "should not be applied",
},
)
t2 = get_thread(conn, "thr_abc")
assert t2 is not None
assert t2["summary"] == "Maya is looking for a new job"
assert t2["status"] == "closed"
def test_list_open_threads_filters_to_open_only(tmp_path):
db = tmp_path / "t.db"
apply_migrations(db)
with open_db(db) as conn:
append_event(conn, kind="bot_authored", payload=_bot_payload("bot_a", "BotA"))
append_event(conn, kind="chat_created", payload=_chat_payload())
for tid, title in [
("thr_1", "Arc 1"),
("thr_2", "Arc 2"),
("thr_3", "Arc 3"),
]:
append_event(
conn,
kind="thread_opened",
payload={
"thread_id": tid,
"chat_id": "chat_bot_a",
"title": title,
"summary": "",
},
)
append_event(
conn,
kind="thread_closed",
payload={
"thread_id": "thr_3",
"closed_at": "2026-04-26T21:00:00+00:00",
},
)
project(conn)
open_threads = list_open_threads(conn, "chat_bot_a")
assert len(open_threads) == 2
ids = {t["thread_id"] for t in open_threads}
assert ids == {"thr_1", "thr_2"}
+132
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@@ -0,0 +1,132 @@
from __future__ import annotations
from chat.db.connection import open_db
from chat.db.migrate import apply_migrations
from chat.eventlog.log import append_event
from chat.eventlog.projector import project
import chat.state.world # registers handlers
from chat.state.world import get_activity, get_chat
def _chat_payload(**overrides):
payload = {
"id": "chat_bot_a",
"host_bot_id": "bot_a",
"guest_bot_id": None,
"initial_time": "2026-04-26T20:00:00+00:00",
"narrative_anchor": "Day 1 evening",
"weather": "clear",
}
payload.update(overrides)
return payload
def _container_payload(**overrides):
payload = {
"chat_id": "chat_bot_a",
"name": "office",
"type": "workplace",
"properties": {
"public": True,
"moving": False,
"audible_range": "normal",
"slots": [],
},
"parent_id": None,
}
payload.update(overrides)
return payload
def _activity_payload(**overrides):
payload = {
"entity_id": "bot_a",
"container_id": 1,
"slot": "desk_chair",
"posture": "sitting",
"action": {"verb": "writing email"},
"attention": "the screen",
"holding": ["pen"],
"status": {"hungry": False},
}
payload.update(overrides)
return payload
def _seed_events(conn):
"""Append seed events but do NOT project — caller appends more then projects once."""
append_event(conn, kind="chat_created", payload=_chat_payload())
append_event(conn, kind="container_created", payload=_container_payload())
append_event(conn, kind="activity_change", payload=_activity_payload())
def test_elision_advances_chat_clock_only(tmp_path):
db = tmp_path / "t.db"
apply_migrations(db)
with open_db(db) as conn:
_seed_events(conn)
append_event(conn, kind="time_skip_elision", payload={
"chat_id": "chat_bot_a",
"new_time": "2026-04-26T20:30:00+00:00",
})
project(conn)
chat = get_chat(conn, "chat_bot_a")
assert chat["time"] == "2026-04-26T20:30:00+00:00"
# Activity row preserved with the same fields it was seeded with.
a = get_activity(conn, "bot_a")
assert a is not None
assert a["entity_id"] == "bot_a"
assert a["container_id"] == 1
assert a["slot"] == "desk_chair"
assert a["posture"] == "sitting"
assert a["action"] == {"verb": "writing email"}
assert a["attention"] == "the screen"
assert a["holding"] == ["pen"]
assert a["status"] == {"hungry": False}
def test_jump_with_reset_clears_activity(tmp_path):
db = tmp_path / "t.db"
apply_migrations(db)
with open_db(db) as conn:
_seed_events(conn)
append_event(conn, kind="time_skip_jump", payload={
"chat_id": "chat_bot_a",
"new_time": "2026-04-27T08:00:00+00:00",
"reset_activity": True,
})
project(conn)
chat = get_chat(conn, "chat_bot_a")
assert chat["time"] == "2026-04-27T08:00:00+00:00"
count = conn.execute(
"SELECT COUNT(*) FROM activity "
"WHERE container_id IN (SELECT id FROM containers WHERE chat_id = ?)",
("chat_bot_a",),
).fetchone()[0]
assert count == 0
assert get_activity(conn, "bot_a") is None
def test_jump_without_reset_preserves_activity(tmp_path):
db = tmp_path / "t.db"
apply_migrations(db)
with open_db(db) as conn:
_seed_events(conn)
append_event(conn, kind="time_skip_jump", payload={
"chat_id": "chat_bot_a",
"new_time": "2026-04-27T08:00:00+00:00",
"reset_activity": False,
})
project(conn)
chat = get_chat(conn, "chat_bot_a")
assert chat["time"] == "2026-04-27T08:00:00+00:00"
a = get_activity(conn, "bot_a")
assert a is not None
assert a["posture"] == "sitting"
assert a["action"]["verb"] == "writing email"
+2 -2
View File
@@ -324,11 +324,11 @@ def test_get_scene_returns_none_for_missing(tmp_path):
assert active_scene(conn, "chat_missing") is None
def test_schema_version_after_migration_is_8(tmp_path):
def test_schema_version_after_migration_is_10(tmp_path):
db = tmp_path / "t.db"
apply_migrations(db)
with open_db(db) as conn:
row = conn.execute(
"SELECT value FROM meta WHERE key = 'schema_version'"
).fetchone()
assert int(row[0]) == 8
assert int(row[0]) == 10