alvis
4cade4868b
Adds two InferredParams (TTL=7d) computed from 28-day rolling daily done counts:
- baseline_completions_per_day: mean done events/day over the window
- stdev: stdev of daily counts (floored at 0.1 to avoid division by zero)
MomentumAgent.compute() now calculates a z-score from recent done events in
inp.feedback_history vs the inferred baseline. Snippet language switches to
z-score framing ("above your usual pace", "slowing down") when |z| >= 1.0,
falling back to engagement_trend labels when in the normal range.
- engagement_trend InferredParam preserved for backward compatibility
- momentum_window pref added (default 7, user-overridable)
- 14 new tests covering power user, casual user, returning-from-break, and
relative stdev comparison; engagement_trend tests updated for z-score priority
- Agent bumped to v1.2.0
Closes #114
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
378 lines
17 KiB
Python
378 lines
17 KiB
Python
"""Per-agent inference tests: momentum (#114), overdue-task (#115), recent-patterns (#116),
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and focus-area (#113) preferred_areas wiring."""
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from __future__ import annotations
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import sys, os
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sys.path.insert(0, os.path.join(os.path.dirname(__file__), "..", "..", ".."))
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from datetime import datetime, timezone
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import pytest
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from ml.agents.inference.history import FeedbackEvent, TaskCompletion, UserHistory
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from ml.agents.inference.framework import run_inference
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from ml.agents.momentum import MomentumAgent, MANIFEST as MOMENTUM_MANIFEST
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from ml.agents.overdue_task import OverdueTaskAgent, MANIFEST as OVERDUE_MANIFEST
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from ml.agents.recent_patterns import RecentPatternsAgent, MANIFEST as RECENT_MANIFEST
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from ml.agents.focus_area import FocusAreaAgent
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from ml.agents.base import AgentInput
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_NOW = datetime(2026, 5, 8, 14, 0, 0, tzinfo=timezone.utc)
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def _inp(**kwargs) -> AgentInput:
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defaults = dict(user_id="u1", tasks=[], profile={}, now=_NOW, agent_prefs={})
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defaults.update(kwargs)
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return AgentInput(**defaults)
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def _event(action: str, days_ago: float = 1.0) -> FeedbackEvent:
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from datetime import timedelta
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ts = (_NOW - timedelta(days=days_ago)).isoformat()
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dwell = 60_000 if action == "done" else 500
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return FeedbackEvent(action=action, dwell_ms=dwell, created_at=ts)
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def _history(*events: FeedbackEvent, completions: list[TaskCompletion] | None = None) -> UserHistory:
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return UserHistory(user_id="u1", events=list(events), task_completions=completions or [])
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def _completion(project_id: str | None, lateness_days: float) -> TaskCompletion:
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"""Build a TaskCompletion where completed_at is lateness_days after due_at."""
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from datetime import timedelta
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due = _NOW - timedelta(days=30)
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completed = due + timedelta(days=lateness_days)
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return TaskCompletion(
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project_id=project_id,
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completed_at=completed.isoformat(),
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due_at=due.isoformat(),
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)
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# ── momentum helpers ─────────────────────────────────────────────────────────
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def _neutral_prefs(**extra) -> dict:
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"""Prefs that put z-score in the normal range so trend label can show."""
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return {"baseline_completions_per_day": 0.0, "stdev": 1.0, "momentum_window": 7, **extra}
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def _feedback_done(n: int, days_ago: float = 1.0) -> list[dict]:
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from datetime import timedelta
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ts = (_NOW - timedelta(days=days_ago)).isoformat()
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return [{"action": "done", "dwell_ms": 60_000, "created_at": ts}] * n
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# ── momentum: engagement_trend inference ─────────────────────────────────────
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class TestMomentumTrendInference:
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def test_cold_start_below_min_history(self):
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history = _history(*[_event("done", days_ago=i) for i in range(5)])
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result = run_inference(MOMENTUM_MANIFEST, history)
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assert result["engagement_trend"] == "stable" # cold_start_default
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def test_trend_up_when_recent_done_rate_higher(self):
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recent = [_event("done", days_ago=i) for i in range(1, 9)]
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older = [_event("dismiss", days_ago=i) for i in range(8, 15)]
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older[0] = _event("done", days_ago=8)
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history = _history(*recent, *older)
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result = run_inference(MOMENTUM_MANIFEST, history)
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assert result["engagement_trend"] == "up"
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def test_trend_down_when_recent_done_rate_lower(self):
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recent = [_event("dismiss", days_ago=i) for i in range(1, 8)]
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older = [_event("done", days_ago=i) for i in range(8, 15)]
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history = _history(*recent, *older)
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result = run_inference(MOMENTUM_MANIFEST, history)
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assert result["engagement_trend"] == "down"
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def test_trend_stable_when_similar(self):
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events = [_event("done" if i % 2 == 0 else "dismiss", days_ago=i) for i in range(1, 15)]
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history = _history(*events)
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result = run_inference(MOMENTUM_MANIFEST, history)
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assert result["engagement_trend"] == "stable"
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def test_trend_shown_when_z_score_normal(self):
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# baseline=0 so z≈0 → no z label → trend label falls through
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out = MomentumAgent().compute(_inp(agent_prefs=_neutral_prefs(engagement_trend="up")))
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assert "trending up" in out.prompt_text
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def test_trend_down_shown_when_z_score_normal(self):
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out = MomentumAgent().compute(_inp(agent_prefs=_neutral_prefs(engagement_trend="down")))
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assert "trending down" in out.prompt_text
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def test_snapshot_includes_trend(self):
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out = MomentumAgent().compute(_inp(agent_prefs=_neutral_prefs(engagement_trend="stable")))
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assert "engagement_trend" in out.signals_snapshot
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# ── momentum: baseline + stdev inference (#114) ───────────────────────────────
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class TestMomentumBaselineInference:
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def _events_n_per_day(self, done_per_day: int, n_days: int) -> list[FeedbackEvent]:
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"""Generate done events spread across n_days."""
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events = []
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for d in range(n_days):
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for _ in range(done_per_day):
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events.append(_event("done", days_ago=d + 0.5))
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return events
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def test_cold_start_when_few_events(self):
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history = _history(*[_event("done", days_ago=i) for i in range(5)])
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result = run_inference(MOMENTUM_MANIFEST, history)
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assert result["baseline_completions_per_day"] == 1.0
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assert result["stdev"] == 1.0
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def test_power_user_baseline_high(self):
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# 5 done events per day for 20 days → baseline ≈ 5/day (over 28d window, zeros fill rest)
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events = self._events_n_per_day(5, 20)
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history = _history(*events)
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result = run_inference(MOMENTUM_MANIFEST, history)
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assert result["baseline_completions_per_day"] > 2.0
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def test_casual_user_baseline_low(self):
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# 1 done every 3 days + dismiss filler to clear min_history=14 → baseline ≈ 0.33/day
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done_events = [_event("done", days_ago=d * 3 + 0.5) for d in range(7)]
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filler = [_event("dismiss", days_ago=d + 0.5) for d in range(10)]
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history = _history(*done_events, *filler)
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result = run_inference(MOMENTUM_MANIFEST, history)
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assert result["baseline_completions_per_day"] < 0.5
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def test_stdev_reflects_variability(self):
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# Alternating 0 and 4 done events → high stdev
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events = []
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for d in range(14):
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if d % 2 == 0:
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for _ in range(4):
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events.append(_event("done", days_ago=d + 0.5))
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history = _history(*events)
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result = run_inference(MOMENTUM_MANIFEST, history)
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assert result["stdev"] > 1.0
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def test_consistent_user_lower_stdev_than_variable(self):
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# Consistent 2/day for 28 days has lower stdev than alternating 0/4
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consistent = self._events_n_per_day(2, 28)
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variable = []
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for d in range(14):
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if d % 2 == 0:
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for _ in range(4):
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variable.append(_event("done", days_ago=d + 0.5))
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else:
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variable.append(_event("dismiss", days_ago=d + 0.5))
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r_consistent = run_inference(MOMENTUM_MANIFEST, _history(*consistent))
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r_variable = run_inference(MOMENTUM_MANIFEST, _history(*variable))
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assert r_consistent["stdev"] < r_variable["stdev"]
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# ── momentum: z-score snippet language ───────────────────────────────────────
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class TestMomentumZScore:
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def _prefs(self, baseline: float, stdev: float = 1.0) -> dict:
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return {"baseline_completions_per_day": baseline, "stdev": stdev,
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"momentum_window": 7, "engagement_trend": "stable"}
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def test_power_user_above_baseline_says_above_usual(self):
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# baseline=3/day, stdev=1.0, window=7 → expected rate=3; user did 35 → rate=5, z=2
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prefs = self._prefs(baseline=3.0, stdev=1.0)
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feedback = _feedback_done(35, days_ago=1.0)
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out = MomentumAgent().compute(_inp(feedback_history=feedback, agent_prefs=prefs))
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assert "above your usual" in out.prompt_text
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def test_casual_user_slowing_down(self):
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# baseline=1/day, user did 0 in 7d → z = (0 - 1) / 1 = -1 → below usual
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prefs = self._prefs(baseline=1.0, stdev=1.0)
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out = MomentumAgent().compute(_inp(feedback_history=[], agent_prefs=prefs))
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assert "below your usual" in out.prompt_text
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def test_returning_from_break_at_normal_rate(self):
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# User just came back: 1 done, baseline=1/day, window=7 → z=(1/7-1)/1≈-0.86, within normal
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prefs = self._prefs(baseline=1.0, stdev=1.0)
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feedback = _feedback_done(1, days_ago=0.5)
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out = MomentumAgent().compute(_inp(feedback_history=feedback, agent_prefs=prefs))
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# z ≈ -0.86 → no z label, falls back to trend (stable → no extra sentence)
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assert "above your usual" not in out.prompt_text
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assert "below your usual" not in out.prompt_text
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def test_snapshot_includes_z_score(self):
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prefs = self._prefs(baseline=1.0)
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out = MomentumAgent().compute(_inp(agent_prefs=prefs))
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assert "z_score" in out.signals_snapshot
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assert "recent_done_count" in out.signals_snapshot
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def test_version_bumped(self):
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assert MOMENTUM_MANIFEST.version == "1.2.0"
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# ── overdue-task: lateness_tolerance_days + project_realness (#115) ──────────
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class TestOverdueTaskInference:
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# -- lateness_tolerance_days inference --
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def test_cold_start_returns_zero_when_few_completions(self):
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# Below min_history=10 task completions → cold start
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cs = [_completion("p1", 2.0) for _ in range(5)]
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history = _history(*[_event("done")] * 5, completions=cs)
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result = run_inference(OVERDUE_MANIFEST, history)
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assert result["lateness_tolerance_days"] == 0.0
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def test_punctual_user_zero_tolerance(self):
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# User always finishes early or on time (negative lateness) → tolerance 0
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cs = [_completion("p1", -1.0) for _ in range(12)]
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history = _history(*[_event("done")] * 12, completions=cs)
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result = run_inference(OVERDUE_MANIFEST, history)
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assert result["lateness_tolerance_days"] == 0.0
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def test_chronic_late_user_positive_tolerance(self):
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# User consistently finishes 5 days late → p50 = 5
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cs = [_completion("p1", 5.0) for _ in range(12)]
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history = _history(*[_event("done")] * 12, completions=cs)
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result = run_inference(OVERDUE_MANIFEST, history)
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assert result["lateness_tolerance_days"] == pytest.approx(5.0)
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def test_mixed_lateness_uses_median(self):
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# 6 tasks at +1d, 6 tasks at +3d → median = 2
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cs = [_completion("p1", 1.0)] * 6 + [_completion("p1", 3.0)] * 6
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history = _history(*[_event("done")] * 12, completions=cs)
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result = run_inference(OVERDUE_MANIFEST, history)
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assert result["lateness_tolerance_days"] == pytest.approx(2.0)
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# -- project_realness inference --
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def test_project_realness_cold_start_empty(self):
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cs = [_completion("p1", 1.0) for _ in range(5)] # below min_history
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history = _history(*[_event("done")] * 5, completions=cs)
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result = run_inference(OVERDUE_MANIFEST, history)
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assert result["project_realness"] == {}
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def test_project_realness_punctual_project_scores_high(self):
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# p1 always on time (0d late), p2 always 10d late → p1 should be realness ≈ 1
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cs = [_completion("p1", 0.0)] * 6 + [_completion("p2", 10.0)] * 6
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history = _history(*[_event("done")] * 12, completions=cs)
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result = run_inference(OVERDUE_MANIFEST, history)
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assert result["project_realness"]["p1"] > result["project_realness"]["p2"]
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def test_project_realness_values_clipped_01(self):
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cs = [_completion("p1", 0.0)] * 6 + [_completion("p2", 100.0)] * 6
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history = _history(*[_event("done")] * 12, completions=cs)
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result = run_inference(OVERDUE_MANIFEST, history)
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for v in result["project_realness"].values():
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assert 0.0 <= v <= 1.0
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# -- compute() reads inferred prefs --
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def test_tolerance_filters_tasks(self):
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tasks = [
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{"content": "Fresh overdue", "is_overdue": True, "task_age_days": 0.5},
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{"content": "Old overdue", "is_overdue": True, "task_age_days": 3.0},
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]
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out = OverdueTaskAgent().compute(_inp(tasks=tasks, agent_prefs={"lateness_tolerance_days": 2}))
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assert "1 overdue task" in out.prompt_text
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assert "Old overdue" in out.prompt_text
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def test_low_realness_softens_language(self):
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tasks = [{"content": "Wishlist", "is_overdue": True, "task_age_days": 3.0,
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"project_id": "aspirational"}]
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prefs = {"lateness_tolerance_days": 0, "project_realness": {"aspirational": 0.2}}
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out = OverdueTaskAgent().compute(_inp(tasks=tasks, agent_prefs=prefs))
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assert "target date" in out.prompt_text
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def test_high_realness_uses_overdue_language(self):
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tasks = [{"content": "Critical", "is_overdue": True, "task_age_days": 3.0,
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"project_id": "work"}]
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prefs = {"lateness_tolerance_days": 0, "project_realness": {"work": 0.9}}
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out = OverdueTaskAgent().compute(_inp(tasks=tasks, agent_prefs=prefs))
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assert "overdue" in out.prompt_text
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def test_snapshot_includes_realness(self):
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tasks = [{"content": "T", "is_overdue": True, "task_age_days": 1.0, "project_id": "p1"}]
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prefs = {"lateness_tolerance_days": 0, "project_realness": {"p1": 0.8}}
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out = OverdueTaskAgent().compute(_inp(tasks=tasks, agent_prefs=prefs))
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assert "realness" in out.signals_snapshot["top_overdue"][0]
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def test_version_bumped(self):
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assert OVERDUE_MANIFEST.version == "1.2.0"
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# ── recent-patterns: window_days ─────────────────────────────────────────────
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class TestRecentPatternsInference:
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def test_cold_start_default_7(self):
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history = _history(*[_event("done") for _ in range(3)]) # below min_history=5
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result = run_inference(RECENT_MANIFEST, history)
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assert result["window_days"] == 7 # cold_start_default
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def test_sparse_history_widens_window(self):
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history = _history(*[_event("done") for _ in range(5)]) # 5 events, n < 7 → 30 days
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result = run_inference(RECENT_MANIFEST, history)
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assert result["window_days"] == 30
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def test_moderate_history_14_days(self):
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history = _history(*[_event("done") for _ in range(10)]) # 7 ≤ n < 14 → 14 days
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result = run_inference(RECENT_MANIFEST, history)
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assert result["window_days"] == 14
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def test_dense_history_stays_7(self):
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history = _history(*[_event("done") for _ in range(20)]) # 20+ → 7 days
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result = run_inference(RECENT_MANIFEST, history)
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assert result["window_days"] == 7
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def test_agent_uses_window_days_pref(self):
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from datetime import timedelta
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# 5 feedback events, all within 14 days but older than 7 days
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feedback = [
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{"action": "done", "dwell_ms": 60000,
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"created_at": (_NOW - timedelta(days=10)).isoformat()}
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] * 5
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# With window_days=7 → 0 events seen; with window_days=14 → 5 events
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out_narrow = RecentPatternsAgent().compute(
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_inp(feedback_history=feedback, agent_prefs={"window_days": 7})
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)
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out_wide = RecentPatternsAgent().compute(
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_inp(feedback_history=feedback, agent_prefs={"window_days": 14})
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)
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assert "No tip reactions" in out_narrow.prompt_text
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assert "5 tip reactions" in out_wide.prompt_text
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def test_snapshot_includes_window_days(self):
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out = RecentPatternsAgent().compute(_inp(agent_prefs={"window_days": 14}))
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assert out.signals_snapshot["window_days"] == 14
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def test_version_bumped(self):
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assert RECENT_MANIFEST.version == "1.1.0"
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# ── focus-area: preferred_areas wiring ───────────────────────────────────────
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class TestFocusAreaPreferredAreas:
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agent = FocusAreaAgent()
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def _task(self, content: str, project_id: str, is_overdue: bool = False) -> dict:
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return {"id": "t1", "content": content, "is_overdue": is_overdue,
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"task_age_days": 2.0, "priority": 1, "project_id": project_id}
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def test_preferred_area_wins_tie(self):
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tasks = [
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self._task("Work thing", "work"),
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self._task("Home thing", "home"),
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]
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out = self.agent.compute(_inp(tasks=tasks, agent_prefs={"preferred_areas": ["work"]}))
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assert "work" in out.prompt_text
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assert "matches the user's stated focus preferences" in out.prompt_text
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def test_no_preferred_areas_uses_congestion_score(self):
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tasks = [
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self._task("W1", "work"),
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self._task("H1", "home"),
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self._task("H2", "home"),
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]
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out = self.agent.compute(_inp(tasks=tasks))
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# home has more tasks → wins without any preference
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assert "home" in out.prompt_text
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def test_snapshot_includes_preferred_areas(self):
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tasks = [self._task("T", "work")]
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out = self.agent.compute(_inp(tasks=tasks, agent_prefs={"preferred_areas": ["work"]}))
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assert out.signals_snapshot["preferred_areas"] == ["work"]
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def test_version_bumped(self):
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from ml.agents.focus_area import MANIFEST as FA_MANIFEST
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assert FA_MANIFEST.version == "1.1.0"
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