Cross-PR lookback review of the composed relational surface on merged main:
one-hop inverse/symmetric (#775) + transitive strict-order (#781) + overlaps_event
finite-verb reader (#783). Verdict: SOLID — 37 solid findings across predicate
tables / interactions / soundness / measurement / documentation; 0 hazards, 0 drift,
0 fix-before-next-phase.
Verified on merged main 0be18ebd: 128 relational/capability/OWA tests + 19 INV
firewalls (INV-30/29/21/25/27) + 99 smoke, all green. The three capabilities compose
with no cross-PR regression; every determination stays open-world True-only; the
B4/closed-world boundary (ADR-0222) is untouched and design-only (no runtime
FrameVerdict; INV-31 is a future obligation).
Cleanup (the only finding): remove an unused `pack` fixture parameter from
test_symmetric_table_matches_pack_ontology — cosmetic, the test re-loads the pack
internally and is non-vacuous.
Step-3 relational implementation complete.
219 lines
8.7 KiB
Python
219 lines
8.7 KiB
Python
"""DETERMINE — one-hop sound relational entailment (mastery-v2 Step 3 lead).
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A relational query may hold by ONE sound predicate-algebra rule that reads a stored
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edge in its OTHER lawful direction:
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INVERSE/converse greater_than(a, b) <= told less_than(b, a)
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SYMMETRIC sibling_of(b, a) <= told sibling_of(a, b)
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Scope is deliberately narrow: OPEN-WORLD (asserts only True, never False), ONE hop
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(NO transitive chaining), DECLARED rules only (less_than is NOT self-inverse;
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parent_of is NOT symmetric). Closed-world / assert-False / FrameVerdict are out of
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scope (a later slice). The wrong=0 discipline lives in the confuser block below.
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"""
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from __future__ import annotations
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import pytest
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from chat.runtime import ChatRuntime
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from generate.determine import Determined, Undetermined, determine
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from generate.meaning_graph.relational import (
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INVERSE_OF,
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RELATIONAL_PREDICATES,
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SYMMETRIC_PREDICATES,
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TRANSITIVE_PREDICATES,
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comprehend_relational,
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load_relational_pack_lemmas,
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load_relational_pack_symmetric,
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)
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from generate.realize import realize_comprehension
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from session.context import SessionContext
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_HIGH = 10**9
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@pytest.fixture(scope="module")
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def vocab_persona():
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rt = ChatRuntime(no_load_state=True)
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return rt._context.vocab, rt._context.persona
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@pytest.fixture(scope="module")
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def pack():
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return load_relational_pack_lemmas()
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def _ctx(vocab_persona) -> SessionContext:
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vocab, persona = vocab_persona
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return SessionContext(vocab=vocab, persona=persona, vault_reproject_interval=_HIGH)
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def _tell(text: str, ctx: SessionContext, pack):
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return realize_comprehension(comprehend_relational(text, pack), ctx)
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def _ask(text: str, ctx: SessionContext, pack):
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return determine(comprehend_relational(text, pack), ctx)
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# --------------------------------------------------------------------------- #
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# Positive — the engine now derives the simplest entailed relational facts
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# --------------------------------------------------------------------------- #
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def test_inverse_converse_admits_true(vocab_persona, pack) -> None:
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ctx = _ctx(vocab_persona)
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_tell("Bob is less than Alice.", ctx, pack) # less_than(bob, alice)
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res = _ask("Is Alice greater than Bob?", ctx, pack) # greater_than(alice, bob)
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assert isinstance(res, Determined)
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assert res.answer is True and res.basis == "as_told" and res.rule == "inverse"
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assert res.predicate == "greater_than"
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assert res.subject == "alice" and res.object == "bob"
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# grounds = the single stored converse edge
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assert len(res.grounds) == 1 and res.grounds[0].relation_predicate == "less_than"
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def test_symmetric_admits_true(vocab_persona, pack) -> None:
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ctx = _ctx(vocab_persona)
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_tell("Alice is the sibling of Bob.", ctx, pack) # sibling_of(alice, bob)
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res = _ask("Is Bob the sibling of Alice?", ctx, pack) # sibling_of(bob, alice)
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assert isinstance(res, Determined) and res.answer is True
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assert res.rule == "symmetric" and res.predicate == "sibling_of"
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assert res.subject == "bob" and res.object == "alice"
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def test_direct_stored_direction_still_determines(vocab_persona, pack) -> None:
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ctx = _ctx(vocab_persona)
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_tell("Alice is the sibling of Bob.", ctx, pack)
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res = _ask("Is Alice the sibling of Bob?", ctx, pack) # the stored direction
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assert isinstance(res, Determined) and res.answer is True and res.rule == "direct"
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# --------------------------------------------------------------------------- #
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# wrong=0 confuser block — the rule must not over-fire
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# --------------------------------------------------------------------------- #
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def test_less_than_is_not_self_inverse(vocab_persona, pack) -> None:
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"""less_than is asymmetric: a<b does NOT entail b<a (its converse is greater_than)."""
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ctx = _ctx(vocab_persona)
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_tell("Alice is less than Bob.", ctx, pack) # less_than(alice, bob)
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res = _ask("Is Bob less than Alice?", ctx, pack) # less_than(bob, alice)?
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assert isinstance(res, Undetermined)
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def test_sibling_does_not_imply_parent(vocab_persona, pack) -> None:
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ctx = _ctx(vocab_persona)
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_tell("Alice is the sibling of Bob.", ctx, pack)
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res = _ask("Is Alice the parent of Bob?", ctx, pack)
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assert isinstance(res, Undetermined)
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def test_greater_than_does_not_imply_equal(vocab_persona, pack) -> None:
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ctx = _ctx(vocab_persona)
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_tell("Alice is greater than Bob.", ctx, pack)
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res = _ask("Is Alice equal to Bob?", ctx, pack)
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assert isinstance(res, Undetermined)
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def test_no_one_hop_chaining_of_nontransitive_predicate(vocab_persona, pack) -> None:
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"""One-hop rules never silently chain a NON-transitive predicate: parent_of is not
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transitive, so ``a parent_of b`` + ``b parent_of c`` must refuse. (A same-predicate
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STRICT-ORDER chain like ``a<b<c`` now determines via the transitive rule — that moved
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to the B2 capability; see ``test_determine_relational_transitive``.)"""
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ctx = _ctx(vocab_persona)
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_tell("Alice is the parent of Bob.", ctx, pack)
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_tell("Bob is the parent of Carol.", ctx, pack)
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res = _ask("Is Alice the parent of Carol?", ctx, pack)
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assert isinstance(res, Undetermined)
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def test_no_transitive_chain_through_inverse(vocab_persona, pack) -> None:
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"""The inverse rule is also one hop: it must not become a transitive bridge."""
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ctx = _ctx(vocab_persona)
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_tell("Bob is less than Alice.", ctx, pack) # => greater_than(alice, bob) by inverse
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_tell("Carol is less than Bob.", ctx, pack) # => greater_than(bob, carol) by inverse
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res = _ask("Is Alice greater than Carol?", ctx, pack) # needs transitive — refuse
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assert isinstance(res, Undetermined)
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def test_unsupported_predicate_refuses(vocab_persona, pack) -> None:
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ctx = _ctx(vocab_persona)
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# No told fact at all → ungrounded refusal, never a guess.
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res = _ask("Is Alice the sibling of Bob?", ctx, pack)
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assert isinstance(res, Undetermined)
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def test_never_asserts_false(vocab_persona, pack) -> None:
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"""Open-world: every determination is True-or-refuse; answer=False is unreachable
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(INV-30 is the structural guarantee — this is the behavioral echo on this path)."""
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ctx = _ctx(vocab_persona)
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_tell("Alice is less than Bob.", ctx, pack)
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for q in (
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"Is Bob less than Alice?",
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"Is Alice greater than Bob?",
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"Is Alice equal to Bob?",
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"Is Alice the parent of Bob?",
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"Is Alice less than Bob?",
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):
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res = _ask(q, ctx, pack)
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if isinstance(res, Determined):
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assert res.answer is True
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# --------------------------------------------------------------------------- #
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# Ontology pins — the algebra cannot silently diverge from the pack / vocab
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# --------------------------------------------------------------------------- #
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def test_symmetric_table_matches_pack_ontology() -> None:
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"""SYMMETRIC_PREDICATES MUST equal the pack's graph.edge.symmetric declarations —
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the pack is the source of truth; the constant is the runtime-cheap mirror."""
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assert SYMMETRIC_PREDICATES == load_relational_pack_symmetric()
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def test_algebra_members_are_relational_predicates() -> None:
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"""Every inverse/symmetric lemma is a real reader predicate — a typo cannot mint
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an unknown predicate into the determination path."""
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for lemma in set(INVERSE_OF) | SYMMETRIC_PREDICATES:
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assert lemma in RELATIONAL_PREDICATES
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def test_inverse_is_an_involution() -> None:
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"""inverse(inverse(p)) == p, and no predicate is its own inverse (asymmetry)."""
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for lemma, other in INVERSE_OF.items():
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assert lemma != other
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assert INVERSE_OF[other] == lemma
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def test_transitive_predicates_closed_and_excludes() -> None:
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"""TRANSITIVE_PREDICATES is CLOSED, default-off, and exactly the four strict orders —
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every member is a real reader predicate, and every predicate that is symmetric,
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asymmetric-kinship, spatial, or containment STAYS OUT (admitting any would be unsound
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or needs a shared-frame proof this slice lacks)."""
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assert TRANSITIVE_PREDICATES == {
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"less_than",
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"greater_than",
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"before_event",
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"after_event",
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}
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# every transitive lemma is a real reader predicate (a typo cannot mint an unknown one)
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for lemma in TRANSITIVE_PREDICATES:
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assert lemma in RELATIONAL_PREDICATES
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# the deliberately-excluded predicates are explicitly absent (default-off)
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excluded = {
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"sibling_of",
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"spouse_of",
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"parent_of",
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"child_of",
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"left_of",
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"right_of",
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"inside_of",
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"during_event",
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"overlaps_event",
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}
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assert excluded.isdisjoint(TRANSITIVE_PREDICATES)
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# the excluded set names real reader predicates (so the exclusion is meaningful)
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for lemma in excluded:
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assert lemma in RELATIONAL_PREDICATES
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