core/tests/test_fieldstate_codec.py
Shay 21e2ccb508 feat(persistence): Shape B+ Phase A — bit-exact array codec + FieldState (de)serialize
Foundation for L10 resume-as-same-life persistence. Adds:
- core/array_codec.py: a leaf (numpy+base64) codec encoding arrays as
  {dtype, shape, b64(raw bytes)} — BIT-EXACT, never decimal. Float round-trips
  lose zero precision, so a restored versor keeps versor_condition < 1e-6 and a
  replayed turn keeps its trace_hash. dtype carries byte order; float32 is never
  conflated with float64.
- field/state.py: FieldState.to_dict/from_dict. Multivector arrays (F, holonomy)
  go through the byte codec; energy/valence round-trip exactly via JSON-safe
  helpers (lazy physics imports keep field/ cycle-free).

Exit gate (the scope's #1 risk, de-risked first): bit-exact round-trip AND
closure preserved — versor_condition(restored.F) == versor_condition(fs.F)
exactly. 10 codec/FieldState tests + 55 architectural-invariant/runtime tests
pass. Purely additive; no existing behavior changed.

Part of docs/analysis/L10-shapeBplus-persistence-scope-2026-06-05.md (Phase A).
2026-06-05 11:38:58 -07:00

87 lines
3.1 KiB
Python

"""FieldState round-trip — Shape B+ Phase A.
The restored field must be BIT-EXACT (so versor_condition < 1e-6 survives and the
replayed turn keeps its trace_hash) and FAITHFUL (node/step/holonomy/energy/
valence all preserved). Scalar floats and strings round-trip exactly through
JSON; only the multivector arrays use the byte-exact codec.
"""
from __future__ import annotations
import json
import numpy as np
from algebra.versor import versor_condition
from core.physics.energy import EnergyClass, EnergyProfile
from core.physics.valence import EmphasisProfile, ForceClass, ValenceBundle
from field.state import FieldState
def _identity_versor() -> np.ndarray:
# Scalar 1, rest 0 — a valid unit versor (versor_condition == 0 exactly).
f = np.zeros(32, dtype=np.float32)
f[0] = 1.0
return f
def _populated_fieldstate(dtype=np.float32) -> FieldState:
return FieldState(
F=_identity_versor().astype(dtype),
node=5,
step=3,
holonomy=np.full(32, 0.0123456789, dtype=dtype),
energy=EnergyProfile(
raw=1.5,
energy_class=EnergyClass.E2,
activation_count=2,
coherence_residual=3.5e-7,
anchor_adjacent=True,
),
valence=ValenceBundle(
affective=frozenset({"joy", "calm"}),
force=ForceClass.INTERROGATIVE,
emphasis=EmphasisProfile(focus_element="x", mechanism="cleft", degree="high"),
),
)
def test_fieldstate_round_trips_bit_exact_and_preserves_closure() -> None:
fs = _populated_fieldstate()
restored = FieldState.from_dict(fs.to_dict())
# Bit-exact arrays.
assert restored.F.tobytes() == fs.F.tobytes()
assert restored.F.dtype == fs.F.dtype
assert restored.holonomy is not None
assert restored.holonomy.tobytes() == fs.holonomy.tobytes()
# Faithful scalars / nested objects (frozen dataclass equality).
assert restored.node == fs.node
assert restored.step == fs.step
assert restored.energy == fs.energy
assert restored.valence == fs.valence
# Closure preserved EXACTLY (the load-bearing property).
assert versor_condition(restored.F) == versor_condition(fs.F)
assert versor_condition(restored.F) < 1e-6
def test_fieldstate_round_trip_is_json_safe() -> None:
fs = _populated_fieldstate()
restored = FieldState.from_dict(json.loads(json.dumps(fs.to_dict())))
assert restored.F.tobytes() == fs.F.tobytes()
assert restored.valence == fs.valence
def test_fieldstate_preserves_float64_dtype() -> None:
fs = _populated_fieldstate(dtype=np.float64)
restored = FieldState.from_dict(fs.to_dict())
assert restored.F.dtype == np.float64 # float32 must never be conflated
assert restored.F.tobytes() == fs.F.tobytes()
def test_fieldstate_round_trips_with_none_optionals() -> None:
fs = FieldState(F=_identity_versor(), node=0, step=0)
restored = FieldState.from_dict(fs.to_dict())
assert restored.holonomy is None
assert restored.energy is None
assert restored.valence is None
assert restored.F.tobytes() == fs.F.tobytes()