Addresses PR #1402 review: the guard only claimed dominant-single, leaving
the symmetric bug open — the LLM can flatten a dominant-double/triple split
onto its minority single (e.g. "96% Double glazing 2002 or later, 4% Single").
A dominant double/triple whose era is explicit ("pre-2002" / "2002 or later")
is just as fully determined as era-free single, so the guard now claims it via
_DOMINANT_MEMBER. Only a genuinely ambiguous era ("unknown age", unstated) still
defers to the LLM — the "96% double -> None" contract now holds solely for the
era-unknown case, not the era-stated one.
Backfill script reuses the same guard, so it now corrects any dominant split;
renamed reclassify_dominant_single_glazing.py -> reclassify_dominant_glazing.py
to match. Tests cover double/triple x pre-2002/2002-or-later and the still-
deferred unknown-age case; 14 green.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The landlord property-type description is a "<dwelling type>: <built form>: <floor>"
split whose leading token IS the dwelling type; the built-form tail is not. The
LLM occasionally over-read the tail and flipped the type — a handful of
"Bungalow: EndTerrace" / "Bungalow: MidTerrace" dwellings were stored as House.
Adds property_type_guard (claims the recognised leading token: House / Bungalow /
Flat / Maisonette / Park home; defers unrecognised phrasings to the LLM) and wires
property_type through a GuardedColumnClassifier, so the built-form tail can never
flip the type and the live path is deterministic.
Applied the scoped backfill to portfolio 796 (Hyde): 3 rows corrected from House
back to Bungalow. No enum migration needed — the targets are original members.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
MainFuelType had no individual wood-logs member — only "biomass (community)" —
so the LLM classifier funnelled "Solid Fuel: Wood Logs" into the community fuel,
inventing a community heat network the dwelling isn't on (and mislabelling the
connection). main_fuel had no deterministic guard at all, so nothing caught it.
Verified against domain/sap10_calculator/docs/specs: RdSAP 10 Specification
Table 32 lists "wood logs" as a solid fuel (code 20, 0.028 kgCO2e/kWh); the
calculator's input scheme (the gov EPC API fuel enum) codes it 6 -> Table 32 20
(sap_efficiencies._API_TO_TABLE32), and water_heating_overlay already pins the
same fuel to 6. So _FUEL_CODES["wood logs"] = 6 is confirmed, not guessed.
Adds MainFuelType.WOOD_LOGS + the _FUEL_CODES entry, a main_fuel_guard mirroring
water_heating_guard (claims the "wood log" token; dual fuel keeps its own member
since it has no "wood log" substring), and wires main_fuel through a
GuardedColumnClassifier so the live path is deterministic.
Applied the scoped backfill to portfolio 796 (Hyde): 21 rows off
"biomass (community)" -> "wood logs". property_overrides (TEXT) only; the
classifier-cache pgEnum member is deferred to the FE Drizzle migration.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
A landlord glazing split like "4% Double glazing 2002 or later, 96% Single
Glazing" is a near-uniform *single*-glazing dwelling, but the LLM classifier
latched onto the 4% minority and wrote a "Double glazing…" override — over-
crediting the dwelling.
glazing_mix_guard rescued genuine mixes (no type >= 90%) to MIXED but returned
None for near-uniform splits, trusting the LLM to have applied the dominant type.
It hadn't. Single glazing is era-free, so a dominant-single split is fully
determined: the guard now returns SINGLE for it (dominant double/triple still
carry era ambiguity, so they stay the LLM's job — the existing "96% double" case
still defers).
Adds a portfolio-scoped backfill (reuses the same guard, so it can't drift from
the live path) and applied it to portfolio 796 (Hyde): 115 glazing overrides
corrected from a spurious Double back to Single.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Gov-API certs that lodge a gas boiler as main_heating_category=2 + a PCDB
main_heating_index_number but omit sap_main_heating_code were carried with
a null code, so the heating generators (which gated on sap_main_heating_code
alone) never evaluated them for a boiler upgrade or a system tune-up — they
silently got nothing (£0 works, plateau at D). The SAP calculator already
handles this shape (cert_to_inputs._is_wet_boiler_main), so the calculator
modelled these as wet boilers while the recommenders ignored them.
Mirror the calculator's classification in the generator:
- _is_wet_boiler / _is_electric_boiler fall back, when no SAP code is
lodged, to a PCDB Table 105 boiler index or main_heating_category in
{1,2} (heat pumps excluded); electric boilers stay excluded by the code
range when lodged, else by an electricity main fuel.
- _already_condensing reads the boiler's declared PCDB winter efficiency
when there is no Table 4b code, so a modern condensing boiler lodged this
way still isn't offered a pointless like-for-like swap (gets a tune-up).
Verified read-only on portfolio 814 / scenario 1271: pids 742304, 742306,
742322, 742325, 742336 now get a gas_boiler_upgrade (two cross D->C on the
boiler alone) where they had £0 works; predicted properties whose heating
donor is a PCDB-shape boiler (e.g. 742095/742102/742105) also recover a
tune-up. Fixes the A#2 slice of #1388 (and unblocks 742302/742367).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
PRD #1385 phase 2. The 20.0.0 and 21.0.0 mappers dropped insulated_door_u_value
(top-level Optional float), unlike 21.0.1. heat_transmission reads it as the
measured door U-value override (cert_to_inputs -> heat_transmission:809), so
dropping it forced every door onto the RdSAP default U-value.
Verification: new test 3 passed (21.0.0 sample lodges 3; 20.0.0 latent -> inject
1.5 + absent -> None); corpus 6002 passed; SAP-accuracy regressions pass; pyright
unchanged (39 -> 39).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The neighbour SAP-divergence cohort was (postcode, property_type, built_form),
which mixed electric- and gas-heated dwellings. Electricity scores materially
lower in SAP than mains gas for identical fabric, so a mixed-fuel postcode
produced cross-fuel false outliers — an electric dwelling flagged only for being
electric among gas neighbours.
Add the main-heating fuel class to the cohort key (electricity variants — 29/30
+ off-peak 31-40 — collapse to one class; every other code is its own bucket).
Now every flagged divergence is a same-fuel comparison worth investigating. On
portfolio 814 this refined 20 raw divergences to 17 same-fuel ones while keeping
the genuine within-fuel outliers (e.g. the all-electric WC2B 4AW flats at SAP
26/38 vs a cohort median of 67).
Reaches the fuel via epc_main_heating_detail through the indexed property_id —
still never touches the recommendation table. Surfaced by the portfolio-814
recommendation audit (Work item B, #1388).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
PRD #1385 phase 2. The 21.0.0 mapper dropped mechanical_ventilation_index_number
and mechanical_vent_duct_type, unlike 21.0.1. cert_to_inputs reads both (PCDB
Table 4f/329 heat-recovery/SFP lookup + the Table 329 in-use factor), so an
MVHR/MEV cert on the 21.0.0 path fell back to the SAP default efficiency.
Mirrors 21.0.1 exactly -- only the two fields it actually maps. The other four
mechanical_vent_duct_* schema fields have no mapper OR calculator consumer even
on 21.0.1 (verified), so they're deliberately left alone rather than populating
dead domain fields.
Verification: new test 1 passed (harvested 21.0.0 sample lodges index=12,
duct_type=3); corpus 6002 passed; SAP-accuracy regressions pass; pyright
unchanged (39 -> 39).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
PRD #1385 phase 2. 21.0.0 was the last mapper still dropping the lodged
percent_draughtproofed (top-level int) — every other path (17.0/…/21.0.1) reads
it. Dropping it understated the SAP §2 draughtproofing/infiltration credit for
21.0.0 certs.
Verification: new test 1 passed (harvested 21.0.0 sample lodges 100); corpus
6002 passed; SAP-accuracy regressions pass; pyright unchanged (39 -> 39).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
PRD #1385, building-part fabric family. The 17.0 mapper hardcoded
floor_insulation_thickness / sap_room_in_roof to None and omitted
flat_roof_insulation_thickness, all of which the 17.0 schema lodges and the
19.0/20.0/21.x paths read:
* floor_insulation_thickness: "NI" (no measured thickness) -> None so u_floor
reaches its age-band default, else pass through (mirrors the 19.0 note).
* flat_roof_insulation_thickness: pass through (was dropped).
* sap_room_in_roof: map to SapRoomInRoof(floor_area, construction_age_band),
None if absent (mirrors 19.0).
17.0-only: the 17.1 SapBuildingPart schema has none of these fields, so its None
there is correct (verified against the dataclass). roof_insulation_thickness is
intentionally left raw -- the sloping-ceiling resolve helper moves roof U-values
and is a separate follow-up.
Verification: new test 3 passed; test_mapper_corpus 6002 passed; SAP-accuracy /
RealCertExpectation regressions pass; pyright unchanged (39 -> 39, pre-existing).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>