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414 commits

Author SHA1 Message Date
Khalim Conn-Kowlessar
363f14fbb2 fix(mapper): read dropped detailed room-in-roof slope + stud-wall surfaces
The gov-EPC API lodges a Detailed RR (RdSAP 10 §3.9, Figure 4) with up to
two sloping ceilings (`slope_*`) and two vertical stud/knee walls
(`stud_wall_*`) in addition to the gable + flat-ceiling surfaces. Those
slope/stud fields were undeclared on the 21.0.x schema, so `from_dict`
silently dropped them and `_api_rir_detailed_surfaces` built ONLY the gable
+ flat-ceiling surfaces. The (large) sloping roof and the knee walls
contributed ZERO heat loss → undercounted RR fabric loss → a systematic
over-rate.

Fix: declare `slope_*`/`stud_wall_*` on `RoomInRoofDetails`
(rdsap_schema_21_0_0 + _21_0_1) and build `kind="slope"` / `kind="stud_wall"`
surfaces in the mapper. The cascade's Detailed-RR branch already routes both
to the roof aggregate via `u_rr_slope` (Table 17 col 1) and `u_rr_stud_wall`
(Table 17 col 3) — RdSAP 10 §5.11.3, p.43-44 — so no calculator change is
needed (Summary path worksheet-validated by the 000565 detailed-RR fixtures).
insulation_type is left None to defer to the Table 17 col-(a) mineral-wool
default, mirroring the existing flat_ceiling branch.

15 /tmp certs carry `slope_height_1`: cohort mean|err| 4.26 -> 2.05, signed
+4.09 -> centred (14/15 were over-rating; e.g. 0390-2538 +5.95 -> +3.56).
Gauges: corpus within-0.5 67.3% -> 67.5% (MAE 1.020 -> 0.987); /tmp 71.4% ->
71.6% (MAE 0.882 -> 0.846). Harness 47/47 0 raised; regression = the 3
pre-existing fails; pyright net-zero (65=65).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-16 05:56:47 +00:00
Khalim Conn-Kowlessar
b55b969b84 fix(water-heating): use lodged cylinder_heat_loss declared-loss factor
The gov API lodges a manufacturer's declared cylinder loss factor
(kWh/day) in `sap_heating.cylinder_heat_loss`, in which case it leaves
the cylinder volume / insulation type / thickness None. That field was
undeclared on the 21.0.x schemas, so `from_dict` dropped it — then
`_cylinder_storage_loss_override` hit its insulation-None / volume-None
guards and returned None, dropping the §4 storage loss ENTIRELY. The
dwelling over-rated (the declared loss is typically ~1.5 kWh/day ≈
550 kWh/yr).

SAP 10.2 §4 branch a) (PDF p.136): when the declared loss factor is
known, storage loss (50) = (48) declared loss × (49) Table-2b
temperature factor — replacing the Table 2 V×L×VF computation.

- declare `cylinder_heat_loss` on RdSapSchema21_0_0/21_0_1.SapHeating +
  EpcPropertyData.SapHeating; thread through the 21.0.x mappers.
- `cylinder_storage_loss_monthly_kwh` gains `declared_loss_kwh_per_day`:
  when set, combined_55 = declared × TF (volume/insulation unused).
- `_cylinder_storage_loss_override` resolves the declared loss BEFORE the
  insulation/volume guards (the gov omits those when the loss is lodged).

12 /tmp certs carry it (mean |err| 3.00 -> 2.51; the clean ones close
hard, e.g. 2360 2.65 -> 0.30, 0245 2.25 -> 0.53). Corpus within-0.5
67.0% -> 67.3% (MAE 1.025 -> 1.020); /tmp 71.2% -> 71.4% (0.889 ->
0.882). Worksheet harness 47/47; regression = only the 3 pre-existing
fails; pyright net-zero.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-16 05:27:47 +00:00
Khalim Conn-Kowlessar
7cfd54129b fix(mapper): read the dropped rafter_insulation_thickness API field
Roofs lodged insulated at rafters carry their thickness in a DEDICATED
gov-EPC API field, `rafter_insulation_thickness` (e.g. "225mm"), while
`roof_insulation_thickness` stays None (rafters aren't loft joists). That
field was undeclared on the 21.0.x schemas, so `from_dict` silently
dropped it — the rafter certs only *looked* redacted (roof EER 2-4 =
insulated, yet no thickness), and the cascade fell to the Table 18 col (2)
unknown default (2.30), badly under-rating them.

- declare `rafter_insulation_thickness` on RdSapSchema21_0_0/21_0_1 +
  EpcPropertyData.SapBuildingPart (mirrors the existing
  sloping_ceiling_/flat_roof_insulation_thickness dropped-field handling).
- thread it through `from_rdsap_schema_21_0_0/21_0_1` (older schemas get
  None via getattr).
- `heat_transmission` prefers `rafter_insulation_thickness` over
  `roof_insulation_thickness` when the part is at-rafters, so the measured
  RdSAP 10 §5.11.2 Table 16 column (2) row applies (225 mm → 0.25).

Completes the rafters roof fix: with the real thickness read, the rafter
certs are recovered rather than over-stated — cert 3100-8675-0922-8628
(band E, rafters 225mm) +8.93 → +0.43 SAP. Corpus within-0.5 67.0%
(MAE 1.025) and /tmp 71.2% (MAE 0.889) — both NET ABOVE the pre-rafters
baseline (66.9% / 70.6%). Worksheet harness 47/47; regression = only the
3 pre-existing fails; pyright net-zero.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-16 05:04:39 +00:00
Khalim Conn-Kowlessar
b2b6f8e954 fix(mapper): map Elmhurst "Value known" cylinder to measured volume (code 6)
The Elmhurst Summary §15.1 lodges "Cylinder Size: Value known" with the
measured volume in the "Cylinder Volume (l)" line — the Summary-path
equivalent of the gov-API "Exact" descriptor. The mapper had no entry for
"Value known" so `_elmhurst_cylinder_size_code` raised UnmappedElmhurstLabel,
and even once mapped the measured volume was never threaded through, so the
cascade dropped the cylinder storage loss (~468 kWh/yr) from (219) water
heating on every measured-volume-cylinder Summary.

Per RdSAP 10 §10.5 Table 28 (p.55) a measured cylinder volume is used
directly. Map "Value known" → cascade code 6 (Exact) and thread the §15.1
"Cylinder Volume (l)" value into SapHeating.cylinder_volume_measured_l, which
`_cylinder_volume_l_from_code` (cert_to_inputs.py:5281) already reads for
code 6 — mirroring the gov-API path (mapper.py:1575/1885).

Pins simulated case 39 (P960-0001-001431): an age-A mid-terrace on direct-
acting electric room heaters (SAP code 691, cat 10, control 2602) with
electric-immersion DHW off a 117 L "Value known" cylinder. The full
extractor→mapper→calculator cascade now reproduces the worksheet's SAP-rating
block EXACTLY — SAP value 36.6365 (band F) and (272) CO2 2056.0731 kg/yr,
with (219) water heating 2637.5049 and (255) total energy cost 1802.0039.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-15 23:57:25 +00:00
Khalim Conn-Kowlessar
361abc1202 fix(mapper): handle 'ND' multiple_glazing_type on RdSAP-Schema-20.0.0
`_synthesise_20_0_0_sap_windows` passed `schema.multiple_glazing_type`
straight into `_api_cascade_glazing_type`, which raised UnmappedApiCode on
the "ND" (Not Defined) string that the 20.0.0 corpus lodges alongside the
1-8 integer codes — failing the mapper-coverage guard on every ND-glazed
20.0.0 cert. Mirror the existing 18.0/19.0/17.x seams: route integer codes
through the cascade, fall the "ND" string back to the DG-modal default
(cascade code 2 → daylight g_L 0.80). Also corrects the 20.0.0 schema
field type `int` → `Union[int, str]` to match the data (as 18.0 already
does), which keeps the isinstance guard pyright-clean.

Pre-existing failure (present before this branch's recent commits), not in
the handover regression gate. Fixes all 15 RdSAP-Schema-20.0.0 ND certs;
test_mapper_corpus 6002/6002 pass. pyright net-zero.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-15 06:43:55 +00:00
Khalim Conn-Kowlessar
0fae84d2b6 fix(elmhurst): map secondary room-heater SAP codes to Table 4a fuel category
Completes `_elmhurst_secondary_fuel_from_sap_code` per SAP 10.2 §12
(PDF p.34: "Secondary heating systems and applicable fuel types are taken
from the room heaters section of Table 4a") + RdSAP 10 §10.4.1. Each
Table 4a room-heater code now resolves to its fuel CATEGORY's modal fuel:

  - gas room heaters    601-613 → mains gas   (26 → Table 32 1, 3.48 p/kWh)
  - liquid room heaters 621-625 → heating oil (28 → Table 32 4, 5.44 p/kWh)
  - solid room heaters  631-636 → house coal  (11 → Table 32 11, 3.67 p/kWh)
  - electric room htrs   691-694/699/701 → None (cascade electricity default)

Previously only the gas (601-613→26) and solid (631-634→11) blocks were
mapped; liquid heaters (621-625) and 635-636 fell through to None →
silently billed as electricity (13.19 p/kWh), a large mis-price for an
oil/solid heater. The prior slice raised on those; this maps them to the
correct category fuel instead, and keeps the raise ONLY for codes inside
the room-heater range (601-701) that are not a recognised Table 4a row.

The specific sub-fuel within a category (mains gas vs LPG vs biogas) is a
SEPARATE lodgement per §10.4.1 and is NOT exported in the Summary, so the
gas block stays the modal mains gas — worksheet "simulated case 37" lodged
its 605 live-effect fire on biogas (7.60 p/kWh), unrecoverable from the
Summary code alone (this is the entire +7 SAP case-37 gap: secondary
energy £131 + a separate biogas standing charge £70; every other line
matches the worksheet exactly, incl. (206) main efficiency 61%).

5 AAA tests, harness 47/47 (0 raised), pyright net-zero, regression clean,
corpus gauge unchanged (Elmhurst-path only).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-15 06:27:37 +00:00
Khalim Conn-Kowlessar
9830ea2110 fix(elmhurst): raise on unmapped fuel-fired secondary room-heater code
The Elmhurst Summary lodges only the secondary heating SAP code (Table 4a
Category 10), never its fuel. `_elmhurst_secondary_fuel_from_sap_code`
mapped the gas block (601-613 → mains gas) and solid block (631-634 →
house coal) to their modal defaults, but returned None for any OTHER
Category-10 code — and None makes the cascade SILENTLY bill the secondary
as electricity (13.19 p/kWh). For a fuel-fired heater (e.g. 621-625
liquid-fuel oil/bioethanol) that is a large, invisible mis-price.

Per the UnmappedElmhurstLabel strict-raise pattern (mirrors the wall_type
/ glazing label raises), a fuel-fired Category-10 code (601-699) outside
the mapped gas/solid blocks now RAISES instead of guessing. Electric room
heaters (691-699) keep returning None — electricity IS their fuel.

The gas block 601-613 still resolves to the modal default mains gas: the
Summary cannot distinguish mains gas from LPG/biogas, so an LPG or biogas
live-effect fire (worksheet "simulated case 37" used biogas at 7.60 p/kWh
vs our 3.48 p/kWh mains-gas default, a +7 SAP gap) is not recoverable from
the Summary export — that is a data-availability limit, not a guess we can
fix here. This commit closes the genuinely-silent-wrong path; the gas
sub-fuel remains the documented modal default.

Worksheet harness 47/47, 0 raised. 3 AAA tests, pyright net-zero,
regression clean, corpus gauge unchanged (Elmhurst-path only; the API path
lodges the secondary fuel explicitly).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-14 10:35:38 +00:00
Khalim Conn-Kowlessar
5b2cf5edc7 Merge remote-tracking branch 'origin/main' into feature/per-cert-mapper-validation
# Conflicts:
#	datatypes/epc/domain/epc_property_data.py
#	datatypes/epc/domain/mapper.py
#	datatypes/epc/domain/tests/test_from_rdsap_schema.py
2026-06-13 22:20:15 +00:00
Jun-te Kim
1ff50374e7 Record 17.0 band-4/5 synthesis transfer gaps at the seam (ADR-0028)
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-12 12:50:29 +00:00
Jun-te Kim
9b01e1d0c9 Synthesise reduced-field windows for RdSAP-Schema-17.0 certs 🟩
Add the 17.0 synthesis seam over the shared _synthesise_reduced_field_windows
core (inherited 20.0.0 coefficients, ND glazing -> DG-modal default 2, per
ADR-0028). 17.0 glazed_type codes (1-4,7) are a subset of the verified 1-8
space. The 10 rich certs use lodged window_area directly; the windowless 990
synthesise a 4-way N/E/S/W split.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-12 12:47:40 +00:00
Jun-te Kim
26651ca71c Map RdSAP-Schema-17.0 certs to EpcPropertyData 🟩
Dispatch RdSAP-Schema-17.0 through from_api_response, parse-fix the schema
(data-driven required->optional, validated against the 1000-cert 17.0 corpus
per ADR-0028 — incl. SapHeating.cylinder_insulation_type and the
has_hot_water_cylinder / has_fixed_air_conditioning / has_heated_separate_
conservatory flags), and port the defensive mapper reads (dwelling_type
str/dict/number, photovoltaic_supply guard, sap_floor_dimensions guard). All
1000 corpus certs now parse and map.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-12 12:45:19 +00:00
Jun-te Kim
24dcd9aa71 Record 19.0 band-4 synthesis transfer gap at the seam (ADR-0028)
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-12 12:38:30 +00:00
Jun-te Kim
1fcad454fa Synthesise reduced-field windows for RdSAP-Schema-19.0 certs 🟩
Add the 19.0 synthesis seam over the shared _synthesise_reduced_field_windows
core (inherited 20.0.0 coefficients, ND glazing -> DG-modal default 2, per
ADR-0028). 19.0 glazed_type codes (1-4,6,7) are a subset of the verified 1-8
space. The 6 rich certs use lodged window_area directly; the windowless 994
synthesise a 4-way N/E/S/W split.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-12 12:33:26 +00:00
Jun-te Kim
792f76f2fa Map RdSAP-Schema-19.0 certs to EpcPropertyData 🟩
Dispatch RdSAP-Schema-19.0 through from_api_response, parse-fix the schema
(data-driven required->optional, validated against the 1000-cert 19.0 corpus
per ADR-0028), and port 18.0's defensive mapper reads (dwelling_type str/dict/
number, photovoltaic_supply guard, sap_room_in_roof Measurement coercion).
All 1000 corpus certs now parse and map.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-12 12:29:36 +00:00
Khalim Conn-Kowlessar
6884ec9fda fix(fabric): honour the gov-EPC lodged per-element U-values (RdSAP §5.1)
The gov-EPC API surfaces the assessor's RdSAP-assessed per-element U-values
as `roof_u_value` / `wall_u_value` / `floor_u_value` on each building part.
These were undeclared on the RdSAP 21.0.0/21.0.1 schemas, so `from_dict`
silently dropped them, and `heat_transmission` re-derived each U from the §5.6
/§5.7/§5.11 construction-default cascade. The gov OPEN data routinely redacts
the backing insulation thickness, so that re-derivation mis-bills an insulated
element as uninsulated.

RdSAP 10 §5.1: a known element U-value (documentary evidence / the lodged
RdSAP output) is used directly in place of the construction-default cascade.
Per [[project_per_cert_mapper_validation_state]] the gov API carries RdSAP
OUTPUT, so the lodged U reproduces the official's element heat loss exactly.

Worst case in the 2026 sample: cert 7921-0052-0940-5007-0663, an age-C
"Pitched, sloping ceiling" (rc=8) top-floor flat lodging roof_u_value=0.2 with
no thickness. The cascade returned the uninsulated 2.30 W/m²K → SAP 56.9 vs
lodged 80 (-23.09, the single largest error in the sample). The roof override
alone recovers ~15 SAP; the wall override (lodged 0.34 vs cascade) closes the
rest of this cohort.

Override applies to the MAIN wall only (alt-wall sub-areas keep their own
per-area U) and the part's floor=0. Fires only when the rare field is present
(9 of 909 computed certs), so the Summary path — which never lodges these
API fields — is untouched.

API gauge: 67.1% → 67.7% within-0.5, mean|err| 1.024 → 0.992.
Worksheet harness: 47/47, 0 divergers (unchanged).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-11 13:51:26 +00:00
Jun-te Kim
fcc2e5d0f8 Extract shared reduced-field window synthesis core across the RdSAP family 🟪
ADR-0028's deferred extraction, triggered by 17.1 as the second instance: the
inherited 20.0.0 coefficients (0.148 + band multipliers + 4-way split) now live
in one `_synthesise_reduced_field_windows` core. The 20.0.0 / 18.0 / 17.1 seams
keep their own names (so each can diverge) but collapse to glazing-type
resolution (cascade + that spec's ND handling) plus a call to the core.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 13:16:15 +00:00
Jun-te Kim
0f3321e655 Synthesise windows, lighting, ventilation and hot water for 17.1 certs 🟩
Rich certs (14/1000) use lodged window_area; the windowless majority synthesise
glazing from the glazed_area band via _synthesise_17_1_sap_windows (own seam,
inherited 20.0.0 coefficients); lighting/ventilation/hot-water mirror 18.0.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 13:13:37 +00:00
Jun-te Kim
a8895b41d4 Synthesise windows, lighting, ventilation and hot water for 17.1 certs 🟥
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 13:13:37 +00:00
Jun-te Kim
25e550ce3c Dispatch and map RdSAP-Schema-17.1 certs end-to-end 🟩
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 12:21:17 +00:00
Jun-te Kim
4ea5367da6 Dispatch and map RdSAP-Schema-17.1 certs end-to-end 🟥
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 12:21:17 +00:00
Jun-te Kim
744aa5482d Derive hot-water bath and mixer counts from room counts for 18.0 certs 🟩
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 12:02:16 +00:00
Jun-te Kim
6df307b49c Derive hot-water bath and mixer counts from room counts for 18.0 certs 🟥
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 12:02:16 +00:00
Jun-te Kim
e0d3d3fd2a Map chimneys, draughtproofing and sheltered sides for 18.0 certs 🟩
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 12:01:13 +00:00
Jun-te Kim
afdf85176d Map chimneys, draughtproofing and sheltered sides for 18.0 certs 🟥
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 12:01:13 +00:00
Jun-te Kim
2b5d596f9b Synthesise lighting bulb counts from outlet counts for 18.0 certs 🟩
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 11:59:33 +00:00
Jun-te Kim
70af9dee65 Synthesise lighting bulb counts from outlet counts for 18.0 certs 🟥
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 11:59:33 +00:00
Jun-te Kim
fb14f03873 Map Not-Defined glazing code to a valid type for windowless 18.0 certs 🟩
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 11:55:46 +00:00
Jun-te Kim
0008c33ea9 Map Not-Defined glazing code to a valid type for windowless 18.0 certs 🟥
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 11:55:46 +00:00
Jun-te Kim
42f02f33d8 Pin band-2 glazing scaling at x1.25 for 18.0 certs 🟩
Behaviour delivered by the band-multiplier dict in the prior slice; this pins
the band-2 ("More than typical") case against the inherited 20.0.0 coefficient.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 11:50:14 +00:00
Jun-te Kim
e0ff02b1ac Synthesise glazing from the glazed_area band for windowless 18.0 certs 🟩
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 11:49:38 +00:00
Jun-te Kim
bfedcd54dc Synthesise glazing from the glazed_area band for windowless 18.0 certs 🟥
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 11:49:38 +00:00
Jun-te Kim
162259b255 Use lodged window geometry for rich RdSAP-Schema-18.0 certs 🟩
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 11:45:12 +00:00
Jun-te Kim
17cb06a2f9 Use lodged window geometry for rich RdSAP-Schema-18.0 certs 🟥
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 11:41:19 +00:00
Jun-te Kim
51309328e6 Parse and map all RdSAP-Schema-18.0 corpus certs 🟩
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 11:39:07 +00:00
Jun-te Kim
4fca5d7fed Dispatch and map RdSAP-Schema-18.0 certs end-to-end 🟩
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 11:18:15 +00:00
Jun-te Kim
cfc337f04a Dispatch and map RdSAP-Schema-18.0 certs end-to-end 🟥
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 11:12:53 +00:00
Khalim Conn-Kowlessar
aab75cf902 fix(walls): reconcile gov-API wall_construction enum with the calc code-space
The gov-EPC API `wall_construction` enum diverges from the calculator's
internal WALL_* code-space (confirmed by the description-vs-code audit across
the corpus): API 1-5 align (granite/sandstone/solid-brick/cavity/timber), but
API 6=basement, 8=system built, 9=cob — whereas the calc constants are
WALL_SYSTEM_BUILT=6, WALL_COB=7, WALL_PARK_HOME=8, WALL_CURTAIN=9. Codes 8 and
9 therefore fell OUT of u_wall's `known_types` and resolved only via the
`walls[].description` fallback, with two failure modes:

  - System built (API 8): a cert lodging no description silently defaulted to
    cavity (1.5) instead of the system-built U (RdSAP 10 Table 6, e.g. band E
    as-built 1.7). Latent in the corpus (all 43 carry a description) but a
    silent mis-bill waiting to happen.
  - Cob (API 9): a LIVE bug — calc WALL_CURTAIN=9 (set by the Summary path's
    "CW" mapping, paired with a curtain_wall_age) intercepts code 9 in the
    `construction == WALL_CURTAIN` branch, billing the cob wall at the curtain
    default 2.0 regardless of description.

Fix, split by where each can be disambiguated safely:
  - System built: `u_wall` gains `_GOV_API_WALL_CODE_TO_TYPE = {8: WALL_
    SYSTEM_BUILT}`, resolving code 8 directly (calc WALL_PARK_HOME=8 is never
    dispatched, so no collision; gov 6=basement is left to the basement
    machinery — cannot remap 8→6).
  - Cob: translated at the API mapper (`_api_wall_construction_code`, 9 →
    WALL_COB=7) where the source is unambiguously the gov enum — the gov API
    has no curtain code, so an API 9 is always cob. Applied to main + alt
    walls across the from_rdsap_schema_* builders. The Summary path's "CW"→9
    curtain mapping is untouched.

Worksheet harness UNAFFECTED (47/47, 0 divergers — Summary path unchanged).
API gauge 65.1% -> 65.3% within-0.5 (mean|err| 1.075 -> 1.059): the n=1 cob
cert now computes cob instead of curtain. 3 AAA tests (u_wall system-built
without description; mapper cob 9->7; aligned/system/basement pass-through).
pyright net-zero.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-11 10:55:19 +00:00
Khalim Conn-Kowlessar
a97ff60b01 fix(water-heating): complete RdSAP Table 28 cylinder-size map (codes 5 + 6)
`_CYLINDER_SIZE_CODE_TO_LITRES` held only codes 2/3/4 (Normal/Medium/Large →
110/160/210 L); codes 5 (Inaccessible) and 6 (Exact) fell through to None,
so the Table-13 high-rate fraction AND the cylinder storage loss were skipped
for those certs (20 code-6 certs in the API sample).

Per RdSAP 10 Specification (10-06-2025) §10.5 Table 28 (PDF p.55):
- Code 6 "Exact": use the lodged measured volume. The gov API carries it in
  `cylinder_size_measured` (e.g. 150 L) — now plumbed through the 21.0.0/21.0.1
  schema → mapper → `SapHeating.cylinder_volume_measured_l`.
- Code 5 "Inaccessible": 210 L if off-peak electric dual immersion, 160 L from
  a solid-fuel boiler, otherwise 110 L (n=0 in the current sample, but
  spec-complete).

New `_cylinder_volume_l_from_code` centralises Table 28 resolution and replaces
the three raw-dict call sites (`_hot_water_cylinder_volume_l`, the cylinder
storage-loss path, and the PCDB performance check) so all three honour codes
5/6 identically. `_cylinder_inaccessible_volume_l` applies the code-5 context
rule via the existing immersion/off-peak-meter/solid-fuel-boiler detectors.

Worksheet harness UNAFFECTED (47/47, 0 divergers): the Summary path lodges
neither code 5/6 nor a measured volume. API gauge: within-0.5 64.4% -> 65.1%
(mean|err| 1.085 -> 1.075) — the 20 code-6 certs now size their cylinder from
the measured volume. 4 AAA tests (code 6 measured; code 5 solid-fuel/default/
off-peak-dual-immersion). pyright net-zero.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-11 10:02:39 +00:00
Khalim Conn-Kowlessar
48b36d3d7e fix(elmhurst-mapper): carry §7 alternative-wall "Sheltered Wall" flag
The Elmhurst Summary §7 lodges "Alternative Wall N Sheltered Wall: Yes" for
a sub-area adjacent to an unheated buffer (e.g. a flat's corridor wall),
but the extractor dropped it and _map_elmhurst_alternative_wall never set
SapAlternativeWall.is_sheltered — so the cascade billed the sub-area at its
full exposed U instead of the RdSAP 10 Table 4 (p.22) sheltered U =
1/(1/U + 0.5).

The calculator already applies is_sheltered (_alt_wall_w_per_k) and the
gov-API path already wires sheltered_wall=="Y"; this brings the Elmhurst
front-end to parity. Three-part change: AlternativeWall.sheltered field +
_alternative_walls_from_lines parse ("Alternative Wall N Sheltered Wall") +
_map_elmhurst_alternative_wall is_sheltered=a.sheltered.

Surfaced by simulated case 34 (cert 001431 electric-storage flat): the
6.02 m² corridor wall billed at full U=1.50 (9.03 W/K) instead of the
sheltered 0.86 (5.18 W/K) — +3.85 W/K, -1.61 SAP. Post-fix the alt wall
matches the worksheet's (29a) 5.177 and case 34 closes from -1.61 to -0.30
(remaining residual is a separate window/wall area-allocation thread).

Elmhurst-mapper only: API SAP gauge unchanged (57.6% within 0.5); worksheet
harness 47/47 unaffected; regression gate green (3 pre-existing fails
unrelated); pyright net-zero.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-11 07:35:46 +00:00
Khalim Conn-Kowlessar
f3dcd7b43e fix(elmhurst-mapper): single-storey flat with exposed roof is Top-floor, not Ground-floor
The Elmhurst dwelling-type classifier keyed "Top-floor flat" on a "dwelling
below" floor lodgement. A single-storey flat exposed BOTH top (a real
external roof) AND bottom (floor over partially-heated space, no dwelling
below) therefore fell through to "Ground-floor flat" — which the cascade's
_dwelling_exposure maps to has_exposed_roof=False, dropping the external
roof entirely.

Surfaced by simulated case 34 (cert 001431 reconfigured as a slimline
electric-storage flat): the worksheet bills (30) External roof = 39.98 m²
x U=2.30 = 91.95 W/K — the dominant heat-loss element — but the cascade
dropped it, under-stating space-heating demand by 42% (6550 vs 11357
kWh/yr) and over-predicting SAP by +21.76 (57.07 vs worksheet 35.31).

Fix: an exposed (non-party) roof puts the flat on the top storey
regardless of what is below it. Classify as "Top-floor flat" whenever the
roof is exposed; the flat's exposed floor is recovered downstream by the
existing per-BP is_above_partially_heated_space / is_exposed_floor override
in heat_transmission (§3). Party-roof flats ("another dwelling above") are
unaffected and stay Ground-/Mid-floor.

This is an Elmhurst-mapper (dwelling_type) bug, NOT a calculator bug: the
calculator correctly trusts dwelling_type, and the gov-API path supplies
the position directly (cert 0036 — a genuine ground-floor flat whose API
data lodges a "Pitched, no access" roof construction under another dwelling
— stays party, 2.51 W/K). API SAP gauge unchanged (57.6% within 0.5);
worksheet harness 47/47 unaffected; case 34 roof now exact (residual -1.61
is a separate flat-corridor wall-U thread). Regression gate green (3
pre-existing fails unrelated).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-11 07:23:56 +00:00
Khalim Conn-Kowlessar
b0a47cda05 fix(elmhurst-mapper): strip interleaved Alternative-wall fragments from glazing label
When a property lodges an Alternative Wall, pdftotext interleaves the §11
"Location" column ("Alternative wall 1") into the wrapped glazing-TYPE cell,
producing labels like "Double between 2002 Alternative wall and 2021 1
Alternative wall" (cert 001431 storage-heater variants, simulated case 34).

The existing greedy trailing-suffix strip (\s+Alternative wall.*$) truncates
at the FIRST "Alternative wall", losing "and 2021" and yielding the
unmatchable "Double between 2002". Added a fallback that removes EVERY
"<External|Alternative|Party> wall [n]" fragment and any stray 1-2 digit
location index from the raw label, then retries the lookup. Loss-free: no
glazing-type key contains a wall-location phrase or a bare 1-2 digit number
(install-date years are 4 digits).

Unblocks the Summary cascade for any property with an Alternative Wall;
Summary-path only (the API path receives structured glazing codes, so the
API gauge is unaffected). Regression gate green (1 pre-existing fail
unrelated).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-11 07:07:08 +00:00
Khalim Conn-Kowlessar
85d6f8468c feat(elmhurst-extractor): capture section 15.1 Immersion Heater (Dual/Single)
The Elmhurst Summary section 15.1 "Hot Water Cylinder" block lodges
"Immersion Heater: Dual" / "Single"; the extractor dropped it, so the
Summary path left immersion_heating_type = None while the API path already
captured it. Capturing it drives SAP Table 13's high-rate-fraction
DHW-cost split (RdSAP 10 section 10.5 p.54: 1 = dual, 2 = single) and
brings the two front-ends to parity.

Three-file change: WaterHeating.immersion_type field +
_extract_water_heating parse (scoped to the 15.1..15.2 slice) +
_elmhurst_immersion_type_code mapper (strict-raise on an unmapped label,
mirroring _elmhurst_cylinder_insulation_code).

Safe to land now that the preceding commit zeroes the high-rate fraction
for 18-/24-hour tariffs: the 20 solid-fuel corpus certs (solid fuel 4-11:
WHC 903 dual immersion, 18-hour meter, 110 L) carry a dual immersion, but
their 18-hour tariff bills 100% low-rate per Table 12a's 7-/10-hour scope
— so they stay EXACT instead of regressing to the 10-hour-column ~0.10.
7-/10-hour Summary immersion certs now correctly cost the Table 13
high-rate fraction instead of falling to the immersion=None 100%-low
default.

Regression gate green (3 pre-existing fails unrelated); API gauge
unchanged (Summary-path-only): 57.6% within 0.5, mean|err| 1.185.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-10 22:16:21 +00:00
Khalim Conn-Kowlessar
020ac6f220 fix(elmhurst-mapper): strip wrapped building-part fragment from glazing label
pdftotext can wrap the §11 building-part column onto the glazing-TYPE
token without an intervening glazing-gap descriptor, e.g. "Double between
2002 and 2021 1st" (the "1st" marks the 1st Extension). The existing
trailing-gap fallback only strips the fragment when preceded by "N mm";
the bare ordinal raised UnmappedElmhurstLabel.

New `_ELMHURST_GLAZING_LABEL_TRAILING_BP_RE` strips a trailing ordinal
("1st"/"2nd"/…) or "Main" and retries the lookup. No glazing-type key
ends in an ordinal or "Main", so it is loss-free. Surfaced by worksheet
`simulated case 33` (direct-acting electric boiler + immersion), which
previously could not be routed through the Summary cascade.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-10 21:25:42 +00:00
Jun-te Kim
c0b8a7d9f8 Use lodged window area for the 7 rich 20.0.0 certs' geometry 🟩
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-10 15:30:17 +00:00
Jun-te Kim
12ff15e55b Parse 20.0.0 conservatory building parts so all 1000 certs map 🟩
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-10 15:21:00 +00:00
Jun-te Kim
eb5bb89612 Map 20.0.0 lighting, ventilation and hot-water demand fields 🟩
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-10 14:46:54 +00:00
Jun-te Kim
3352f11be3 Synthesise 20.0.0 window geometry from glazed-area band and floor area 🟩
ADR-0027 Reduced-Field Synthesis: certs with no per-window array now get total
glazing = 0.148 x TFA x band-multiplier (median + quartile multipliers fit from
the 1000 real 21.0.1 certs), split 4-way across N/E/S/W with width=area/4,
height=1.0; glazing_type routed through the verified 21.0.1 cascade. Also guard
optional PhotovoltaicSupply.none_or_no_details (a parse straggler). Corpus maps
983/1000, up from 974.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-10 14:29:13 +00:00
Jun-te Kim
8074f4152c Map RdSAP 20.0.0 certs that omit reduced fields or lodge localised text 🟩
Required->optional defaults (kw_only + data-driven from corpus presence) so
993/1000 certs that omit sap_windows parse, and honest Union[str, DescriptionV1]
typing for description/dwelling_type which the corpus lodges as localised dicts
in ~half the certs. The never-run 20.0.0 mapper path now produces EpcPropertyData;
974/1000 corpus certs map (xpass), up from 7.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-10 14:14:18 +00:00
Khalim Conn-Kowlessar
90de1fc976 fix(elmhurst-mapper): map "Bottled gas" main fuel to bottled LPG, not mains gas
An LPG-boiler dwelling on the Summary → from_elmhurst_site_notes path
mapped to main_fuel_type=26 (mains gas), making it indistinguishable
from a mains-gas boiler downstream — wrong Table 12/32 cost / CO2 / PE
(bottled LPG is ~10.30 p/kWh vs mains gas 3.48), and it defeats any
"non-gas → gas only with a mains-gas connection" gate (an LPG dwelling
looks already-gas).

Root cause: the recommendation worksheets lodge the boiler carrier as
§15.0 "Water Heating Fuel Type: Bottled gas" (§14.0 carries only SAP
code 115, a Table 4b gas-family row, + "Main gas: Yes" in §14.2 — a
mains-gas CONNECTION, not the heating fuel). "Bottled gas" was absent
from `_ELMHURST_MAIN_FUEL_TO_SAP10`, so the §15.0 fuel resolved to None
and `_elmhurst_gas_boiler_main_fuel` fell through priority-1 to the
mains-gas meter flag → 26.

Map "Bottled gas" → 3 (bottled LPG MAIN heating): code 3 routes via
`API_FUEL_TO_TABLE_32`/`API_FUEL_TO_TABLE_12` → Table-code 3 (10.30 /
9.46 p/kWh). NOT the legacy "LPG bottled": 5 entry — API code 5 =
anthracite, and `canonical_fuel_code` resolves the same-valued Table-32
code 5 to anthracite (3.64 p/kWh), so a 5 here mis-prices the dwelling
as cheap solid fuel (verified: a 5 mapping moved SAP the WRONG way,
42.33 → 45.11; code 3 moves it to -6.40 vs the worksheet's -6.6499).
Also add 3 to `_GAS_LPG_MAIN_FUEL_CODES` so the §15.0-lodged bottled-LPG
water fuel is adopted as the boiler's space-heating carrier (priority 1)
instead of the meter flag.

Effect: main_fuel_type=3 (bottled LPG) and water_heating_fuel=3 (was
None). Mains-gas certs still → 26 (full regression suite green bar the 3
pre-existing unrelated fails); the MissingMainFuelType tripwire still
fires for genuinely-undeterminable carriers.

Spec: SAP 10.2 Table 12 / RdSAP 10 Table 32 (PDF p.95) — bottled LPG
main heating fuel code 3.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-10 08:48:15 +00:00
Khalim Conn-Kowlessar
b473f6a1ec fix(elmhurst-mapper): classify top-floor flat from roof type, not room-in-roof
`_elmhurst_dwelling_type` derived a flat's roof exposure from
`room_in_roof is not None`, so a top-floor flat whose roof is a plain
external "PS Pitched, sloping ceiling" (no room-in-roof) fell through to
"Mid-floor flat". The cascade's `_dwelling_exposure` then treats a
mid-floor flat's roof as a party ceiling (RdSAP 10 §5 / §3 — party
surfaces carry no heat loss) and drops the entire roof term: cert
001431's 105 m² roof at U=2.3 = 241.68 W/K (30) vanished, collapsing
(33) fabric heat loss 320.06 → 78.38 and over-rating SAP by ~5 points
(on top of the age-band roof-U bug — see prior commit).

Read the roof TYPE instead — the dual of the floor's "Another dwelling
below" signal. A flat's roof is a party ceiling only when its Elmhurst
code is S / A / NR (Same/Another dwelling or Non-residential space
above); F / PN / PA / PS are exposed external roofs, so the dwelling is
on the top storey. `has_exposed_roof = room_in_roof present OR
_elmhurst_roof_is_exposed(roof)` — which is exactly what the function's
own docstring already described as the intent ("RR present or external
roof"), now implemented.

With both upstream fixes the full chain (Summary PDF → extractor →
mapper → cert_to_inputs → calculator) reproduces the worksheet's §11a
unrounded SAP 56.3649 at abs < 1e-4, with (30)/(33)/(37) matching to
the decimal. Only flat fixture reclassified; 000784 (top-floor, RR) and
000910 (ground-floor) unchanged. Regression suite green bar the 3
pre-existing unrelated fails.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-10 08:18:51 +00:00