mirror of
https://github.com/Hestia-Homes/Model.git
synced 2026-07-12 13:29:04 +00:00
41 commits
| Author | SHA1 | Message | Date | |
|---|---|---|---|---|
|
|
775232b4e7 |
test(pv): credit PV only when connected to dwelling meter (pv_connection) 🟥
RdSAP 10 §11.1 / SAP 10.2 Appendix M: PV is included in a dwelling's assessment only if connected to the dwelling's own electricity meter. The gov-API pv_connection enum encodes this — 0=no PV, 1=present-but-not- connected, 2=connected. Corpus-validated (57 PV certs: pv_connection=1 MAE 4.48->1.22 without credit, 0/5 need it; pv_connection=2 needs it, MAE 0.98 vs 10.29) and Elmhurst-proven (connected SAP 87 vs not-connected 74). cert_to_inputs currently credits a pv_connection=1 array; the test pins that it must contribute zero generation. Adds pv_connection to make_minimal_sap10_epc. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
||
|
|
0f79de7a35 |
fix(exposure): honour determined roof_insulation_location for flats 🟩
A gov-API flat can lodge dwelling_type="Mid-floor flat" while carrying its own exposed roof — a top-floor flat mislabelled mid-floor. _dwelling_exposure keyed roof exposure on the dwelling_type label alone, dropping the roof heat-loss term: space-heating demand under-read ~32%, SAP over-read +7. Fix: when the main building part lodges a *determined* roof_insulation_location (an RdSAP integer code, not the "ND" Not-Defined party-ceiling sentinel), expose the roof regardless of a contradictory label. Structured field, not a description string and not roof_construction (which the gov-API lodges building-wide on every unit, so it is not a per-unit signal). On the RdSAP-21.0.1 corpus roof_insulation_location separates the classes with zero disagreement: all 190 party-ceiling flats lodge "ND"; the 4 mid/ground flats this exposes all move toward lodged, 0 away. within-0.5 73.3% -> 73.6%, MAE 0.774 -> 0.761 (ratchets tightened). Verified end-to-end on the same block: 715363 (location 6, RHI 2694) 81 -> 74 = lodged; genuine mid-floor sibling 715395 (location ND, RHI 1024) stays party at 83 = lodged. The override is additive (only ever exposes a label-dropped roof) and reads the main part, so multi-part flats with a party main ceiling stay party. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
||
|
|
d7a60efcdf |
fix(uvalues): thread glazing gap into pre-2002 window U fallback (RdSAP 10 Table 24, PDF p.50)
`u_window` hard-coded the 12 mm gap row for pre-2002 double/triple glazing (double 2.8, triple 2.1), ignoring the lodged glazing gap. Table 24 splits the pre-2002 rows by gap: double 6mm=3.1 / 12mm=2.8 / 16mm+=2.7; triple 6mm=2.4 / 12mm=2.1 / 16mm+=2.0 (PVC/wooden), with a metal-frame column (+0.5/+0.5/+0.5 ish). Added a `glazing_gap` parameter + `_glazing_gap_row` helper and wired `w.glazing_gap` through the synthesised-window caller in heat_transmission. Corpus impact nil by design: the gov-API mapper already resolves per-window U gap-aware via `_API_GLAZING_TYPE_GAP_TO_TRANSMISSION` (e.g. code 3 + gap "16+" → 2.7), so corpus certs use that lodged per-window U, not this fallback. This aligns the reduced-field / worksheet fallback path with the mapper and Table 24. Unknown gap still defaults to the 12 mm row. (Metal frames are not distinguishable on the gov-API path — only a `pvc_frame` boolean exists and Table 24 groups PVC+wooden — so the PVC/wooden U stands there; the metal column applies only where frame material is lodged.) Spec-pinned: pre-2002 double + triple gap-row tests. pyright not installed. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
||
|
|
600684f5df |
fix(uvalues): apply metal-frame U 1.6 for 2022-or-later windows (RdSAP 10 Table 24, PDF p.51)
Table 24 "Double or triple glazed, 2022 or later" row gives U = 1.4 for PVC/wooden frames and 1.6 for metal frames. `u_window` returned 1.4 for both, ignoring the metal-frame variant and under-counting metal-frame heat loss on post-2022 windows. The 2002-2021 and pre-2002 rows already split PVC/metal correctly; this aligns the 2022+ row. Spec-pinned in test_u_window_post_2022_metal_returns_table24_1_6_not_pvc_1_4. pyright not installed in this container. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
||
|
|
b22b27c0ff |
fix(uvalues): correct rafter-roof age-M default U 0.18->0.15 (RdSAP 10 Table 18 col 2, PDF p.46)
A full row-by-row audit of the roof U-value tables (16, 17, 18) and floor tables (19, 20) against the PDF found one numeric error: Table 18 column (2) "Pitched, insulation at rafters" band M is 0.15 W/m²K (footnote (1) only — no country variation; the whole M row converges to 0.15), but _ROOF_RAFTERS_BY_AGE carried 0.18. The rafters column diverges above the joist column at H-L (0.35/0.35/0.20/0.20/0.18) and rejoins it at M=0.15. Everything else in the roof/floor tables is exact: Table 16 joist + rafter thickness ladders, Table 17 room-in-roof (all 6 columns), Table 18 cols (1) joists / (3) flat / (4) room-in-roof, Table 19 (England & Wales) floor insulation defaults, and Table 20 (England) exposed-floor U-values. Known remaining gaps (NOT fixed — zero England-corpus reach, would need a new roof country-override mechanism): Scotland Table 18 footnote (2) K=0.20 (flat/ RR/thatch) and (3) joists-L=0.15; Scotland/NI Table 19 thicknesses; Scotland/ Wales Table 20 L/M overrides. Logged for a future country pass. Corpus unchanged (band-M rafter roofs essentially absent from the 1000-cert England corpus). pyright not installed in this container. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
||
|
|
381ecfda4c |
fix(uvalues): add missing Scotland band-J 0.30 wall override for all 7 as-built types (RdSAP 10 Table 7, PDF p.35)
A full code-vs-spec sweep of unknown-thickness as-built U-values across all seven wall types found exactly one divergence: Scotland age band J. Table 7 (Scotland) gives 0.30 for every uninsulated wall type, but the England base (Table 6) is 0.35 and the _COUNTRY_KLM_OVERRIDES[SCT] dicts listed H/K/L/M while omitting J — so a Scotland band-J wall wrongly returned England's 0.35. Added 'J': 0.30 to all 7 SCT as-built entries (granite, sandstone, solid brick, cavity, timber frame, system built, cob). The audit's companion finding — Scotland sandstone age E = 1.5 — needs NO table override: the §5.6 stone branch intercepts all sandstone bands A-E and already caps age E at 1.5 for Scotland (e_default in the prior commit), so a table-E override would be dead code. England base tables and Isle of Man (= England) are confirmed correct by the same sweep. Corpus unchanged (England-only corpus has no Scotland band-J certs). pyright not installed in this container — strict type gate not run locally. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
||
|
|
54ae05d04b |
fix(uvalues): default unknown-thickness stone to §3.5 Table 3 thickness, not flat 1.7 (RdSAP 10 Table 3, PDF p.20)
When a stone wall lodges no documentary thickness, RdSAP 10 §3.5 Table 3 supplies the default thickness to feed the §5.6 formula — it does NOT fall to a flat 1.7. Table 3 stone row: A-D = 500 mm, E = 450, F-H = 420; Scotland footnote (*) adds 200 mm for bands A,B and 100 mm otherwise. This matches accredited Elmhurst: an England age-B granite/whinstone wall, as built, unknown thickness defaults to 500 mm → U = 45.315 × 500^(-0.513) = 1.87 (sandstone → 1.68). The previous flat-1.7 fallback was a setup error — Table 6 reads "According to 5.6" for bands A-D with no 1.7 entry, so the formula (not 1.7) is the spec target. The age-E footnote-(a) cap still applies on top. Adds `_table_3_stone_thickness(band, country)`. Updated the stale `..._returns_table_6_age_a_default` pin (was 1.7 → now 1.87 via Table-3) and added sandstone (1.68) + Scotland-+200mm (700 mm → 1.39) pins. Corpus: within-0.5 71.6% unchanged, SAP MAE 0.821 → 0.819, PE MAE 3.7 → 3.6. pyright not installed in this container — strict type gate not run locally. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
||
|
|
7e187078b9 |
fix(uvalues): cap as-built stone U at age E only, not A-E; drop insulation-state gate (RdSAP 10 Tables 6-7 footnote a, PDF p.33-35)
Commit
|
||
|
|
034d4b7cd5 |
fix(uvalues): bill known-insulation stone walls by the §5.6 thickness formula, uncapped (RdSAP 10 §5.6)
An uninsulated stone wall of lodged thickness, age bands A-E, is billed by the RdSAP 10 §5.6 Table-12 formula on its measured thickness — sandstone / limestone U = 54.876·W^-0.561, granite / whinstone U = 45.315·W^-0.513. Two bugs suppressed it: 1. CAP: the as-built branch capped the formula result at the Table-6 typical-thickness default (`if u0 >= 1.7: return 1.7`). But the formula only dips below 1.7 past ~488 mm (sandstone) / ~640 mm (granite), so the cap nullified §5.6 for essentially every real-thickness stone wall, under-counting fabric loss and over-rating. A measured 400 mm sandstone age-B wall is 1.90 (Elmhurst-confirmed), not 1.70. 2. NO INSULATION-STATE GATE: the branch fired for any stone wall with a lodged thickness, including ones whose insulation is "Unknown". RdSAP treats an unknown-insulation wall via the Table-6 typical-thickness default, NOT as bare stone of the lodged thickness — so a 50 mm granite wall with Unknown insulation must read 1.70 (worksheet), not the formula's 6.09. Gated on `wall_insulation_type is not None`. Fixes the 2 long-standing stone-U unit tests (granite 120 mm → 3.8871, sandstone 120 mm → 3.7408 — they were correct red tests, not "known fails"). Corpus within-0.5 70.3% -> 71.6% (MAE 0.833 -> 0.822); ratcheted floors to 0.71 / 0.83. Worksheet fixture 000565 (granite 50 mm Unknown → 1.70) still passes via the insulation gate. The two stone groups (sandstone/limestone vs granite/whinstone) keep their distinct §5.6 coefficients. pyright not installed in this codespace (strict gate not run locally). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
||
|
|
c5aa5620ca |
fix(uvalues): apply §5.8 insulation R to stone walls (RdSAP 10 p.41-42)
The §5.8 Table-14 added-insulation R-value adjustment was gated to
WALL_SOLID_BRICK, so a stone (granite/sandstone) wall lodging
wall_insulation_type 1/3 ("External"/"Internal") + a thickness fell
through the §5.6 thin-wall branch and was billed at its UNINSULATED U
(e.g. sandstone 520 mm + 100 mm internal: 1.64 instead of 0.30 → ~5×
the wall heat loss). Mirror the brick insulation branch into the stone
block, feeding the RAW §5.6 U₀ into the §5.8 chain per the same rule the
brick branch and the dry-lined granite pin 000565 already follow (the
Table-6 footnote (a) 1.7 cap does not apply on the insulated path).
Corpus cert 100052159386 (sandstone 520 mm + 100 mm internal): -26.20 ->
-4.08 SAP, walls 300 -> 55 W/K. RdSAP-21.0.1 corpus within-0.5 68.6% ->
68.8% (SAP MAE 0.942 -> 0.888; PE MAE 14.3 -> 13.9; CO2 0.27 -> 0.26);
floors/ceilings ratcheted. Unit-pinned in test_rdsap_uvalues.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
|
||
|
|
5d556faf86 |
fix(roof): bill at-rafters insulation on RdSAP 10 Table 16/18 column (2)
`u_roof` only implemented the joist column, so roofs lodged insulated at rafters (`roof_insulation_location == 1`) were mis-billed at the joist U on both the API and Summary paths — under-stating loss, over-rating SAP. RdSAP 10 §5.11.2 Table 16 (spec p.42-43) gives a distinct "insulation at rafters" column (2): the rafter cavity is shallower than a loft void, so the same depth yields a higher U (200 mm: rafters 0.29 vs joists 0.21). §5.11 Table 18 (p.45) likewise carries a rafters column (2) for unknown / as-built thickness (footnote (1): "The value from the table applies for unknown and as built") — band A-D = 2.30, E = 1.50, F = 0.68, diverging from the joist column's 100 mm-equivalent 0.40 default (footnote (4)). - add `_ROOF_RAFTERS_BY_THICKNESS` (Table 16 col 2) + `_ROOF_RAFTERS_BY_AGE` (Table 18 col 2) to rdsap_uvalues; `u_roof` selects them via a new `insulation_at_rafters` flag (ignored for flat / sloping-ceiling roofs). - `heat_transmission` derives the flag PER BUILDING PART from `roof_insulation_location` (gov-API int 1 / Summary "R Rafters"), which also fixes the multi-part dedup-roof-join problem: each part's own location now drives its U, replacing the unattributable joined `epc.roofs[]` description. Worksheet-validated to 1e-4: simulated case 41 (4-bp — Ext1 rafters 200mm → 0.29, Ext3 rafters As-Built band F → 0.68; roof total 24.8350) and case 42 (6 variants — rafters 50mm → 0.88, rafters unknown band C → 2.30, joists/none unchanged). Case 40 stays exact (roof 35.340, total 441.1606); worksheet harness 47/47. Corpus within-0.5 66.9% → 66.5% (gates 0.65/1.08 hold) — a spec-correct shift, NOT a regression: all 15 corpus rafter certs carry redacted (None) thickness yet lodge roof EER 2-4 (insulated), so the open API blanked a specified thickness and the spec's unknown-rafter 2.30 default correctly over-states them. Recovery needs a roof-EER→thickness inference on the API path (follow-up), not a change to the U-table. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
||
|
|
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 |
||
|
|
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>
|
||
|
|
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> |
||
|
|
e89b4041c7 |
test(efficiency): lock solid-fuel room-heater space eff to Table 4a column (B)
An API audit flagged the solid-fuel room-heater space efficiencies (_SPACE_EFF_BY_CODE 631-636) as reading the "Water" column of SAP 10.2 Table 4a. That was a misread: the two room-heater columns are (A) minimum-for-HETAS-approved and (B) other appliances — BOTH are space efficiency, not space/water. RdSAP defaults to column (B) when HETAS approval is not lodged, which is what these values already hold and what the reference software produces (Elmhurst worksheet "solid fuel 9", SAP code 636 → (206) space efficiency = 70 = column B; flipping to column A 75 broke that pin and three sibling solid-fuel corpus pins). No value change — add a pin test + spec-cited comment so the column-(A)/ (B) distinction is explicit and this misread can't recur. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
||
|
|
3b7d26fe34 | added test for a 1000 examples | ||
|
|
a7990edb8c |
robustness: strict-raise on unmapped glazing + heating/HW efficiency codes
Forcing-function guards so a lodged-but-unmapped code surfaces loudly instead of silently taking a wrong-but-plausible default (the class that hid single glazing as U=2.5 until this session). Four silent fallbacks converted to raise on PRESENT-but-unmapped codes, while keeping the legitimate ABSENT (None) defaults: - _api_glazing_transmission: unmapped glazing_type -> UnmappedApiCode (was None -> u_window all-None default 2.5). - _api_cascade_glazing_type: unmapped glazing_type -> UnmappedApiCode (was pass-through -> wrong g-value slot). - seasonal_efficiency: a lodged code/category resolving in neither _SPACE_EFF_BY_CODE nor the category/room-heater fallbacks -> UnmappedSapCode (was blind 0.80 gas-boiler default, which 'catastrophically misrates heat pumps and storage' per the table comment). Data-free calls keep 0.80. - water_heating_efficiency: WHC in no SAP 10.2 Table 4a HW row -> UnmappedSapCode (was blind 0.78). Absent code keeps 0.78. Zero current-corpus impact (909 computed / 0 raises, 56.66% within-0.5 unchanged) — the code/efficiency tables are complete for today's data, so these are guards for the ongoing audit + future data refreshes. Verified the WHC table already covers 908 (multi-point gas) and 950 (HW heat network), so those are NOT unmapped-code bugs. 8 AAA tests, goldens + gate green, pyright net-zero. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
||
|
|
58cff932e6 |
fix(roof-U): flat roof, undetermined thickness, "no/limited insulation" → Table 18 age default
A flat roof lodged "Flat, no insulation" / "Flat, limited insulation" with
an undetermined insulation thickness ('ND'/'AB' → parsed None) was given the
Table 16 row-0/12mm U (2.30 / 1.50) from the description marker, regardless
of age band. Per RdSAP 10 §5.11.4 (PDF p.44) "U-values in Table 18 are used
when thickness of insulation cannot be determined" — the column (3)
flat-roof age-band default applies. The "no/limited insulation" text is
RdSAP's as-built rendering: at old bands (A-D) the column (3) default IS
2.30 (so those certs are unchanged), but a newer-band flat roof carries the
age-band insulation as built (band H = 0.35, F = 0.68, not 2.30).
Confirmed by the description-vs-rating audit: cert 0390-2753 (top-floor
flat, band H, "Flat, no insulation", thickness 'ND') lodges roof
energy_efficiency_rating = 3 (moderate U), NOT the rating-1 that 2.30
implies — and drove a -31.78 SAP error (roof 202 W/K over 88 m²). Same
masked-at-old-bands structure as the cavity-U fix: accurate at A-D where the
default coincides with 2.30, catastrophic only where it diverges.
Pitched roofs are deliberately NOT rerouted (their "no insulation" text is
load-bearing — the broad 'ND'→Table-18 reroute was empirically net-negative
for pitched lofts).
API SAP eval: 52.1% -> 53.1% within 0.5; <1.0 67.2% -> 68.0%; median |err|
0.475 -> 0.467; mean|err| 1.497 -> 1.424; flat-roof bucket within-0.5
23% -> 35% (11 improved, 2 regressed).
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
|
||
|
|
2e466ed1e6 |
fix(wall-U): as-built "insulated (assumed)" cavity uses Cavity-as-built row, not Filled cavity
An as-built cavity wall (wall_insulation_type=4) lodged "Cavity wall, as
built, insulated (assumed)" was routed to RdSAP 10 Table 6's "Filled
cavity" row. Per Table 6 (England, PDF p.41) the Filled-cavity row carries
the "†" footnote ("assumed as built") only at age bands I-M, where it is
numerically identical to "Cavity as built"; at bands A-H the Filled-cavity
row represents a GENUINE fill, not the as-built assumption. So an as-built
cavity must use the "Cavity as built" row at all bands (band G/H = 0.60,
not the filled 0.35).
This is the same latent A-H bug slice S0380.210 fixed for the "partial
insulation (assumed)" variant but left in place for "insulated (assumed)"
by a legacy production convention. The API SAP-accuracy cohort over-rated
"Cavity wall, as built, insulated (assumed)" certs at bands G/H by a clean
+1.38 / +1.61 SAP median (n=37 / n=18); bands I-M were unaffected (rows
coincide), confirming the spec mechanism per-band.
Retires the `_cavity_described_as_filled` description sniffer — as-built
cavities now always use the as-built row regardless of the rendered
insulation adjective; a genuine retrofit fill is still caught by the
explicit wall_insulation_type=2 branch.
API SAP eval: 48.6% -> 52.1% within 0.5; <1.0 63.8% -> 67.2%; median |err|
0.548 -> 0.475; mean|err| 1.561 -> 1.497; 909 computed, 0 raises.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
|
||
|
|
f40485887d |
fix(u-value): RdSAP10 ignores gov-API wall insulation conductivity → §5.8 default λ
The gov EPC API field wall_insulation_thermal_conductivity is OUTPUT metadata in the openly-published EPC, not an input to the RdSAP10 tool (Elmhurst) that produced it — its wall entry is Type + Insulation + thickness only, with no conductivity field. So the RdSAP10 reduced-data method always uses the SAP 10.2 §5.8 (p.41) default λ=0.04 W/m·K, whatever code the register lodged. `_resolve_wall_insulation_lambda_w_per_mk` previously mapped only code 1 (→0.04) and RAISED on others, blocking cert 2090-6909-8060-5201-6401 (code 3 on an internally-insulated 360mm solid-brick wall) with calc_raise:ValueError. Now it returns the §5.8 default for any code. Validated: 2090 computes to SAP 73.97 vs lodged 74 (err -0.03); λ of 0.04 / 0.03 / 0.025 all round to 74, and Elmhurst exposes no conductivity input, so 0.04 is the spec-faithful RdSAP10 value. Eval computed 905→906; mean|err| 1.708→1.706. Regression green (only the 2 pre-existing stone-wall U failures); pyright net-zero (69=69). Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
||
|
|
a64e857b94 |
fix(u-value): "Unknown" roof insulation → Table 18 default, not 2.30
A roof lodged "Unknown loft insulation" carries roof_insulation_thickness "NI" (Not Indicated → parsed to 0) or "ND" (None): the thickness is UNDETERMINED, not zero. RdSAP 10 §5.11.4 (p.44) is deterministic here — "U-values in Table 18 are used when thickness of insulation cannot be determined" — so the roof takes the Table 18 age-band default (column (1) pitched / column (3) flat), NOT the uninsulated 2.30 the Table 16 row-0 lookup returns for a parsed-0 thickness. The "Unknown" text is RdSAP's rendering of the undetermined-thickness observation, distinct from a genuine "no insulation" lodgement (which keeps 2.30). u_roof gains an "unknown"-description branch ahead of the parsed-0 → 2.30 path, gated on undetermined thickness (None or 0). Top-floor flats with "Pitched/Flat, Unknown ... insulation" were the worst electric-flat under-raters: roof U=2.30 gave HLP ~3.7 on dwellings rated SAP 69-70. Cluster (14 certs, roof desc contains "unknown", no "no insulation"): mean |err| 7.79 → 1.82, within-0.5 1→4, within-1.0 1→6. Cert 9836 roof_w_per_k 58.2→10.1, SAP -27.8 → -3.5. Eval headline 44.4% → 44.8%, mean |err| 1.944 → 1.851. Two certs overshoot (other residuals the wrong roof-U was masking); the spec value is applied uniformly regardless. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
||
|
|
3aed8f858a |
fix(cascade): suppress floor heat loss for "another dwelling below" (code 6)
A floor lodged API floor_heat_loss=6 ("another dwelling below") sits over
another heated dwelling, so it is a party floor with no heat loss (RdSAP
10 §3). The mapper mapped code 6 → None and the heat-transmission step
drove floor exposure solely from the dwelling-level `has_exposed_floor`
flag — which is keyed only on the dwelling_type label and defaults a
"Ground-floor flat" to an exposed floor. So a ground-floor flat above a
basement dwelling kept its full ground-floor heat-loss area.
Map code 6 → "(another dwelling below)" (still != "Ground floor", so the
§5 (12) suspended-timber rule stays inert) and have the cascade suppress
that BP's floor when its floor_type carries the signal, mirroring the
roof's existing "another dwelling above" per-BP party override.
Cert 2115-4121-4711-9361-3686 (ground-floor flat, floor_heat_loss=6):
floor_w_per_k 47.85 → 0; SAP -23.44 → -4.41. Cert 0350-…-6435 -12.38 →
-0.55; 0926-…-9024 -2.35 → -0.82. Eval mean |err| 1.982 → 1.944.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
|
||
|
|
27375d93a4 |
fix(u-value): solid brick as-built U by thickness — §5.7 Table 13
A 440 mm (>420 mm) solid brick AS-BUILT wall computed U = 1.70 (the 220 mm bucket default) instead of the RdSAP-correct 1.10. The §5.7 Table 13 thickness path only fired for *insulated* brick (external/ internal + thickness > 0); the as-built case fell through to the Table 6 cavity/solid age-band default. Spec: RdSAP 10 Specification (9th June 2025), §5.7 "U-values for uninsulated brick walls, age bands A to E", Table 13 (PDF p.40): ≤200 mm → 2.5, 200–280 mm → 1.7, 280–420 mm → 1.4, >420 mm → 1.1. Table 6 footnote (b) on the "Solid brick as built" row (PDF p.40): "Or from 5.7 if wall thickness is other than 200mm to 280mm" — the thickness table supersedes the flat 1.7 default whenever a documentary wall thickness is lodged (200–280 mm gives 1.7 either way). The §5.8 / Table 14 dry-lining R is added on top only when the wall is dry-lined, per the §5.7 closing sentence. Validated against the user-generated Elmhurst worksheet "simulated case 21" (replica of API cert 2818-3053-3203-2655-9204: mid-terrace, age band B, solid brick as-built 440 mm, room-in-roof). New §3 cascade pin `test_section_3_wall_u_by_thickness_case21_match_pdf` routes the Summary through the real extractor + mapper and pins: (31) 155.1000, (33) 175.6208, (36) 23.2650, (37) 198.8858 — all 1e-4. External walls Main U → 1.1000; Sheltered RR gable → 1/(1/1.10+0.5) = 0.71 (was 0.92). Pinned on §3 only (case-6 precedent): its code-908 instantaneous multi-point gas water heater has a separate §4 (219) gap. Cross-check: sim case 20 (220 mm) stays at 1.70 — unchanged. API SAP accuracy (scripts/eval_api_sap_accuracy.py, 896 computed certs): % |err| < 0.5 SAP vs lodged: 42.6% → 43.8%; mean |err| 2.045 → 2.010. Regression: tests/domain/sap10_calculator/ (1861), backend/ documents_parser/tests/ (574), datatypes/epc/ + rdsap golden fixtures all green (pre-existing test_total_floor_area excepted). pyright strict net-zero. No solid-brick fixture pin shifted (200–280 mm unchanged). Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
||
|
|
f895dd3ab7 |
S0380.217: capture wall_insulation_thermal_conductivity (was dropped)
Second silently-dropped field from the 2130 audit: the schema-21 SapBuildingPart never declared `wall_insulation_thermal_conductivity`, so `from_dict` discarded it. Captured it through schema 21.0.0/21.0.1 → domain SapBuildingPart → API mapper, and wired it into u_wall's RdSAP 10 §5.8 documentary-evidence R-value calc (both the solid-brick §5.7/§5.8 path and the cavity-composite path), replacing the bare 0.04 λ constant with a resolved λ. Resolver: absent / "Unknown" → the §5.8 default 0.04 W/m·K (mineral wool / EPS); a mapped code → its λ; an unmapped integer code RAISES so the enum is confirmed against a worksheet rather than silently mis-factored (same incremental-coverage discipline as the glazing-type map). Only code 1 (= the default 0.04) is mapped — the sole observed value (cert 2130 Ext1). Zero cascade effect today: the λ path fires only for solid-brick/cavity walls with a *measured* wall thickness, and 2130 Ext1 lodges no wall thickness, so its conductivity is captured-but-unused; all existing §5.8 certs lodge no conductivity → 0.04 default unchanged. The point is to stop dropping lodged data and make λ correct when a future cert exercises it. Suite: 2523 passed (1 pre-existing TFA fail); sap10_ml 237 passed (2 pre-existing stone-formula fails). Zero new pyright errors (46=46). Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
||
|
|
ac7f510ccb |
S0380.214: as-built sloping-ceiling roof → Table 18 col (3)
A "Pitched, sloping ceiling" roof (roof_construction code 8) lodged with
"As Built" insulation (no measured thickness → None) was wrongly routed to
RdSAP 10 Table 18 column (1) "insulation between joists or unknown". A
sloping ceiling has no joist void, so per RdSAP 10 §5.11 roof-input item
5-5 ("Sloping ceiling insulation … unknown / as built → Table 18") and
Table 18 note (b) ("Applies also to roof with sloping ceiling") it takes
column (3) — band F = 0.68, band L = 0.18 (vs col 1 0.40 / 0.16).
Discriminator is the code-8 "sloping ceiling" string only: code-5 vaulted
ceilings stay on column (1) per the 33 cohort-2 "ND" vaulted certs
(S0380.211), and the "NI"/"ND" unknown case is untouched. New
`is_pitched_sloping_ceiling` flag threaded from heat_transmission to
`u_roof`; pre-1950 bands already reach the same col (3) value (2.30) via
the mapper's thickness=0 → Table 16 row-0 override, so the new branch
carries the post-1950 bands where col 1 ≠ col 3.
Worksheet-validated by simulated case 15 (the 7536 replica): our cascade
on its Summary matches the P960 worksheet exactly — roof HLC 29.17 W/K,
cont SAP 65.04 vs 65. Re-pins golden cert 7536: roof 26.77 → 29.17, cont
SAP 69.071 → 68.924, PE -7.0776 → -6.1952, CO2 -0.1875 → -0.1639 (SAP
integer 68, resid +1 unchanged — the remaining +0.92 is a diffuse demand
under-count needing a fully-faithful worksheet). Blast radius: 7536 only.
Suite: 2388 passed, 1 skipped (main); sap10_ml 233 passed + 2 pre-existing
stone-formula failures (out of scope). Zero new pyright errors.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
|
||
|
|
90f6720cae |
S0380.211: vaulted/sloping roof NI insulation → Table 18 col (1), not 50 mm
Closes the Ext1 vaulted-roof over-count that S0380.209 exposed on golden
cert 0240-0200-5706. BP2 lodges roof_construction=5 (vaulted ceiling),
roof_insulation_thickness="NI" (parsed to 0), description "Pitched,
insulated (assumed)", band J. The cascade returned U=0.68 — the RdSAP 10
§5.11.4 (p.44) retrofit-50 mm "insulation at joists" row. A vaulted /
sloping ceiling has no ceiling-joist void, so that row does not apply; per
RdSAP 10 §5.11 Table 18 (p.45) it takes the column (1) age-band default
(band J = 0.16).
The arbiter is the cohort, not the spec text alone: 33 cohort-2 certs
lodge "ND" (thickness None) vaulted roofs (roof_construction=5, band D)
that already pin to their dr87 worksheets at U=0.40 = Table 18 col (1) by
falling through the age-band default. 0240's only difference is the "NI"
sentinel (insulation present, unknown thickness) which uniquely hit the
0.68 override. (The S0380.209 note's predicted "cont ≈ 72.31" assumed a
col-3 0.25 value; the cohort's ND vaulted roofs disprove that — they use
col (1), so 0240 lands at cont 72.4617.)
Implementation: new `u_roof(is_sloping_ceiling=...)` flag, threaded from
heat_transmission for roof_construction_type containing "sloping ceiling"
(code 8) or "vaulted" (code 5). It fires only for the NI case
(thickness 0 + "insulated (assumed)"), routing to the col (1) age-band
default; the "ND"/None path is untouched (already col 1) and a NORMAL
pitched-with-loft roof still takes the §5.11.4 50 mm row (flag defaults
False). roof 76.93 → ~68 W/K → 0240 PE +5.5044 → +1.5181, CO2 +0.2757 →
+0.0728 (SAP integer 72 unchanged — the true value; lodged 73 needs the
unpreserved 2013+ pump).
Also corrects test_u_wall_cavity_as_built_partial_insulation_routes_to_
filled_cavity_row → ..._routes_to_as_built_row: a missed S0380.210
follow-up. That test (in domain/sap10_ml/tests/, which the AGENT_GUIDE §4
suite command does not run) asserted the pre-S0380.210 "partial insulation
→ filled" behavior on legacy-map parity, not worksheet evidence; S0380.210
corrected it to the as-built row per RdSAP 10 Table 6 + golden cert 0390's
four-metric closure.
Suite: 2614 passed, 1 skipped; the 2 remaining failures in
test_rdsap_uvalues.py (stone §5.6 thin-wall formula vs Table-6 1.7 cap)
are pre-existing (fail at HEAD
|
||
|
|
c75ef6417f |
S0380.210: cert 0390 cavity "partial insulation (assumed)" → as-built row, not filled
Golden cert 0390-2954-3640 (detached, TFA 360, age F) carried a +7 SAP / -28 kWh/m² PE residual the audit attributed to a demand-side fabric gap. Walking the §3 cascade localised it to the Main wall: lodged wall_construction=4 (cavity), wall_insulation_type=4 (as-built / assumed), description "Cavity wall, as built, partial insulation (assumed)". The cascade mis-routed it to the Table 6 "Filled cavity" row (band F = 0.40) because `_described_as_insulated` matches the "partial insulation" substring. RdSAP 10 Specification (10-06-2025) Table 6 — Wall U-values, England distinguishes two cavity rows: "Cavity as built" A-E 1.5, F 1.0, G 0.60, H 0.60, I 0.45, J 0.35, ... "Filled cavity" A-E 0.7, F 0.40, G 0.35, H 0.35, I 0.45†, J 0.35†, ... An "as built ... partial insulation (assumed)" cavity is the as-built partial fill of the age band, NOT a retrofit cavity fill (a genuine fill lodges the distinct "Cavity wall, filled cavity", wall_insulation_type=2). It therefore routes to "Cavity as built" (band F = 1.0), mirroring the worksheet-validated solid-brick rule in S0380.209 (cases 9/10: "as built, insulated (assumed)" → as-built age-band row, not retrofit). New `_cavity_described_as_filled` predicate is used only in u_wall's cavity filled-row branch; it excludes the "partial insulation" substring while keeping "insulated (assumed)" → filled (the unrelated, separately asserted test_cavity_as_built_insulated_assumed_uses_filled_cavity_row is unchanged). The shared `_described_as_insulated` (also consumed by the roof/floor paths) is left untouched. Wall HLC +53.6 W/K (U 0.40 → 1.0 over ~268 m²) lifts all four metrics together — the signature of a real fabric bug, not a tuned offset: SAP +7 → +0 PE -27.9745 → +0.5281 kWh/m² CO2 -2.7134 → -0.1189 t/yr Bands I-M are unaffected (the two rows coincide per the † footnote), so golden certs 0535 (band M) / 7536 (band L) with "insulated (assumed)" cavities continue to pin at 0. Full suite 2384 passed, 1 skipped. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
||
|
|
844fc22f67 |
S0380.209: API-path wall U — as-built "insulated (assumed)" uses age-band row, not 50mm
The EPC renders a recent-band as-built wall as "<material>, as built, insulated (assumed)". The API mapper populates epc.walls with that string, and heat_transmission's wall_ins_present gate keyed off the "insulated" substring → routed the wall to the RdSAP 50 mm "insulation of unknown thickness" bucket (e.g. sandstone band J U=0.25) instead of the as-built age-band row (U=0.35). Per RdSAP 10 Table 8/9 footnote the 50 mm row applies ONLY when insulation is "known to have been increased subsequently (otherwise 'as built' applies)". An "as built ... (assumed)" description is the EPC's age-band assumption — it only renders on RECENT bands (an old band renders "no insulation (assumed)"), so the as-built row applies. Genuine retrofit is signalled by wall_insulation_type (External/Internal/Filled), which the gate still checks independently. Worksheet-validated by two new Elmhurst worksheets, both As Built band J: - simulated case 9: sandstone → (29a) U 0.35 - simulated case 10: solid brick → (29a) U 0.35 both the as-built row, NOT 50 mm (0.25). Fix: restrict the description-based gate to genuine retrofit via the new local `_described_as_retrofit_insulated` (excludes "as built"/"(assumed)"). The cavity filled-row routing inside `u_wall` (which uses `_described_as_insulated` directly) is untouched — the 3 cavity API certs (0390/0535/7536) are unaffected. test_heat_transmission: the old `..._uses_50mm_row` test asserted 50 mm via an IMPOSSIBLE band-B + "insulated (assumed)" combination; corrected to a valid recent-band (J) scenario asserting the as-built row (35 W/K). Golden 0240: walls 24.45 → 34.23 W/K (U 0.25 → 0.35). SAP integer 72 unchanged; PE residual re-pinned +1.8687 → +5.5044, CO2 +0.0907 → +0.2757. This spec-correct fix REMOVED the wall under-count that was masking the Ext1 vaulted-roof over-count (cascade U 0.68 via the same "insulated (assumed)" description vs case-9 sloping-ceiling 0.25) — that roof over-count is the next slice; fixing both lands SAP cont ≈ 72.31 (= Elmhurst case 9). Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
||
|
|
efb203f7ad |
Slice S0380.109: Solid brick + insulation via §5.7 Table 13 + §5.8 Table 14 (RdSAP 10)
Closes the remaining cert 000565 BP[0] Main wall residual (-1.54 W/K
under ws) by routing solid-brick walls with documentary wall
thickness + lodged insulation through the RdSAP 10 §5.7 + §5.8
formula chain. Adds a Table-6 footnote (a) cap on the §5.6 stone
formula to handle thin uninsulated stone walls (Ext1 BP[1] Granite
W=50 mm).
RdSAP 10 §5.7 Table 13 (PDF p.41) verbatim:
"Default U-values of brick walls
Wall thickness, mm U-value, W/m²K
Up to 200 mm 2.5
200 to 280 mm 1.7
280 to 420 mm 1.4 ← cert 000565 Main W = 300 mm
More than 420 mm 1.1"
RdSAP 10 §5.8 step 2 (PDF p.41-42) verbatim:
"The U-value of the insulated wall is U = 1 / (1/U₀ + R_insulation)
...
Where R_insulation comes from Table 14: Insulation thickness and
corresponding resistance.
...
R = 0.025 × T + 0.25 when λ = 0.04 W/m·K
R = 0.0333 × T + 0.248 when λ = 0.03 W/m·K
R = 0.040 × T + 0.25 when λ = 0.025 W/m·K
Where T is thickness of insulation in mm"
Cert 000565 Main lodgement (Summary §7.0):
Type SO Solid Brick (wall_construction = 3)
Insulation E External (wall_insulation_type = 1)
Insulation Thickness 75 mm
Wall Thickness 300 mm (measured)
Conductivity Known No → λ defaults to 0.04 (§5.8 final note)
Age band A
Formula chain:
U₀ = 1.4 (§5.7 Table 13 row "280 to 420 mm")
R = 0.025 × 75 + 0.25 = 2.125 m²K/W
U = 1 / (1/1.4 + 2.125) = 1 / 2.8393 = 0.3522 → 0.35 (2 d.p.)
Pre-slice the cascade bucketed 75 mm into the Table-6 "100 mm
external/internal insulation" row → 0.32 for age A. The -0.03 U
delta on Main's 51.72 m² external wall is the entire -1.54 W/K
under-count driving the cohort's remaining fabric residual.
RdSAP 10 Table 6 footnote (a) (PDF p.34) verbatim:
"Or from equations in 5.6 if the calculated U-value is less than
1.7."
Applies only to the AS-BUILT (no insulation, no dry-line) Table 6
row. For thin walls where §5.6 gives U ≥ 1.7 the Table 6 row
default of 1.7 caps the result. Verified empirically against cert
000565 Main alt_wall_1 (granite W=120 mm dry-lined): raw §5.6 →
3.879 + dry-line → 2.34 matches worksheet, NOT capped 1.7 + dry-
line → 1.32. The cap therefore only fires when neither dry-lining
nor insulation is present (cert 000565 BP[1] Ext1: granite W=50 mm
"Insulation Unknown" → §5.6 = 6.09 → capped to 1.7, matches ws).
3-layer fix:
1. `domain/sap10_ml/rdsap_uvalues.py`:
- Add `_u_brick_thin_wall_age_a_to_e(W_mm)` per §5.7 Table 13
- Add `_r_insulation_table_14(T_mm, λ)` per §5.8 Table 14
interpolation rule (handles all 3 λ columns)
- Wire §5.7+§5.8 chain into `u_wall` for WALL_SOLID_BRICK + age
A-E + lodged thickness + (External | Internal) insulation +
thickness > 0
- Add Table 6 footnote (a) cap to `_u_stone_thin_wall_age_a_to_e`
(cap at 1.7 only when not dry-lined)
- Round dry-lined §5.6 result to 2 d.p. (worksheet A×U precision)
2. `domain/sap10_calculator/worksheet/heat_transmission.py` passes
`wall_thickness_mm=part.wall_thickness_mm` through to `u_wall`
for the per-BP main wall U (previously passed only for alt walls).
3. AAA test pins cert 000565 walls_w_per_k = 604.07 within 1e-4.
Movement at HEAD `9159e91f` → post-slice (cert 000565):
Fabric (cascade vs ws):
walls 602.53 → 604.08 (Δ -1.54 → +0.01 W/K — sub-spec
alt-wall float rounding artifact)
total W/K 935.54 → 937.09 (Δ -1.52 → +0.03 W/K — essentially
zero net fabric HTC residual)
End-result pins:
sap_score (int) 29 ✓ EXACT (unchanged)
sap_score_continuous 28.5380 → 28.5028 (Δ +0.0293 → -0.0059;
80% magnitude reduction)
ecf 5.3838 → 5.3874 (Δ -0.0028 → +0.0008)
total_fuel_cost_gbp 4677.64 → 4680.78 (Δ -2.62 → +0.52)
co2_kg_per_yr 6444.27 → 6448.34 (Δ -3.35 → +0.72)
space_heating 58974.84 → 59020.02 (Δ -33.5 → +11.7)
main_heating_fuel 34691.09 → 34717.66 (Δ -19.7 → +6.87)
lighting_kwh 1382.67 (unchanged)
pumps_fans_kwh ✓ EXACT (unchanged)
Continuous SAP magnitude improved 80% (0.0293 → 0.0059). All
SH-driven downstream residuals (cost, co2, SH kwh, main_heating
fuel) magnitude-reduced 65-80%. Integer SAP stays exact at 29.
Cohort safety verified: 6 cohort certs (000474-000516) lodge wc=4
(cavity) + wit=4 (as-built) — neither precondition for the new
§5.7+§5.8 path. §5.6 cap only fires when not dry-lined (cohort
certs don't trigger). All 11 cert→inputs and 6 sap_result_pin
cohort tests pass unchanged.
Golden cert 6035-7729-2309-0879-2296 (mid-terrace age A solid
brick) sees the §5.7+§5.8 chain fire on its Main wall:
PE +46.7562 → +46.0936 kWh/m² (cascade closer to actual EPC)
CO2 +1.0652 → +1.0495 tonnes/yr (cascade closer to actual EPC)
Per [[feedback-golden-residuals-near-zero]] the expected pin is
updated to track the improvement (target → ~0 as mapper closes).
Test count: 608 pass + 7 expected 000565 fails → **608 pass + 7
expected 000565 fails** (new §5.7+§5.8 formula test green; golden
cert 6035 pin re-pinned; integer SAP stays at 29). Pyright net-zero
per touched file (27 baseline → 27 post-change).
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
|
||
|
|
78c57c0dc7 |
Slice S0380.94: RIR insulation "400+ mm PUR or PIR" extractor + mapper + cascade (RdSAP 10 Table 17 col 3b)
RdSAP 10 §5.11.3 + Table 17 (PDF p.42-43) "Roof room U-values when
insulation thickness is known". Column (3b) "Stud wall — PUR or PIR
optional" 400 mm row → 0.10 W/m²K. Cert 000565 Summary §8.1 BP[2] Ext2
(Detailed) lodges:
Stud Wall 2 2.00 × 2.00 400+ mm PUR or PIR Default U=0.10
Pre-slice three coupled bugs silently dropped the lodgement, routing
the cascade through the uninsulated Table 17 row 0 (U=2.30) — over-
counting Stud Wall 2 by (2.30 − 0.10) × 4 m² = +8.80 W/K on roof:
1. **Extractor regex** `_RIR_INSULATION_THICKNESS_RE = ^\d+\s*mm$`
failed to match the "400+ mm" bucket-cap form (Table 17's largest
tabulated row is annotated with a trailing "+" in the Summary).
2. **Extractor insulation_type allow-list** `("Mineral or EPS",
"PUR", "PIR")` failed to match the disjunction "PUR or PIR" — the
actual Summary form when the assessor doesn't distinguish PUR from
PIR. (Both columns Table 17 column (b) anyway.)
3. **Mapper thickness parser** `_elmhurst_rir_insulation_thickness_mm`
used the same `^\d+\s*mm$` regex — also failed on "400+ mm".
Plus a fourth coupled fix: the cascade's `_is_rigid_foam` checked a
frozenset `{"pur", "pir", "rigid"}` that didn't include the canonical
mapper-side code "rigid_foam" — even if the mapper translated "PUR or
PIR" → "rigid_foam", the cascade would route to column (a) mineral-
wool instead of column (b) rigid-foam.
Slice span (4 layers):
1. **Extractor regex** — `^\d+\+?\s*mm$` matches both "100 mm" and
"400+ mm".
2. **Extractor allow-list** — add "PUR or PIR" alongside individual
"PUR" / "PIR" + "Mineral or EPS".
3. **Mapper** — `_RIR_INSULATION_TYPE_TO_SAP10` canonicalises all
rigid-foam strings to "rigid_foam"; thickness parser regex matches
"400+ mm" → 400 mm int.
4. **Cascade** — `_RR_RIGID_FOAM_INSULATION_TYPES` adds "rigid_foam"
alongside the legacy "pur"/"pir"/"rigid" aliases.
Cert 000565 movement (HEAD `23aaa4fa` → this slice):
- cascade BP[2] Ext2 Stud Wall 2 U: 2.30 → 0.10 ✓ EXACT vs ws 0.10
- cascade roof_w_per_k: 43.44 → 34.64 (Δ−7.94 → Δ−16.74)
- sap_score: 29 ✓ EXACT unchanged
- sap_score_continuous: 28.81 → 29.02 (Δ+0.26 → Δ+0.51)
- space_heating_kwh: −427 → −685
- main_heating_fuel: −251 → −403
- hot_water_kwh: ✓ 0 EXACT unchanged
Closing one spec-correct sub-component while others remain non-spec-
correct drifts continuous SAP further; per user direction temporary
drift is acceptable as long as we're fixing true intermediate-value
problems — once every sub-component is spec-correct, the continuous
SAP error closes to zero by construction. The remaining −16.74 W/K
roof gap localises to:
- BP[0/1/3] missing RR residual area for Detailed-RR mode (§3.10.1
spec — cascade only handles Simplified mode today); +27.85 W/K
closure when wired.
- BP[4] Flat Ceiling 1 lodges "Unknown thickness, PUR or PIR" → ws
U=0.15; cascade over-counts at 2.30 (uninsulated). Elmhurst's
"Unknown PUR or PIR" → 200 mm convention is non-spec; the spec-
correct path falls back to Table 18 col 4 default (`u_rr_default
_all_elements`). Separate diagnostic slice.
Cohort safety: 21 other Elmhurst Summary fixtures lodge no RIR detailed
surfaces with "400+ mm" or "PUR or PIR" (modal cohort uses As Built /
None / no detailed surfaces). Existing "Mineral or EPS" tests at
`test_u_rr_stud_wall_table17_col3a_mineral_wool_100mm_returns_0_36`
remain green — the new aliases extend rather than replace.
Test baseline: 585 pass + 8 expected `000565` fails (was 583 + 8; +2
new tests). Pyright net-zero per touched file (0/32/1/65/13 preserved).
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
|
||
|
|
23aaa4fa66 |
Slice S0380.93: floor above partially-heated space U=0.7 (RdSAP 10 §5.14)
RdSAP 10 §5.14 (PDF p.47) "U-value of floor above a partially heated space": > "The U-value of a floor above partially heated premises is taken as > 0.7 W/m²K. This applies typically for a flat above non-domestic > premises that are not heated to the same extent or duration as the > flat." Cert 000565 Ext1 lodges Summary §9 "Location: P Above partially heated space" + "Default U-value: 0.70". Worksheet line (28b) confirms "Exposed floor Ext1 ... 34.0000 0.7000 23.8000". Pre-slice the cascade routed BP[1] floor through the BS EN ISO 13370 ground-floor formula (the "else" branch of the floor U-value dispatch in `heat_transmission.py`) — producing cascade U=0.76 vs spec 0.70. Over-counted floor heat loss by (0.76 − 0.70) × 34 m² = +2.04 W/K on the part subtotal and on the total HTC. Slice span (4 layers): 1. **Helper** — `u_floor_above_partially_heated_space()` in `domain/sap10_ml/rdsap_uvalues.py`, verbatim spec constant 0.7 (no age-band / insulation-thickness inputs). Lives in `sap10_ml` per [[project-sap10_ml-deprecation]] (edit existing file fine). 2. **Schema** — `SapFloorDimension.is_above_partially_heated_space: bool = False` (parallel to existing `is_exposed_floor`). Mutually exclusive with the exposed-floor / basement-floor branches. 3. **Mapper** — new `_is_floor_above_partially_heated_space(location)` helper detecting "above partially heated" in the Elmhurst §9 floor location string. Plumbed into `_map_elmhurst_building_part` floor- dim construction; only applies to the ground floor (i==0). 4. **Cascade** — `heat_transmission.py` adds a new branch between the exposed-floor and ground-floor branches: `is_above_partial → u_floor_above_partially_heated_space()`. Cert 000565 movement (HEAD `a7894b11` → this slice): - cascade floor_w_per_k: 72.41 → 70.37 (Δ +10.74 → Δ +8.70) - cascade BP[1] floor U: 0.76 → 0.70 (✓ EXACT vs ws 0.70) - sap_score (integer): 29 ✓ EXACT (unchanged — at goal) - sap_score_continuous: 28.7663 → 28.8131 (+0.0468 drift) - space_heating_kwh: −367 → −427 (small drift further under) - main_heating_fuel: −216 → −251 (downstream of SH) - co2_kg_per_yr: −32 → −37 - total_fuel_cost_gbp: −23 → −27 - hot_water_kwh: ✓ 0 EXACT unchanged The small continuous-SAP drift is the expected arithmetic of closing a single component when adjacent components remain unclosed (floor +10.74 was cancelling thermal_bridging −11.76 + roof −7.94 at the net-HTC level). Per [[feedback-zero-error-strict]] + [[feedback- spec-citation-in-commits]] the spec-correct slice ships regardless of transient continuous-SAP drift; remaining residual components (floor +8.70 from BP[2] Ext2 lodged 200 mm insulation thickness; roof −7.94; thermal_bridging −11.76; walls −1.67) each get their own spec-cited slice. Cohort safety: only cert 000565 Ext1 in the cohort lodges "Above partially heated space". All other Elmhurst cohort fixtures + 9 golden + 38 cohort-2 API certs default to `is_above_partially_ heated_space=False` so cascade behaviour is unchanged. Test baseline: 583 pass + 8 expected `000565` fails (was 582 + 8; +1 new mapper-chain test). Pyright net-zero per touched file (1/65/1/32/13/13 preserved). Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com> |
||
|
|
8321863015 |
Slice S0380.91: party-wall Cavity-masonry-filled U=0.2 (RdSAP 10 Table 15 row 3)
RdSAP 10 §5.10 Table 15 (PDF p.42) "U-values of party walls":
Party wall type U
--------------------------------------------- ----
Solid masonry / timber frame / system built 0.0
Cavity masonry unfilled 0.5
Cavity masonry filled 0.2
Unable to determine, house or bungalow 0.25
Unable to determine, flat or maisonette* 0.0
Pre-slice the cascade collapsed CF (Cavity masonry filled) into the same
SAP10 wall_construction code 4 as CU (Cavity masonry unfilled), so the
filled-cavity row's spec U=0.2 was silently rounded up to the unfilled
U=0.5. The mapper at `_ELMHURST_PARTY_WALL_CODE_TO_SAP10["CF"]: 4` and
`_API_PARTY_WALL_CONSTRUCTION_TO_SAP10[3]: 4` both flagged this as a
known approximation since S0380.64; today's slice closes it.
Introduces a party-wall-only synthetic SAP10 code
`WALL_CAVITY_FILLED_PARTY = 11` (distinct from the main wall_construction
codes 1-10 since Table 15 treats filled vs unfilled cavity as separate
party-wall types). `u_wall` doesn't consume code 11 so main-wall U-value
cascades are unaffected. Cohort + golden audit: only cert 000565 Ext1
lodges CF on the Elmhurst side; zero golden certs lodge API code 3, so
flipping the dispatch is scoped to one BP.
Cert 000565 movement (HEAD
|
||
|
|
6c8bbbc9e2 |
Slice S0380.86: §5.6 thin-wall stone + §5.8 dry-line closes BP[0] alt1 cascade gap
RdSAP 10 §5.6 (PDF p.40) "U-values of uninsulated stone walls, age
bands A to E":
Table 12 — Default U-values of stone walls
Sandstone or limestone: U = 54.876 × W^(-0.561)
Granite or whinstone: U = 45.315 × W^(-0.513)
Where W is wall thickness in mm.
"Apply the adjustment according to Table 14: Insulation thickness
and corresponding resistance if wall is insulated or dry-lined
including lath and plaster."
Combined with §5.8 (PDF p.40) + Table 14 (PDF p.41) dry-line R = 0.17
m²K/W: U = 1 / (1/U₀ + 0.17).
Cert 000565 BP[0] Main alt1 is the cohort fixture: Stone Granite, age
band A (inherited from Main), 120 mm wall thickness, dry-lined.
§5.6 formula: U₀ = 45.315 × 120^(-0.513) ≈ 3.8871.
§5.8 + Table 14 dry-line: U = 1/(1/3.8871 + 0.17) ≈ **2.3405**.
→ matches worksheet U985-0001-000565 line (29a) "External walls Main
alt.1 ... SolidWallDensePlasterInsul, Solid, 0.0, 2.34" EXACT.
Pre-S0380.86 two coupled bugs blocked this path:
1. Mapper mis-name per [[feedback-no-misleading-insulation-type]]:
`_map_elmhurst_alternative_wall` routed the Elmhurst Summary §7
"Alternative Wall N Thickness" lodging (the WALL thickness)
onto `SapAlternativeWall.wall_insulation_thickness="120"`. The
cascade then mis-bucketed it as 100 mm insulation (bucket=100
→ _BRICK_INS_100 row at age A → U=0.32). The Elmhurst Summary
schema has no "Alternative Wall N Insulation Thickness" line at
all — `wall_insulation_thickness` on alts was always
semantically the wall thickness, never insulation.
2. `u_wall` had no §5.6 thin-wall stone branch. Stone constructions
fell through to Table 6 row values (designed for typical-
thickness ~300mm+ walls), which dramatically under-state heat
loss for sub-200mm stone.
Fix span:
- datatypes/epc/domain/epc_property_data.py:SapAlternativeWall:
new `wall_thickness_mm: Optional[int] = None` field, mirroring
`SapBuildingPart.wall_thickness_mm`.
- datatypes/epc/domain/mapper.py:_map_elmhurst_alternative_wall:
routes Elmhurst `a.thickness_mm` (Wall thickness) onto
`wall_thickness_mm`; leaves `wall_insulation_thickness=None`
on this path (no Elmhurst Summary alt-wall insulation-thickness
line exists).
- domain/sap10_ml/rdsap_uvalues.py:
new `_u_stone_thin_wall_age_a_to_e(construction, W)` helper
implements §5.6 Table 12 formulas. `u_wall` accepts a new
`wall_thickness_mm: Optional[int] = None` param; dispatches
§5.6 formula when (a) wall thickness lodged, (b) age band ∈
A-E, (c) construction ∈ {STONE_GRANITE, STONE_SANDSTONE}.
§5.8 + Table 14 R=0.17 applied on top when dry_lined=True.
- domain/sap10_calculator/worksheet/heat_transmission.py:
`_alt_wall_contribution_w_per_k` passes
`wall_thickness_mm=alt_wall.wall_thickness_mm` to `u_wall`.
Tests (7 new, AAA-structure):
- 5 in domain/sap10_ml/tests/test_rdsap_uvalues.py — granite at
120 mm with dry-line (U=2.34); granite raw formula (U=3.89);
sandstone (U=3.74); age-G gate (Table 6 row, NOT formula); no
wall_thickness fallback (Table 6 row 1.7).
- 2 in backend/documents_parser/tests/test_summary_pdf_mapper_chain
.py — mapper pin (wall_thickness_mm=120 on BP[0] alt1;
wall_insulation_thickness=None) and cascade pin (walls_w_per_k
≥ 595, post-S0380.85 was 555.93).
**Cert 000565 cascade walls: 555.93 → 602.40 W/K (worksheet 604.07;
0.27% residual).** BP[0] alt1 cascade U: 0.32 → 2.34. Cascade walls
within 2 W/K of worksheet target across S0380.85+.86 closure cycle.
Test baseline: 560 pass (was 558 + 7 new − 5 already passing pins
that moved) + 9 expected `test_sap_result_pin[000565-*]` fails
unchanged. Cohort + golden + cert 9501 unaffected: of the 6 cohort
fixtures only cert 000565 alt1 lodged a `wall_insulation_thickness`
value on `SapAlternativeWall` (audit confirmed) — and that value was
always semantically the wall thickness, so the rename is a fix not
a behaviour change. The API mapper path defaults `wall_thickness_mm`
to None (API schema doesn't yet surface alt-wall thickness; safe
forward-compat).
Per [[feedback-verify-handover-claims]]: the post-S0380.84 handover
predicted SH residual would close after the wall fixes. Empirically
SH grew +2591 → +6348 → +7924 across S0380.84/.85/.86 — confirming a
SEPARATE SH-channel over-count that's independent of fabric (each
+1 W/K of spec-correct walls adds ~33.5 kWh of cascade SH, vs the
worksheet's ~38.96 kWh/W/K rate). The walls fixes are spec-correct;
the SH over-count is now a single isolated open work-item for the
next slice (~+8 k kWh structural).
Pyright net-zero per touched file (test_rdsap_uvalues.py error count
actually decreased by 1).
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
|
||
|
|
647c1aad0e |
Slice S0380.85: Curtain Wall §5.18 dispatch closes BP[2] Ext2 cascade gap
RdSAP 10 §5.18 (PDF p.48) "Curtain wall - U-value and other parameters":
"If documentary evidence is available, use calculated U-value of the
whole curtain wall. Otherwise for the purpose of RdSAP, U= 2.0 W/m²K
for pre-2023 curtain walls, And for post-2023 (2024 in Scotland)
U-values as for windows given in Notes below Table 24."
Table 24 row "Double or triple glazed England/Wales: 2022 or later"
PVC/wood column = 1.4 W/m²K. Whole-wall curtain walls use Frame
Factor=1 per the §5.18 closer.
Pre-S0380.85 `WALL_CURTAIN=9` was defined at rdsap_uvalues.py:116 but
NOT included in `known_types`, so `u_wall(construction=9)` fell through
to `_DEFAULT_WALL_BY_AGE.get(band, WALL_CAVITY)` → cavity table at age
H = 0.60. Cert 000565 BP[2] Ext2 lodges `Type: CW Curtain Wall` +
`Curtain Wall Age: Post 2023` per Summary PDF §7; worksheet pins U=1.40
(matching the §5.18 Post-2023 PVC/wood row). Cascade under-counted
walls by Δ U=0.80 × area = −112.2 W/K on this BP — 70% of the
post-S0380.84 BP main-wall residual (−161 W/K total).
§5.18 keys the curtain-wall U-value on the per-BP installation age,
NOT on the dwelling-wide `construction_age_band` — cert 000565 is
age H (1991-1995) but the curtain wall itself was installed
Post-2023. Plumb a new optional field through the extractor → datatype
→ mapper → cascade so the §5.18 dispatch sees it.
Files touched (5-layer slice span):
- backend/documents_parser/elmhurst_extractor.py:
`_wall_details_from_lines` reads "Curtain Wall Age" via
`_local_val` so absent lines stay None (not "").
- datatypes/epc/surveys/elmhurst_site_notes.py:WallDetails:
`curtain_wall_age: Optional[str] = None` field added.
- datatypes/epc/domain/epc_property_data.py:SapBuildingPart:
`curtain_wall_age: Optional[str] = None` field added.
- datatypes/epc/domain/mapper.py:_map_elmhurst_building_part:
threads `walls.curtain_wall_age` onto SapBuildingPart.
- domain/sap10_ml/rdsap_uvalues.py:
new `_u_curtain_wall(curtain_wall_age)` helper + WALL_CURTAIN
dispatch in `u_wall` before the `known_types` lookup.
"Post 2023" / "Post-2023" → 1.4; everything else (incl. None)
→ 2.0 per §5.18 fallback.
- domain/sap10_calculator/worksheet/heat_transmission.py:
passes `curtain_wall_age=part.curtain_wall_age` to `u_wall`
on the main-wall path. (Alt-wall path unchanged — cert 000565
lodges CW only as a main wall, never as an alt sub-area; alt
coverage is a follow-up slice if a future cert exercises it.)
Tests (6 new, AAA-structure):
- 3 in domain/sap10_ml/tests/test_rdsap_uvalues.py — `u_wall` direct
unit tests for Post 2023 (1.4), Pre 2023 (2.0), and absent
lodging fallback (2.0).
- 3 in backend/documents_parser/tests/test_summary_pdf_mapper_chain
.py — extractor pin (BP[2] Ext2 surfaces "Post 2023", non-CW BPs
stay None), mapper pin (curtain_wall_age threaded to BP[2]
SapBuildingPart), cascade pin (`heat_transmission_from_cert`
walls subtotal ≥ 540 W/K — pre-S0380.85 was 443).
Cert 000565 cascade walls: 443 → 555.93 W/K (worksheet 604.07; 70%
closer). Test baseline: 558 pass (was 555 + 3 new) + 9 expected
`test_sap_result_pin[000565-*]` fails unchanged.
Per [[feedback-verify-handover-claims]]: the post-S0380.84 handover
predicted SH residual would close +2591 → ~+800 kWh after this slice,
but the cascade is actually OVER-counting SH despite walls being
UNDER-counted. Closing the wall under-count makes the SH residual
*larger* (+2591 → +6348). The wall fix is spec-correct; the SH
over-count is a separate channel that surfaces more sharply now. Per
[[feedback-spec-citation-in-commits]] + [[feedback-spec-floor-skepticism]]
+ the S0380.84 precedent, ship the spec-correct change and document
the surfaced gap for the next slice rather than reverting to the
compensating-bugs state.
Pyright net-zero on every touched file (existing pre-existing errors
unchanged). Cohort + golden + cert 9501 unaffected — curtain_wall_age
defaults to None on those certs and `u_wall` ignores it unless
`construction == WALL_CURTAIN`.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
|
||
|
|
c144d444e2 |
Slice S0380.26: RdSAP10 §5.8 dry-lining adjustment on alt walls — closes cert 7700 -0.44 → +5e-5
Per RdSAP10 §5.8 final note + Table 14 page 41:
"For drylining including laths and plaster use Rinsulation = 0.17 m²K/W."
Applied additively to the base U-value of an otherwise-uninsulated wall:
U_adjusted = 1 / (1/U_base + 0.17) — rounded to 2 d.p. half-up.
Closed form for the cohort fixture (cavity-as-built age C, U_base=1.5):
1 / (1/1.5 + 0.17) = 1.19522... → 1.20 ✓ matches worksheet
Cert 7700-3362-0922-7022-3563 (Summary_000905.pdf / dr87-0001-000905.pdf)
is an End-Terrace house age C lodging:
- Main wall: CavityWallDensePlasterDenseBlock, Filled Cavity, U=0.70
- Alt wall 1: 14.44 m² Cavity As-Built, Dry-lining: Yes (worksheet
`CavityWallPlasterOnDabsDenseBlock`, U=1.20)
Pre-slice the Elmhurst alt-wall mapper hard-coded `wall_dry_lined="N"`
and the cascade ignored the field everywhere — alt-wall U routed to the
cavity-as-built default (1.50), giving fabric (33) 148.72 W/K vs
worksheet 144.38 (Δ +4.33 W/K = ~+0.44 SAP). Worksheet "SAP value" line
lodges unrounded SAP 63.4425.
Implementation:
1. `AlternativeWall.dry_lined: bool = False` on the Elmhurst surveys
dataclass.
2. Elmhurst extractor reads "Alternative Wall N Dry-lining: Yes/No"
into the new field.
3. `_map_elmhurst_alternative_wall` propagates `wall_dry_lined="Y"`
instead of the hard-coded "N".
4. `u_wall` gains a `dry_lined: bool = False` kwarg and a single
§5.8 adjustment site at the as-built bucket (bucket=0). Insulated
buckets already absorb the dry-lining R via Table 14.
5. `_alt_wall_w_per_k` passes `dry_lined=alt_wall.wall_dry_lined == "Y"`.
Scope is the alt-wall path only — main BPs in the corpus all lodge
`wall_dry_lined="N"` (or the Summary PDF omits the field for the main
wall), so the main-wall call site is untouched. Conservative regression
posture per the user's strict cohort-pin convention.
Cohort-2 outcome (38 certs, Summary path):
exact (<1e-4): 22 → **23** (+1: cert 7700 -0.44 → +4.87e-05)
0.07..0.5: 1 → **0** (-1: cert 7700 closes out)
0.5..1: 1 → 1 (cert 9796 unchanged — MIT precision floor)
RAISES: 0 → 0
Cohort-1 ASHP cohort untouched: all certs lodge wall_dry_lined="N", so
the alt-wall call site short-circuits to the original cascade. Verified
no regressions across the 22 previously-exact cohort-2 certs either.
Pyright net-zero on all 8 touched files (183 → 183).
Tests: 704 → 708 pass (+4 new: u_wall §5.8 adjustment fires
correctly; cavity-as-built unchanged without flag; insulated bucket
unaffected by flag; heat_transmission alt-wall delta = 14.44 × 0.30
W/K; cert 7700 full chain hits worksheet 63.4425 at < 1e-4),
10 expected fails unchanged.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
|
||
|
|
57fbf83b1e |
Slice S0380.18: u_party_wall flat default per RdSAP10 Table 15 footnote*
Closes cert 0036-6325-1100-0063-1226 (the cohort's first FLAT fixture)
from Δ -0.3737 → +0.2987 by applying the RdSAP 10 Table 15 footnote *
rule: flats/maisonettes with unknown party-wall construction default
to U=0.0 W/m²K (both sides are heated dwellings, no heat loss).
Worksheet dr87-0001-000910.pdf line ref (32) lodges:
Party walls Main 24.13 m² U=0.00 A×U = 0.0000 W/K
matching the Table 15 footnote *. The cascade was applying the U=0.25
*house* default to this lodging because:
- Elmhurst Summary lodged `party_wall_type='U Unable to determine'`
- mapper translated it to `party_wall_construction=0` (the cross-
mapper-parity "unknown" sentinel)
- `u_party_wall(0)` fell through to `return 0.25` (the final-branch
default — same path as `u_party_wall(None)`)
That produced cascade `party_walls_w_per_k = 24.13 × 0.25 = 6.03` W/K
of heat-loss excess, propagating through (39) HTC → (97)..(98c) space
heat demand → (211) main fuel kWh → (255) total cost → (257) ECF →
(258) SAP rating. Net effect: cascade SAP 62.3734 vs worksheet 62.7471.
Two-part fix:
1. `domain/sap10_ml/rdsap_uvalues.py:u_party_wall` — add
`is_flat: bool = False` keyword argument. When True AND
`party_wall_construction in (None, 0)` (both the API-mapper None
path and the Elmhurst-mapper 0 sentinel for "Unable to determine"),
return 0.0 instead of the house default 0.25. Spec citation: RdSAP
10 Table 15 footnote * ("for flats and maisonettes with unknown
party-wall construction").
2. `domain/sap10_calculator/worksheet/heat_transmission.py` — wire
the cascade to pass `is_flat=_is_flat_or_maisonette(epc.property
_type)`. Adds a new helper `_is_flat_or_maisonette` distinct from
the existing `_is_house` (which excludes bungalows from
*cantilever* detection — bungalows ARE houses for party-wall
purposes per the spec). The new helper checks both the descriptive
form ("Flat" / "Maisonette") and the SAP schema enum-as-string
form ("2" / "3" — per `datatypes/epc/domain/epc_codes.csv
property_type` rows: 0=House, 1=Bungalow, 2=Flat, 3=Maisonette,
4=Park home).
The schema-enum collision was the bug-fix-with-a-bug: an initial
implementation used "1"/"2" (Flat/Maisonette per intuition) but those
are actually Bungalow/Flat per the schema, which routed all 10
bungalow certs onto the flat path. Corrected pre-commit.
Cohort-2 Summary-path delta after slice:
cert 0036 (Flat) Δ -0.3737 → Δ +0.2987 ✓ improved by +0.67
10 bungalow certs unchanged (correctly NOT flat)
5 non-flat house certs in band unchanged (different root cause —
next slice)
Bungalow certs (cohort 1 + 2) verified unchanged at delta ≤ +0.04 each.
Tests added (5):
- `test_u_party_wall_unknown_for_flat_returns_table15_footnote_zero`
pins the spec rule on the helper.
- `test_u_party_wall_unknown_sentinel_zero_treated_as_unknown_for_flat`
pins the Elmhurst-mapper `0` sentinel parity.
- `test_u_party_wall_known_solid_still_returns_zero_when_is_flat_false`
pins precedence: explicit Solid code overrides the is_flat flag.
- `test_summary_0036_flat_unknown_party_wall_routes_to_u_zero` chain-
test through `from_elmhurst_site_notes` + cert_to_inputs +
calculate_sap_from_inputs to assert `party_walls_w_per_k == 0` at
1e-4 tolerance.
Pyright net-zero per file:
- domain/sap10_ml/rdsap_uvalues.py: 1 (baseline 1)
- domain/sap10_calculator/worksheet/heat_transmission.py: 13 (baseline 13)
- domain/sap10_ml/tests/test_rdsap_uvalues.py: 66 (baseline 66)
- backend/documents_parser/tests/test_summary_pdf_mapper_chain.py: 0
Regression baseline: 698 pass + 10 fail (= prior 694 + 10 + 4 new).
Note: the remaining +0.2987 residual on cert 0036 is in (30) external
roof — worksheet lodges Ext1 flat roof Plasterboard insulated U=2.30
giving 2.51 W/K; cascade has roof_w_per_k=0 (Ext1 roof contribution
missing). Separate slice.
Spec refs:
- RdSAP 10 Table 15 ("U-values of party walls") row 4 — house unknown
default 0.25 W/m²K.
- RdSAP 10 Table 15 footnote * — flat/maisonette unknown default
0.0 W/m²K.
- `datatypes/epc/domain/epc_codes.csv` rows
`property_type,{0..4},...` — SAP/RdSAP schema property-type enum.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
|
||
|
|
76fdab42de |
Slice 102b: cylinder storage loss via SAP 10.2 Tables 2/2a/2b
SAP 10.2 §4 line 7690 (full spec PDF p.136) defines the cylinder storage
loss cascade for any cert with a hot water cylinder lodged:
(54) = V × L × VF × TF (Table 2 absence-of-declared-loss branch)
(55) = (54) (no manufacturer's declared loss)
(56)m = (55) × n_m (per spec, n_m = days in month)
where
L = Table 2 (PDF p.158) Note 1 formula for the lodged insulation type
(factory-insulated cylinders: 0.005 + 0.55/(t+4.0); loose jacket:
0.005 + 1.76/(t+12.8))
VF = Table 2a (PDF p.158) Note 2 closed form (120/V)^(1/3)
TF = Table 2b (PDF p.159) base 0.60 for indirect / electric-immersion
cylinders, × 1.3 if no thermostat, × 0.9 if DHW separately timed
Prior, `water_heating_from_cert` hard-coded `solar_storage_monthly_kwh
= zero12` and `_water_heating_worksheet_and_gains` had no path to
populate it. The new `cylinder_storage_loss_monthly_kwh` helper in
`worksheet/water_heating.py` exposes Tables 2 / 2a / 2b as small typed
functions plus a composite; the cert-side orchestrator in
`rdsap/cert_to_inputs.py::_cylinder_storage_loss_override` resolves
the lodged cylinder fields and injects the override.
Code → litres mapping ground-truthed against worksheet (47) line refs
in /sap worksheets/Additional data with api/<cert>/dr87-*.pdf for the
7-cert ASHP cohort: code 3 → 160 L (Medium, 6 certs) and code 4 →
210 L (Large, cert 9418). Codes 2 / 5 / 6 (Normal / Inaccessible /
Exact) absent from the cohort and not yet mapped.
Cylinder insulation type code → "factory_insulated" mapping
(_CYLINDER_INSULATION_TYPE_FACTORY = 1) ground-truthed against all 7
ASHP cohort worksheets ("Foam" lodgement → SAP 10.2 Table 2 Note 2
"factory-insulated cylinder where the insulation is applied in the
course of manufacture irrespective of the insulation material used").
RdSAP §3 default table (PDF p.57) — "Hot water separately timed:
Post-1998 boiler: Yes" — applied to heat-pump main heating systems
(cat 4) per the cohort worksheet evidence.
Cert 0380 (Mitsubishi ASHP, 160 L factory 50 mm, thermostat + separately
timed) lands the spec formula at worksheet (56) Jan = 36.9530 kWh/month
(test pinned at 1e-4); HW kWh/yr 242.21 → 431.38, recovering ~189 kWh/yr
of cylinder loss the cascade was previously dropping.
Cohort regression: cert 0390-2954 (oil boiler + 160 L cylinder) tightens
PE residual -28.6783 → -27.5026 kWh/m² and CO2 residual -2.7640 →
-2.6570 t/yr — both move closer to the lodged values (improvement).
Re-pinned with a slice-102b note.
Closed boiler chain tests (001479, 0330, 9501) unaffected: those certs
lodge has_hot_water_cylinder=false so the override stays None and the
existing zero-storage-loss default fires.
|
||
|
|
96c9e8e724 |
Slice 101b: HP cert 0380 — cavity+EWI wall U + Table 11 cat-4 secondary
Two HP-specific cascade gaps blocking cert 0380:
(a) Cavity wall + filled cavity + external insulation:
Cert 0380's `walls[0].description="Cavity wall, filled cavity and
external insulation"` with `wall_insulation_type=6` +
`wall_insulation_thickness="100mm"`. RdSAP 10 §4-4 (page 73) lists
"cavity plus external" as a distinct insulation type code (6 in
the API schema; 7 is "cavity plus internal"). The U-value is the
composite U = 1 / (1/U_filled + R_ins) per §5.8 page 40 + Table 14
R-value lookup, with the cascade-2-d.p. round matching the dr87
worksheet's column display.
For cert 0380: U_filled (age D)=0.7 + R_ins (100mm @ λ=0.04)=2.5
→ U_unrounded=0.2545 → rounded 0.25 (worksheet exact). Walls HLC
14.87 → 11.6150 (= worksheet 11.6150). (37) total fabric heat
loss 99.34 → **96.0889** (= worksheet 96.0889 EXACT).
Added `WALL_INSULATION_CAVITY_PLUS_EXTERNAL: Final[int] = 6` and
`WALL_INSULATION_CAVITY_PLUS_INTERNAL: Final[int] = 7` constants
+ `_WALL_INSULATION_LAMBDA_W_PER_MK = 0.04` default thermal
conductivity. New `u_wall` branch fires when cavity + composite
insulation type + non-zero thickness.
(b) SAP 10.2 Table 11 secondary fraction — missing cat-4 entry:
The dict `_SECONDARY_HEATING_FRACTION_BY_CATEGORY` had entries
for cats 1/2/3/5/6/7/10 but DID NOT include cat 4 (heat pump),
despite the inline comment explicitly noting "Cat 4 (heat pump):
0.00 (HP eff includes any secondary)". Cert 0380 lodges
`secondary_heating_type=691` + `main_heating_category=4` (HP,
PCDB idx 104568), so the cascade fell through to the DEFAULT
fraction 0.10 — billing 547 kWh × 13.19 p/kWh = £72 as
"secondary heating" that the worksheet correctly shows as £0.
Added `4: 0.00` to the dict.
Effect on cert 0380 API path:
- walls HLC 14.87 → 11.62 (worksheet exact)
- (37) total HLC 99.34 → 96.09 (worksheet exact)
- main_heating_cost £282 → £314 (worksheet £316)
- secondary_heating £72 → £0 (worksheet £0)
- sap_continuous 87.62 → 90.48 (Δ -0.89 → +1.97 — over-correcting
because hot-water cascade is still cascade-£66 vs worksheet £204
including electric shower; HP HW-COP + electric-shower cost are
the next slices).
No golden cert residual shifts (cohort certs don't lodge HP cat 4
or composite cavity+EWI walls).
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
|
||
|
|
da5e7196c4 |
Slice 96: flat-roof U-value defaults — RdSAP 10 §5.11 Table 18 col (3)
Cert 0330 (mid-terrace boiler, Summary_000897.pdf) Summary path was at
Δ +0.4667 SAP vs worksheet 61.5993 because Ext1's flat roof fell through
`_ROOF_BY_AGE` (Table 18 column (1), pitched-roof "between joists"
defaults) to 0.40 W/m²K for age D — the spec value is 2.30 W/m²K from
column (3) "Flat roof" (RdSAP 10 spec page 45).
RdSAP 10 §5.11 Table 18 column (3) verbatim:
Age A,B,C,D → 2.30; E → 1.50; F → 0.68; G → 0.40; H,I → 0.35;
J,K → 0.25; L → 0.18; M → 0.15.
Footnote (a): "If the roof insulation is 'none' use U = 2.3 (all roof
types, except for thatched roofs)" — confirms the col-3 entries for
old ages are the uninsulated row, applied because cert 0330's Ext1
lodges "Flat" construction with no measured insulation thickness.
Changes:
- `_FLAT_ROOF_BY_AGE` added in rdsap_uvalues.py
- `u_roof` gains `is_flat_roof: bool = False` parameter
- `heat_transmission_from_cert` detects flat roofs from
`part.roof_construction_type` ("flat" substring) and routes through
the new column.
Effect on baseline:
- cert 0330 Summary chain test: RED Δ+0.4667 → GREEN at 1e-4 (worksheet
total fabric heat loss 237.7549 W/K matches cascade to 4 d.p.)
- cert 001479 Layer 4 chain test: unchanged (Main pitched, no flat
components)
- cohort certs 000477/000516: unchanged (no flat roofs)
- golden cert 0300-2747-7640-2526-2135: SAP residual +1 → 0 (improved),
Ext1 is genuinely flat; pe/co2 residuals re-pinned. The dwelling has
the same Main-pitched + Ext1-flat shape as cert 0330; same fix.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
|
||
|
|
a7b08a4e8f |
refactor: move docs/sap-spec/ contents into domain/sap10_calculator/
Locality of reference — SAP-specific docs, specs, and runtime data
now live alongside the calculator that consumes them, mirroring the
prior packages→domain layout moves.
Move targets:
- Narrative MDs → domain/sap10_calculator/docs/
NEXT_AGENT_PROMPT.md, HANDOVER_NEXT.md, SAP_CALCULATOR.md
- Spec PDFs → domain/sap10_calculator/docs/specs/
RdSAP 10 Specification 10-06-2025.pdf
PCDF_Spec_Rev-06b_12_May_2021.pdf
sap-10-2-full-specification-2025-03-14.pdf
sap-10-3-full-specification-2026-01-13.pdf
- PCDB runtime data → domain/sap10_calculator/tables/pcdb/data/
pcdb10.dat (8.3MB) + 7× pcdb_table_*.jsonl (18MB total)
Path code rewrites (load-bearing):
- tables/pcdb/__init__.py: replaced parents[4]/'docs'/'sap-spec' with
Path(__file__).resolve().parent/'data' for Table 105 JSONL loading.
- tables/pcdb/postcode_weather.py: same rebase for the pcdb10.dat path
read by _postcode_climate_table().
- tables/pcdb/etl.py __main__: same rebase for the manual ETL invocation
(source + output_dir both now point inside the package).
- tests/test_pcdb_etl.py: _PCDB_DAT_PATH now derives from
parents[1]/'tables'/'pcdb'/'data' (was parents[3]/'docs'/'sap-spec').
Citation rewrites:
- 12 .py docstrings and 4 .md docs (ADRs + READMEs + narrative docs)
had `docs/sap-spec/<file>` strings rewritten to their new locations.
- Two cases where the catch-all sed misfired (an ADR-0009 line about a
PCDB extract; the pcdb __init__.py docstring about ETL output) were
hand-corrected to point at tables/pcdb/data/ rather than docs/specs/.
docs/sap-spec/ is now empty (will be removed in a follow-up sweep or
left as a vestigial empty dir for future repurposing). ADRs 0009 and
0010 remain at docs/adr/ — they're part of the chronological
cross-cutting decision log, not calculator-specific narrative.
Verified:
- Calculator's 1e-4 production gate
(test_api_001479_full_chain_sap_matches_worksheet_pdf_exactly) GREEN.
- Wider sweep (domain/sap10_calculator/ + domain/sap10_ml/): 1654
passed / 20 failed — exact pre-move baseline. All 20 failures
pre-existing (10 hand-built skeleton + 4 cohort chain + 6 cohort
diff).
- Pyright net-zero on the 4 touched runtime/test files (0 errors)
and unchanged on heat_transmission.py (13) / cert_to_inputs.py (35) /
mapper.py (33).
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
|
||
|
|
68401c517a |
refactor: lift-and-shift packages/domain/src/domain/ml → domain/sap10_ml
Sibling migration to the sap10_calculator move — `domain.ml` now lives
at the root-level layout (`domain/sap10_ml/`) matching the pattern
already used by `domain.addresses`, `domain.tasks`, `domain.postcode`,
and `domain.sap10_calculator`.
Changes:
- `git mv packages/domain/src/domain/ml → domain/sap10_ml` (19 files;
history preserved).
- Subpackage rename: `domain.ml` → `domain.sap10_ml`. 32 references
rewritten across .py and .md files: 11 internal + 21 external
(datatypes/epc/domain/mapper.py, 14 files in domain/sap10_calculator,
2 backend tests, 2 ADRs, 1 README, 1 design doc).
- Path-string updates: `pytest.ini` testpath
`packages/domain/src/domain/ml/tests` → `domain/sap10_ml/tests` so
ML tests stay in the default auto-discovered sweep. `CONTEXT.md`
also updated.
`packages/domain/src/domain/` is now empty — the workspace `domain/`
tree has been fully migrated. Together with the `domain/__init__.py`
deletions from the sap10_calculator commit (
|