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6261 commits

Author SHA1 Message Date
Khalim Conn-Kowlessar
22612a19eb feat(modelling): ASHP reuse case prices flush + half distribution
Slice 3 of ADR-0025 costing. When the dwelling has a reusable wet system,
_distribution charges a power-flush (168) plus _REUSE_DISTRIBUTION_FRACTION
(0.5) of the full radiator band -- a documented stand-in for partial radiator
upsizing at ASHP flow temps, the headline uncertainty in the model. Without a
wet system the full new distribution is priced.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-06 20:41:06 +00:00
Khalim Conn-Kowlessar
cf7c2e017d feat(modelling): ASHP decommission cost by existing system
Slice 2 of ADR-0025 costing. _decommission maps the existing system to its
Southern Housing line: gas/oil flat 720, LPG 960 (tank+fuel removal),
electric-storage 570/840 by property-size band. Unmapped systems raise for
now -- the no-system/electric-other/other fallbacks land in the next slice.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-06 20:36:12 +00:00
Khalim Conn-Kowlessar
d23b84209d feat(modelling): Products.ashp_bundle_cost composite ASHP cost (tracer)
First slice of the per-dwelling ASHP bundle costing (ADR-0025). Products is
the rich catalogue collection over Product, owning the catalogue math: given
a typed AshpCostInputs it sums the applicable Southern Housing rate lines
(decommission + heat-pump band + fixed cylinder + full wet distribution) into
a Cost with the separate 25% ASHP contingency. Pure -- no EpcPropertyData or
calculator. Pinned exact (1e-9) against the real rate sheet. Reuse branch,
decommission variants, fallbacks, band edges and radiator clamp follow.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-06 20:32:54 +00:00
Khalim Conn-Kowlessar
d9c7638b3c test(modelling): ASHP from a system gas boiler with an existing cylinder
Pins the cylinder-OVERWRITE path the earlier ASHP pins did not exercise:
boiler-1/boiler-2 added a cylinder where none existed, whereas boiler-3's
before is a mains-gas regular boiler (SAP code 101) that already heats its
own cylinder (size 2 / insulation type 2 / 80 mm). The fixed _ASHP_OVERLAY
overwrites it to the heat-pump cylinder (size 4 / insulation type 1 / 50 mm)
and switches the dwelling off mains gas (fuel 26->30, code 101->index 101413
+ category 4). The existing overlay reproduces the re-lodged after at delta 0
on SAP / CO2 / primary energy -- no overlay change needed; immersion_heating_
type is None in both, so that field (the electric-with-cylinder case) is
untouched here.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-06 18:20:58 +00:00
Khalim Conn-Kowlessar
ec76acc3d8 test(modelling): ASHP pin from a gas boiler with instantaneous HW + fuel tripwire
Second ASHP before/after (boiler 2): a gas boiler whose hot water is electric/
instantaneous (water-heating SAP code 909, no cylinder). The cascade pin passes
at 1e-4, exercising the overlay's water_heating_code reset 909 -> 901 that the
boiler-1 pin (already 901) did not. (After lodges control 2209 vs the overlay's
2210 — SAP-equivalent zone controls.)

Adds an xfail(strict) tripwire test_gas_boiler_instant_hw_before_baselines: the
raw before is not scorable on its own because the mapper maps the 'BGB' gas-
boiler EES code to an empty main_fuel_type (boiler-1's 'RGE' resolves to 26),
so Sap10Calculator raises MissingMainFuelType. Harmless to the pin (the overlay
overwrites fuel -> 30); flips green when the mapper derives mains gas from the
gas-boiler SAP code (separate mapper-front fix). ADR-0024.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-06 17:40:25 +00:00
Khalim Conn-Kowlessar
9f17a27766 feat(modelling): ASHP overlay resets water_heating_code to the HP end-state
The ASHP bundle is a fixed whole-system end-state (confirmed: always the same
contractor cylinder), so the hot-water arrangement is fixed too. The overlay now
sets water_heating_code=901 ("from main system") absolutely, so a combi (909/611)
or electric (903/908) before is reset to HW-from-the-heat-pump — previously the
overlay relied on the before already lodging 901 (true for boiler-1, not in
general). No-op for the boiler-1 pin (stays 1e-4). Cascade pins for combi /
electric-with-cylinder befores await example certs. ADR-0024.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-06 17:18:58 +00:00
Khalim Conn-Kowlessar
0f89845321 feat(modelling): wire the ASHP bundle into the candidate pool
recommend_heating now receives planning_restrictions in the orchestrator (the
ASHP planning gate); the ASHP bundle joins the free candidate pool for every
house/bungalow. Catalogue + contingency (legacy 0.25) gain air_source_heat_pump;
report.py _triggers_for explains the ASHP trigger; the harness forcing test
covers it. Integration tests seed an air_source_heat_pump MaterialRow (ASHP
fires on every house, the broadest trigger yet). NB the optimiser correctly does
NOT select ASHP for an EPC-band goal — gas->electric does not improve the SAP
cost-rating; ASHP is a CO2/PE measure, selectable once non-EPC goals land. ASHP
bundle COMPLETE (S5-S7). ADR-0024.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-06 17:12:07 +00:00
Khalim Conn-Kowlessar
a1fc697d93 test(modelling): ASHP before/after cascade pin (001431) at 1e-4
A typical mains-gas combi house re-lodged as an air-source heat pump closes at
1e-4 (gas-boiler 1 example from the technical specialist). Closes one named gap
the pin surfaced: a whole-system replacement to a PCDB-indexed system left the
old Table 4a sap_main_heating_code (104) beside the new heat-pump index, and the
stale code won the calculator's efficiency dispatch (hot water billed at boiler
not HP efficiency, ΔSAP 3.98). _fold_heating now enforces the mutual exclusion
of the two efficiency anchors (setting an index clears the SAP code and vice
versa). Also fixed a pre-existing pyright annotation in the lighting applicator
test. ADR-0024.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-06 17:01:40 +00:00
Khalim Conn-Kowlessar
a9da21c4b6 feat(modelling): recommend_heating offers the ASHP bundle
Adds the air-source heat-pump Option to the competing "Heating & Hot Water"
bundles. Its overlay is the absolute heat-pump end-state (fixed representative
PCDB index 101413 + category 4 + control 2210 + HWP cylinder + single meter +
off mains gas), pinned against the relodged after-cert next slice. Eligibility
is physical/planning only (ADR-0024, research-grounded): any non-flat
house/bungalow, not listed/heritage (PlanningRestrictions.blocks_internal —
conservation is offered with a caveat, not excluded), not already a heat pump;
floor area / built form / fuel / fabric are deliberately not gates. recommend_
heating gains a restrictions param (defaulted). An already-HHR electric house
now correctly gets ASHP as a better end-state.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-06 16:56:00 +00:00
Khalim Conn-Kowlessar
b55ab3727f feat(modelling): wire the HHR storage bundle into the candidate pool
recommend_heating joins the free candidate pool in _candidate_recommendations;
the HHR storage bundle reaches the optimised package for an electric/off-gas
dwelling. Catalogue + contingency (legacy 0.10) gain
high_heat_retention_storage_heaters; report.py _triggers_for explains the
heating trigger (electric/off-gas main); the harness _GENERATOR_MEASURE_TYPES
forcing test covers it. ASHP + boiler bundles still to come. ADR-0024.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 19:22:50 +00:00
Khalim Conn-Kowlessar
b3badc9b10 test(modelling): HHRSH before/after cascade pins (001431) at 1e-4
The same absolute-target HHR overlay reproduces the common relodged after from
two different base systems (existing electric storage; "no system present"
electric) — proving the bundle is a true whole-system end-state. Closes one
named gap the pin surfaced: the relodged HHR cylinder lodges
cylinder_thermostat='Y', so HeatingOverlay + _fold_heating + the HHRSH overlay
gain cylinder_thermostat (ΔSAP 0.065 -> <1e-4). ADR-0024.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 19:09:23 +00:00
Khalim Conn-Kowlessar
b883e75da8 feat(modelling): recommend_heating offers the HHR storage bundle
The heating Recommendation Generator (HHRSH first). Emits one "Heating & Hot
Water" Recommendation whose competing whole-system bundles the Optimiser picks
from; this slice builds the high-heat-retention storage Option. Its overlay is
the absolute HHR end-state (Table 4a code 409 + control 2404 + dual off-peak
meter + off-peak electric cylinder), pinned against the relodged after-cert in
the next slice. Eligibility translates legacy is_high_heat_retention_valid to
structured predicates (electric or off-gas main, not already HHR/heat-pump).
mains_gas and the heat emitter are unchanged by the measure, so unset. ADR-0024.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 19:05:02 +00:00
Khalim Conn-Kowlessar
2f6a1e2479 feat(modelling): HeatingOverlay surface + _fold_heating (5-location fold)
The 5th EpcSimulation overlay surface and the deepest applicator fold yet: a
heating bundle is a whole-system replacement, so _fold_heating routes its
absolute-target fields across main_heating_details[0] (fuel/emitter/control +
sap_main_heating_code OR index+category), sap_heating (water_heating_* +
cylinder), the top-level EpcPropertyData (has_hot_water_cylinder), and
sap_energy_source (meter_type, mains_gas). ADR-0024.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 18:59:26 +00:00
Khalim Conn-Kowlessar
a61b6f90c9 docs: heating & hot-water eligibility, bundles, overlay (ADR-0024 + CONTEXT)
Designs the heating Recommendation Generator via /grill-with-docs. Load-bearing
decisions: HW + controls + fuel + meter fold into each competing whole-system
bundle (the legacy heating-vs-HW split double-counted); each bundle is a fixed,
real, contractor-installable end-state (ASHP via PCDB index, HHR storage via
sap_main_heating_code=409), Product stays cost-only; eligibility encodes only
physical/planning installability since the Optimiser owns the economics (the
legacy ASHP built-form / 120 m² rule is dropped — research found no
authoritative basis); the Simulation Overlay is the deepest surface yet,
spanning main_heating_details[0] + sap_heating + top-level EpcPropertyData +
sap_energy_source. Build order HHRSH -> ASHP -> boiler (deferred).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 18:51:33 +00:00
Khalim Conn-Kowlessar
f68cea27c9 fix(extractor): capture all 17 openable §11 windows on cert 001431
The Modelling glazing overlay's draught-proofing recompute (RdSAP 10 §8.1 —
a count over openable windows + doors) needs every openable window captured
with its draught_proofed flag. cert 001431's §11 lodges 17 windows but only
14 surfaced, via two distinct gaps:

1. Extractor (_extract_windows_from_layout): the one "Double glazing, known
   data" row whose §11 Data-Source cell is "BFRC data" was rejected — it is
   laid out as a standalone keyword line with the U-value on the next line
   and lodges no Frame Type/Factor/Gap cells, so it never matched the joined
   "<source> <U>" Manufacturer-line shape. Now anchored by a standalone
   data-source form, with the RdSAP 10 §3.7 default frame factor (0.7) for
   the absent frame cell.

2. Mapper (_is_elmhurst_roof_window): the two "Double pre 2002" rows
   (U 3.1 / 3.4 > 3.0) were reclassified as roof windows by the U-value
   backstop even though both are lodged on an "External wall". A window
   lodged on a wall is vertical by definition; guard the U-value backstop so
   it only fires when location/BP give no roof signal. The backstop's only
   pinned cert (000516 W6) hand-builds its sap_roof_windows and so is
   unaffected.

With both closed: 17 sap_windows, 0 misrouted to sap_roof_windows, 14
draught-proofed — reconstructing Elmhurst's lodged 84% (16/19 = (14 windows
+ 2 doors) / (17 windows + 2 doors)). Full calculator + modelling +
orchestration suites green (1885 pass); the 2 glazing draught-proofing
xfails remain (the overlay recompute is the glazing agent's front).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 14:33:25 +00:00
Khalim Conn-Kowlessar
f7863f986d feat(modelling): wire the lighting generator into the candidate pool
Slice 4 of the lighting generator (ADR-0023): run recommend_lighting in
_candidate_recommendations (no planning gate). Price low_energy_lighting in the
offline catalogue + contingency table (0.26, the legacy rate); the
_GENERATOR_MEASURE_TYPES forcing test enforces both. A run_modelling test pins
the wiring end-to-end (an incandescent-lit dwelling gets the LED upgrade in the
optimised package).

Downstream updates, all because lighting now fires on any cert with non-LED
bulbs: report.py gains the low_energy_lighting trigger (the non-LED counts); the
two golden-cert report tests and the multi-measure integration test now expect
low_energy_lighting alongside the fabric measures (the sample/golden EPCs lodge
low-energy-unknown bulbs); first-run integration seeds a low_energy_lighting
MaterialRow.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 12:39:54 +00:00
Khalim Conn-Kowlessar
ca397e1e3f test(modelling): lighting before/after cascade pins (001431) at 1e-4
Slice 3 of the lighting generator (ADR-0023): two real Elmhurst before/after
cascade pins, sourced from the low_energy_lighting recommendation folder. Both
close cleanly at 1e-4 with NO xfail — lighting changes only bulb counts →
Appendix L (232), no fabric coupling (contrast glazing's draught-proofing).
  - zero existing LEDs: 20 incandescent → 20 LED
  - some existing LEDs: 5 LED + 15 incandescent → 20 LED (partial-upgrade path)
The overlay-emits-correct-counts assertion lives in the Slice 2 unit tests.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 12:27:36 +00:00
Khalim Conn-Kowlessar
dbbfb8ea28 feat(modelling): recommend_lighting upgrades all non-LED bulbs to LED
Slice 2 of the lighting generator (ADR-0023): detect non-LED bulbs
(incandescent + CFL + low-energy-unknown > 0) and emit one "Lighting"
Recommendation whose single low_energy_lighting Option converts every bulb to
LED — the overlay sets led = total, the other three counts 0. Priced as a flat
per-bulb average x the non-LED count, contingency 0.26; the description names
"LED" while the measure_type stays MEASURE_MAP-aligned. None when already
all-LED or no bulb counts are lodged.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 12:23:27 +00:00
Khalim Conn-Kowlessar
139c90c885 feat(modelling): whole-dwelling LightingOverlay surface on EpcSimulation
Slice 1 of the lighting generator (ADR-0023): the first whole-dwelling,
top-level overlay surface. LightingOverlay carries the four fixed-lighting
bulb-count fields by their exact EPC names (all Optional, absolute counts) +
EpcSimulation.lighting. The applicator's _fold_lighting writes the non-None
counts directly onto the result EpcPropertyData by name (setattr) — simpler
than ventilation's nested fold since the counts live top-level. Baseline
unmutated; pyright strict clean.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 12:21:19 +00:00
Khalim Conn-Kowlessar
b460f81233 docs: lighting eligibility, overlay + pricing design (ADR-0023 + CONTEXT)
Resolved in a grill-with-docs pass. recommend_lighting converts ALL non-LED
bulbs (incandescent + CFL + low-energy-unknown) to LED — all the way to LED, not
the legacy "fill to low energy", because SAP §12-1 rates LED efficacy (100)
above LEL (80) / CFL (55). A free Optimiser candidate (it improves SAP), unlike
ventilation's forced dependency. Its overlay is the first whole-dwelling,
top-level surface: a LightingOverlay carrying the four bulb-count fields by
their exact EPC names, folded directly onto EpcPropertyData (led=total, others
0). Priced per-bulb x non-LED count, contingency 0.26, measure_type
low_energy_lighting (MEASURE_MAP-aligned; "LED" in the description). Validation:
real before/after cascade pins (zero-existing-LEDs + some-existing-LEDs) at 1e-4,
clean (no fabric coupling). Ground-truth confirmed: 20 incandescent -> 20 LED
drops lighting (232) 783.7 -> 232.7 kWh/yr.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 12:02:40 +00:00
Khalim Conn-Kowlessar
07dbaa5361 feat(modelling): detect single-glazing code 15 + glazing before/after pins
With the mapper now in main, cert 001431 parses: it lodges four single-glazed
windows — codes 1 ("Single") and 15 ("single glazing, known data", a single
pane with manufacturer U/g). The generator only detected code 1, so it missed
two panes. Detect {1, 15}; set the secondary target to code 11 ("Secondary
glazing - Normal emissivity", what the cert re-lodges; score-neutral vs 7 but
exact).

A deterministic green pin proves the overlay reproduces the after's 14 windows
exactly. The full-SAP before->after pins are xfail(strict) tripwires: the
overlay nails the windows, but the measure also re-lodges percent_draughtproofed
84->100 (sealed units draught-proof the replaced openings) plus a ~0.4 SAP
fabric residual the overlay doesn't model yet — a glazing-measure coupling to
close later.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 11:23:57 +00:00
Khalim Conn-Kowlessar
2c36a8e1d6 Merge remote-tracking branch 'origin/main' into feature/bill-derivation
# Conflicts:
#	repositories/property/property_postgres_repository.py
#	tests/orchestration/fakes.py
2026-06-05 11:09:00 +00:00
KhalimCK
3bdfa0287c
Merge pull request #1169 from Hestia-Homes/feature/per-cert-mapper-validation
Feature/per cert mapper validation
2026-06-05 11:50:11 +01:00
Khalim Conn-Kowlessar
36f74360a5 feat(modelling): explicit park-home guard in the solid-wall generator
ADR-0019 warns that wall_construction code 8 is Park home (PH), NOT system-
built. It was already excluded (8 isn't in the constructable-options map), but
only implicitly. Add an explicit early-return + named constant so a park home
can never be mis-keyed as system-built, with a pin as the tripwire. A park
home's proprietary panel is never EWI/IWI-suitable.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 10:49:50 +00:00
Khalim Conn-Kowlessar
a6b798218f fix: normalize empty API sap_roof_windows to None for round-trip fidelity
`test_epc_property_data_round_trips[RdSAP-Schema-21.0.1]` failed with
`sap_roof_windows: None != []` — a normalization mismatch, not lost data.
The 21.0.1 fixture has no roof windows, but the 21.0.1 API mapper emitted
an empty list `[]` while the domain field defaults to None
(`Optional[List[SapRoofWindow]] = None`), the 21.0.0 path yields None, and
the persistence reload yields None (roof windows aren't stored yet — doc
§2.4). Append `or None` so "no roof windows" has one canonical
representation across mapper paths and the round-trip.

No data-loss change: a cert WITH roof windows still produces the
populated list (test_golden_fixtures pins a 6-roof-window cert), and the
§2.4 roof-window persistence gap remains separately tracked. Full
sap10_calculator + documents_parser + epc-repository suites pass (2420);
pyright unchanged.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 10:45:44 +00:00
Daniel Roth
cfdd5a146a
Merge pull request #1179 from Hestia-Homes/increase-rds-storage
Increase size of RDS from 20GB to 50GB
2026-06-05 11:40:18 +01:00
Daniel Roth
47dd6ca20e postgres go bigger 2026-06-05 10:39:05 +00:00
Khalim Conn-Kowlessar
5597a8b87e review: bind test inputs in Arrange for the wall-insulation-thickness tests
PR feedback (dancafc): the `_api_resolve_wall_insulation_thickness` tests
passed literals straight into the Act call. Bind them as named variables
in Arrange (`lodged_thickness`, `measured_value_mm`, `ni_lodgement`) and
have the asserts reference those names, so the Act line reads
declaratively and the inputs/expectations are stated once. Applied to all
three tests in the class. No behaviour change; tests pass.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 10:26:17 +00:00
Khalim Conn-Kowlessar
86b875af35 review: clearer room-in-roof area variable names in heat_transmission
PR feedback (dancafc): the simplified room-in-roof branch used cryptic
locals. Rename for clarity (behaviour-unchanged; the geom dict keys and
the builder-function locals are untouched):

  rr_a_rr      -> rr_roof_area          (the worksheet's simplified A_RR)
  rr_common    -> rr_common_wall_area
  rr_gable     -> rr_gable_area
  a_rr_final   -> rr_residual_roof_area  (leftover roof-going area after
                                          deducting perimeter walls/gables
                                          /rooflights — takes the roof U)

Names now mirror the `rr_*_area_m2` geom keys they read from and say
"area of what". Added a one-line note that `rr_roof_area` is the RdSAP 10
§3.10.1 A_RR. Pyright unchanged; 1087 heat-transmission/cascade-pin tests
pass.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 10:18:58 +00:00
Khalim Conn-Kowlessar
77f90e144e review: store epc_building_part.wall_insulation_thickness as JSONB
PR feedback (dancafc): the SQLModel column was Optional[str], but the
domain `SapBuildingPart.wall_insulation_thickness` is Optional[Union[str,
int]] — `_api_resolve_wall_insulation_thickness` returns an int mm when the
API lodges `wall_insulation_thickness == "measured"` (SAP 10.2 §5.7 /
Table 8). The plain str column round-trips that int back as the string
"100", corrupting the Table 8 insulated-wall U-value lookup.

This column was missed in the round-trip-fidelity §1 JSONB sweep
(#1129) — its `Union[str, int]` sibling `roof_insulation_thickness` was
converted, but `wall_insulation_thickness` was not, and no 21.0.0/21.0.1
fixture lodges "measured" so the gap stayed latent. Convert to JSONB
(matching `roof_insulation_thickness` / `flat_roof_insulation_thickness`),
align the column type to Optional[Union[str, int]] (also removes a pyright
type-mismatch), record it in the migration doc §1, and add a round-trip
guard test asserting an int survives as an int (fails as '100' == 100 on
the old str column).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 10:07:24 +00:00
Khalim Conn-Kowlessar
82cb30ee65 test(modelling): un-xfail the system-built EWI/IWI pin (#1177 resolved)
The merged per-cert-mapper-validation work disambiguates Elmhurst 'SY System
build' from 'B Basement wall' (both lodged wall_construction=6), so
main_wall_is_basement is no longer wrongly True for system-built and the
solid-wall generator offers EWI+IWI. The strict xfail now XPASSes; drop the
marker so it stands as a real green cascade pin.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 10:06:08 +00:00
Khalim Conn-Kowlessar
f33bb9d52d feat(modelling): room-in-roof safety guard defers the roof generator
A room-in-roof carries its insulation on its own sloping/stud/gable surfaces
(RdSAP 10 §3.10, Table 17/18), which the roof overlay's flat
roof_insulation_thickness bump cannot model. Without a guard a RR with an
uninsulated loft fell through to the loft fallback and mis-recommended 300 mm
loft insulation. Return None when the main part lodges a sap_room_in_roof,
deferring until a dedicated RR branch lands (ADR-0021).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 10:06:08 +00:00
Khalim Conn-Kowlessar
c882cb2c95 review: typehint Optional locals around _parse_thickness_mm call sites
PR feedback (dancafc): `_parse_thickness_mm` handles a None input and
returns Optional[int], so its call-return locals — and the Optional[str]
raws they read from `_local_val` — read clearer when annotated. Annotates
`thickness_raw`/`ins_thickness_raw: Optional[str]` and
`thickness_mm`/`insulation_thickness_mm: Optional[int]` at all four call
sites (_wall_details_from_lines, _alternative_walls_from_lines,
_roof_details_from_lines, _floor_details_from_lines), plus the adjacent
`u_val_raw`/`default_u` Optional pair in _floor_details_from_lines for
consistency. Matches the project convention of typehinting call-return
locals. No behaviour change; pyright clean, 569 parser tests pass.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 09:56:06 +00:00
Khalim Conn-Kowlessar
218840db98 docs: handover for the open window-extraction work on the double_glazing fixture
Captures the diagnosis so the next agent doesn't re-derive it: what's done
(S0380.235-237), what's confirmed correct (calculator U-adjustment, party
wall, glazing labels), the worksheet pin targets, and the two open causes —
crucially the 000516 trap (byte-identical Summary data classified as a roof
window there but a wall window here, so flipping the U>3 rule regresses
000516). Includes a rebuildable tracer recipe.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 09:47:29 +00:00
Khalim Conn-Kowlessar
14a27c7a61 Merge branch 'feature/per-cert-mapper-validation' of https://github.com/Hestia-Homes/Model into feature/per-cert-mapper-validation
# Conflicts:
#	backend/documents_parser/tests/test_summary_pdf_mapper_chain.py
#	tests/domain/sap10_calculator/worksheet/test_heat_transmission.py
2026-06-05 09:47:29 +00:00
Khalim Conn-Kowlessar
8323d9cf07 Merge branch 'feature/per-cert-mapper-validation' of https://github.com/Hestia-Homes/Model into feature/bill-derivation 2026-06-05 09:38:40 +00:00
Khalim Conn-Kowlessar
4783ff9dfd test(fixtures): build_epc() deep-copies its windows so callers can't leak state
The worksheet build_epc() fixtures wrapped a module-level SECTION_6_VERTICAL_
WINDOWS tuple in list(), so every call returned the SAME SapWindow objects. A
test that mutated a returned window (the glazing slices flip glazing_type to
single) leaked that change into every later build_epc() -- which surfaced as
double_glazing-product failures in the first-run integration tests only when
test_console ran first in the same process.

Deep-copy the windows per call in all six fixtures (000474/477/480/487/490/516)
so each EpcPropertyData owns an independent window graph, and drop the
now-redundant defensive copy at the glazing test's call site.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 09:36:56 +00:00
Khalim Conn-Kowlessar
8133521c43 S0380.237: map "Secondary glazing - Low emissivity" → SAP 10.2 code 12
Completes the secondary-glazing family. S0380.235 mapped the unknown-data
(7) and normal-emissivity (11) secondary variants; the RdSAP-21.0.1
`glazed_type` enum also defines code 12 "secondary glazing, low
emissivity", whose Elmhurst §11 label "Secondary glazing - Low
emissivity" was unmapped and would strict-raise. Cascade code 12 carries
the same daylight/solar bucket as 7/11 (g_L=0.80, g⊥=0.76); the lodged
manufacturer U/g drive §3/§6. With this the double family (codes 1/2/3/
7/13 via their Elmhurst phrasings) and the secondary family (4/11/12) are
fully covered. Coverage test extended.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 09:35:35 +00:00
Khalim Conn-Kowlessar
456a81df0a feat(modelling): wire glazing generator into the candidate pool
Slice 4 of the glazing generator (ADR-0022): run recommend_glazing in
_candidate_recommendations, threading the Property's PlanningRestrictions so a
protected dwelling is offered secondary glazing instead of double (mirrors
recommend_solid_wall). Price both Measure Types in the offline catalogue
(double £600/window, secondary £510 -- the legacy 0.85x scaling) and the
contingency table (0.15, the legacy windows_glazing rate); the
_GENERATOR_MEASURE_TYPES forcing test enforces both entries exist.

run_modelling tests pin the wiring end-to-end on an all-single-glazed dwelling:
double when unrestricted, secondary when listed. The first-run integration test
seeds a double_glazing Product because its lodged EPC has a single-glazed
window. _single_glazed_epc() deep-copies build_epc() (which shares its window
objects) so the mutation can't leak into other tests' baselines.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 09:29:09 +00:00
Khalim Conn-Kowlessar
ea35bed24c S0380.236: extension party-wall type read independently of "As Main Wall"
RdSAP 10 §3.3: "As Main Wall: Yes" makes an extension inherit the main
dwelling's external wall CONSTRUCTION only — the party wall type is
lodged separately per building part in the Summary §7 block and may
differ. `_extract_extensions` was copying `main_walls.party_wall_type`
into the inherited WallDetails, so every extension reused the main's
party wall U.

On the double_glazing fixture (Summary_001431) the Main lodges party
"CU Cavity masonry unfilled" (SAP10 wall_construction 4 → u_party_wall
0.5) but the 1st Extension lodges "U Unable to determine" (→ 0 → RdSAP
default 0.25). Pre-fix both building parts used 0.5, inflating worksheet
(32) party-wall heat loss by 6.56 W/K (Ext1 26.25 m² × 0.25). After the
fix worksheet (32) is exact: ours 32.573 vs worksheet 32.5725.

Now reads the extension's own "Party Wall Type" from its §7 chunk,
falling back to the main's only when the extension lodges none. Adds a
fixture + test asserting Main=4 / Ext=0 with distinct u_party_wall.
Suite 2413 pass; no cohort regression.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 09:19:43 +00:00
Khalim Conn-Kowlessar
276dd1a500 feat(modelling): planning protection picks secondary over double glazing
Slice 3 of the glazing generator (ADR-0022): a conservation/listed/heritage
protection (PlanningRestrictions.blocks_external) hard-picks secondary_glazing
instead of double_glazing -- an internal second pane, since the external units
can't be replaced on a protected building. Each single-glazed window upgrades
to the secondary target pinned from cert 001431 (glazing_type=7, u_value=2.90,
solar_transmittance=0.85 -- the outer single pane still drives solar gain).

The before/after cascade pins for both measures remain deferred behind the
glazing-label mapper coverage (owned by another agent).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 09:18:17 +00:00
Khalim Conn-Kowlessar
8d081cb9d6 feat(modelling): recommend_glazing upgrades single-glazed windows to double
The glazing Recommendation Generator (ADR-0022): detect single-glazed
windows (SAP10.2 Table U2 code 1) and emit one "Windows" Recommendation whose
single Option rewrites every single-glazed window to the double-glazing target
pinned from cert 001431's before->after (glazing_type=5, u_value=1.40,
solar_transmittance=0.72). The overlay writes the per-window U/g into
WindowTransmissionDetails because the calculator consumes those directly.
Priced as a flat per-window average x count. No single-glazed windows -> None.

Planning gate (-> secondary) and the before/after cascade pins land next; the
pins are blocked on glazing-label mapper coverage (owned by another agent).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 09:17:09 +00:00
Khalim Conn-Kowlessar
3e45b7fa3b S0380.235: map the remaining Elmhurst §11 glazing labels to SAP 10.2 Table 6b
The double_glazing recommendation fixture (Summary_001431) exercises every
RdSAP-21 §11 glazing lodging in one cert; five labels were missing from
`_ELMHURST_GLAZING_LABEL_TO_SAP10` and strict-raised `UnmappedElmhurstLabel`:

  "Secondary glazing"                     -> 7   (Table 6b "secondary glazing", g_L 0.80)
  "Secondary glazing - Normal emissivity" -> 11  (RdSAP-21 secondary normal-E, g_L 0.80)
  "Triple pre 2002"                       -> 10  (triple pre-2002, g_L 0.70)
  "Triple with unknown install date"      -> 6   (generic triple glazed, g_L 0.70)
  "Single glazing, known data"            -> 15  (single known-data, g_L 0.90)

The glazing code's only cascade effect is the §5 (66)..(67) daylight factor
g_L in `_G_LIGHT_BY_GLAZING_CODE` (single 0.90 / double+secondary 0.80 /
triple 0.70); the lodged manufacturer U-value and solar_transmittance drive
§3 / §6 directly (`_g_perpendicular` prefers the lodged value). Codes are the
semantically-exact RdSAP-21 rows within the correct g_L bucket, kept distinct
for the strict-raise audit trail. Adds a full-coverage test over all 13
distinct labels. Suite 2413 pass.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 08:15:11 +00:00
Khalim Conn-Kowlessar
3d738bd4c6 test(fixtures): add glazing before/after certs (001431) for the pin slices
The double_glazing / secondary_glazing Elmhurst before→after Summaries the
glazing generator's cascade pins will use (ADR-0022). NB: these don't parse
yet — cert 001431 lodges several unmapped glazing labels ("Secondary glazing",
"Secondary glazing - Normal emissivity", "Triple pre 2002", truncated
"Double…"/"Triple…" variants) that the mapper must cover first.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-05 07:54:43 +00:00
Khalim Conn-Kowlessar
6d4fa5dd3b docs: handover — fold in S0380.232-234 (case-19 PV closure) + open causes
Records the three PV slices shipped (D_PV off-peak exclusion, weighted
dwelling import price, Appendix G4 diverter), the resulting case-19 state
(SAP 50.33→51.34, rounds to lodged 51), and the two remaining case-19
causes (winter Appendix-M EPV monthly shape; fabric (33) +1.0). Adds the
`2100-5421` worst-offender diagnosis (a 352 m² uninsulated solid-wall
dwelling on the as-built-insulated-assumed roof-U front, not a flats bug).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-04 23:06:20 +00:00
Khalim Conn-Kowlessar
9521d52403 S0380.234: PV diverter (Appendix G4) — diverts surplus PV to the cylinder
SAP 10.2 Appendix G4 (PDF p.72-73). A PV diverter routes surplus PV
generation (the would-be export EPV,m × (1 − βm)) to an immersion heater
in the hot-water cylinder. Per G4 step 4:

    SPV,diverter,m = EPV,m × (1 − βm) × 0.8 × fPV,diverter,storageloss

(0.8 = cylinder heat-acceptance; fPV,diverter,storageloss = 0.9 for the
higher storage temperature), clamped to ≤ (62)m + (63a)m, and entered as
the negative worksheet (63b)m (step 5). The β factor is computed on the
PRE-diverter (219) per the §3a note (lines 5485-5486). Effects:
  - (64)m = (62)m + (63b)m → less main-system water-heating fuel (219);
  - export drops to EPV,ex,m = EPV,m(1 − βm) + (63b)m / 0.9 (§4 p.94
    line 5501); the onsite dwelling portion EPV,m × βm is unchanged.

Inclusion (G4 step 1) requires ALL of: a PV system connected to the
dwelling; a cylinder larger than (43) average daily HW use; no solar
water heating; no battery — else the diverter is disregarded.

Three layers:
  - extractor reads Summary §19 "Diverter present"; schema 21.0.0/21.0.1
    SapEnergySource gains `pv_diverter` (API `sap_energy_source.pv_diverter`);
  - `Renewables.pv_diverter_present` + domain `SapEnergySource.pv_diverter_present`,
    set in both the Elmhurst and API mapper paths;
  - `_pv_diverter_monthly_kwh` applies the G4 math after the β split;
    `cert_to_inputs` recomputes (219) and the PV export.

On simulated case 19 (electric storage heaters, 7-hour, PV + diverter):
SAP continuous 50.33 → 51.34 (worksheet 51.2221; both round to the
lodged 51), cost (255) 1847.5 → 1812.3 (ws 1816.6), CO2 (272) 3331 →
3120 (ws 3126), with (233a) dwelling 1280.6 (ws 1280.4). The residual
+0.11 SAP is an upstream winter Appendix-M monthly-EPV-shape gap +
fabric (33) +1.0, tracked as the next case-19 cause. Suite: 2412 pass.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-04 22:59:12 +00:00
Khalim Conn-Kowlessar
d4a8c02b54 S0380.233: PV self-consumption credited at Table 12a weighted import rate
SAP 10.2 Appendix M1 §6 (PDF p.94, lines 5510-5513): "apply the normal
import electricity price to PV energy used within the dwelling and the
'electricity sold to grid, PV' price from Table 12 to the energy
exported. In the case of the former, use a weighted average of high and
low rates (Table 12a)."

`_pv_dwelling_import_price_gbp_per_kwh` was returning the bare off-peak
LOW rate (5.50 p/kWh on a 7-hour tariff) for the PV-used-in-dwelling
credit. PV self-consumption displaces the dwelling's "all other uses"
electricity (lighting / appliances / pumps), which on an off-peak tariff
bills at the Table 12a Grid 2 ALL_OTHER_USES weighted blend, not the low
rate. On simulated case 19 the worksheet (252)/(269) credits
PV-used-in-dwelling at 14.3110 p/kWh = 0.90 × 15.29 + 0.10 × 5.50; we
credited it at 5.50, under-crediting onsite PV by ~£0.088/kWh on every
off-peak PV cert.

Fix delegates to `_other_fuel_cost_gbp_per_kwh(tariff, prices)` (the same
ALL_OTHER_USES rate): STANDARD tariff still returns the flat Table 32
code 30 13.19 p/kWh (golden cohort unchanged — all 2412 tests pass);
off-peak returns the weighted high/low blend. Call sites now pass the
resolved `_rdsap_tariff(epc)`. The now-unused
`_off_peak_low_rate_gbp_per_kwh_via_meter_heuristic` (its only caller)
is removed.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-04 22:57:40 +00:00
Khalim Conn-Kowlessar
275a521071 feat(modelling): per-window overlay surface on EpcSimulation
Slice 1 of the glazing generator (ADR-0022). `WindowOverlay` (all-optional
partial of one SapWindow) + `EpcSimulation.windows` keyed by sap_windows index.
The applicator folds it onto sap_windows[i]: glazing_type flat on the window,
u_value/solar_transmittance routed into its WindowTransmissionDetails (created
if absent) — the applicator's first nested write, because that's where the
calculator reads window heat loss and solar gain. Baseline left unmutated.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-04 22:57:02 +00:00
Khalim Conn-Kowlessar
0846b61304 docs: glazing eligibility, overlay + pricing design (ADR-0022 + CONTEXT)
Grill-with-docs outcome for the glazing generator. Single planning-picked
Measure (double when unrestricted, secondary for conservation/listed/heritage),
upgrading all single-glazed windows together. The overlay writes lodged U-value
+ solar-g directly into WindowTransmissionDetails (our calculator consumes those
as inputs — it does NOT derive them from glazing_type, unlike Elmhurst) plus
glazing_type for the §5 daylight factor; EpcSimulation gains a per-window
`windows` surface. Priced flat average-per-window × single-glazed count.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-04 22:44:13 +00:00
Khalim Conn-Kowlessar
212b0c92ab S0380.232: D_PV excludes low-rate portion of off-peak electric main heating
SAP 10.2 Appendix M1 §3a (PDF p.93, lines 5470-5476): "E_space,m =
(211)m + (213)m + (215)m, where (211), (213) and/or (215) should be
included only where the fuel code applied to them in Section 10a of the
SAP worksheet is 30, 32, 34, 35 or 38 (i.e. electricity not at the
low-rate)."

The PV-eligible demand D_PV,m was adding 100% of the main space-heating
fuel (211)m whenever the main's Table-12 code was in the eligible set
(30, …), ignoring the off-peak high/low split that §10a already bills
via `_space_heating_fuel_cost_gbp_per_kwh`. Electric STORAGE heaters on
a 7-hour tariff are charged wholly at the low rate (Table 12a Grid 1 SH
fraction 0.00; worksheet (240) high-rate cost = 0), so none of (211)
may enter D_PV — but the cascade counted it all, inflating R_PV,m =
E_PV,m / D_PV,m and therefore the β onsite-PV split in the heating
months.

Fix mirrors the cost-side rate split: `_main_space_heating_high_rate_
fraction(main, tariff)` returns the high-rate portion (1.0 for
non-electric / STANDARD, the published Grid 1 SH fraction otherwise,
0.0 when the Grid 1 SH row is unwired → 100% low rate), and
`_pv_eligible_demand_monthly_kwh` scales the (211)m contribution by it.
Backward-compatible: STANDARD-tariff electric mains and the gas-main /
electric-secondary PV cohort are unchanged (fraction 1.0).

On simulated case 19 (electric storage heaters, 7-hour, PV) this takes
β_Jan 0.894 → 0.792, matching the worksheet 0.791, and the summer months
(no main heating) already pinned exactly.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-04 22:07:04 +00:00