EpcClientService.search_by_postcode already returns the matched
certificate number alongside the UPRN, but it was dropped before
persistence. Thread it through get_epc_data_with_postcode ->
get_uprn_with_epc_df / get_uprn_from_historic_epc (using the historic
dataset's lmk_key) -> the address2uprn_certificate_number result
column -> PropertyIdentityInsert -> the property table's new
certificate_number column (assessment-model PR #362).
Co-Authored-By: Claude Sonnet 5 <noreply@anthropic.com>
Ingestion's lookup chain becomes: new EPC API -> historic backup by exact
UPRN -> plain prediction. A found record's stable attributes fill the
gaps Landlord Overrides left (overrides always win) and enrich the target
with age band / fuel / TFA band; the persisted predicted-slot row carries
source="expired". Reader unwired or shard miss -> behaviour unchanged.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Sizing selects the aroTHERM plus rung nearest PSR ~0.8 (0.8 x design heat
loss) — the Appendix-N efficiency peak, reproducing the pump a real
installer fits — rather than the MCS PSR>=1.0 capacity target, which
oversizes. Validated against the relodged Elmhurst ASHP cert (delta 0
held at the 5 kW Vaillant); the two self-snapshot pins re-pin to their
correctly-sized larger pumps, and the orchestrator/harness thread the
calculator's design heat loss so production sizes to the dwelling. Manual
SapResult test stubs carry the new design_heat_loss_kw field.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
The PropertyBaselineOrchestrator now reads no Lodged Performance off a predicted
Property's neighbour-synthesised EPC: lodged is None when source_path is
'predicted', so no phantom lodged figure is manufactured. The Effective half is
unchanged. Rebaseliner port + PropertyBaselinePerformance.lodged widen to
Optional; the pristine-cert paths assert non-None (lodged is None only for a
predicted Property, which is always physical_state_changed).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Add Property.physical_state_changed (true on Site Notes / Landlord Overrides
/ Prediction — trigger (b)/(c)) and pass it from the
PropertyBaselineOrchestrator into the Rebaseliner. So an overridden or
predicted SAP>=10.2 property now stores calc(effective) as its Effective
baseline instead of echoing the lodged headline — closing the "81 in the DB"
divergence between the displayed baseline and the modelled plan.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Even after batching the data writes, the handler still wrote to the DB per
property through the orchestrator's SubTask bookkeeping: create + start +
complete each self-committed, and _cascade re-listed every sibling and re-saved
the parent on every transition — ~5 writes per property plus an O(N^2) cascade.
- TaskOrchestrator.run_subtasks: create all children in one INSERT, run each
(failures isolated per child), then persist all terminal states in one bulk
save and cascade the parent once. Children go WAITING -> terminal; the
transient IN_PROGRESS row is never written.
- SubTaskRepository.create_many / save_many (bulk INSERT / bulk fetch + update).
- _cascade short-circuits when the Task is already FAILED (terminal) — skips the
sibling roll-up entirely.
- modelling_e2e handler fans out via run_subtasks instead of per-property
create_child_subtask + run_subtask.
Per N-property batch the SubTask bookkeeping drops from ~5N writes + an O(N^2)
cascade to ~2 writes + 1 cascade.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
16 modelling_e2e properties failed with "Effective EPC is missing
renewable_heat_incentive; cannot read baseline space-heating / hot-water kWh".
Baseline runs for predicted properties too (ADR-0031), reading space/water-
heating kWh off the EPC's lodged RHI block. Predicted EPCs deep-copy a neighbour
template that may carry no RHI, so `_require_rhi` hard-failed the whole subtask.
Fix: when the EPC has no RHI, fall back to the property's OWN computed figures
from the scored SapResult (space_heating_kwh_per_yr / hot_water_kwh_per_yr) —
more representative than a neighbour's lodged numbers. Only when there is also no
SapResult (the rebaseliner scored nothing) is there genuinely no demand to
record, and we still fail noisily. Lodged certs are unchanged (RHI still wins).
Regression tests: fallback-to-computed, and the no-RHI/no-result raise.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The new pipeline left no per-Property record of a run (the old engine set
property.has_recommendations and populated property_details_epc). Restore the
marker: PropertyRepository.mark_modelled sets has_recommendations (true when the
Plan carries measures, mirroring the old engine) and bumps updated_at, so a
first-run under the new process is identifiable as updated_at >= 2026-06-01.
ModellingOrchestrator marks each Property after its Scenarios (true if any
Scenario yielded a measure); run_modelling_e2e's --persist path marks it too
(its compute runs on in-memory fakes, so the DB UoW sets it directly). Adds the
has_recommendations/updated_at columns to the PropertyRow mirror.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
The measures a run considers should come from the Scenario, not a CLI flag.
The live scenario table persists exclusions only (no inclusions column), as a
Postgres text-array of exact MeasureType values.
- Scenario gains `exclusions: frozenset[MeasureType]` + `considered_measures()`
(all measures minus the excluded ones, or None when none are excluded).
- ScenarioModel.to_domain parses the `{a,b,c}` exclusions array into
MeasureTypes, raising on a token that is not an exact MeasureType value
(no high-level category expansion), per the strict-enum convention.
- ModellingOrchestrator._plan_for derives the allowlist from the Scenario's
exclusions, combined (intersection) with any explicit considered_measures
override via the new `combine_considered_measures`.
- run_modelling_e2e sources the allowlist from the Scenario; --measures /
--exclude-measures become optional overlays (e.g. the technical
secondary_heating_removal exclusion the catalogue cannot yet stock).
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
`restrict_to_considered_measures` filtered candidates only *after* every
generator had run, so an excluded measure still queried the catalogue.
That crashed properties with a lodged secondary heater: the live
`material.type` enum has no `secondary_heating_removal` value, so the
query raised a psycopg2 `InvalidTextRepresentation` before the allowlist
could drop it.
`_candidate_recommendations` now pairs each generator with the measure
types it can emit and runs it only when the allowlist admits one of them
(None = all), so an excluded measure never reaches the catalogue.
`restrict_to_considered_measures` still trims disallowed Options off the
multi-Option survivors. Add `--exclude-measures` to run_modelling_e2e
(allowlist minus the excluded set) for excluding one measure without
enumerating the rest.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Two review points from @dancafc:
1) Rename the `Comparable` dataclass → `ComparableProperty` (it models one
comparable *property*; the collection stays `ComparableProperties`). Applied
across domain, repositories, orchestration, harness, scripts, and tests with a
word-boundary rename so `ComparableProperties` is untouched.
2) Move `PredictionTarget` out of comparable_properties.py into prediction_target.py
(where `PredictionTargetAttributes` + `build_prediction_target` already live).
comparable_properties.py now imports it; no import cycle (prediction_target no
longer depends on comparable_properties). Importers updated.
92 tests pass across the touched suites; pyright strict clean.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Wire EPC Prediction gap-fill into IngestionOrchestrator (ADR-0031). When the
predictor collaborators are injected (ComparablesRepo + PredictionAttributesReader
+ EpcPrediction), an EPC-less Property is predicted from its postcode cohort and
persisted to the predicted slot; the eligibility gate (unknown property_type) and
"a lodged EPC is never predicted over" both hold. The two-phase contract is kept:
prediction attributes (Landlord Overrides) resolve in the unit prep phase, the
cohort fetch + select + predict run in the no-unit IO phase, persistence in the
write phase. All three collaborators are OPTIONAL — unwired, ingestion behaves
exactly as before (existing tests unchanged).
3 tests (predict+persist, gate, lodged-wins); 228 pass across orchestration +
epc_prediction + repositories; pyright strict clean. Production composition-root
wiring (real ComparableProperties + override-attributes adapters) is part of the
Jun-te handover.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Orchestrator runs recommend_secondary_heating_removal; report._triggers_for
explains it via the lodged secondary_heating_type; harness catalogue + ARA seed
price it. Re-pins the golden/integration plans it shifts: it is a cheap (\£250)
SAP lever, so on gas-main certs lodging an electric secondary (691) it displaces
the \£12k ASHP (0330, 0036) or joins the all-beneficial-measures package (000490,
where its marginal SAP is 0 under the category-4 ASHP but the heater is still
physically removed). Consistent with the optimiser's existing kitchen-sink
package behaviour.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>