egutierrez
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Extrae al registry funciones del proyecto interno footprint_aurgi: - core (6): slugify_ascii, normalize_for_join, cp_provincia_es, infer_provincia_from_cp, safe_read_csv_fallback, csv_to_parquet_duckdb - geo puras (7): haversine_km, point_in_ring, point_in_polygon, point_in_polygons_bbox, polygon_bbox, extent_with_padding, distance_bucket - geo I/O (4): load_geojson_polygons, load_boundary_gdf, add_basemap_osm, add_basemap_with_timeout - valhalla client (4): valhalla_route, valhalla_isochrone, valhalla_isochrones_async, valhalla_matrix_1_to_n - datascience stats (7): trimmed_mean, geometric_mean, detect_distribution_type, best_central_tendency, summary_stats, kde_density_levels, alpha_shape_concave_hull - datascience fuzzy (3): fuzzy_merge_adaptive (rapidfuzz), words_to_dataset, remove_words_from_column - datascience viz (2): plot_kde_2d, plot_heatmap_log - infra (4): compress_pdf_ghostscript, render_table_page_pdfpages, add_header_logo, osm2pgsql_ingest - pipelines (4): setup_geo_stack_docker, compute_centers_reachability, generate_isochrones_by_zone, count_points_per_zone - types geo (4): LonLat, BBox, IsochroneRequest, Centro Incluye: - apps/footprint_geo_stack/ (PostGIS + Martin + Valhalla via docker-compose) - 131/132 tests pasan (1 skip esperado: osm2pgsql en PATH) - Issue tracker dev/issues/0052-footprint-aurgi-extraction.md - Atribucion uniforme: source_repo internal:footprint_aurgi, source_license internal-aurgi - Build con 9 agentes en paralelo (8 wave 1 + 1 wave 2 pipelines) Tambien commitea trabajo previo no commiteado: aggregate_extraction_results, chunk_with_overlap, clean_pdf_text, merge_entity_aliases, extract_graph_gliner2, extract_relations_mrebel, extract_triples_spacy_es, gliner2/mrebel/marianmt/rebel/spacy_es load_model, parse_rebel_output, translate_es_to_en, issue 0050/0051. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2.9 KiB
2.9 KiB
id, name, kind, lang, domain, version, purity, signature, description, tags, uses_functions, uses_types, returns, returns_optional, error_type, imports, example, tested, tests, test_file_path, file_path, params, output, source_repo, source_license, source_file
| id | name | kind | lang | domain | version | purity | signature | description | tags | uses_functions | uses_types | returns | returns_optional | error_type | imports | example | tested | tests | test_file_path | file_path | params | output | source_repo | source_license | source_file | |||||||||||||||||||||||||||||||||||
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| compute_centers_reachability_pipeline_py_pipelines | compute_centers_reachability_pipeline | pipeline | py | pipelines | 1.0.0 | impure | async def compute_centers_reachability_pipeline(origins, centers, isochrone_minutes, base_url, concurrency) -> dict | Calcula la accesibilidad de centros de servicio: matriz tiempo/distancia clientes→centros e isócronas por centro usando Valhalla. |
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false | error_go_core | import asyncio result = asyncio.run(compute_centers_reachability_pipeline( origins=[(40.4168, -3.7038), (37.3891, -5.9845)], centers=[(41.3851, 2.1734), (43.2627, -2.9253)], isochrone_minutes=15, )) # result["matrix"] tiene 4 entries (2 orígenes × 2 centros) # result["isochrones"] tiene 2 GeoJSON dicts | true |
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python/functions/pipelines/tests/test_compute_centers_reachability_pipeline.py | python/functions/pipelines/compute_centers_reachability_pipeline.py |
|
Dict con 'matrix' (list[dict] con i,j,meters,seconds,error por par) e 'isochrones' (list[dict|None] con GeoJSON por centro). | internal:footprint_aurgi | internal-aurgi | internal:composed |
Ejemplo
import asyncio
result = asyncio.run(compute_centers_reachability_pipeline(
origins=[(40.4168, -3.7038), (37.3891, -5.9845)], # Madrid, Sevilla
centers=[(41.3851, 2.1734), (43.2627, -2.9253)], # Barcelona, Bilbao
isochrone_minutes=15,
base_url="http://localhost:8002",
))
for entry in result["matrix"]:
print(f"origen[{entry['i']}] → centro[{entry['j']}]: {entry['meters']:.0f}m / {entry['seconds']:.0f}s")
print(f"Isócronas calculadas: {sum(1 for iso in result['isochrones'] if iso is not None)}")
Notas
Función async — requiere asyncio.run(...) o await dentro de un contexto async.
La matriz se calcula con threads (valhalla_matrix_1_to_n usa ThreadPoolExecutor).
Las isócronas se calculan con httpx async (valhalla_isochrones_async).
Orden de la matrix: [(0,0),(0,1),...,(0,N-1),(1,0),...,(M-1,N-1)] donde M=orígenes, N=centros.