remove old code

src/geo_assistant/tools/overture.py

@@ -86,242 +86,3 @@ def get_place(
             ],
         },
     )
-
-
-# @tool
-# def get_overture_locations(
-#     area_of_interest: Feature,
-#     place_name: Optional[str] = None,
-#     place_type: Optional[str] = None,
-#     overture_release: str = "2024-11-13.0",
-#     similarity_threshold: float = 0.6,
-#     tool_call_id: Annotated[str, InjectedToolCallId] = "",
-# ) -> Command:
-#     """
-#     Get locations from Overture Maps.
-
-#     Parameters
-#     ----------
-#     area_of_interest : Feature
-#         Area of interest to search for locations in
-#     place_name : str, optional
-#         Name of the place to search for
-#     place_type : str, optional
-#         Type of the place to search for
-#     overture_release : str
-#         Overture Maps release version
-#     similarity_threshold : float
-#         Minimum similarity score (0-1) for fuzzy name matching
-#     tool_call_id : str
-#         Tool call ID
-
-#     Returns
-#     -------
-#     Command
-#         Command that updates state with location features
-#     """
-
-#     con = duckdb.connect()
-
-#     con.execute("INSTALL spatial;")
-#     con.execute("LOAD spatial;")
-
-#     con.execute("INSTALL httpfs;")
-#     con.execute("LOAD httpfs;")
-
-#     con.execute(
-#         """
-#         CREATE OR REPLACE TABLE aoi AS
-#         SELECT ST_GeomFromGeoJSON(?) AS geom
-#     """,
-#         [area_of_interest.geometry.model_dump_json()],
-#     )
-
-#     base_url = f"s3://overturemaps-us-west-2/release/{overture_release}/theme=places/type=place/*"
-
-#     where_conditions = ["ST_Within(ST_GeomFromWKB(geometry), (SELECT geom FROM aoi))"]
-
-#     if place_type:
-#         where_conditions.append(f"categories.primary = '{place_type}'")
-
-#     if place_name:
-#         where_conditions.append(
-#             f"jaro_winkler_similarity(LOWER(names.primary), LOWER('{place_name}')) >= {similarity_threshold}"
-#         )
-
-#     where_clause = " AND ".join(where_conditions)
-
-#     query = f"""
-#         SELECT
-#             id,
-#             ST_AsText(ST_GeomFromWKB(geometry)) as geometry_wkt,
-#             names.primary as name,
-#             categories.primary as primary_category,
-#             confidence,
-#             websites,
-#             phones,
-#             addresses
-#         FROM read_parquet('{base_url}', filename=true, hive_partitioning=1)
-#         WHERE {where_clause}
-#     """
-
-#     result = con.execute(query).fetchall()
-#     columns = [desc[0] for desc in con.description]
-
-#     locations = [dict(zip(columns, row)) for row in result]
-
-#     # Convert locations to GeoJSON Features
-#     features = []
-#     for loc in locations:
-#         # Parse WKT geometry to GeoJSON
-#         geom_wkt = loc.get("geometry_wkt")
-#         if geom_wkt:
-#             shapely_geom = wkt.loads(geom_wkt)
-#             geom_dict = mapping(shapely_geom)
-
-#             # Create properties from location data
-#             properties = {
-#                 "id": loc.get("id"),
-#                 "name": loc.get("name"),
-#                 "primary_category": loc.get("primary_category"),
-#                 "confidence": loc.get("confidence"),
-#                 "websites": loc.get("websites"),
-#                 "phones": loc.get("phones"),
-#                 "addresses": loc.get("addresses"),
-#             }
-
-#             feature = Feature(geometry=geom_dict, properties=properties)
-#             features.append(feature)
-
-#     con.close()
-
-#     tool_message = f"Found {len(features)} locations matching the criteria"
-
-#     return Command(
-#         update={
-#             "features": features,
-#             "messages": [ToolMessage(content=tool_message, tool_call_id=tool_call_id)],
-#         },
-#     )
-
-
-# @tool
-# def geocode_division(
-#     query: str,
-#     level: Optional[str] = None,
-#     overture_release: str = "2024-11-13.0",
-#     similarity_threshold: float = 0.6,
-#     limit: int = 10,
-#     tool_call_id: Annotated[str, InjectedToolCallId] = "",
-# ) -> Command:
-#     """
-#     Geocode a place name using Overture divisions data.
-
-#     Parameters
-#     ----------
-#     query : str
-#         Place name to search for (e.g., "San Francisco", "California", "United States")
-#     level : str, optional
-#         Division level to filter by. Options:
-#         - 'country'
-#         - 'region' (states, provinces)
-#         - 'county' (counties, districts)
-#         - 'locality' (cities, towns)
-#         - 'localadmin' (local administrative areas)
-#         - 'neighborhood'
-#     overture_release : str
-#         Overture Maps release version
-#     similarity_threshold : float
-#         Minimum similarity score (0-1) for fuzzy name matching
-#     limit : int
-#         Maximum number of results to return
-
-#     Returns
-#     -------
-#     Command
-#         Command that updates state with division features
-#     """
-
-#     con = duckdb.connect()
-
-#     con.execute("INSTALL spatial;")
-#     con.execute("LOAD spatial;")
-
-#     con.execute("INSTALL httpfs;")
-#     con.execute("LOAD httpfs;")
-
-#     base_url = f"s3://overturemaps-us-west-2/release/{overture_release}/theme=divisions/type=division/*"
-
-#     where_conditions = [
-#         f"jaro_winkler_similarity(LOWER(names.primary), LOWER('{query}')) >= {similarity_threshold}"
-#     ]
-
-#     if level:
-#         where_conditions.append(f"subtype = '{level}'")
-
-#     where_clause = " AND ".join(where_conditions)
-
-#     query_sql = f"""
-#         SELECT
-#             id,
-#             ST_AsText(ST_GeomFromWKB(geometry)) as geometry_wkt,
-#             names.primary as name,
-#             names.common as common_names,
-#             subtype as division_level,
-#             country,
-#             region,
-#             hierarchies,
-#             population,
-#             capital,
-#             wikidata,
-#             sources,
-#             jaro_winkler_similarity(LOWER(names.primary), LOWER('{query}')) as similarity_score
-#         FROM read_parquet('{base_url}', filename=true, hive_partitioning=1)
-#         WHERE {where_clause}
-#         ORDER BY similarity_score DESC
-#         LIMIT {limit}
-#     """
-
-#     result = con.execute(query_sql).fetchall()
-#     columns = [desc[0] for desc in con.description]
-
-#     divisions = [dict(zip(columns, row)) for row in result]
-
-#     # Convert divisions to GeoJSON Features
-#     features = []
-#     for div in divisions:
-#         # Parse WKT geometry to GeoJSON
-#         geom_wkt = div.get("geometry_wkt")
-#         if geom_wkt:
-#             shapely_geom = wkt.loads(geom_wkt)
-#             geom_dict = mapping(shapely_geom)
-
-#             # Create properties from division data
-#             properties = {
-#                 "id": div.get("id"),
-#                 "name": div.get("name"),
-#                 "common_names": div.get("common_names"),
-#                 "division_level": div.get("division_level"),
-#                 "country": div.get("country"),
-#                 "region": div.get("region"),
-#                 "hierarchies": div.get("hierarchies"),
-#                 "population": div.get("population"),
-#                 "capital": div.get("capital"),
-#                 "wikidata": div.get("wikidata"),
-#                 "sources": div.get("sources"),
-#                 "similarity_score": div.get("similarity_score"),
-#             }
-
-#             feature = Feature(geometry=geom_dict, properties=properties)
-#             features.append(feature)
-
-#     con.close()
-
-#     tool_message = f"Found {len(features)} divisions matching '{query}'"
-
-#     return Command(
-#         update={
-#             "features": features,
-#             "messages": [ToolMessage(content=tool_message, tool_call_id=tool_call_id)],
-#         },
-#     )