# pylint: disable=[R0902, R0903] """Module that exposes common db operations""" from dataclasses import asdict, astuple from typing import Optional, Dict, Any from typing_extensions import Protocol from gn3.db.metadata_audit import MetadataAudit from gn3.db.phenotypes import Phenotype from gn3.db.phenotypes import PublishXRef from gn3.db.phenotypes import Publication from gn3.db.metadata_audit import metadata_audit_mapping from gn3.db.phenotypes import phenotype_mapping from gn3.db.phenotypes import publication_mapping from gn3.db.phenotypes import publish_x_ref_mapping TABLEMAP = { "metadata_audit": metadata_audit_mapping, "Phenotype": phenotype_mapping, "PublishXRef": publish_x_ref_mapping, "Publication": publication_mapping, } DATACLASSMAP = { "metadata_audit": MetadataAudit, "Phenotype": Phenotype, "PublishXRef": PublishXRef, "Publication": Publication, } class Dataclass(Protocol): """Type Definition for a Dataclass""" __dataclass_fields__: Dict def update(conn: Any, table: str, data: Dataclass, where: Dataclass) -> Optional[int]: """Run an UPDATE on a table""" if not (any(astuple(data)) and any(astuple(where))): return None data_ = {k: v for k, v in asdict(data).items() if v is not None and k in TABLEMAP[table]} where_ = {k: v for k, v in asdict(where).items() if v is not None and k in TABLEMAP[table]} sql = f"UPDATE {table} SET " sql += ", ".join(f"{TABLEMAP[table].get(k)} " "= %s" for k in data_.keys()) sql += " WHERE " sql += " AND ".join(f"{TABLEMAP[table].get(k)} = " "%s" for k in where_.keys()) with conn.cursor() as cursor: cursor.execute(sql, tuple(data_.values()) + tuple(where_.values())) conn.commit() return cursor.rowcount def fetchone(conn: Any, table: str, where: Dataclass) -> Optional[Dataclass]: """Run a SELECT on a table. Returns only one result!""" if not any(astuple(where)): return None where_ = {k: v for k, v in asdict(where).items() if v is not None and k in TABLEMAP[table]} sql = f"SELECT * FROM {table} " sql += "WHERE " sql += " AND ".join(f"{TABLEMAP[table].get(k)} = " "%s" for k in where_.keys()) with conn.cursor() as cursor: cursor.execute(sql, tuple(where_.values())) return DATACLASSMAP[table](*cursor.fetchone()) def insert(conn: Any, table: str, data: Dataclass) -> Optional[int]: """Run an INSERT into a table""" dict_ = {k: v for k, v in asdict(data).items() if v is not None and k in TABLEMAP[table]} sql = f"INSERT INTO {table} (" sql += ", ".join(f"{k}" for k in dict_.keys()) sql += ") VALUES (" sql += ", ".join("%s" for _ in dict_.keys()) sql += ")" with conn.cursor() as cursor: cursor.execute(sql, tuple(dict_.values())) conn.commit() return cursor.rowcount def diff_from_dict(old: Dict, new: Dict) -> Dict: """Construct a new dict with a specific structure that contains the difference between the 2 dicts in the structure: diff_from_dict({"id": 1, "data": "a"}, {"id": 2, "data": "b"}) Should return: {"id": {"old": 1, "new": 2}, "data": {"old": "a", "new": "b"}} """ dict_ = {} for key in old.keys(): dict_[key] = {"old": old[key], "new": new[key]} return dict_