print_done()
metadata.create_all()
-
- # SQLAlchemy is retarded and there is no way for me to get a list of ORM
- # classes besides to inspect the module they all happen to live in for
- # things that look right.
- table_base = tables.TableBase
- orm_classes = {} # table object => table class
-
- for name in dir(tables):
- # dir() returns strings! How /convenient/.
- thingy = getattr(tables, name)
-
- if not isinstance(thingy, type):
- # Not a class; bail
- continue
- elif not issubclass(thingy, table_base):
- # Not a declarative table; bail
- continue
- elif thingy == table_base:
- # Declarative table base, so not a real table; bail
- continue
-
- # thingy is definitely a table class! Hallelujah.
- orm_classes[thingy.__table__] = thingy
+ connection = session.connection()
# Okay, run through the tables and actually load the data now
for table_obj in metadata.sorted_tables:
- table_class = orm_classes[table_obj]
table_name = table_obj.name
+ insert_stmt = table_obj.insert()
print_start(table_name)
if any(_.references(table_obj) for _ in column.foreign_keys):
self_ref_columns.append(column)
+ new_rows = []
+ def insert_and_commit():
+ session.connection().execute(insert_stmt, new_rows)
+ session.commit()
+ new_rows[:] = []
+
for csvs in reader:
- row = table_class()
+ row_data = {}
for column_name, value in zip(column_names, csvs):
column = table_obj.c[column_name]
# Otherwise, unflatten from bytes
value = value.decode('utf-8')
- setattr(row, column_name, value)
+ # nb: Dictionaries flattened with ** have to have string keys
+ row_data[ str(column_name) ] = value
# May need to stash this row and add it later if it refers to a
# later row in this table
if self_ref_columns:
- foreign_ids = [getattr(row, _.name) for _ in self_ref_columns]
+ foreign_ids = [row_data[_.name] for _ in self_ref_columns]
foreign_ids = [_ for _ in foreign_ids if _] # remove NULL ids
if not foreign_ids:
# NULL key. Remember this row and add as usual.
- seen_ids[row.id] = 1
+ seen_ids[row_data['id']] = 1
elif all(_ in seen_ids for _ in foreign_ids):
# Non-NULL key we've already seen. Remember it and commit
# so we know the old row exists when we add the new one
- session.commit()
- seen_ids[row.id] = 1
+ insert_and_commit()
+ seen_ids[row_data['id']] = 1
else:
# Non-NULL future id. Save this and insert it later!
- deferred_rows.append((row, foreign_ids))
+ deferred_rows.append((row_data, foreign_ids))
continue
- session.add(row)
+ # Insert row!
+ new_rows.append(row_data)
# Remembering some zillion rows in the session consumes a lot of
# RAM. Let's not do that. Commit every 1000 rows
- if len(session.new) > 1000:
- session.commit()
+ if len(new_rows) > 1000:
+ insert_and_commit()
- session.commit()
+ insert_and_commit()
# Attempt to add any spare rows we've collected
- for row, foreign_ids in deferred_rows:
+ for row_data, foreign_ids in deferred_rows:
if not all(_ in seen_ids for _ in foreign_ids):
# Could happen if row A refers to B which refers to C.
# This is ridiculous and doesn't happen in my data so far
raise ValueError("Too many levels of self-reference! "
- "Row was: " + str(row.__dict__))
+ "Row was: " + str(row))
- session.add(row)
- seen_ids[row.id] = 1
- session.commit()
+ session.connection().execute(
+ insert_stmt.values(**row_data)
+ )
+ seen_ids[row_data['id']] = 1
+ session.commit()
print_done()