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store.py
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store.py
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"""Contains the data storge for a project."""
import contextlib
import csv
import logging
import os
from pathlib import Path
import sqlite3
from typing import Union
from .helpers import (
dict_factory,
get_exclude_from_bom,
get_exclude_from_pos,
get_lcsc_value,
get_valid_footprints,
natural_sort_collation,
)
class Store:
"""A storage class to get data from a sqlite database and write it back."""
def __init__(self, parent, project_path, board):
self.logger = logging.getLogger(__name__)
self.parent = parent
self.project_path = project_path
self.board = board
self.datadir = os.path.join(self.project_path, "jlcpcb")
self.dbfile = os.path.join(self.datadir, "project.db")
self.order_by = "reference"
self.order_dir = "ASC"
self.setup()
self.update_from_board()
def setup(self):
"""Check if folders and database exist, setup if not."""
if not os.path.isdir(self.datadir):
self.logger.info(
"Data directory 'jlcpcb' does not exist and will be created."
)
Path(self.datadir).mkdir(parents=True, exist_ok=True)
self.create_db()
def set_order_by(self, n: int):
"""Set which value we want to order by when getting data from the database."""
if n > 7:
return
# The following two cases are just a temporary hack and will eventually be replaced by
# direct sorting via DataViewListCtrl rather than via SQL query
if n == 4:
return
if n > 4:
n = n - 1
order_by = [
"reference",
"value",
"footprint",
"lcsc",
"stock",
"exclude_from_bom",
"exclude_from_pos",
]
if self.order_by == order_by[n] and self.order_dir == "ASC":
self.order_dir = "DESC"
else:
self.order_by = order_by[n]
self.order_dir = "ASC"
def create_db(self):
"""Create the sqlite database tables."""
with contextlib.closing(sqlite3.connect(self.dbfile)) as con, con as cur:
cur.execute(
"CREATE TABLE IF NOT EXISTS part_info ("
"reference NOT NULL PRIMARY KEY,"
"value TEXT NOT NULL,"
"footprint TEXT NOT NULL,"
"lcsc TEXT,"
"stock NUMERIC,"
"exclude_from_bom NUMERIC DEFAULT 0,"
"exclude_from_pos NUMERIC DEFAULT 0"
")",
)
cur.commit()
def read_all(self) -> dict:
"""Read all parts from the database."""
with contextlib.closing(sqlite3.connect(self.dbfile)) as con, con as cur:
con.create_collation("naturalsort", natural_sort_collation)
con.row_factory = dict_factory # noqa: DC05
return cur.execute(
f"SELECT * FROM part_info ORDER BY {self.order_by} COLLATE naturalsort {self.order_dir}"
).fetchall()
def read_bom_parts(self) -> dict:
"""Read all parts that should be included in the BOM."""
with contextlib.closing(sqlite3.connect(self.dbfile)) as con, con as cur:
con.row_factory = dict_factory # noqa: DC05
# Query all parts that are supposed to be in the BOM an have an lcsc number, group the references together
subquery = "SELECT value, reference, footprint, lcsc FROM part_info WHERE exclude_from_bom = '0' AND lcsc != '' ORDER BY lcsc, reference"
query = f"SELECT value, GROUP_CONCAT(reference) AS refs, footprint, lcsc FROM ({subquery}) GROUP BY lcsc"
a = cur.execute(query).fetchall()
# Query all parts that are supposed to be in the BOM but have no lcsc number
query = "SELECT value, reference AS refs, footprint, lcsc FROM part_info WHERE exclude_from_bom = '0' AND lcsc = ''"
b = cur.execute(query).fetchall()
return a + b
def create_part(self, part: dict):
"""Create a part in the database."""
with contextlib.closing(sqlite3.connect(self.dbfile)) as con, con as cur:
cur.execute(
"INSERT INTO part_info VALUES (:reference, :value, :footprint, :lcsc, '', :exclude_from_bom, :exclude_from_pos)",
part,
)
cur.commit()
def update_part(self, part: dict):
"""Update a part in the database, overwrite lcsc if supplied."""
with contextlib.closing(sqlite3.connect(self.dbfile)) as con, con as cur:
cur.execute(
"UPDATE part_info set value = :value, footprint = :footprint, lcsc = :lcsc, exclude_from_bom = :exclude_from_bom, exclude_from_pos = :exclude_from_pos WHERE reference = :reference",
part,
)
cur.commit()
def get_part(self, ref: str) -> dict:
"""Get a part from the database by its reference."""
with contextlib.closing(sqlite3.connect(self.dbfile)) as con, con as cur:
con.row_factory = dict_factory # noqa: DC05
return cur.execute(
"SELECT * FROM part_info WHERE reference = :reference",
{"reference": ref},
).fetchone()
def set_stock(self, ref: str, stock: Union[int, None]):
"""Set the stock value for a part in the database."""
with contextlib.closing(sqlite3.connect(self.dbfile)) as con, con as cur:
cur.execute(
"UPDATE part_info SET stock = :stock WHERE reference = :reference",
{"reference": ref, "stock": stock},
)
cur.commit()
def set_bom(self, ref: str, state: int):
"""Change the BOM attribute for a part in the database."""
with contextlib.closing(sqlite3.connect(self.dbfile)) as con, con as cur:
cur.execute(
"UPDATE part_info SET exclude_from_bom = :state WHERE reference = :reference",
{"reference": ref, "state": state},
)
cur.commit()
def set_pos(self, ref: str, state: int):
"""Change the POS attribute for a part in the database."""
with contextlib.closing(sqlite3.connect(self.dbfile)) as con, con as cur:
cur.execute(
"UPDATE part_info SET exclude_from_pos = :state WHERE reference = :reference",
{"reference": ref, "state": state},
)
cur.commit()
def set_lcsc(self, ref: str, lcsc: str):
"""Change the LCSC attribute for a part in the database."""
with contextlib.closing(sqlite3.connect(self.dbfile)) as con, con as cur:
cur.execute(
"UPDATE part_info SET lcsc = :lcsc WHERE reference = :reference",
{"reference": ref, "lcsc": lcsc},
)
cur.commit()
def update_from_board(self):
"""Read all footprints from the board and insert them into the database if they do not exist."""
for fp in get_valid_footprints(self.board):
board_part = {
"reference": fp.GetReference(),
"value": fp.GetValue(),
"footprint": str(fp.GetFPID().GetLibItemName()),
"lcsc": get_lcsc_value(fp),
"exclude_from_bom": get_exclude_from_bom(fp),
"exclude_from_pos": get_exclude_from_pos(fp),
}
db_part = self.get_part(board_part["reference"])
# if part is not in the database yet, create it
if not db_part:
self.logger.debug(
"Part %s does not exist in the database and will be created from the board.",
board_part["reference"],
)
self.create_part(board_part)
# if the board part matches the db_part except for the LCSC and the stock value
elif [
board_part["reference"],
board_part["value"],
board_part["footprint"],
board_part["exclude_from_bom"],
board_part["exclude_from_pos"],
] == [
db_part["reference"],
db_part["value"],
db_part["footprint"],
bool(db_part["exclude_from_bom"]),
bool(db_part["exclude_from_pos"]),
]:
# if part in the database, has no lcsc value the board part has a lcsc value, update including lcsc
if db_part and not db_part["lcsc"] and board_part["lcsc"]:
self.logger.debug(
"Part %s is already in the database but without lcsc value, so the value supplied from the board will be set.",
board_part["reference"],
)
self.update_part(board_part)
# if part in the database, has a lcsc value
elif db_part and db_part["lcsc"] and board_part["lcsc"]:
# update lcsc value as well if setting is accordingly
if not self.parent.settings.get("general", {}).get(
"lcsc_priority", True
):
self.logger.debug(
"Part %s is already in the database and has a lcsc value, the value supplied from the board will be ignored.",
board_part["reference"],
)
board_part["lcsc"] = None
else:
self.logger.debug(
"Part %s is already in the database and has a lcsc value, the value supplied from the board will overwrite that in the database.",
board_part["reference"],
)
self.update_part(board_part)
else:
# If something changed, we overwrite the part and dump the lcsc value or use the one supplied by the board
self.logger.debug(
"Part %s is already in the database but value, footprint, bom or pos values changed in the board file, part will be updated, lcsc overwritten/cleared.",
board_part["reference"],
)
self.update_part(board_part)
self.import_legacy_assignments()
self.clean_database()
def clean_database(self):
"""Delete all parts from the database that are no longer present on the board."""
refs = [f"'{fp.GetReference()}'" for fp in get_valid_footprints(self.board)]
with contextlib.closing(sqlite3.connect(self.dbfile)) as con, con as cur:
cur.execute(
f"DELETE FROM part_info WHERE reference NOT IN ({','.join(refs)})"
)
cur.commit()
def import_legacy_assignments(self):
"""Check if assignments of an old version are found and merge them into the database."""
csv_file = os.path.join(self.project_path, "jlcpcb", "part_assignments.csv")
if os.path.isfile(csv_file):
with open(csv_file, encoding="utf-8") as f:
csvreader = csv.DictReader(
f, fieldnames=("reference", "lcsc", "bom", "pos")
)
for row in csvreader:
self.set_lcsc(row["reference"], row["lcsc"])
self.set_bom(row["reference"], int(row["bom"]))
self.set_pos(row["reference"], int(row["pos"]))
self.logger.debug(
"Update %s from legacy 'part_assignments.csv'", row["reference"]
)
os.rename(csv_file, f"{csv_file}.backup")