def main(): fee_logger = logbook.Logger('main') const = constants.Constants() database = 'well.sqlite' fee_logger.notice('Connecting to the database') db = sqlite3.connect(database) db.row_factory = sqlite3.Row cur = db.cursor() fee_date: str = utils.prompt_for_current_date("Date paid") fee_logger.trace(f'fee_date: {fee_date}') fee_amount: int = utils.prompt_for_amount("Amount") # and make this amount negative to show as paid fee_amount = fee_amount * -1 fee_logger.trace(f'fee amount: {fee_amount}') fee_note = utils.prompt_for_notes("Notes") fee_logger.trace(f'fee_note: {fee_note}') # enter this into the activity log prior to entering each # 1/4 share individually exec_str = f""" INSERT INTO activity (date, type, amount, note) VALUES (?, ?, ?, ?) """ params = (fee_date, const.administrative_fee_paid, fee_amount, fee_note) cur.execute(exec_str, params) # save, then close the cursor and db db.commit() cur.close() db.close()
def main(): database = 'well.sqlite' logger = logbook.Logger('pge_bill_paid') utils.backup_file(database) db = sqlite3.connect(database) db.row_factory = sqlite3.Row cur = db.cursor() # get date_paid payment_date = utils.prompt_for_current_date("Date paid") # get amount payment_amount = utils.prompt_for_amount("Amount paid") const = constants.Constants() # mark the bill paid in the activity account payment_amount = payment_amount * -1 exec_str = f""" INSERT INTO activity (date, type, amount, note) VALUES (?, ?, ?, ?) """ params = (payment_date, const.pge_bill_paid, payment_amount, "PGE bill paid") logger.trace(params) cur.execute(exec_str, params) # save, then close the cursor and db db.commit() cur.close() db.close()
def main(): payment_logger = logbook.Logger('payment_recd') db = "well.sqlite" database = sqlite3.connect(f"{db}") cur = database.cursor() acct = utils.prompt_for_account("Please choose an account", cur) # # show the account's current balance here # fetch balance and display cur_balance = utils.get_acct_balance(acct, cur) if cur_balance == 0: print(f"This account has a zero balance.") exit(0) date = utils.prompt_for_current_date("Payment date") # fetch amount and flip the sign print(f"Current balance: ${cur_balance:.2f}") amt = utils.prompt_for_amount("Payment amount") payment_logger.debug(f"get_amount just returned this amount: {amt}") amt *= -1 # cobble together the account note # changed this to be multi-line so the payment method can # a little longer .... 2019.06.21 notes = "Payment on account|" notes += utils.prompt_for_notes("Payment notes") payment_logger.debug(date) payment_logger.debug(amt) payment_logger.debug(acct) payment_logger.debug(notes) # backup the file prior to adding any data utils.backup_file(db) const = constants.Constants() # insert the payment into the DB cur.execute( "INSERT INTO activity (date, acct, type, amount, note) VALUES (?, ?, ?, ?, ?)", (date, acct, const.payment_received, amt, notes), ) # fetch updated balance and display cur_balance = utils.get_acct_balance(acct, cur) print(f"Updated balance: ${cur_balance:.2f}\n") # save, then close the cursor and database database.commit() cur.close() database.close()
def main(): fee_logger = logbook.Logger('main') const = constants.Constants() database = 'well.sqlite' fee_logger.notice('Connecting to the database') db = sqlite3.connect(database) db.row_factory = sqlite3.Row cur = db.cursor() fee_date: str = utils.prompt_for_current_date("Fee date") fee_logger.trace(f'fee_date: {fee_date}') fee_amount: int = utils.prompt_for_amount("Fee amount") fee_logger.trace(f'fee amount: {fee_amount}') qtr_share: int = int(round(fee_amount / 4)) fee_logger.trace(f'qtr_share (rounded): {qtr_share}') fee_note = utils.prompt_for_notes("Notes") fee_logger.trace(f'fee_note: {fee_note}') # enter this into the activity log prior to entering each # 1/4 share individually exec_str = f""" INSERT INTO activity (date, type, amount, note) VALUES (?, ?, ?, ?) """ params = (fee_date, const.administrative_fee_received, fee_amount, fee_note) cur.execute(exec_str, params) exec_str = "SELECT * FROM account" cur.execute(exec_str) rows = cur.fetchall() for r in rows: if r["active"] == "no": fee_logger.trace(f"Account {r['acct_id']} currently INACTIVE") continue exec_str = f""" INSERT INTO activity (date, acct, type, amount, note) VALUES (?,?,?,?,?) """ params = (fee_date, r["acct_id"], const.administrative_fee_share, qtr_share, fee_note) cur.execute(exec_str, params) # save, then close the cursor and db db.commit() cur.close() db.close()
def main(): database = "well.sqlite" # set up for logging LEVELS = { "debug": logging.DEBUG, "info": logging.INFO, "warning": logging.WARNING, "error": logging.ERROR, "critical": logging.CRITICAL, } if len(sys.argv) > 1: level_name = sys.argv[1] level = LEVELS.get(level_name, logging.NOTSET) logging.basicConfig(level=level) logger = logging.getLogger() logger.debug("Entering main") db = sqlite3.connect(database) db.row_factory = sqlite3.Row cur = db.cursor() rebate_date = utils.prompt_for_current_date("Rebate date") rebate_amount = utils.prompt_for_amount("Rebate amount") rebate_note = utils.prompt_for_notes("Notes") const = constants.Constants() exec_str = f""" INSERT INTO activity (date, type, amount, note) VALUES (?, ?, ?, ?) """ params = (rebate_date, const._misc_rebate_received, rebate_amount, rebate_note) cur.execute(exec_str, params) logger.debug("attempting to backup the database file now") utils.backup_file(database) # save, then close the cursor and db db.commit() cur.close() db.close()
def main(): logger = logbook.Logger('savings_dep') database = 'well.sqlite' utils.backup_file(database) db = sqlite3.connect(database) db.row_factory = sqlite3.Row cur = db.cursor() const = constants.Constants() exec_str = f""" SELECT SUM(amount) FROM (SELECT amount FROM activity WHERE type = (?) ORDER BY date DESC LIMIT 4) """ params = (const.savings_assessment, ) logger.trace(f"params: {params}") cur.execute(exec_str, params) last_assessment_ttl = cur.fetchone()[0] last_assessment_ttl = last_assessment_ttl / 100 print(f"===============================================") print(f" last assessments totaled: ${last_assessment_ttl:12.2f}") exec_str = f""" SELECT SUM(amount) FROM activity WHERE type = (?) OR type = (?) OR type = (?) """ params = (const.savings_deposit_made, const.savings_disbursement, const.savings_dividend) logger.trace(f"params: {params}") cur.execute(exec_str, params) current_savings_balance = cur.fetchone()[0] if current_savings_balance is None: current_savings_balance = 0 logger.trace(f"current_savings_balance: {current_savings_balance}") print(f"===============================================") print(f" current savings balance: ${current_savings_balance / 100:12,.2f}") print(f"===============================================") # get date_paid deposit_date = utils.prompt_for_current_date("Date deposit made") # get amount deposit_amount = utils.prompt_for_amount("Amount of deposit") # prompt for notes ... 'Dep for Jan 2019' ... or similar note = utils.prompt_for_notes('Notes for this deposit') exec_str = f""" INSERT INTO activity (date, type, amount, note) VALUES (?, ?, ?, ?) """ params = (deposit_date, const.savings_deposit_made, deposit_amount, note) cur.execute(exec_str, params) exec_str = f""" SELECT SUM(amount) FROM activity WHERE type = (?) OR type = (?) OR type = (?) """ params = (const.savings_deposit_made, const.savings_disbursement, const.savings_dividend) logger.trace(f"{params}") cur.execute(exec_str, params) current_savings_balance = cur.fetchone()[0] logger.trace(f"current_savings_balance: {current_savings_balance}") print(f"===============================================") print(f" current savings balance: ${current_savings_balance / 100: ,.2f}") print(f"===============================================") # save, then close the cursor and db db.commit() cur.close() db.close()
def main(): database = 'well.sqlite' logger = logbook.Logger("savings_dividend") logger.debug('Entering main') utils.backup_file(database) db = sqlite3.connect(database) db.row_factory = sqlite3.Row cur = db.cursor() # check current balance here const = constants.Constants() exec_str = f""" SELECT SUM(amount) FROM activity WHERE type = (?) OR type = (?) OR type = (?) """ params = (const.savings_deposit_made, const.savings_disbursement, const.savings_dividend) logger.debug(f"params: {params}") cur.execute(exec_str, params) current_savings_balance = cur.fetchone()[0] logger.debug(f"current_savings_balance: {current_savings_balance}") print(f"===============================================") print(f" current savings balance: ${current_savings_balance / 100:,.2f}") print(f"===============================================") # get date_paid dividend_date = utils.prompt_for_current_date("Date of dividend") # get amount dividend_amount = utils.prompt_for_amount("Amount of dividend") # prompt for notes ... 'Dep for Jan 2019' ... or similar note = f"Savings dividend" # enter into the activity log exec_str = f""" INSERT INTO activity (date, type, amount, note) VALUES (?, ?, ?, ?) """ params = (dividend_date, const.savings_dividend, dividend_amount, note) cur.execute(exec_str, params) # check the balance again exec_str = f""" SELECT SUM(amount) FROM activity WHERE type = (?) OR type = (?) OR type = (?) """ params = (const.savings_deposit_made, const.savings_disbursement, const.savings_dividend) cur.execute(exec_str, params) current_savings_balance = cur.fetchone()[0] logger.debug(f"current_savings_balance: {current_savings_balance}") print(f"===============================================") print(f" current savings balance: ${current_savings_balance / 100: ,.2f}") print(f"===============================================") # save, then close the cursor and db db.commit() cur.close() db.close()
def main(): logger = logbook.Logger("bill_recd") database = "well.sqlite" # make sure this gets backed up prior to any # writing of the db utils.backup_file(database) db = sqlite3.connect(database) db.row_factory = sqlite3.Row cur = db.cursor() # prompt for amount of the bill .. and date bill_date = utils.prompt_for_current_date("Date of bill") pge_bill = float(utils.prompt_for_amount("PGE bill amount")) logger.trace(f"pge_bill: {int(pge_bill)}") const = constants.Constants() exec_str = f""" INSERT INTO activity (date, type, amount, note) VALUES (?, ?, ?, ?) """ params = (bill_date, const.pge_bill_received, pge_bill, "PGE bill received") cur.execute(exec_str, params) # instantiate an obj for each of the accounts cur.execute("SELECT * FROM account") rows = cur.fetchall() acct_list = [] total_usage = 0.0 # each row('r') ... should represent an individual account for r in rows: if r["active"] == "no": logger.trace(f"Account {r['acct_id']} currently INACTIVE") continue acct_obj = account.Account( r["acct_id"], r["first_name"], r["last_name"], r["file_alias"], r["address"], r["reads_in"], r["master"], ) acct_list.append(acct_obj) # fetch the last two reading rows from the db query: str = f""" SELECT reading FROM reading WHERE account_id = (?) ORDER BY reading_id DESC LIMIT 2 """ params = (r["acct_id"], ) rows = cur.execute(query, params) # near as I can tell this returns a row for each line of data found # the row is a list of selected items .... so 'reading' is the # zeroeth item ... # # need to collect them both in a list for further processing readings_list = [] for row in rows: readings_list.append( row["reading"]) # this retrieval by name seems to be fine logger.trace(f"readings_list: {readings_list}") acct_obj.latest_reading = readings_list[0] acct_obj.previous_reading = readings_list[1] acct_obj.calculate_current_usage() logger.trace(f"current usage: {acct_obj.current_usage}") logger.trace(f"{acct_obj.reads_in} .. {acct_obj.previous_reading}") total_usage += acct_obj.current_usage total_usage = round(total_usage, 2) logger.trace(f"total usage: {total_usage}") # a balance less than $10k should trigger an assessment # in the upcoming for loop savings_balance = utils.get_savings_balance(cur) logger.trace(f"savings_balance: {savings_balance}") assessment_total = 0 for acct in acct_list: logger.trace(f"\n\n{acct.addr}") logger.trace( f"current_usage_percent (b4 calculation): {acct.current_usage_percent}" ) logger.trace( f"current_usage_percent: {(acct.current_usage / total_usage) * 100}" ) logger.trace(f"total_usage: {total_usage}") acct.current_usage_percent = round( (acct.current_usage / total_usage) * 100, 2) logger.trace( f"current_usage_percent (rounded): {acct.current_usage_percent:.2f}" ) logger.trace(f"pge_bill: {int(pge_bill)}") logger.trace(f"a.current_usage_percent: {acct.current_usage_percent}") acct.pge_bill_share = round( (pge_bill * acct.current_usage_percent / 100), 0) logger.trace(f"pge_bill_share: {int(acct.pge_bill_share)}") exec_str = f""" INSERT INTO activity (date, acct, type, amount, note) VALUES (?, ?, ?, ?, ?) """ params = ( bill_date, acct.acct_id, const.pge_bill_share, acct.pge_bill_share, "PGE bill share", ) cur.execute(exec_str, params) # this should be moved outside ... no sense going through all # this if no assessment needed ... # move it outside and process as separate if savings_balance < 1000000: logger.trace(f"Assessment is due.") acct.savings_assessment = int( round(acct.current_usage * const.assessment_per_gallon * 100, 0)) logger.trace(f"Assessed: {acct.savings_assessment}") # write this to the db exec_str = f""" INSERT INTO activity (date, acct, type, amount, note) VALUES (?, ?, ?, ?, ?) """ params = ( bill_date, acct.acct_id, const.savings_assessment, acct.savings_assessment, "Savings assessment", ) cur.execute(exec_str, params) assessment_total += acct.savings_assessment logger.trace( f"Bill total: {int(round(acct.savings_assessment + acct.pge_bill_share, 2))}" ) else: logger.trace(f"No assessment needed.") # added this to make the savings deposit easier # 2019.07.21 # # 2019.08.24 ... this needed reformatting print(f"==============================================") print(f"assessment_total: ${assessment_total / 100:10.2f}") print(f"==============================================") # save, then close the cursor and db db.commit() cur.close() db.close()