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initialImport.py
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initialImport.py
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__author__ = 'emmaachberger'
import pandas as pd
import numpy as np
from sqlalchemy import create_engine
import sqlalchemy
import instance
import sqlqueries
import stockPricesImport
from mintTransactions import Mint
from helperfunctions import timermultifunc
import FXImport
from pandas.io import sql
import time
database = instance.getDatabase()
engine = create_engine(database)
demo = True # turns on demo transactions
mintacct = not demo # turns on mint account download
pd.options.mode.chained_assignment = None # turns off warning for chained indexing
def initialStartup():
timermultifunc([
importDatesTable,
importBankAccounts,
budgetimport,
categoryimport,
importStockTransactions,
stockPricesImport.getStockPrices,
stockPricesImport.stockbalances,
importBankTransactions,
fximport,
totalbalances,
NIFX,
importGoals
])
def importBankAccounts():
if demo: ## only used to demo account to add dummy data. Is turned on above.
df = pd.read_csv('DemoData/BankAccounts.csv')
else:
df = pd.read_csv('CSVs/BankAccounts.csv')
df.to_sql('bankaccounts', engine, if_exists = 'replace', index=False, dtype={'AccountName': sqlalchemy.types.VARCHAR(length=30), 'MintAccountName': sqlalchemy.types.VARCHAR(length=30)})
sql.execute("CREATE INDEX AccountName_index ON money.bankaccounts (AccountName);", engine)
sql.execute("CREATE INDEX MintAccountName_index ON money.bankaccounts (MintAccountName);", engine)
def importStockTransactions():
if demo: ## only used to demo account to add dummy data. Is turned on above.
df = pd.read_csv('DemoData/StockTransactions.csv', parse_dates = ['transdate'])
else:
df = pd.read_csv('CSVs/StockTransactions.csv', parse_dates = ['transdate'])
df.to_sql('stocktransactions', engine, if_exists = 'replace', index = False, dtype={'symbol': sqlalchemy.types.VARCHAR(length=20)})
sql.execute("CREATE INDEX Stocktransaction_transdate_index ON money.stocktransactions (transdate);", engine)
sql.execute("CREATE INDEX Stocktransaction_symbol_index ON money.stocktransactions (symbol);", engine)
def importBankTransactions():
### imports old transactions, Emma/Dan mint transactions, appends together and inserts into database
start = time.time()
if demo: ## only used to demo account to add dummy data. Is turned on above.
df = pd.read_csv('DemoData/demotransactions.csv', parse_dates = ['transdate'])
else:
df = pd.read_csv('CSVs/oldtransactions.csv', parse_dates = ['transdate'])
df_accrual = pd.read_csv('CSVs/accrual.csv', parse_dates = ['transdate'])
df = df.append(df_accrual)
new = time.time()
start = new
df = df.append(mintImport())
new = time.time()
start = new
df = df.append(stockPricesImport.stockincome())
new = time.time()
start = new
df = df.sort('transdate')
df.to_sql('transactions', engine, if_exists = 'replace', index=False, dtype={'accountname': sqlalchemy.types.VARCHAR(length=30)})
sql.execute("CREATE INDEX transactions_transdate_index ON money.transactions (transdate);", engine)
sql.execute("CREATE INDEX transactions_accountname_index ON money.transactions (accountname);", engine)
"""
def mintImport(): # use if parallel processing has issues
import instance
mintAccounts = instance.mintaccounts()
if mintacct:
for key, accounts in mintAccounts.iteritems():
try:
mint = Mint(email = accounts[0], password = accounts[1])
mint.initiate_account_refresh()
df = mint.get_transactions()
df.to_csv('CSVs/' + accounts[2])
print accounts[0] + " accepted correctly."
except:
print accounts[0] + " was not accepted."
else:
print "Mint accounts intentionally not imported. Change 'mintacct' variable to 'True'."
df = pd.DataFrame()
columns = ['id','transdate','description','originaldescription','amount','debitcredit','category','accountname','labels','notes']
for key, accounts in mintAccounts.iteritems():
df2 = pd.read_csv('CSVs/' + accounts[2], parse_dates = ['Date'])
df2.columns = columns
if df.empty:
df = df2
else:
df = df.append(df2)
df.drop('id',axis=1,inplace=True)
df.loc[df['debitcredit'] == 'debit', ['amount']] *= -1 # reverses sign for 'debit' transactions
df.reset_index(level=0, inplace=True)
df.columns = ['id','transdate','description','originaldescription','amount','debitcredit','category','accountname','labels','notes']
df = df[['id','transdate','description','amount','category','accountname']]
return df
"""
def getMintTransactions(accounts):
try:
mint = Mint(email = accounts[0], password = accounts[1])
mint.initiate_account_refresh()
df = mint.get_transactions()
df.to_csv('CSVs/' + accounts[2])
print accounts[0] + " accepted correctly."
return df
except:
print accounts[0] + " was not accepted."
return pd.DataFrame()
def mintImport():
import instance
from multiprocessing import Pool
mintAccounts = instance.mintaccounts()
if mintacct:
pool = Pool()
result_list = []
def log_result(result):
result_list.append(result)
for key, accounts in mintAccounts.iteritems():
pool.apply_async(getMintTransactions, args = [accounts], callback= log_result)
pool.close()
pool.join()
else:
print "Mint accounts intentionally not imported. Change 'mintacct' variable to 'True'."
df = pd.DataFrame()
columns = ['id','transdate','description','originaldescription','amount','debitcredit','category','accountname','labels','notes']
for key, accounts in mintAccounts.iteritems():
df2 = pd.read_csv('CSVs/' + accounts[2], parse_dates = ['Date'])
df2.columns = columns
if df.empty:
df = df2
else:
df = df.append(df2)
df.drop('id',axis=1,inplace=True)
df.loc[df['debitcredit'] == 'debit', ['amount']] *= -1 # reverses sign for 'debit' transactions
df.reset_index(level=0, inplace=True)
df.columns = ['id','transdate','description','originaldescription','amount','debitcredit','category','accountname','labels','notes']
df = df[['id','transdate','description','amount','category','accountname']]
return df
def importDatesTable():
### creates table of dates for all dates from date specified until today + 400 days
from helperfunctions import table_of_dates
tableofdates = table_of_dates(2006,1,1,'D')
tableofdates.reset_index(inplace=True)
tableofdates.to_sql('datestable', engine, if_exists = 'replace', index=False, index_label='transdate')
sql.execute("CREATE INDEX transdate_index ON money.datestable (transdate);", engine)
def fximport():
if not demo:
FXImport.fximport()
df = pd.read_csv('Common/FX rates.csv', parse_dates = ['FXDate'])
df.to_sql('fxrates', engine, if_exists = 'replace')
sql.execute("CREATE INDEX FX_FXdate_index ON money.fxrates (FXDate);", engine)
def budgetimport():
if demo: ## only used to demo account to add dummy data. Is turned on above.
df = pd.read_csv('DemoData/budget.csv')
else:
df = pd.read_csv('CSVs/budget.csv')
df.to_sql('budget', engine, if_exists = 'replace')
def categoryimport():
df = pd.read_csv('Common/categories.csv')
df.to_sql('categories', engine, if_exists = 'replace')
def totalbalances():
### inserts daily balance data for all accounts to database
from datetime import datetime
a = sqlqueries.sqltotalbalances() ### bankaccounts, transactions, dates, fxrates
df = pd.read_sql(a, engine, parse_dates='transdate')
df['amount'] = df['amount'].fillna(0)
df['balance'] = np.cumsum(df.groupby(['AccountName'])['amount']) # adds column of running total balances
df = df[df['balance'] != 0 ] # removes zero balances which should be balances before account started
df = df.sort('transdate')
df = df[df['transdate'] <= datetime.today()] # removes any future dates
#df['USDAmount'] = df.apply(lambda row: convert(row['balance'], row['Currency'], row['Rate']), axis=1)
df['USDAmount'] = df.balance / df.Rate
df.ix[df.Currency=='USD', 'USDAmount'] = df.ix[df.Currency=='USD', 'balance']
df['CADAmount'] = df.USDAmount * df.Rate
df.balance = df.balance.round(2)
df.USDAmount = df.USDAmount.round(2)
df.CADAmount = df.CADAmount.round(2)
df.to_sql('balances', engine, if_exists = 'replace', index=False)
sql.execute("CREATE INDEX balances_transdate_index ON money.balances (transdate);", engine)
def NIFX():
FXquery = sqlqueries.FXquery()
df = pd.read_sql(FXquery, engine, parse_dates='transdate')
df = findFX(df)
spendingQuery = sqlqueries.spendingQuery()
df2 = pd.read_sql(spendingQuery, engine, parse_dates='Date')
df = df.append(df2).sort('Date')
df['USD Amount'] = np.round(df['USD Amount'],decimals=2)
df['CAD Amount'] = np.round(df['CAD Amount'],decimals=2)
df['Date'] = pd.DatetimeIndex(df['Date']) + pd.offsets.MonthEnd(0)
df = pd.pivot_table(df, index=['Date','Owner'],values=["USD Amount","CAD Amount"],columns=['Category'],fill_value=0).reset_index()
df.columns = df.columns.droplevel()
df.columns = ['Date','Owner','USD FX Gain/Loss','USD Investments','USD Income','CAD FX Gain/Loss','CAD Investments','CAD Income']
df.to_sql('googlechartsmonthlynetincome', engine, if_exists = 'replace', index=False)
def findFX(df):
start = time.time()
df[['nativebalance','USbalance','CAbalance']] = np.cumsum(df.groupby(['Owner','Currency'])[['Native Amount','USD Amount','CAD Amount']])
### total of (all transactions in native currency multiplied by transaction date rate)
#df['USDbalance'] = df.apply(lambda row: convert(row['nativebalance'], row['Currency'], row['Rate']), axis=1)
df['USDbalance'] = df.nativebalance / df.Rate
df.ix[df.Currency=='USD', 'USDbalance'] = df.ix[df.Currency=='USD', 'nativebalance']
df['CADbalance'] = df['USDbalance'] * df['Rate']
## total of all transactions in native currency converted at ending rate
df['USFX'] = df.USDbalance - df.USbalance
df['CADFX'] = df.CADbalance - df.CAbalance
df = df[['transdate','Owner','Currency','USFX','CADFX']]
df['transdate'] = pd.DatetimeIndex(df['transdate'])
df['PrevDate'] = pd.DatetimeIndex(df['transdate']) + pd.offsets.MonthEnd(-1)
df.iloc[0:4,3:5] = 0.0 ### change first three balances to zero. Needed for pad filling step below.
df = df.sort(['Owner','Currency','transdate','PrevDate']).fillna(method='pad')
df = pd.merge(df, df, how='left', left_on=['PrevDate','Owner','Currency'], right_on=['transdate','Owner','Currency'])
df['FXUSD'] = df.USFX_x - df.USFX_y
df['FXCAD'] = df.CADFX_x - df.CADFX_y
df = df[['transdate_x','Owner','Currency','FXUSD','FXCAD']]
df = df.sort(['Owner','Currency','transdate_x']).fillna(method='pad')
df['Category'] = "FX Gain/Loss"
df.columns = ['Date','Owner','Currency','USD Amount','CAD Amount','Category']
df = df.groupby(['Date','Owner','Category'])['USD Amount','CAD Amount'].sum().reset_index()
return df
def importGoals():
df = pd.read_csv('CSVs/Goal.csv', parse_dates = ['transdate'])
df.to_sql('goal', engine, if_exists = 'replace', index=False)