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StockTrackerv2.py
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StockTrackerv2.py
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#!/usr/bin/python
import datetime
import urllib.request, urllib.parse, urllib.error
import smtplib #for emailing reports
import os #for converting ~ -> users home directory
#now=datetime.datetime.now()
#'nick':datetime.datetime(1978,7,2)
#days_ago=(now-when).days
#class StockList:
# def __init__(self,
def DefaultColorCoding():
print(("\033[49m \033[39m "), end=' ') #set to default color coding, suppress newline
def isLeapYear(year):
leapyear=0
if year%4==0:
leapyer=1
return leapyear
def getSharePrices(tickerlist):
#tickerlist should be a set of ticker symbols with '+' in between
url = 'http://download.finance.yahoo.com/d/quotes.csv?s=%s' %tickerlist + '&f=l1'
# url = 'http://download.finance.yahoo.com/d/quotes.csv?s=AAPL&f=l1' l1=>last trade without time.
days = str( urllib.request.urlopen(url).read() ,encoding='utf8') #lines()
data = [day[:-2].split(',') for day in days]
return data
def emailReport(Host,Port,User,Password,From,To,Subject,Message):
try:
server=smtplib.SMTP()
server.connect(Host,Port)
server.starttls()
# server.set_debuglevel(1)
server.login(User,Password)
server.sendmail(From,[To],Message)
server.quit()
print("Successfully sent email")
except smtp.SMTPException:
print("Error: unable to send email")
#use ansi color codes to color fg and bg : http://pueblo.sourceforge.net/doc/manual/ansi_color_codes.html; curses is an alternative
def ColorCode10pt2f(number):
if number>0:
print(("\033[32m %10.2f"% (number)), end=' ') #suppress newline
else:
print(("\033[31m %10.2f"% (number)), end=' ')
def ColorCode8s(string):
print(("\033[31m %8s"% (string)))
def txtReport(Host,User,Password,From,To,Subject,Message):
server=smtplib.SMTP(Host)
server.login(User,Password)
server.sendmail(From,[To],Message)
server.quit()
def PrintHeader():
print(("%7s %10s %10s %10s %10s %10s %10s %10s %10s %10s %6s" % ("ticker","$ gain", "ann %","% gain","Curr Worth", "Today chg$","Curr Price", "Prev Close" , "52 High","52 Low", "Trend") ))
# print(" %8s %8.2f %8.2f %8.2f " % ("ticker"," $ gain", "ann %","Curr Worth")
#print(" %8s %8s %8s %8s " % ("ticker"," $ gain", "ann %","Curr Worth")
def PrintHeader2():
# print("%7s %10s %10s %10s %10s %10s %10s %10s %10s %10s %6s %10s %10s %10s" % ("ticker","$ gain", "ann %","% gain","Curr Worth", "Today chg$","Curr Price", "Prev Close" , "52 High","52 Low", "Trend", "Sale Tk Home","Sale Taxes","Disc4Taxes") )
#print(("%7s %12s %12s %12s %12s %12s %12s %12s %12s %12s %6s %12s %12s %12s %5s" % ("ticker","$ gain", "ann \%","\% gain","Curr Worth", "Today chg $","Curr Price", "Prev Close" , "52 High","52 Low", "Trend", "Sale Tk Home","Sale Taxes","Disc4Taxes", "HiLoPct") ))
print(("%s %s %12s %12s %12s %12s %12s %12s %2s %12s %6s %12s %12s %12s %5s" % ("ticker","$ gain", "ann %","% gain","Curr Worth", "Today chg $","Curr Price", "Prev Close" , "52 High","52 Low", "Trend", "Sale Tk Home","Sale Taxes","Disc4Taxes", "HiLoPct") ))
# print(" %8s %8.2f %8.2f %8.2f " % ("ticker"," $ gain", "ann %","Curr Worth")
#print(" %8s %8s %8s %8s " % ("ticker"," $ gain", "ann %","Curr Worth")
class Accumulator:
def __init__(self):
self.totalpurchaseprice=0.0
self.totalcommission=0.0
self.totaldollargain=0.0
self.totallosses=0.0
self.totalgains=0.0
self.dailydollargain=0.0
self.dailytotallosses=0.0
self.dailytotalgains=0.0
self.portfolioworth=0.0
self.dailypercentchange=0.0
def Add(self, purchaseprice, commission, dollargain,dailygain,currentworth):
self.totalpurchaseprice+=purchaseprice
self.totalcommission+=commission
self.totaldollargain+=dollargain
if dollargain < 0.0:
self.totallosses+=dollargain
else:
self.totalgains+=dollargain
if dailygain < 0.0:
self.dailytotallosses+=dailygain
else:
self.dailytotalgains+=dailygain
self.portfolioworth+=currentworth
def CalculateDailyPercentChange(self):
self.dailypercentchange=((self.dailytotalgains+self.dailytotallosses)/(self.portfolioworth-self.dailytotallosses-self.dailytotalgains)*100)
def Print(self):
print("")
print(("%22s %10.2f" % ("Total Purchase Price:",self.totalpurchaseprice)))
print(("%22s %10.2f" % ("Total Commission Paid:",self.totalcommission)))
print(("%22s %10.2f" % ("Total Gain:",self.totaldollargain)))
#print("%30s %10.2f %s" % ("Total Dollar Losses: \033[31m" ,self.totallosses, " \033[39m" ))
print(("%27s %10.2f %s" % ("Total Dollar Losses:\033[31m" ,self.totallosses, " \033[39m" )))
#print("%26s %10.2f %s" % ("Total Dollar Losses: \033[31m" ,self.totallosses, " \033[39m" ))
#print("%24s %10.2f %s" % ("Total Dollar Losses: \033[31m" ,self.totallosses, " \033[39m" ))
#print("%22s %10.2f %s" % ("Total Dollar Losses: \033[31m" ,self.totallosses, " \033[39m" ))
# print("%28s %10.2f %s" % ("Total Dollar Gains:\033[31m" ,self.totalgains, " \033[39m" ))
print(("%27s %10.2f %s" % ("Total Dollar Gains:\033[32m" ,self.totalgains, " \033[39m" )))
# print("%26s %10.2f %s" % ("Total Dollar Gains:\033[31m" ,self.totalgains, " \033[39m" ))
# print("Total Purchase Price: %10.2f" % (self.totalpurchaseprice))
# print("Total Commission Paid: %10.2f" % (self.totalcommission))
# print("Total Dollar Gain/Loss: %10.2f" % (self.totaldollargain))
# print("Total Dollar Losses: \033[31m %10.2f \033[39m" % (self.totallosses))
# print("Total Dollar Gains:\033[32m %10.2f \033[39m" % (self.totalgains))
print(("%22s %10.2f" % ("Daily Losses:",self.dailytotallosses)))
print(("%22s %10.2f" % ("Daily Gains:",self.dailytotalgains)))
print(("%22s %10.2f" % ("Daily Change:",self.dailytotalgains+self.dailytotallosses)))
self.CalculateDailyPercentChange()
print(("%22s %10.2f" % ("Daily % Change:", self.dailypercentchange )))
print(("%22s %10.2f" % ("Portfolio Worth:",self.portfolioworth)))
class Stock:
currentshareprice=0.0
percentgainloss=0.0
pricegainloss=0.0
annualizedgainloss=0.0
shareopenprice=0.0
shareprevcloseprice=0.0
taxbracket=0
filingstatus=""
def __init__(self, data): #ticker,sharequantity,totalpurchaseprice,purchasedateyear,purchasedatemonth,purchasedateday,commission_to_buy,commission_to_sell):
self.ticker=data[0]
self.sharequantity=float(data[1]) #allow for partial shares, useful for mutual funds, and reverse splits
self.totalpurchaseprice=float(data[2])
temp=data[3].split('/')
# print temp
self.purchasedate=datetime.datetime(int(temp[2]),int(temp[0]),int(temp[1]))
self.purchasedateyear=temp[2]
self.puchasedatemonth=temp[0]
self.purchasedateday=temp[1]
if data[4]!="":
self.commission_to_buy=float(data[4])
else:
self.commission_to_buy=0
if data[5]!="":
self.commission_to_sell=float(data[5])
else:
self.commission_to_sell=0
# self.currentshareprice=self.getSharePrice()
self.getSharePrice()
self.dollarGain=self.dollarGain_func()
self.percentGain=self.percentGain_func()
self.annualizedReturn=self.annualizedReturn_func()
self.getTaxBracket_func()
def getTaxBracket_func(self):
input=open(os.path.expanduser("~/Git/PythonStockTracker/TaxBracket.txt"))
for line in input:
data=""
if line.strip(): #skip blank lines
if line[0]!='#': #skip comments
data=line[:-1].split(',')
self.taxbracket=int(data[0])
self.filingstatus=data[1]
# print("taxbracket:%i ,filing: %s" % (self.taxbracket,self.filingstatus))
def GetStockData(self):
print("get stock data")
def percentGain_func(self):
return (self.sharequantity*self.currentshareprice-self.totalpurchaseprice)/self.totalpurchaseprice
def percentGainLoss_func(self): #not sure what a good term for this is ROI?
return (self.sharequantity*self.currentshareprice)/self.totalpurchaseprice
def dollarGain_func(self):
return float(self.sharequantity*self.currentshareprice-self.totalpurchaseprice)
def annualizedReturn_func(self):
return (((self.dollarGain/self.totalpurchaseprice+1)**(1/self.yearsSincePurchase()) -1 ) *100)
def stockSaleTaxes_func(self): #calculate amount you would pay in taxes on your stock sale, taxed only on gains!
if self.currentWorth_func()>self.totalpurchaseprice-self.commission_to_buy:
output=(self.currentWorth_func()-self.totalpurchaseprice+self.commission_to_buy)*self.taxRate_func()
else:
output=0 #we're in the red. Not sure just yet how the taxes apply here
return output
def stockSaleTakeHome_func(self): #calculate amount you would receive after taxes on your stock sale
if self.currentWorth_func()>self.totalpurchaseprice-self.commission_to_buy:
output=self.currentWorth_func()-(self.currentWorth_func()-self.totalpurchaseprice+self.commission_to_buy)*self.taxRate_func()
else:
output=0 #we're in the red. Not sure just yet how the taxes apply here
return output
def stockpriceDiscountedForTaxes_func(self): #the effective price the stock would appear when selling taking into acct deductions for taxes: e.g. a $120 stock bought for $20 at a 38% tax rate would appear as a $82 stock -> 120-(120-20)*.38
#return self.currentshareprice*self.oneMinusTaxRate_func() #this method is unrealistically simplistic
#This method appears correct: the first part finds the theoretical profit you would make from the sale. This taxed profit is then added on to the per share purchase price to display the take home from the sale.
return (self.currentshareprice-(self.totalpurchaseprice+self.commission_to_buy)/self.sharequantity)*self.oneMinusTaxRate_func()+(self.totalpurchaseprice+self.commission_to_buy)/self.sharequantity
def oneMinusTaxRate_func(self): #add column to input file for personal info that includes tax rate, LT ST capital gains, This function will need to be update proly every year to take in tax changes
if self.yearsSincePurchase()>1:
taxrate=(100-self.calculateLongTermCapitalGains_func())/100 #<-- due to pythons untyped variables this is evaluated as an int even when wrapped in float()
taxrate=(100-self.calculateLongTermCapitalGains_func())/100.0 #<-- turning the denominator in a float types the whole thing as a float
else:
taxrate=(100-self.calculateShortTermCapitalGains_func())/100.0
return taxrate
#return float((100-self.calculateLongTermCapitalGains_func())/100.0)
def taxRate_func(self): #add column to input file for personal info that includes tax rate, LT ST capital gains, This function will need to be update proly every year to take in tax changes
if self.yearsSincePurchase()>1:
taxrate=(self.calculateLongTermCapitalGains_func())/100.0
else:
taxrate=(self.calculateShortTermCapitalGains_func())/100.0
return taxrate
def calculateLongTermCapitalGains_func(self):
taxlist=[0,15]
if self.taxbracket in taxlist:
return 0
else:
return 15
def calculateShortTermCapitalGains_func(self):
return self.taxbracket
def currentWorth_func(self):
return self.sharequantity*self.currentshareprice
def dailyChange_func(self):
return self.sharequantity*(self.currentshareprice - self.shareprevcloseprice)
def PrintData(self):
print("-----------------=======================-----------------")
print(("Ticker:"+self.ticker))
print(("Shares:"+str(self.sharequantity)))
print(("Total Purchase Price:"+str(self.totalpurchaseprice)))
print(("Purchase Date:"+str(self.purchasedate)))
print(("Dollar Gain:"+str(self.dollarGain)))
print(("Percent Gain:"+str(self.percentGain)))
print(("Annualized Return:"+str(self.annualizedReturn)))
print(("Current Value:"+str(self.sharequantity*self.currentshareprice)))
print(("Current Share Price:"+str(self.currentshareprice)))
print(("Current Open Price:"+str(self.shareopenprice)))
print(("Current 52 Week High:"+str(self.share52wkhigh)))
print(("Current 52 Week Low:"+str(self.share52wklow)))
print(("Current Trend:"+self.trend))
def FiftyTwoWeekHighLowFactor(self):
if self.share52wkhigh!=0 and self.share52wklow!=0:
return (self.currentshareprice-self.share52wklow)/(self.share52wkhigh-self.share52wklow)
else:
return 0
def PrintCompact2(self):
print((" %8s %8.2f %8.2f %8.2f %8.2f %8.2f %8.2f" % (self.ticker,self.dollarGain,self.annualizedReturn,self.sharequantity*self.currentshareprice,self.sharequantity*(self.currentshareprice - self.shareprevcloseprice),self.currentshareprice,self.shareprevcloseprice)))
def PrintForTxtMessage(self):
message="Ticker: %8s $+-: %8.2f AnnlRet: %8.2f Worth:%8.2f DayChange:%8.2f" % (self.ticker,self.dollarGain,self.annualizedReturn,self.sharequantity*self.currentshareprice,self.sharequantity*(self.currentshareprice - self.shareprevcloseprice ))
return message
def PrintCompact(self):
# print("-----------------=======================-----------------"
# print self.ticker+"\t"+str(self.dollarGain)+"\t"+str(self.annualizedReturn)+"\t"+str(self.sharequantity*self.currentshareprice)
print((" %8s %8.2f %8.2f %8.2f " % (self.ticker,self.dollarGain,self.annualizedReturn,self.currentWorth_func())))
def PrintColorized(self):
print(("%7s" % (self.ticker)), end=' ')
ColorCode10pt2f(self.dollarGain)
ColorCode10pt2f(self.annualizedReturn)
ColorCode10pt2f(self.percentGain_func())
print(("\033[49m \033[39m"), end=' ')
print(("%10.2f" % (self.currentWorth_func())), end=' ') #self.sharequantity*self.currentshareprice )),
ColorCode10pt2f(self.dailyChange_func()) #self.sharequantity*(self.currentshareprice - self.shareprevcloseprice)) #if today was an 'up' or 'down' day for the stock let that color coding propagate to the next two fields
#ColorCode10pt2f(self.currentshareprice)
print(("%10.2f %10.2f" %(self.currentshareprice,self.shareprevcloseprice)), end=' ')
#ColorCode10pt2f(self.shareprevcloseprice)
print(("\033[49m \033[39m"), end=' ') #reset color to default
print(("%10.2f %10.2f %6s" %(self.share52wkhigh,self.share52wklow,self.trend)))
# print("%10.2f %10.2f %10.2f %i" %(self.stockSaleTakeHome_func(),self.stockSaleTaxes_func(),self.stockpriceDiscountedForTaxes_func(),self.taxbracket))
# print("%10.2f %10.2f %10.2f %10.2f" %(self.taxRate_func(),self.oneMinusTaxRate_func(),self.calculateLongTermCapitalGains_func(),self.calculateShortTermCapitalGains_func()))
def PrintColorized2(self):
print(("%7s" % (self.ticker)), end=' ')
ColorCode10pt2f(self.dollarGain)
ColorCode10pt2f(self.annualizedReturn)
ColorCode10pt2f(self.percentGain_func())
print(("\033[49m \033[39m"), end=' ')
print(("%10.2f" % (self.currentWorth_func())), end=' ') #self.sharequantity*self.currentshareprice )),
ColorCode10pt2f(self.dailyChange_func()) #self.sharequantity*(self.currentshareprice - self.shareprevcloseprice)) #if today was an 'up' or 'down' day for the stock let that color coding propagate to the next two fields
#ColorCode10pt2f(self.currentshareprice)
print(("%10.2f %10.2f" %(self.currentshareprice,self.shareprevcloseprice)), end=' ')
#ColorCode10pt2f(self.shareprevcloseprice)
print(("\033[49m \033[39m"), end=' ') #reset color to default
print(("%10.2f %10.2f %6s" %(self.share52wkhigh,self.share52wklow,self.trend)), end=' ')
print(("%10.2f %10.2f %10.2f %10.2f" %(self.stockSaleTakeHome_func(),self.stockSaleTaxes_func(),self.stockpriceDiscountedForTaxes_func(),self.FiftyTwoWeekHighLowFactor())))
# print("%10.2f %10.2f %10.2f %10.2f" %(self.taxRate_func(),self.oneMinusTaxRate_func(),self.calculateLongTermCapitalGains_func(),self.calculateShortTermCapitalGains_func()))
def getSharePrice(self):
# data format found in GetStockQutoesv2.sh
#the date goes month(jan=0) day year
url = 'http://ichart.yahoo.com/table.csv?s=%s&' % self.ticker + \
'f=l1' #
#we actually need to get the prev close to compute gain for the day. Wall Street doesn't compute the gain from the open, but from prev close
url = 'http://download.finance.yahoo.com/d/quotes.csv?s=%s' %self.ticker + '&f=l1opwt7'
days = str(urllib.request.urlopen(url).read() , encoding='utf8') #lines()
data = days[:-2].split(',')
if float(data[0])==0.0:
print("Uhh bad stock ticker")
self.currentshareprice=float(data[0])
if data[1]!="N/A": #not sure I even need the share open price. I don't do anything with it.
self.shareopenprice=float(data[1])
self.shareprevcloseprice=float(data[2])
if data[3]!="\"N/A - N/A\"":
temp=data[3].split(" - ")
#print(temp,temp[0][1:],temp[1][:-1])
self.share52wklow=float(temp[0][1:])
self.share52wkhigh=float(temp[1][:-1])
self.trend=data[4][7:13]
else:
self.share52wklow=0.0001
self.share52wkhigh=0.0002
self.trend="N/A"
# print(self.trend[7:13])
def yearsSincePurchase(self):
now=datetime.datetime.now()
daysElapsed=(now-self.purchasedate).days
#if self.purchase
yearsElapsed=now.year-self.purchasedate.year
daysCalc=datetime.datetime(now.year,self.purchasedate.month,self.purchasedate.day)
days2=(now-daysCalc).days
if days2 <0: #the case when trying to do june 6-Oct 8, so have to subtract a year
yearsElapsed=yearsElapsed-1
daysCalc=datetime.datetime(now.year-1,self.purchasedate.month,self.purchasedate.day)
days2=(now-daysCalc).days
daysinyear=365.0 #force to be float so the division works as we would expect
yr=now.year
if isLeapYear(yr): #now.year):
daysinyear+=1
daysDiff=(days2/daysinyear)
# print daysDiff
# print float(days2/daysinyear)
# print yearsElapsed+daysDiff
return yearsElapsed+daysDiff
#TODO: create Portfolio object and have a total for the entire portfolio
#todo: trend line of +-+-++ for last few days worth of trading,
#generic line for an index. as comparison
"""
stock=Stock("aapl",142,1400,2000,10,2,7)
stock=Stock("fmcc.obb",142,1400,2000,10,2,7)
#stock=Stock("aapl",142,1400,2012,03,2,7)
stock.getSharePrice()
stock.yearsSincePurchase()
pctgain=stock.percentGain_func()
dlrgain=stock.dollarGain_func()
#print pctgain
#print dlrgain
stock.PrintData()
def __init__(self, ticker,sharequantity,totalpurchaseprice,purchasedateyear,purchasedatemonth,purchasedateday,commission):
self.ticker=data[0]
self.sharequantity=int(sharequantity)
self.totalpurchaseprice=float(totalpurchaseprice)
self.purchasedate=datetime.datetime(purchasedateyear,purchasedatemonth,purchasedateday)
self.purchasedateyear=purchasedateyear
self.puchasedatemonth=purchasedatemonth
self.purchasedateday=purchasedateyear
self.commission=commission
# self.currentshareprice=self.getSharePrice()
self.getSharePrice()
self.dollarGain=self.dollarGain_func()
self.percentGain=self.percentGain_func()
self.annualizedReturn=self.annualizedReturn_func()
"""
############ Main
#use ncurses, ansi color codes
from textwrap import TextWrapper
wrapper =TextWrapper()
wrapper.width=190 #set text wrapping width manually otherwise if drag terminal to full width python doesn't write text out the full width
import sys
if len(sys.argv)>1:
if sys.argv[1]!="":
inputfilename=sys.argv[1]
else:
inputfilename="StockData.txt"
import os.path
#loop over command line args
sysargvlength=len(sys.argv)
i=1
while i < sysargvlength:
if os.path.isfile(sys.argv[i]):
inputfilename=sys.argv[i]
i+=1
input=open(inputfilename)
DefaultColorCoding()
PrintHeader2() #2()
cumulative=Accumulator()
for line in input:
data=""
if line.strip(): #skip blank lines
if line[0]!='#': #skip comments
data=line[:-1].split(',')
#print(data)
stock=Stock(data)
# print( stock.totalpurchaseprice, stock.commission, stock.dollarGain)
cumulative.Add(stock.totalpurchaseprice, stock.commission_to_buy, stock.dollarGain,stock.dailyChange_func() ,stock.currentWorth_func() )
# if stock.dollarGain < 0:
# stock.PrintData()
# stock.PrintCompact2()
stock.PrintColorized2()
message=stock.PrintForTxtMessage()
# print(message)
# emailReport("mail.djinnius.com",587,"deals","backcountry","NAK","5079909052@tmomail.net","stuff",stock.PrintForTxtMessage())
# emailReport("smtp.gmail.com",587,"nick.klosterman@gmail.com","p51mustang","NAK","5079909052@tmomail.net","testnick",stock.PrintForTxtMessage())
# emailReport("smtp.gmail.com",587,"nick.klosterman@gmail.com","p51mustang","NAK","nick_klosterman@yahoo.com","testnick",stock.PrintForTxtMessage()) #this sends a message but there is no subject or body
# print data
cumulative.Print()
DefaultColorCoding()
input.close()
print("")
"""
emailReport("smtp.djinnius.com","587","deals","backcountry","NAK","5079909052@tmomail.net","stuff","hello McFly")
emailReport("smtp.djinnius.com",587,"deals","backcountry","NAK","5079909052@tmomail.net","stuff","hello McFly2")
emailReport("djinnius.com",587,"deals","backcountry","NAK","5079909052@tmomail.net","stuff","hello McFly3")
#emailReport("mail.djinnius.com",587,"dals","backctry","NAK","5079909052@tmomail.net","stuff","hello McFly")
# this guy works: emailReport("smtp.gmail.com",587,"nick.klosterman@gmail.com","p51mustang","NAK","5079909052@tmomail.net","testnick","test subjetct")
"""