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I need to write a program than can plot the graph (over the last 20 trading days) of any stock whose symbol the user inputs for a homework assignment. The first part of the code is given and I have to use it as a library to help with the rest of the code. This library, called ystockquote, can retrieve various kinds of information about the stock, but most important for me is the last function in the library called get_historical_prices. Here is the library:

import urllib
import urllib.request

"""
This is the "ystockquote" module.

This module provides a Python API for retrieving stock data from Yahoo Finance.

sample usage:
>>> import ystockquote
>>> print ystockquote.get_price('GOOG')
529.46
"""


def __request(symbol, stat):
    url = 'http://finance.yahoo.com/d/quotes.csv?s=%s&f=%s' % (symbol, stat)
    with urllib.request.urlopen(url) as url:
        return str(url.read(), encoding='utf-8').strip().strip('"')


def get_all(symbol):
    """
    Get all available quote data for the given ticker symbol.

    Returns a dictionary.
    """
    values = __request(symbol, 'l1c1va2xj1b4j4dyekjm3m4rr5p5p6s7').split(',')
    data = {}
    data['price'] = values[0]
    data['change'] = values[1]
    data['volume'] = values[2]
    data['avg_daily_volume'] = values[3]
    data['stock_exchange'] = values[4]
    data['market_cap'] = values[5]
    data['book_value'] = values[6]
    data['ebitda'] = values[7]
    data['dividend_per_share'] = values[8]
    data['dividend_yield'] = values[9]
    data['earnings_per_share'] = values[10]
    data['52_week_high'] = values[11]
    data['52_week_low'] = values[12]
    data['50day_moving_avg'] = values[13]
    data['200day_moving_avg'] = values[14]
    data['price_earnings_ratio'] = values[15]
    data['price_earnings_growth_ratio'] = values[16]
    data['price_sales_ratio'] = values[17]
    data['price_book_ratio'] = values[18]
    data['short_ratio'] = values[19]
    return data


def get_price(symbol):
    return __request(symbol, 'l1')


def get_change(symbol):
    return __request(symbol, 'c1')


def get_volume(symbol):
    return __request(symbol, 'v')


def get_avg_daily_volume(symbol):
    return __request(symbol, 'a2')


def get_stock_exchange(symbol):
    return __request(symbol, 'x')


def get_market_cap(symbol):
    return __request(symbol, 'j1')


def get_book_value(symbol):
    return __request(symbol, 'b4')


def get_ebitda(symbol):
    return __request(symbol, 'j4')


def get_dividend_per_share(symbol):
    return __request(symbol, 'd')


def get_dividend_yield(symbol):
    return __request(symbol, 'y')


def get_earnings_per_share(symbol):
    return __request(symbol, 'e')


def get_52_week_high(symbol):
    return __request(symbol, 'k')


def get_52_week_low(symbol):
    return __request(symbol, 'j')


def get_50day_moving_avg(symbol):
    return __request(symbol, 'm3')


def get_200day_moving_avg(symbol):
    return __request(symbol, 'm4')


def get_price_earnings_ratio(symbol):
    return __request(symbol, 'r')


def get_price_earnings_growth_ratio(symbol):
    return __request(symbol, 'r5')


def get_price_sales_ratio(symbol):
    return __request(symbol, 'p5')


def get_price_book_ratio(symbol):
    return __request(symbol, 'p6')


def get_short_ratio(symbol):
    return __request(symbol, 's7')


def get_historical_prices(symbol, start_date, end_date):
    """
    Get historical prices for the given ticker symbol.
    Date format is 'YYYYMMDD'

    Returns a nested list.
    """
    url = 'http://ichart.yahoo.com/table.csv?s=%s&' % symbol + \
        'd=%s&' % str(int(end_date[4:6]) - 1) + \
        'e=%s&' % str(int(end_date[6:8])) + \
        'f=%s&' % str(int(end_date[0:4])) + \
        'g=d&' + \
        'a=%s&' % str(int(start_date[4:6]) - 1) + \
        'b=%s&' % str(int(start_date[6:8])) + \
        'c=%s&' % str(int(start_date[0:4])) + \
        'ignore=.csv'
    with urllib.request.urlopen(url) as url:
        days = url.readlines()
        data = [str(day[:-2], encoding='utf-8').split(',') for day in days]
        return data

Using this library, I have to write another library that I called stock_check that checks if the stock price is valid and has a high enough volume. The last function, called check_if_valid returns a 2 dimensional list with all the imortant data over the last 20 days for the stock. This part works just fine, but here is my code:

import ystockquote as stock

def check_price(ticker):
    stock_price = float(stock.get_price(ticker))

    # Checks to see if the stock's price is O (a stock with that price can't
    # exist) and then asks the user to input another ticker symbol until
    # one whose price is not 0 is found.
    while stock_price == 0.00:
        ticker = input("This stock either does not exist or is"
                       + " a sub-penny stock and is unusable."
                       + " Please enter another ticker symbol.")
    else:
        print("The stock", ticker, "exists and is usable.")
    return check_price



def check_volume(ticker):
    stock_Vol = int(stock.get_volume(ticker))

    # Checks if the stock's volume for the day is greater than, less than or
    # equal to 5000 shares traded
    if stock_Vol == 5000:
        print(ticker + "'s trading volume today is exactly 5000 shares.")
    elif stock_Vol > 5000:
        print(ticker + "'s trading volume is greater than 5000 shares.")
    elif stock_Vol < 5000:
        print(ticker + "'s trading volume is less than 5000 shares.")



def check_if_valid(ticker, end_date):

    # Average volume is set to later see if the stock is traded
    # enough and a start date 20 days before the asked for end
    # date (see main function) is determined and set as a string.
    avg_Vol = int(stock.get_avg_daily_volume(ticker))
    start_date = str(int(end_date) - 20)

    # Asks the user to input another symbol if stock does not
    # exist or is too thinly traded.
    while not (check_price) or avg_Vol < 100000:
        print("This stock symbol is invalid.")
        ticker = input("Please enter a different ticker symbol and try again. ")
        ticker = ticker.upper()
        avg_Vol = int(stock.get_avg_daily_volume(ticker))

    # Retuns the list of hiostorical prices if the conditions are fulfilled.
    if check_price and avg_Vol > 100000:
        historical_prices = stock.get_historical_prices(ticker, start_date, end_date)
        print(historical_prices)
    return historical_prices

To make it easier, here is the 2 dimesional list that the above library prints out. This is the list I have to work with in order to be able to make the graph.

[['Date', 'Open', 'High', 'Low', 'Close', 'Volume', 'Adj Clos'], ['2013-04-15', '0.25', '0.31', '0.21', '0.30', '14385300', '0.3'], ['2013-04-12', '0.29', '0.32', '0.25', '0.26', '11519600', '0.2'], ['2013-04-11', '0.27', '0.31', '0.23', '0.29', '16415200', '0.2'], ['2013-04-10', '0.36', '0.38', '0.23', '0.27', '47010800', '0.2'], ['2013-04-09', '0.59', '0.59', '0.31', '0.36', '66998300', '0.3'], ['2013-04-08', '0.63', '0.65', '0.57', '0.57', '28082200', '0.5'], ['2013-04-05', '0.58', '0.62', '0.57', '0.58', '22003500', '0.5'], ['2013-04-04', '0.45', '0.58', '0.44', '0.57', '19362500', '0.5'], ['2013-04-03', '0.51', '0.51', '0.41', '0.46', '54159900', '0.4'], ['2013-04-02', '0.55', '0.57', '0.50', '0.51', '26752300', '0.5'], ['2013-04-01', '0.47', '0.54', '0.40', '0.53', '22806700', '0.5'], ['2013-03-28', '0.44', '0.46', '0.41', '0.45', '14604800', '0.4'], ['2013-03-27', '0.42', '0.43', '0.41', '0.43', '14337000', '0.4'], ['2013-03-26', '0.40', '0.43', '0.40', '0.42', '14312700', '0.4'], ['2013-03-25', '0.38', '0.40', '0.38', '0.40', '15046900', '0.4'], ['2013-03-22', '0.34', '0.38', '0.34', '0.37', '21291900', '0.3'], ['2013-03-21', '0.34', '0.35', '0.29', '0.33', '19919900', '0.3'], ['2013-03-20', '0.31', '0.34', '0.30', '0.34', '13046600', '0.3'], ['2013-03-19', '0.30', '0.32', '0.27', '0.30', '19759500', '0.3'], ['2013-03-18', '0.27', '0.35', '0.20', '0.28', '263914100', '0.2']]

Now here's the part that I'm having trouble with. I wrote some funtions to draw the graph that I need, but how do I lot the closing prices on the graph and connect them? Here is my code. I explain the problem again in a comment.

import turtle as t
import time
import ystockquote as quote
import stock_check as stock


# Draws the graph
def draw_graph():
    t.color("black")
    t.up()
    t.goto(-350, -200)
    t.down()
    t.goto(350, -200)
    t.up()
    t.goto(-350, -200)
    t.down()
    t.goto(-350, 250)

# Labels and marks the axes
def label_axes():
    t.up()
    t.goto(0, -250)
    t.write("Date")
    t.up()
    t.goto(-400, 280)
    t.write("Price")
    t.up()
    t.goto(-350, -150)
    t.down()
    t.goto(-360, -150)
    t.up()
    t.goto(-350, -100)
    t.down()
    t.goto(-360, -100)
    t.up()
    t.goto(-350, -50)
    t.down()
    t.goto(-360, -50)
    t.up()
    t.goto(-350, 0)
    t.down()
    t.goto(-360, 0)
    t.up()
    t.goto(-350, 50)
    t.down()
    t.goto(-360, 50)
    t.up()
    t.goto(-350, 100)
    t.down()
    t.goto(-360, 100)
    t.up()
    t.goto(-350, 150)
    t.down()
    t.goto(-360, 150)
    t.up()
    t.goto(-350, 200)
    t.down()
    t.goto(-360, 200)
    t.up()
    t.goto(-315, -200)
    t.down()
    t.goto(-315, -210)
    t.up()
    t.goto(-280, -200)
    t.down()
    t.goto(-280, -210)
    t.up()
    t.goto(-245, -200)
    t.down()
    t.goto(-245, -210)
    t.up()
    t.goto(-210, -200)
    t.down()
    t.goto(-210, -210)
    t.up()
    t.goto(-175, -200)
    t.down()
    t.goto(-175, -210)
    t.up()
    t.goto(-140, -200)
    t.down()
    t.goto(-140, -210)
    t.up()
    t.goto(-105, -200)
    t.down()
    t.goto(-105, -210)
    t.up()
    t.goto(-70, -200)
    t.down()
    t.goto(-70, -210)
    t.up()
    t.goto(-35, -200)
    t.down()
    t.goto(-35, -210)
    t.up()
    t.goto(0, -200)
    t.down()
    t.goto(0, -210)
    t.up()
    t.goto(35, -200)
    t.down()
    t.goto(35, -210)
    t.up()
    t.goto(70, -200)
    t.down()
    t.goto(70, -210)
    t.up()
    t.goto(105, -200)
    t.down()
    t.goto(105, -210)
    t.up()
    t.goto(140, -200)
    t.down()
    t.goto(140, -210)
    t.up()
    t.goto(175, -200)
    t.down()
    t.goto(175, -210)
    t.up()
    t.goto(210, -200)
    t.down()
    t.goto(210, -210)
    t.up()
    t.goto(245, -200)
    t.down()
    t.goto(245, -210)
    t.up()
    t.goto(280, -200)
    t.down()
    t.goto(280, -210)
    t.up()
    t.goto(315, -200)
    t.down()
    t.goto(315, -210)
    t.up()

# This is the function that's giving me trouble. I'm trying to pull out
# of the 2D list the closing prices for the stock over the last 20 days and
# plot them on the graph. The closing price is at index number 4 at each list
# (in the 2D list). I need help fixing and finishing this function. I need to
# get all of the closing prices and plot them. How do I do this?
def add_prices():
    ticker = input("Enter the stock symbol you want to find. ")
    end_date = str(input("Please enter today's date in the following"
                         + " format: 'YYYYMMDD'. "))
    y = -350
    historical_prices = list(stock.check_if_valid(ticker, end_date))
    list1 = []
    for i in historical_prices:
        x = i[4]
        list1.append(x)
    list1 = list1.remove('Close')
    print(list1)
    for j in list1:
        j = float(j)
        t.up()
        t.goto(y, (-500*j))
        t.down()
        y += 35


def main():
    draw_graph()
    label_axes()
    add_prices()

main()
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