Changes

6,245 bytes removed ,  12:50, 20 July 2010
Removed code, now in repo, updated links
Line 88: Line 88:     
==Links and Resources==
 
==Links and Resources==
Coming soon!
+
* [http://activities.sugarlabs.org/en-US/sugar/addon/4321/ Activity Page]
 
+
  * [http://gitorious.org/lemonade-stand-olpc/lemonade-stand-olpc Git Repository]
==Code so far==
+
* [https://fedorahosted.org/fossrit/wiki/LemonadeStand Project Trac]
<pre>
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#!/usr/env python
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# -*- coding: cp1252 -*-
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import random
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from counting import play_Money
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#Generisize the names of supplys to make it easily editable
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#[0] = name of the stand, [1] = first supply, [2] = second supply, [3] = third supply, [4] = the object that is being sold
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variables = ['Lemonade Stand','cups','lemons','sugar','cups']
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print 'Welcome to ' + variables[0]
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#Random weather event, if its a hot day all stock will sell,
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# if its a normal day, 90% will sell, and if its a raining day 80% will sell
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def weather_Change( ):
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    global weather
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    weather = random.randint( -1, 1 )
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    if weather == -1:
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        print "It looks like its going to rain tomorrow"
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    elif weather == 0:
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        print "Its a normal day tomorrow"
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    elif weather == 1:
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        print "Tomorrow looks to be very hot"
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#Format the input text, and make it return a 0 if input is incorrect
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def take_input(text, default = 0):
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    try:
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        in_text = input(text+" ["+`default`+"]: ")
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    except:
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        return default
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    if in_text < 0:
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        in_text = 0
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    return in_text
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#Declare a random event, More events can be added easily by building a new case statment
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def random_Event():
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    global stored_sugar, stored_lemons, stored_cups
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    event = random.randint(0, 10) 
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    if event == 0:
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        if stored_sugar > 10:
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            stored_sugar -= 10
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            print 'Ants steal your supplies!'
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        else:
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            stored_sugar = 0
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    elif event == 1:
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        print 'A lemon truck crashes in front of your stand!'
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        stored_lemons += 10
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    elif event == 2:
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        print 'It starts raining cups!'
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        stored_cups += 10
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    print ""
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#Decreases currently the supply's by 10% each day
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def supply_Decay():
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    global stored_sugar, stored_lemons, stored_cups
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    if stored_sugar > 0:
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        stored_sugar -= 10 % stored_sugar
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    if stored_lemons > 0:
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        stored_lemons -= 10 % stored_lemons
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    if stored_cups > 0:
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        stored_cups -= 10% stored_cups
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    return -1
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# default values
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cup_price = .25
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lemon_price = 1.00
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sugar_price = .05
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weather = 0
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product_price = 1.50
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#starting resources
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bank = 100
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stored_cups = 0
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stored_lemons = 0
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stored_sugar = 0
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# take in input
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num_days = take_input("How many days would you like to play for?", 30)
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for day in range(1, num_days + 1):
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    print ""
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    print "____________________"
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    print "    Day number " + `day`
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    print "¯¯¯¯¯¯¯¯¯¯¯¯¯¯¯¯¯¯¯¯"
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    print ""
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    random_Event()
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    print "You have "+`stored_cups`+ " " + variables[1] + ", " +`stored_lemons`+ " " + variables[2] + ", and "+`stored_sugar`+ " " + variables[3] + " left."
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    print variables[1] + " price: $" + `cup_price` + "    " + variables[2] + " price: $"+ "%.2f" % lemon_price + "    " + variables[3] + " price: $"+ "%.2f" % sugar_price
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    expenses = 0
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    cost_over = 1
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    #Checks to make sure you dont go over your bank amount while buying.
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    while cost_over == 1:
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        potential_expense = 0
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        in_num = take_input("How many " + variables[1])
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        potential_expense = expenses + (in_num * cup_price)
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        if potential_expense < bank:
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            cost_over = -1
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            expenses += in_num * cup_price
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            stored_cups += in_num
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        else:
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            print 'You cant afford that many ' + variables[1]
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    cost_over = 1
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    while cost_over == 1:
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        potential_expense = 0
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        in_num = take_input("How many " + variables[2])
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        potential_expense = expenses + (in_num * cup_price)
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        if potential_expense < bank:
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            cost_over = -1
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            expenses += in_num * lemon_price
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            stored_lemons += in_num
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        else:
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            print 'You cant afford that many ' + variables[2]
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    cost_over = 1
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    while cost_over == 1:
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      potential_expense = 0
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      in_num = take_input("How much " + variables[3])
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      potential_expense = expenses + (in_num * cup_price)
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      if potential_expense < bank:
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          cost_over = -1
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          expenses += in_num * sugar_price
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          stored_sugar += in_num
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      else:
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          print 'You can not afford that many ' + variables[3]
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    # Find the lowest amount of supplys, and make that many of lemonade that day
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    sales = max(min(stored_cups, stored_lemons, stored_sugar),0)
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    # Option 2: make as many as requested
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    stored_cups -= sales
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    stored_lemons -= sales
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    stored_sugar -= sales
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    if weather == 0:
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        sales -= 10 % sales
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    elif weather == -1:
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        sales -= 20 % sales
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    print `sales`+ ' ' + variables[4]+ " made for $"+ "%.2f" % expenses
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    profit = sales * product_price
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    print `sales`+ " " + variables[4] +" were sold today for $"+ "%.2f" % profit
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    print "You made $"+ "%.2f" % (profit - expenses)+" today."
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    if (profit - expenses) <= 0:
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        print "You lost money today"
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    else:   
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        #If you didnt lose money that day, play the small money game to put away your change
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        #If you put away change right, you get to keep the profit, otherwise you lose it
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        print "You go to put profits away"
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        if play_Money( int(profit - expenses) ) == 1:
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            print "you put the money away correctly"
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            bank += profit - expenses
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        else:
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            print "You lost the money when putting it away"
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    print "Current funds: $"+ "%.2f" % bank
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    #Decrease the supply's by 10%
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    #Warn for the next days weather
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    supply_Decay()
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    weather_Change()
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    print
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print "Done!"
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</pre>
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Counting code
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<pre>
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dollar = 1
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quarter = .25
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dime = .10
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nickel = .05
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penny = .01
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def take_input(text, default = 0):
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    try:
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        in_text = input(text+" ["+`default`+"]: ")
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    except:
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        return default
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    if in_text < 0:
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        in_text = 0
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    return in_text
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def play_Money( money_Find ):
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    global quarter, dime, nickel, penny
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    total = 0
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    #Takes the amount of money
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    total += dollar*take_input( "How many dollars? ")
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    total += quarter*take_input( "How many quarters? ")
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    total += dime*take_input( "How many dimes? ")
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    total += nickel*take_input( "How many nickels? ")
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    total += penny*take_input( "How many pennies? ")
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    if total == money_Find:
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        return 1
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    else:
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        return -1
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</pre>
 
248

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