Difference between revisions of "Lemonade Stand"

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==Project Status==
 
==Project Status==
With the summer break, the work on the project will no longer be updated as regularly. Many of the involved team members have decided to continue development on an open basis dependent on time. As such, outside work on the project would be much appreciated. At this point, we are hoping to open up the project to the entire open source community. The game is ending in a working, albeit bare bones structure that would be easy to pick up from.
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The project has been updated to version 1.1.  This version exists on a hard drive and will be uploaded to the wiki as soon as humanly possible. This version was the culmination of many 'wishlist' ideas at the end of the Spring OLPC class, and has finally been debugged into a version that actually runs on the OLPC.
  
Continued work for the Summer of '09 and on includes the finishing of the stated goals that have yet to reach completion. The primary goal at this point is adding a graphical interface to what is still a text based game. Our development will continue to work towards the goals we have outlined, but no milestone dates will be soon forthcoming. The remaining developers have stayed on as strictly volunteer groups.
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Any interest in helping can be directed towards project leader [[User:Qalthos|Nathaniel Case]] as well as the other listed members below, under contacts. Lemonade Stand is to be considered an open project, with updates varying based on availability.  Nathaniel will continue to have interest in the project and will continue to provide assistance and input as time allows.
 
 
Any interest in helping can be directed towards project leader [[User:Qalthos|Nathaniel Case]] as well as the other listed members below, under contacts. Lemonade Stand is to be considered an open project, with updates varying based on availability.
 
  
 
==Releases==
 
==Releases==

Revision as of 20:04, 3 December 2009

Description

This is your basic "Lemonade Stand" style game, where the player manages a lemonade stand (or similar such store) and tries to make as much money as possible. The game is designed to incorporate money and fractional math skills to teach basic operations.

We plan to begin with a basic framework, e.g. text based command line, and work up based on free time. Ideally, the game will consist of graphics and a refined GUI front end, similar in look to the currently available flash implementations of Lemonade Stand (although more simplistic, being based in Python).

Localization will be implemented in the final phase, with the stand being written to use more regional ingredients and products.

Project Status

The project has been updated to version 1.1. This version exists on a hard drive and will be uploaded to the wiki as soon as humanly possible. This version was the culmination of many 'wishlist' ideas at the end of the Spring OLPC class, and has finally been debugged into a version that actually runs on the OLPC.

Any interest in helping can be directed towards project leader Nathaniel Case as well as the other listed members below, under contacts. Lemonade Stand is to be considered an open project, with updates varying based on availability. Nathaniel will continue to have interest in the project and will continue to provide assistance and input as time allows.

Releases

1.0.0: initial release.
1.1.0: Updated game code. C̣oming soon!

Goals

We're looking to create a workable prototype with the ability to buy materials and sell a product.However, the most important goal is to have a working game. While possibly not feature complete, the game should have basic functions working.

Additional Ideas & Features

(Based on available time)

Completed

- Creating a GUI based game
- Incorporating counting of money (bills and coins) to make change
- Cool Random Events: Ants steal your supplies

   -10% sugar

A lemon truck crashes in front of your stand

   +10 lemons
In progress

- Creating seasons to vary prices and product demand
- Weather patterns impacting sales
- Making materials perishable to increase difficulty
- Making the program more intuitive so that it can be easily learned

Wishlist

- Advanced mode: changing the recipe for your "lemonade"
- Implementing Bargaining / Haggling
- Random events that may influence supplies and/or cost and/or customers
- Potential use of network, competitive, or cooperative modes
- Choosing location of Lemonade Stand within the town, would influence sales, cost of supplies, etc.

Potential Problems

Localization is likely to be a big problem in this game. Not simply translating the words, but also translating the idea, ie. finding out what kind of shop would be reasonable to open in a country, what it might stock, etc.

This becomes even more difficult when moving to a graphical environment. For every localized region we will need a different set of graphics depending on what the stand is selling.

Updates and Milestones

Updates:

4/28: Wiki reorganized, content added

Milestones:

4/24: Have everyone look at the current implementations.

5/1: produce a basic 'sugarized' build to work from. Implement price fluctuations.

5/8: Move to a 'graphical interface' based off of pyGTK or pygame. Add any art we have managed to collect where it seems appropriate.

5/15: Finishing code sugarization

Design Decisions

Is lemonade made at the beginning of the day (make all available lemonade at once) or on the fly (a customer asks for lemonade and it is made for them)? This is important as it impacts the resources from day to day. In the former, normally non-perishable objects like cups will be used if they can make another drink (even beyond demand), however in the latter, it makes the game easy if you stock up on resources and slowly sell them each day. This is usually mitigated by having perishable resources (lemons, etc) and variable prices.

Educational Standards

Standards found here

4.N.4 Select, use, and explain models to relate common fractions and mixed numbers (1/2, 1/3, 1/4, 1/5, 1/6, 1/8, 1/10, 1/12, and 11/2), find equivalent fractions, mixed numbers, and decimals, and order fractions

4.N.6 Exhibit an understanding of the base ten number system by reading, naming, and writing decimals between 0 and 1 up to the hundredths.

4.N.10 Select and use appropriate operations (addition, subtraction, multiplication, and division) to solve problems, including those involving money.

4.D.3 Construct, draw conclusions, and make predictions from various representations of data sets, including tables, bar graphs, pictographs, line graphs, line plots, and tallies

Contacts

Links and Resources

Coming soon!

Code so far

#!/usr/env python
# -*- coding: cp1252 -*-
import random
from counting import play_Money



#Generisize the names of supplys to make it easily editable
#[0] = name of the stand, [1] = first supply, [2] = second supply, [3] = third supply, [4] = the object that is being sold
variables = ['Lemonade Stand','cups','lemons','sugar','cups']

print 'Welcome to ' + variables[0]

#Random weather event, if its a hot day all stock will sell, 
# if its a normal day, 90% will sell, and if its a raining day 80% will sell

def weather_Change( ):
    global weather
    weather = random.randint( -1, 1 )
    
    if weather == -1:
        print "It looks like its going to rain tomorrow"
    elif weather == 0:
        print "Its a normal day tomorrow"
    elif weather == 1:
        print "Tomorrow looks to be very hot"

#Format the input text, and make it return a 0 if input is incorrect
def take_input(text, default = 0):
    try:
        in_text = input(text+" ["+`default`+"]: ")
    except:
        return default
    if in_text < 0:
        in_text = 0
    
    return in_text

#Declare a random event, More events can be added easily by building a new case statment
def random_Event():
    global stored_sugar, stored_lemons, stored_cups
    event = random.randint(0, 10)   
    
    if event == 0:
        
        if stored_sugar > 10:
            stored_sugar -= 10
            print 'Ants steal your supplies!'
        else:
            stored_sugar = 0
            
    elif event == 1:

        print 'A lemon truck crashes in front of your stand!'
        stored_lemons += 10
        
    elif event == 2:

        print 'It starts raining cups!'
        stored_cups += 10

    print ""


#Decreases currently the supply's by 10% each day
def supply_Decay():
    global stored_sugar, stored_lemons, stored_cups
    if stored_sugar > 0:
        stored_sugar -= 10 % stored_sugar
    if stored_lemons > 0:
        stored_lemons -= 10 % stored_lemons
    if stored_cups > 0:
        stored_cups -= 10% stored_cups

    return -1
    
# default values
cup_price = .25
lemon_price = 1.00
sugar_price = .05
weather = 0
product_price = 1.50

#starting resources
bank = 100

stored_cups = 0
stored_lemons = 0
stored_sugar = 0

# take in input
num_days = take_input("How many days would you like to play for?", 30)

for day in range(1, num_days + 1):

    


    print ""
    print "____________________"
    print "     Day number " + `day`
    print "¯¯¯¯¯¯¯¯¯¯¯¯¯¯¯¯¯¯¯¯" 
    print ""

    random_Event()


    print "You have "+`stored_cups`+ " " + variables[1] + ", " +`stored_lemons`+ " " + variables[2] + ", and "+`stored_sugar`+ " " + variables[3] + " left."

    print variables[1] + " price: $" + `cup_price` + "     " +  variables[2] + " price: $"+ "%.2f" % lemon_price + "    " + variables[3] + " price: $"+ "%.2f" % sugar_price

    expenses = 0

    cost_over = 1


    #Checks to make sure you dont go over your bank amount while buying. 

    while cost_over == 1:

        potential_expense = 0
        in_num = take_input("How many " + variables[1])
        potential_expense = expenses + (in_num * cup_price)

        if potential_expense < bank:
            cost_over = -1
            expenses += in_num * cup_price
            stored_cups += in_num
        else:
            print 'You cant afford that many ' + variables[1]

    cost_over = 1

    while cost_over == 1:

        potential_expense = 0
        in_num = take_input("How many " + variables[2])
        potential_expense = expenses + (in_num * cup_price)

        if potential_expense < bank:
            cost_over = -1
            expenses += in_num * lemon_price
            stored_lemons += in_num
        else:
            print 'You cant afford that many ' + variables[2]

    cost_over = 1

    while cost_over == 1:

       potential_expense = 0
       in_num = take_input("How much " + variables[3])
       potential_expense = expenses + (in_num * cup_price)

       if potential_expense < bank:
           cost_over = -1
           expenses += in_num * sugar_price
           stored_sugar += in_num

       else:
           print 'You can not afford that many ' + variables[3]

   

    # Find the lowest amount of supplys, and make that many of lemonade that day
    sales = max(min(stored_cups, stored_lemons, stored_sugar),0)

    # Option 2: make as many as requested
    stored_cups -= sales
    stored_lemons -= sales
    stored_sugar -= sales
    
    if weather == 0:
        sales -= 10 % sales
    elif weather == -1:
        sales -= 20 % sales


    
    print `sales`+ ' ' + variables[4]+ " made for $"+ "%.2f" % expenses

    profit = sales * product_price
    print `sales`+ " " + variables[4] +" were sold today for $"+ "%.2f" % profit
    
    print "You made $"+ "%.2f" % (profit - expenses)+" today."
    
    
    if (profit - expenses) <= 0:
    
        print "You lost money today"
        
    else:    
    
        #If you didnt lose money that day, play the small money game to put away your change
        #If you put away change right, you get to keep the profit, otherwise you lose it

        print "You go to put profits away"
                  
        if play_Money( int(profit - expenses) ) == 1:
            print "you put the money away correctly"
            bank += profit - expenses
        else:
            print "You lost the money when putting it away"
    
    
    print "Current funds: $"+ "%.2f" % bank
    
    #Decrease the supply's by 10% 
    #Warn for the next days weather

    supply_Decay()
    weather_Change()
    
    
    print 
    
print "Done!"


Counting code



dollar = 1
quarter = .25
dime = .10
nickel = .05
penny = .01



def take_input(text, default = 0):
    try:
        in_text = input(text+" ["+`default`+"]: ")
    except:
        return default
    if in_text < 0:
        in_text = 0
    
    return in_text


def play_Money( money_Find ):
 
    global quarter, dime, nickel, penny
    
    total = 0
    
    #Takes the amount of money
    total += dollar*take_input( "How many dollars? ") 

    
    total += quarter*take_input( "How many quarters? ") 

    total += dime*take_input( "How many dimes? ")

    total += nickel*take_input( "How many nickels? ")

    total += penny*take_input( "How many pennies? ")
             
    if total == money_Find:
        return 1
            
    else:
        return -1