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For some reason my while loop is stopping after two tries and I can't figure out what's wrong... It's supposed to be an ant farm, where you can choose to breed and make a new ant, etc. I just don't understand why it's stopping... Here's my code:

import random

class Colony(object):
    workerAnts = 0
    list = []
    temp = []
    foodAmount = 10
    def breedWorker(self):
        if Colony.foodAmount < 5:
             print "Sorry! You do not have enough food to create a new worker ant!"
        else:
                Colony.foodAmount -= 5
                Colony.workerAnts += 1
                Colony.list.append("ant")
    def step(self):
        number = 'ant'
        for number in Colony.list:
            a = Ant()
            a.forage()
            if Colony.foodAmount > 0:
                Colony.foodAmount -= 1
            if Colony.foodAmount < len(Colony.list):
                for number in Colony.list[Colony.foodAmount+1:]:
                    Ant.health -= 1
    def purge(self):
        number = 'ant'
        for number in Colony.list:
            if Ant.health > 0:
                Colony.temp.append("ant")
        Colony.list = Colony.temp       

class Ant(object):  
    health = 10
    def forage(self):
        if Ant.health == 0:
            Colony.workerAnts -= 1
        if random.randint(0,100) > 95:
            Ant.health = 0
            print "Ant has died from a horrible accident!"
            Colony.workerAnts -= 1
        elif random.randint(0,100) < 40:
            newFood = random.randint(1,5)
            print "Ant has found %s food!!" % newFood
            Colony.foodAmount += newFood    
        elif random.randint(0,100) < 5:
            Ant.health = 10
            Colony.foodAmount += 10
            print "You've found sweet nectar! Your ant has returned to full health and has brought 10 food back to the colony!"
        else:
            print "Ant returned empty-handed!"
def main():
    queen = Colony()
    queen2 = Ant()
    while queen.workerAnts > 0 or queen.foodAmount >= 5:
        print "========================================================"
        print """
        Your colony has %s ants and %s food, Your Majesty.\nWhat would you like to do?\n0: Do nothing.\n1: Breed worker. (Costs 5 food.)""" % (queen.workerAnts, queen.foodAmount)
        answer = int(raw_input(">"))

        if answer != 1 and answer != 0:
            print "Sorry, invalid input!"
        if answer == 0:
            queen.step()
            queen.purge()
        if answer == 1:
            print "Breeding Worker..." 
            queen.breedWorker()
            queen.step()
            queen.purge()

    if queen.workerAnts <= 0 and queen.foodAmount < 5:
        print "I'm sorry! Your colony has died out!"
share|improve this question
3  
for starters, you don't call main() anywhere –  m.wasowski Mar 10 at 20:56
    
Instead of def main(): write if __name__ == '__main__':. –  pasztorpisti Mar 10 at 20:57
    
Your code is a mess, very difficult to follow. I'd wager the issue has something to do with the fact that you are using your class names like variables. Within your Colony class, you shouldn't be doing stuff like Colony.foodAmount, just use foodAmount. –  Red Alert Mar 10 at 20:58
2  
Perhaps you should team up with this question's OP –  jonrsharpe Mar 10 at 20:58
1  
One really important point is that you shouldn't do e.g. elif random.randint(0,100) - this gets a new random number each time! Also, < 40 and < 5 would both be True, this isn't the right way to assign probabilities to events. –  jonrsharpe Mar 10 at 21:06

4 Answers 4

  1. You don't have constructors (__init__(self, ...)) and do not initialize object's properties
  2. in methods you call this object property by self.property, not by Classname.property; in python you explicitly pass instance or class object to method, by convention they should be 'self' for instance, or 'cls' for class.
  3. If you want use any Colony properties in Ant object or vice versa, you need to explicitly pass the reference, and store it as property. The most sensible would be to create Ant from Colony by calling something ants.append(Ant(self)); Ant's constructor should have signature `def init(self, colony):'
share|improve this answer

Well, that's because of the following line in def purge(self):

    Colony.list = Colony.temp

The first time purge() is ran, it makes both Colony.list and Colony.temp point to the same array in memory. So the second time you run purge(), you go into an infinite loop, where you for number in Colony.list: do Colony.temp.append("ant"), which actually increases Colony.list as well, and the loop never exits, since it will always have a new member.

In python, for loops create iterators for the given object (if it's not already an iterator). In every iteration, python will call the iterator's next() method (in this case - the list). If next() can't yield a new value to iterate over, it raises StopIteration, and the loop exits. Don't worry, this exception is automatically handled for you by the for statement. In your case, Colony.list.next() always finds a new value (since you've just appended to it), and will never reach the end.

To fix your code, try slicing. This means that the array is copied, instead of pointing the two names to the same array:

    Colony.list = Colony.temp[:]
share|improve this answer

You made Ant.health a class variable (shared between all Ant instances).

As soon as one ant's health goes to 0, they all die.

Here is an improved version. The following code is Python 2 and 3 compatible, and I think fixes all the errors!

import random
import sys

if sys.hexversion < 0x3000000:
    # Python 2.x
    inp = raw_input
    rng = xrange
else:
    # Python 3.x
    inp = input
    rng = range

def get_int(prompt, lo=None, hi=None):
    """
    Prompt until an integer value in [lo..hi] is entered, then return it
    """
    while True:
        try:
            val = int(inp(prompt))
            if (lo is None or lo <= val) and (hi is None or val <= hi):
                return val
        except ValueError:
            pass

class InsufficientFoodError(Exception):
    pass

class Colony:
    def __init__(self, workers=0, food=10):
        self.food = food + Ant.cost * workers
        self.ants = []
        for i in rng(workers):
            self.add_ant()

    def add_ant(self):
        try:
            self.ants.append(Ant(self))
        except InsufficientFoodError as e:
            print(e)

    def step(self):
        # all ants eat, then all ants forage:
        for ant in self.ants:
            ant.eat()
        for ant in self.ants:
            ant.forage()
        # bring out yer dead!
        self.ants = [ant for ant in self.ants if ant.is_alive()]

    def add_food(self, amount):
        self.food += amount

    def take_food(self, amount):
        amt = min(amount, self.food)
        self.food -= amt
        return amt

    def num_ants(self):
        return len(self.ants)

class Ant:  
    cost = 5
    max_health = 10

    def __init__(self, colony):
        # try to get enough food to produce an ant
        food = colony.take_food(Ant.cost)
        if food < Ant.cost:
            # Failed! return any taken food and throw an error
            colony.add_food(food)
            raise InsufficientFoodError('The colony does not have enough food to make a new Ant')
        else:
            # Success!
            self.colony = colony
            self.health = Ant.max_health

    def eat(self):
        if self.health > 0:
            self.health -= 1 - self.colony.take_food(1)
            if self.health == 0:
                print("An ant starved to death.")

    def forage(self):
        if self.is_alive():
            dice = random.randint(0, 100)
            if dice <= 5:
                self.health = Ant.max_health
                self.colony.add_food(10)
                print("You've found sweet nectar! Your ant has returned to full health and has brought 10 food back to the colony!")
            elif dice <= 40:
                found_food = random.randint(1, 5)
                self.colony.add_food(found_food)
                print("Ant has found {} food!".format(found_food))
            elif dice <= 95:
                print("Ant returned empty-handed!")
            else:
                self.health = 0
                print("Ant has died from a horrible accident!")

    def is_alive(self):
        return self.health > 0

def main():
    colony = Colony()

    while True:
        print(
           "========================================================\n"
           "\n"
           "Your colony has {ants} ants and {food} food, Your Majesty.\n"
           "What would you like to do?\n"
           "  1: Do nothing\n"
           "  2: Breed worker (costs {cost} food)"
           .format(ants=colony.num_ants(), cost=Ant.cost, food=colony.food)
        )
        opt = get_int("> ", 1, 2)

        if opt == 2:
            print("Breeding Worker...")
            colony.add_ant()

        colony.step()

        if colony.num_ants() == 0 and colony.food < Ant.cost:
            print("I'm sorry! Your colony has died out!")
            break

if __name__=="__main__":
    main()
share|improve this answer
    
Indeed, they have made many things class attributes that should probably be instance attributes –  jonrsharpe Mar 10 at 21:10

This answer is a little off, but seems like it will be a valuable piece of knowledge. A big issue here is that your classes are being used in an undesirable way.

The main advantage of a class is to hold an instance of variables/functions, such that you can have many independent groupings of them.

By calling Colony.<var> you're changing the var of the base( or super) class variable. This works if you only want to have one Colony,... but what if you want two,. or three! or a million!!?

Notice how you get an error when you don't enter self as the first parameter to your class functions? What you need to realize is that you're passing an instance of your class as the first parameter. This is how the class knows what grouping of variables to use.

say we have a class Antzilla

class Antzilla:
    antvar = "antzilla var"
    def PrintSuperAntvar(self):
        print Antzilla.antvar

    def PrintInstanceOfAntvar(self):
        print self.antvar

notice that PrintSuperAntvar calls the base var and that PrintInstanceOfAntvar prints an instance of Antzilla

If I make az1 and change az1.antvar it will not change the Antzilla.antvar value.

az1 = Antzilla()
az1.antvar = "new var"


az1.PrintSuperAntvar()
>>> antzilla var
az1.PrintInstanceOfAntvar()
>>> new var

I can now create a new Antzilla instance with the original starting value because I never changed base class value

az2 = Antzilla()
az2.PrintSuperAntvar()
>>> antzilla var
az2.PrintInstanceOfAntvar()
>>> antzilla var

However if you were to change this super value then you would see that new Antzilla's start with this new value, but Antzilla's that have been already changed remain the same.

Antzilla.antvar = "newest var"
az3 = Antzilla()
az3.PrintSuperAntvar()
>>> newest var
az3.PrintInstanceOfAntvar()
>>> newest var

az1.PrintSuperAntvar()
>>> new var

WATCH OUT!!! notice what happens when we call az2!

az2.PrintSuperAntvar()
>>> newest var

az2 was never changed from the super variable, so when we changed Antzilla.antvar from "antzilla var" to "newest var", az2 will continue to cling to the super value.

How do we avoid this conflict!? Its simple!

Just add a constructor to your class that copies the super value, or a new value into its own variable.. If present, the __init__ function will be called if when you make a new Antzilla instance

class Antzilla:
    antvar = "antzilla var"

    def __init__(self):
         self.antvar = Antzilla.antvar

    ...

You can also add the var as a requirement to your constructor such that every instance is unique.

class Antzilla:
    antvar = "antzilla var"

    def __init__(self, antvar ):
         self.antvar = antvar

    ...

az1 = Antzilla("antzilla unique swag")

It is important to note however that when dealing with variables like lists, that you will need to specifically create a new list for every instance. Luckily the best place to do this is also the constructor.

So now getting back to your issue,.. for your two classes I would add constructors like this

For Colony:

class Colony(object):
    workerAnts = 0
    list = []
    temp = []
    foodAmount = 10

    def __init__(self):
        self.workerAnts = 0
        self.list = []
        self.temp = []
        self.foodAmount = 10

    ....

For Ant

class Ant(object):  
    health = 10
    def __init__(self):
        self.health = 10
    ....

And finally what you need to do before getting into the math or logic errors is replace all the spots where you call a base or super variable with self or the name of the variable in the given scope.

ie, things like:

 Colony.foodAmount -= 5 

change to:

 self.foodAmount -= 5

============================================================================

PS that spot where you write :

Colony.temp.append("ant")

is actually appending a string to your base list. You probably want to change that to the constructor for an Ant.. which returns a new instance of the Ant class and make it add the variable to an instance of colony instead of the base colony

self.temp.append(Ant())

============================================================================

Hope this helps!!

Cheers,

Cal

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