Python’s for loop allows the programmer to add or remove items in the collection over which the loop is iterating. Some designers worry that changing the structure of a collection during iteration might cause program crashes. The remedy is to make the for loop read-only, by disallowing mutations to the collection during iteration. You can detect such mutations by keeping a count of them and determining if this count goes up at any point within the collection’s __iter__ method. When this happens, you can raise an exception to prevent the computation from going forward.

In the arraybag.py file complete the following in the ArrayBag class:

1. In the __init__ method, include a new instance variable named modCount, which is set to 0.
2. In the __iter__ method include a temporary variable named modCount, which is set initially to the value of the instance variable self.modCount.
   • Immediately after an item is yielded within the __iter__ method, you raise an exception if the values of the two mod counts are not equal.
3. In the mutator method clear() set modCount to 0
4. In the mutator methods add() and remove() increment the modCount variable.

To test your implementation of ArrayBag run the test method in the testbag.py file.

from arrays import Array

 

class ArrayBag(object):

    """An array-based bag implementation."""

 

    # Class variable

    DEFAULT_CAPACITY = 10

 

    # Constructor

    def __init__(self, sourceCollection = None):

        """Sets the initial state of self, which includes the

        contents of sourceCollection, if it's present."""

        self.items = Array(ArrayBag.DEFAULT_CAPACITY)

        self.size = 0

        if sourceCollection:

            for item in sourceCollection:

                self.add(item)

 

    # Accessor methods

    def isEmpty(self):

        """Returns True if len(self) == 0, or False otherwise."""

        return len(self) == 0

    

    def __len__(self):

        """Returns the number of items in self."""

        return self.size

 

    def __str__(self):

        """Returns the string representation of self."""

        return "{" + ", ".join(map(str, self)) + "}"

 

    def __iter__(self):

        """Supports iteration over a view of self.

        Raises Attribute error if mutation occurs

        within the loop."""

        cursor = 0

        while cursor < len(self):

            yield self.items[cursor]

            cursor += 1

 

    def __add__(self, other):

        """Returns a new bag containing the contents

        of self and other."""

        result = ArrayBag(self)

        for item in other:

            result.add(item)

        return result

 

    def clone(self):

        """Returns a copy of self."""

        return ArrayBag(self)

 

    def __eq__(self, other):

        """Returns True if self equals other,

        or False otherwise."""

        if self is other: return True

        if type(self) != type(other) or \

           len(self) != len(other):

            return False

        for item in self:

            if self.count(item) != other.count(item):

                return False

        return True

 

    def count(self, item):

        """Returns the number of instances of item in self."""

        total = 0

        for nextItem in self:

            if nextItem == item:

                total += 1

        return total

 

    # Mutator methods

    def clear(self):

        """Makes self become empty."""

        self.size = 0

        self.items = Array(ArrayBag.DEFAULT_CAPACITY)

 

    def add(self, item):

        """Adds item to self."""

        # Check array memory here and increase it if necessary

        if len(self) == len(self.items):

            temp = Array(2 * len(self))

            for i in range(len(self)):

                temp[i] = self.items[i]

            self.items = temp

        self.items[len(self)] = item

        self.size += 1

 

    def remove(self, item):

        """Precondition: item is in self.

        Raises: KeyError if item in not in self.

        Postcondition: item is removed from self."""

        # Check precondition and raise if necessary

        if not item in self:

            raise KeyError(str(item) + " not in bag")

        # Search for the index of the target item

        targetIndex = 0

        for targetItem in self:

            if targetItem == item:

                break

            targetIndex += 1

        # Shift items to the left of target up by one position

        for i in range(targetIndex, len(self) - 1):

            self.items[i] = self.items[i + 1]

        # Decrement logical size

        self.size -= 1

        # Check array memory here and decrease it if necessary

        if len(self) <= len(self.items) // 4 and \

           2 * len(self) >= ArrayBag.DEFAULT_CAPACITY:

            temp = Array(len(self.items) // 2)

            for i in range(len(self)):

                temp[i] = self.items[i]

            self.items = temp

       

Transcribed Image Text:

Instructions Python's for loop allows the programmer to add or remove items in the collection over which the loop is iterating. Some designers worry that changing the structure of a collection during iteration might cause program crashes. The remedy is to make the for loop read-only, by disallowing mutations to the collection during iteration. You can detect such mutations by keeping a count of them and determining if this count goes up at any point within the collection's __iter__ method. When this happens, you can raise an exception to prevent the computation from going forward. In the arraybag.py file complete the arraybag.py 20 21 X testbag.py 1 "*" 2 File: testbag.py 3 Author: Ken Lambert 4 A tester program for bag implementations. 5 """ 6 7 from arraybag import ArrayBag 8 from random import shuffle 9 10 def test (bagType): 11 12 13 14 15 16 17 18 19 X + """Expects a bag type as an argument and runs som on objects of that type.""" print("Testing", bagType) lyst = list (range(1, 11)) shuffle(lyst) print("The list of items added is:", lyst) b = bagType(lyst) size:") print("Expect the bag's string, in ascending order print("Add 5 more items to test increasing the ar for i in range (11, 16): b.add(i) >_ Terminal X python3 arraybag.py +