Beispiel #1
0
def is_palindrome_stack(string):
    """
    -------------------------------------------------------
    Determines if string is a palindrome. Ignores case, digits, spaces, and
    punctuation in string.
    Use: palindrome = is_palindrome_stack(string)
    -------------------------------------------------------
    Parameters:
        string - a string (str)
    Returns:
        palindrome - True if string is a palindrome, False otherwise (bool)
    -------------------------------------------------------
    """
    palindrome = None
    newstr = ""
    s = Stack()
    for i in string:
        if i.isalnum():
            newstr += i
    for j in newstr:
        s.push(j)
    revstr = ""
    for k in s:
        revstr += s.pop()
    if revstr.lower() == newstr.lower():
        palindrome = True
    else:
        palindrome = False

    return palindrome
Beispiel #2
0
def stack_maze(maze):
    """
    -------------------------------------------------------
    Solves a maze using Depth-First search.
    Use: path = stack_maze(maze)
    -------------------------------------------------------
    Parameters:
        maze - dictionary of points in a maze, where each point
            represents a corridor end or a branch. Dictionary
            keys are the name of the point followed by a list of
            branches, if any. First point is named 'Start', exit
            is named 'X' (dict)
    Returns:
        path - list of points visited before the exit is reached,
            None if there is no exit (list of str)
    -------------------------------------------------------
    """
    s = Stack()
    wrongpath = []
    value = maze['Start']
    exfi = False

    for i in maze:
        if 'X' in maze[i]:
            path = []
            exfi = False
        elif exfi != False:
            path = None
    if path != None:
        for i in value:
            s.push(i)
            value = s.pop()
            path.append(value)
    while value != 'X' and path != None:
        value = maze[value]

        while len(value) == 0:
            value = s.pop()

        for i in value:
            if i in path:
                _index = path.index(i)
                wrongpath = path[_index + 1:]
                path = path[:_index]

            s.push(i)
        value = s.pop()

        path.append(value)

        if value in wrongpath:
            value = s.pop()
    return path
Beispiel #3
0
def stack_test(source):
    """
    -------------------------------------------------------
    Tests the methods of Stack for empty and 
    non-empty stacks using the data in source:
    is_empty, push, pop, peek
    (Testing pop and peek while empty throws exceptions)
    Use: stack_test(source)
    -------------------------------------------------------
    Parameters:
        source - list of data (list of ?)
    Returns:
        None
    -------------------------------------------------------
    """
    s = Stack()
    
    # Test if stack is empty (Expected: TRUE)
    print("Stack contents: ")
    for i in s:
        print(i, end=' ')
    print("\tEmpty? {}".format(s.is_empty()))
    # Load elements from source into Stack
    print(">> Push elements from source onto stack")
    print(">> Num elements to push: {}".format(len(source)))    
    for elem in source:
        s.push(elem)
    
    # Check if the Stack is empty again (T/F depending on source contents)
    print("Stack contents: ")
    for i in s:
        print(i, end=' ')
    print("\tEmpty? {}".format(s.is_empty()))
    # Peek the top of the stack
    top = None
    try:
        top = s.peek()
    except:
        print(">>! Peeked at an empty stack, assertion caught, continuing...")
    # Check if top of stack is the end element of source
    print("Top of stack should be same as end of list")
    if s.is_empty():
        print("List empty so no check")
    else:
        top_same = top == source[-1]
        print("Top same as end of list?")
        print("Top: {}\tEnd of list: {}".format(top, source[-1]))
        print("Same? {}".format(top_same))
    
    # Testing pop
    try:
        print(">> Pop top of stack")
        popped = s.pop()
        print("Popped value should be same as end of list.\tSame? {}".format(popped == source[-1]))
    except:
        print(">>! Popped from an empty stack, exception caught, continuing...")
    return
Beispiel #4
0
def stack_split_alt(source):
    """
    -------------------------------------------------------
    Splits the source stack into separate target stacks.
    When finished source stack is empty. Values are
    pushed alternately onto the returned target stacks.
    Use: target1, target2 = stack_split_alt(source)
    -------------------------------------------------------
    Parameters:
        source - the stack to split into two parts (Stack)
    Returns:
        target1 - contains alternating values from source (Stack)
        target2 - contains other alternating values from source (Stack)
    -------------------------------------------------------
    """
    target1 = Stack()
    target2 = Stack()
    i = 1
    while source.is_empty() == False:
        if i == 1:
            target1.push(source.pop())
            i = 2
        elif i == 2:
            target2.push(source.pop())
            i = 1

    return target1, target2
Beispiel #5
0
def is_palindrome_stack(string):
    """
    -------------------------------------------------------
    Determines if string is a palindrome. Ignores case, spaces, and
    punctuation in string.
    Use: palindrome = is_palindrome_stack(string)
    -------------------------------------------------------
    Parameters:
        string - a string (str)
    Returns:
        palindrome - True if string is a palindrome, False otherwise (bool)
    -------------------------------------------------------
    """
    s = Stack()
    palindrome = True
    
    CHARACTERS = "abcdefghijklmnopqrstuvwxyz"
    
    if not len(string) % 2 == 0:
        mid = len(string) // 2 + 1
    else:
        mid = len(string) // 2
    
    char_index = 0
    while palindrome:
        char = string[char_index]
        
        if char in CHARACTERS:
            if char_index < mid:   # First half of string
                pass
        
        char_index += 1
    
    return palindrome
Beispiel #6
0
def main():
    source1 = Stack()
    source2 = Stack()
    l = [8, 12, 8, 5]
    for v in l:
        source1.push(v)
    l2 = [14, 9, 7, 1, 6, 3]
    for x in l2:
        source2.push(x)
    target = stack_combine(source1, source2)
    for t in target:
        print(t)
Beispiel #7
0
def mirror(string):
    b = True
    stack = Stack()
    n = len(string)
    i = 0

    while b and string[i] != MID:
        if string[i] in CHARS:
            stack.push(string[i])
            i += 1
        else:
            b = False

    i += 1  # Skip MID

    while b and i < n:
        if stack.is_empty():
            b = False
        else:
            c = stack.pop()

            if not c == string[i]:
                b = False
            else:
                i += 1

    return b
Beispiel #8
0
def stack_combine(source1, source2):
    """
    -------------------------------------------------------
    Combines two source stacks into a target stack.
    When finished, the contents of source1 and source2 are interlaced
    into target and source1 and source2 are empty.
    Use: target = stack_combine(source1, source2)
    -------------------------------------------------------
    Parameters:
        source1 - a stack (Stack)
        source2 - another stack (Stack)
    Returns:
        target - the contents of the source1 and source2
            are interlaced into target (Stack)
    -------------------------------------------------------
    """
    target = Stack()
    i = 1
    while source1.is_empty() == False or source2.is_empty() == False:
        if i == 1:
            target.push(source1.pop())
            if source2.is_empty() == False:
                i = 2
        elif i == 2:
            target.push(source2.pop())
            if source1.is_empty() == False:
                i = 1
    return target
Beispiel #9
0
def stack_test(source):
    """
    -------------------------------------------------------
    Tests the methods of Stack for empty and 
    non-empty stacks using the data in source:
    is_empty, push, pop, peek
    (Testing pop and peek while empty throws exceptions)
    Use: stack_test(source)
    -------------------------------------------------------
    Parameters:
        source - list of data (list of ?)
    Returns:
        None
    -------------------------------------------------------
    """
    stack = Stack()
    dummy = []
    if stack.is_empty() == True:
        print('Stack is empty.')

    array_to_stack(stack, source)
    print('Converting source into a stack...')

    if stack.is_empty() == False:
        print('source has been transferred into stack!')

    print('\nPopping stack...')
    while stack.is_empty() == False:
        temp = stack.pop()
        print(temp)
        dummy.append(temp)

    print('\nstack is empty. Pushing values back into stack...')
    while dummy != []:
        temp = dummy.pop()
        print(temp)
        stack.push(temp)

    print('\nPushing complete! Peeking...')
    print(stack.peek())

    return
Beispiel #10
0
def has_balanced_brackets(string):
    """
    -------------------------------------------------------
    Determines if a string contains balanced brackets or not. Non-bracket
    characters are ignored. Uses a stack. Brackets include {}, [], (), <>.
    Use: balanced = has_balanced_brackets(string)
    -------------------------------------------------------
    Parameters:
        string - the string to test (str)
    Returns:
        balanced (int) -
            BALANCED if the brackets in string are balanced
            MISMATCHED if the brackets in string are mismatched
            MORE_RIGHT if there are more right brackets than left in string
            MORE_LEFT if there are more left brackets than right in string
    -------------------------------------------------------
    """
    s = Stack()
    balanced = BALANCED
    
    OPEN_BRACKETS = "([{<"
    CLOSING_BRACKETS = ")]}>"
    
    char_index = 0
    while balanced == BALANCED and char_index < len(string):
        # Get current character we are processing
        char = string[char_index]
        if char in OPEN_BRACKETS:   # Push any opening bracket we see onto the stack
            s.push(char)
        elif char in CLOSING_BRACKETS:  # Check if top of stack matches closing brackets
            if s.is_empty():    # If stack is empty but we see a closing bracket
                balanced = MORE_RIGHT
            else:
                top = s.pop()
                # Get index of bracket at top of stack in OPEN_BRACKETS
                index = 0
                for i in range(len(OPEN_BRACKETS)):
                    if top == OPEN_BRACKETS[i]:
                        index = i
                # Index of closing bracket should be same as open bracket
                complimentary_bracket = CLOSING_BRACKETS[index]
                if not char == complimentary_bracket:
                    balanced = MISMATCHED
        char_index += 1
    if not s.is_empty():  # If we still have opening brackets in the stack but we reach the end of the string
        balanced = MORE_LEFT
        
    return balanced
Beispiel #11
0
def postfix(string):
    """
    -------------------------------------------------------
    Evaluates a postfix expression.
    Use: answer = postfix(string)
    -------------------------------------------------------
    Parameters:
        string - the postfix string to evaluate (str)
    Returns:
        answer - the result of evaluating string (float)
    -------------------------------------------------------
    """
    s = Stack()
    
    expression = string.split(" ")  # Split on spaces
    
    for char in expression:
        if char in OPERATORS:
            # Order that we pop is important
            operand2 = s.pop()
            operand1 = s.pop()
            
            if char == OPERATORS[0]:    # Addition
                value = operand1 + operand2
            elif char == OPERATORS[1]:   # Subtraction
                value = operand1 - operand2
            elif char == OPERATORS[-2]: # Multiplication
                value = operand1 * operand2
            elif char == OPERATORS[-1]: # Division, do not have to worry about division by zero
                value = operand1 / operand2
            s.push(value)
        else:   # Dealing with a numeric value
            s.push(int(char))
    
    answer = s.pop()    # Answer should be the only thing left in the stack
    return answer
def stack_test(source):
    """
    -------------------------------------------------------
    Tests the methods of Stack for empty and
    non-empty stacks using the data in source:
    is_empty, push, pop, peek
    (Testing pop and peek while empty throws exceptions)
    Use: stack_test(source)
    -------------------------------------------------------
    Parameters:
        source - list of data (list of ?)
    Returns:
        None
    -------------------------------------------------------
    """
    s = Stack()
    array_to_stack(s, source)
    print(s.is_empty())
    print(s.peek())
    print(s.pop())
    s.push(1)
    return
Beispiel #13
0
def stack_combine(source1, source2):
    """
    -------------------------------------------------------
    Combines two source stacks into a target stack. 
    When finished, the contents of source1 and source2 are interlaced 
    into target and source1 and source2 are empty.
    Use: target = stack_combine(source1, source2)
    -------------------------------------------------------
    Parameters:
        source1 - a stack (Stack)
        source2 - another stack (Stack)
    Returns:
        target - the contents of the source1 and source2
            are interlaced into target (Stack)
    -------------------------------------------------------
    """
    # Determine which stack is the shortest, going to loop over that
    #shortest_stack = source2 if len(source1) > len(source2) else source1
    shortest_stack = None
    other_stack = None
    if len(source1) > len(source2):
        shortest_stack = source2
        other_stack = source1
    else:
        shortest_stack = source1
        other_stack = source2
        
    target = Stack()
    
    # Loop and append until shortest stack is empty
    while not shortest_stack.is_empty():
        val1 = shortest_stack.pop()
        val2 = other_stack.pop()
        target.push(val1)
        target.push(val2)
        
    # Handle the rest of the elements in the longer stack
    for element in other_stack:
        target.push(element)
    return
Beispiel #14
0
def is_palindrome_stack(string):
    """
    -------------------------------------------------------
    Determines if string is a palindrome. Ignores case, spaces, and
    punctuation in string.
    Use: palindrome = is_palindrome_stack(string)
    -------------------------------------------------------
    Parameters:
        string - a string (str)
    Returns:
        palindrome - True if string is a palindrome, False otherwise (bool)
    -------------------------------------------------------
    """

    r = 1
    s_4 = Stack()
    string1 = string
    for x in ' ,.!?':
        string1 = string1.replace(x, '')
    string1 = string1.lower()
    if (len(string1) % 2) == 0:
        for x in string1:
            if s_4.is_empty() == True:
                s_4.push(x)
            else:
                y = s_4.pop()
                if x != y:
                    s_4.push(y)
                    s_4.push(x)
    else:
        half = (len(string1) / 2) + 0.5
        for x in string1:
            if r < half:
                s_4.push(x)
            elif r > half:
                y = s_4.pop()
                if x != y:
                    s_4.push(y)
            r += 1
    if s_4.is_empty() == True:
        palindrome = True
    else:
        palindrome = False

    return palindrome
Beispiel #15
0
''' 
...................................................
CP164 - Data Structures 

Author: Laith Adi 

ID: 170265190    

Email: [email protected]

Updated: 2019-01-31 
...................................................
'''
from Stack_array import Stack
from functions import stack_reverse
from utilities import array_to_stack

source = Stack()

l = input("Enter items (separate by space bar): ").split(" ")
array_to_stack(source, l)
#original stack inserted by user
print("Original:")
for i in source:
    print(i, end=" ")
print()
#the stack backwards
print("Reverse:")
stack_reverse(source)
for i in source:
    print(i, end=" ")
Beispiel #16
0
"""
------------------------------------------------------------------------
Lab 2, Task 2 - utilities#array_to_stack
------------------------------------------------------------------------
Author: Nicolas Mills
ID:     180856100
Email:  [email protected]
__updated__ = 2019-01-21
------------------------------------------------------------------------
"""
from utilities import array_to_stack
from Stack_array import Stack

array = [0, 1, 2, 3, 4]
s = Stack()

print("Array: {}".format(array))

array_to_stack(s, array)

print("Values: {}".format(s._values))
print("Stack to Array: ")
for elem in s:
    print(elem, end=' ')
print()
print("Array: {}".format(array))

print("Top: {}".format(s.peek()))
Beispiel #17
0
def main():
    source1 = Stack()
    source2 = Stack()
    l = [8,12,8,5]
    for v in l:
        source1.push(v)
    l2 = [14,9,7,1,6,3]
    for x in l2:
        source2.push(x)
    stack = Stack()
    stack.combine(source1, source2)
    for s in stack:
        print(s)
def stack_test(source):
    """
    -------------------------------------------------------
    Tests the methods of Stack for empty and 
    non-empty stacks using the data in source:
    is_empty, push, pop, peek
    (Testing pop and peek while empty throws exceptions)
    Use: stack_test(source)
    -------------------------------------------------------
    Parameters:
        source - list of data (list of ?)
    Returns:
        None
    -------------------------------------------------------
    """
    stack = Stack()
    print('Test is empty?')
    print(stack.is_empty())
    print(array_to_stack(stack, source))
    print('Test is empty?')
    print(stack.is_empty())
    print('Test for peek value: ')
    print(stack.peek())
    print('Test for push value: ')
    stack.push(1)
    print('Test for peek value: ')
    print(stack.peek())
    print('Test for pop value: ')
    stack.pop()
    print('Test is empty?')
    print(stack.is_empty())
    print('Test for peek value: ')
    print(stack.peek())
"""
------------------------------------------------------------------------
[program description]
------------------------------------------------------------------------
Author: Nicolas Mills
ID:     180856100
Email:  [email protected]
__updated__ = 2019-02-13
------------------------------------------------------------------------
"""
from Stack_array import Stack

vals = [1,2,3,4]
s = Stack()
for val in vals:
    s.push(val)

for i in s:
    print(i, end=',')
print()
s.reverse()
for i in s:
    print(i, end=',')
print()
s.reverse() #1,2,3,4
target1, target2 = s.split_alt()
for i in target1:
    print(i, end=',')
print()
for i in target2:
    print(i, end=',')
''' 
...................................................
CP164 - Data Structures 

Author: Laith Adi 

ID: 170265190    

Email: [email protected]

Updated: 2019-02-01 
...................................................
'''

from Stack_array import Stack
from utilities import array_to_stack
#identifting the sources and target as stacks
target = Stack()
source1 = Stack()
source2 = Stack()
#grabing the sources from user
l1 = input("Enter items (seperated by space bar): ").split(" ")
l2 = input("Enter items (seperated by space bar): ").split(" ")

array_to_stack(source1, l1)
array_to_stack(source2, l2)
#print the resulting stack
print("Combine:")
target.combine(source1, source2)
for i in target:
    print(i, end=" ")
Beispiel #21
0
def postfix(string):
    """
    -------------------------------------------------------
    Evaluates a postfix expression.
    Use: answer = postfix(string)
    -------------------------------------------------------
    Parameters:
        string - the postfix string to evaluate (str)
    Returns:
        answer - the result of evaluating string (float)
    -------------------------------------------------------
    """
    s = Stack()
    ss = string.split()
    for i in ss:
        if i.isdigit():
            s.push(i)
        elif i in OPERATORS:
            val1 = s.pop()
            val2 = s.pop()
            if i == "+":
                s.push(float(int(val2) + int(val1)))
            elif i == "-":
                s.push(float(int(val2) - int(val1)))
            elif i == "*":
                s.push(float(int(val2) * int(val1)))
            elif i == "/":
                s.push(float(int(val2) / int(val1)))

    answer = s.pop()
    return answer
''' 
...................................................
CP164 - Data Structures 

Author: Laith Adi 

ID: 170265190    

Email: [email protected]

Updated: 2019-01-31 
...................................................
'''


from Stack_array import Stack
from utilities import array_to_stack
#grab the stack from user 
source = Stack()
l = input("Enter items (separate by space bar): ").split(" ")
array_to_stack(source, l)
#print the orginal 
print("Original:")
for i in source:
    print(i, end = " ")
print()
#print the reverse stack 
print("Reverse:")   
source.reverse()
for i in source:
    print(i, end = " ")
Beispiel #23
0
def stack_test(source):
    """
    -------------------------------------------------------
    Tests the methods of Stack for empty and 
    non-empty stacks using the data in source:
    is_empty, push, pop, peek
    (Testing pop and peek while empty throws exceptions)
    Use: stack_test(source)
    -------------------------------------------------------
    Parameters:
        source - list of data (list of ?)
    Returns:
        None
    -------------------------------------------------------
    """
    s = Stack()

    print("Stack Initialised")
    print()
    print(SEP)
    print("Stack is_empty (expect True): {}".format(s.is_empty()))
    print(SEP)
    print("Add one item to Stack:")
    s.push(source[0])
    print("Top of Stack (peek):")
    print(s.peek())
    print(SEP)
    print("Stack is_empty (expect False): {}".format(s.is_empty()))
    print(SEP)
    print("Stack pop:")
    v = s.pop()
    print(v)
    print(SEP)
    print("Stack is_empty (expect True): {}".format(s.is_empty()))
    print(SEP)
    print("Copy all data to Stack")
    array_to_stack(s, source)
    print(SEP)
    print("Stack is_empty (expect False): {}".format(s.is_empty()))
    print(SEP)
    print("Top of Stack (peek):")
    print(s.peek())
    print(SEP)
    print("Remove all elements from Stack")

    while not s.is_empty():
        v = s.pop()
        print(v)
        print()

    print(SEP)
    print("Stack is_empty (expect True): {}".format(s.is_empty()))
    print()
    return
Beispiel #24
0
------------------------------------------------------------------------
Testing for Stack_array#is_empty, pop, and peek methods
------------------------------------------------------------------------
Author: Nicolas Mills
ID:     180856100
Email:  [email protected]
__updated__ = 2019-01-21
------------------------------------------------------------------------
"""
from Stack_array import Stack

values = [1, 2, 3, 4]

print("Values: {}".format(values))

s = Stack()

print(">> Is the stack empty?")
empty = s.is_empty()

print("Expect: {}\tGot: {}".format(True, empty))

print(">> Pushing values onto Stack")

for val in values:
    s.push(val)

print("Stack contents: ", end='')
print("Expect: {}\tGot: ".format(values[::-1]), end='')
for elem in s:
    print(elem, end=' ')
Beispiel #25
0
def postfix(string):
    """
    -------------------------------------------------------
    Evaluates a postfix expression.
    Use: answer = postfix(string)
    -------------------------------------------------------
    Parameters:
        string - the postfix string to evaluate (str)
    Returns:
        answer - the result of evaluating string (float)
    -------------------------------------------------------
    """
    string = string.split(" ")
    r = Stack()

    for i in string:
        if i.isdigit():
            r.push(i)
        elif i in OPERATORS:
            if i == "+":
                r.push(float(r.pop()) + float(r.pop()))
            elif i == "-":
                x = float(r.pop())
                y = float(r.pop())
                r.push(y - x)
            elif i == "*":
                r.push(float(r.pop()) * float(r.pop()))
            elif i == "/":
                r.push(float(r.pop()) / float(r.pop()))
    answer = r.pop()
    return answer
Beispiel #26
0
def has_balanced_brackets(string):
    """
    -------------------------------------------------------
    Determines if a string contains balanced brackets or not. Non-bracket
    characters are ignored. Uses a stack. Brackets include {}, [], (), <>.
    Use: balanced = has_balanced_brackets(string)
    -------------------------------------------------------
    Parameters:
        string - the string to test (str)
    Returns:
        balanced (int) -
            BALANCED if the brackets in string are balanced
            MISMATCHED if the brackets in string are mismatched
            MORE_RIGHT if there are more right brackets than left in string
            MORE_LEFT if there are more left brackets than right in string
    -------------------------------------------------------
    """
    right = 0
    left = 0

    s = Stack()

    for x in string:
        if s.is_empty() == True:
            s.push(x)
        elif s.peek() == '[' and x == ']' or s.peek(
        ) == '(' and x == ')' or s.peek() == '{' and x == '}' or s.peek(
        ) == '<' and x == '>':
            s.pop()
        else:
            s.push(x)

    if s.is_empty() == True:
        balanced = 0
    else:
        while s.is_empty() == False:
            x = s.pop()
            if x == '(' or x == '[' or x == '{' or x == '<':
                left += 1
            elif x == ')' or x == ']' or x == '}' or x == '>':
                right += 1
        if right > left:
            balanced = 2
        elif left > right:
            balanced = 1
        else:
            balanced = 3

    return balanced
Beispiel #27
0
------------------------------------------------------------------------
Lab 2, Task 3 - utilities#stack_to_array
------------------------------------------------------------------------
Author: Nicolas Mills
ID:     180856100
Email:  [email protected]
__updated__ = 2019-01-21
------------------------------------------------------------------------
"""
from utilities import stack_to_array
from Stack_array import Stack

target = []
array = [1, 2, 3, 4]

s = Stack()

for i in array:
    s.push(i)

print("Array before: {}".format(target))
print("Stack before:")
for i in s:
    print(i, end=' ')
print()
stack_to_array(s, target)

print("Array after: {}".format(target))
print("Stack After:")
for i in s:
    print(i, end=' ')