Пример #1
0
import time
from binary_tree import BinarySearchTree


start_time = time.time()

f = open('names_1.txt', 'r')
names_1 = f.read().split("\n")  # List containing 10000 names
f.close()

f = open('names_2.txt', 'r')
names_2 = f.read().split("\n")  # List containing 10000 names
f.close()

duplicates = []
tree = BinarySearchTree('tree')
for name_1 in names_1:
    tree.insert(name_1)

for name_2 in names_2:
    if tree.contains(name_2):
        duplicates.append(name_2)

end_time = time.time()
print (f"{len(duplicates)} duplicates:\n\n{', '.join(duplicates)}\n\n")
print (f"runtime: {end_time - start_time} seconds")
Пример #2
0
start_time = time.time()

f = open('names_1.txt', 'r')
names_1 = f.read().split("\n")  # List containing 10000 names
f.close()

f = open('names_2.txt', 'r')
names_2 = f.read().split("\n")  # List containing 10000 names
f.close()

duplicates = []  # Return the list of duplicates in this data structure

# Replace the nested for loops below with your improvements
bst = BinarySearchTree("")

for name_2 in names_2:
    bst.insert(name_2)

for name_1 in names_1:
    if bst.contains(name_1):
        duplicates.append(name_1)

end_time = time.time()
print(f"{len(duplicates)} duplicates:\n\n{', '.join(duplicates)}\n\n")
print(f"runtime: {end_time - start_time} seconds")

# ---------- Stretch Goal -----------
# Python has built-in tools that allow for a very efficient approach to this problem
# What's the best time you can accomplish?  Thare are no restrictions on techniques or data
# structures, but you may not import any additional libraries that you did not write yourself.
Пример #3
0
import time
from binary_tree import BinarySearchTree

start_time = time.time()

f = open('names_1.txt', 'r')
names_1 = f.read().split("\n")  # List containing 10000 names
f.close()

f = open('names_2.txt', 'r')
names_2 = f.read().split("\n")  # List containing 10000 names
f.close()

duplicates = []  # Return the list of duplicates in this data structure

binary_tree = BinarySearchTree(names_1[0])
for name in names_1[1:]:
    binary_tree.insert(name)
for name in names_2:
    if binary_tree.contains(name):
        duplicates.append(name)
end_time = time.time()
print (f"{len(duplicates)} duplicates:\n\n{', '.join(duplicates)}\n\n")
print (f"runtime: {end_time - start_time} seconds")

# ---------- Stretch Goal -----------
# Python has built-in tools that allow for a very efficient approach to this problem
# What's the best time you can accomplish?  Thare are no restrictions on techniques or data
# structures, but you may not import any additional libraries that you did not write yourself.