Finishing 11 new elements

This commit is contained in:
Clement Desmidt 2020-01-08 17:32:09 +01:00
parent da0609f315
commit 1dcfd757e8
11 changed files with 411 additions and 0 deletions

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def rotate(state, pipe_numbers):
count = []
for i in range(len(state)):
last = state.pop()
state.insert(0, last)
is_good = True
for j in pipe_numbers:
if state[j] != 1:
is_good = False
break
if is_good:
if i+1 >= len(state):
count.append(0)
else:
count.append(i+1)
count.sort()
print(count)
return count
if __name__ == '__main__':
# These "asserts" using only for self-checking and not necessary for auto-testing
assert rotate([1, 0, 0, 0, 1, 1, 0, 1, 0, 0, 0, 1], [0, 1]) == [1, 8], "Example"
assert rotate([1, 0, 0, 0, 1, 1, 0, 1, 0, 0, 0, 1], [0, 1, 2]) == [], "Mission impossible"
assert rotate([1, 0, 0, 0, 1, 1, 0, 1], [0, 4, 5]) == [0], "Don't touch it"
assert rotate([1, 0, 0, 0, 1, 1, 0, 1], [5, 4, 5]) == [0, 5], "Two cannonballs in the same pipe"

161
Incinerator/the-lancers.py Normal file
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# Taken from mission The Vampires
# Taken from mission The Defenders
# Taken from mission Army Battles
# Taken from mission The Warriors
class Warrior:
def __init__(self):
self.health = 50
self.attack = 5
self.is_alive = True
self.defense = 0
self.vampirism = 0
def hit(self, other_unit) -> bool:
hit_points = self.attack - other_unit.defense
hit_points = hit_points if hit_points > 0 else 0
other_unit.health -= hit_points
other_unit.is_alive = other_unit.health > 0
self.health += (hit_points * self.vampirism)
return other_unit.is_alive
class Knight(Warrior):
def __init__(self):
super().__init__()
self.attack = 7
class Defender(Warrior):
def __init__(self):
super().__init__()
self.health = 60
self.attack = 3
self.defense = 2
class Vampire(Warrior):
def __init__(self):
super().__init__()
self.health = 40
self.attack = 4
self.vampirism = 0.5
class Rookie(Warrior):
def __init__(self, *args, **kwargs):
super().__init__()
self.health = 50
self.attack = 1
class Lancer(Warrior):
def __init__(self):
super().__init__()
self.attack = 6
def fight(unit_1, unit_2):
while unit_1.is_alive and unit_2.is_alive:
if not unit_1.hit(unit_2):
return True
if not unit_2.hit(unit_1):
return False
class Army:
def __init__(self):
self.units = []
def add_units(self, unit_type, quantity):
for i in range(quantity):
self.units.append(unit_type())
class Battle:
@staticmethod
def fight(army_1: Army, army_2: Army) -> bool:
while len(army_1.units) > 0 and len(army_2.units) > 0:
current_unit_1 = army_1.units[0]
current_unit_2 = army_2.units[0]
while current_unit_1.is_alive and current_unit_2.is_alive:
current_unit_1_attack = current_unit_1.hit(current_unit_2)
if isinstance(current_unit_1, Lancer) and len(army_2.units) > 1:
army_2.units[1].health -= current_unit_1.attack * 0.5
if not current_unit_1_attack:
army_2.units.pop(0)
break
current_unit_2_attack = current_unit_2.hit(current_unit_1)
if isinstance(current_unit_2, Lancer) and len(army_1.units) > 1:
army_1.units[1].health -= current_unit_2.attack * 0.5
if not current_unit_2_attack:
army_1.units.pop(0)
break
return len(army_1.units) > 0
if __name__ == '__main__':
# These "asserts" using only for self-checking and not necessary for auto-testing
# fight tests
chuck = Warrior()
bruce = Warrior()
carl = Knight()
dave = Warrior()
mark = Warrior()
bob = Defender()
mike = Knight()
rog = Warrior()
lancelot = Defender()
eric = Vampire()
adam = Vampire()
richard = Defender()
ogre = Warrior()
freelancer = Lancer()
vampire = Vampire()
assert fight(chuck, bruce) == True
assert fight(dave, carl) == False
assert chuck.is_alive == True
assert bruce.is_alive == False
assert carl.is_alive == True
assert dave.is_alive == False
assert fight(carl, mark) == False
assert carl.is_alive == False
assert fight(bob, mike) == False
assert fight(lancelot, rog) == True
assert fight(eric, richard) == False
assert fight(ogre, adam) == True
assert fight(freelancer, vampire) == True
assert freelancer.is_alive == True
# battle tests
my_army = Army()
my_army.add_units(Defender, 2)
my_army.add_units(Vampire, 2)
my_army.add_units(Lancer, 4)
my_army.add_units(Warrior, 1)
enemy_army = Army()
enemy_army.add_units(Warrior, 2)
enemy_army.add_units(Lancer, 2)
enemy_army.add_units(Defender, 2)
enemy_army.add_units(Vampire, 3)
army_3 = Army()
army_3.add_units(Warrior, 1)
army_3.add_units(Lancer, 1)
army_3.add_units(Defender, 2)
army_4 = Army()
army_4.add_units(Vampire, 3)
army_4.add_units(Warrior, 1)
army_4.add_units(Lancer, 2)
battle = Battle()
assert battle.fight(my_army, enemy_army) == True
assert battle.fight(army_3, army_4) == False
print("Coding complete? Let's try tests!")

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import string
def to_encrypt(text, delta):
alphabet = list(string.ascii_lowercase)
new_text = []
for letter in text:
if letter.isalpha():
letter_index = alphabet.index(letter) + delta
if letter_index > len(alphabet):
letter_index = letter_index - len(alphabet)
if letter_index < 0:
letter_index = len(alphabet) + letter_index
new_text.append(alphabet[letter_index])
else:
new_text.append(letter)
return "".join(new_text)
if __name__ == '__main__':
print("Example:")
print(to_encrypt('abc', 10))
# These "asserts" using only for self-checking and not necessary for auto-testing
assert to_encrypt("a b c", 3) == "d e f"
assert to_encrypt("a b c", -3) == "x y z"
assert to_encrypt("simple text", 16) == "iycfbu junj"
assert to_encrypt("important text", 10) == "swzybdkxd dohd"
assert to_encrypt("state secret", -13) == "fgngr frperg"
print("Coding complete? Click 'Check' to earn cool rewards!")

28
Mine/morse-encoder.py Normal file
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MORSE = {'a': '.-', 'b': '-...', 'c': '-.-.',
'd': '-..', 'e': '.', 'f': '..-.',
'g': '--.', 'h': '....', 'i': '..',
'j': '.---', 'k': '-.-', 'l': '.-..',
'm': '--', 'n': '-.', 'o': '---',
'p': '.--.', 'q': '--.-', 'r': '.-.',
's': '...', 't': '-', 'u': '..-',
'v': '...-', 'w': '.--', 'x': '-..-',
'y': '-.--', 'z': '--..', '0': '-----',
'1': '.----', '2': '..---', '3': '...--',
'4': '....-', '5': '.....', '6': '-....',
'7': '--...', '8': '---..', '9': '----.'
}
def morse_encoder(text):
return " ".join([MORSE[letter] if letter in MORSE.keys() else " " for letter in text.lower()])
if __name__ == '__main__':
print("Example:")
print(morse_encoder('some text'))
'... --- -- . - . -..- -'
# These "asserts" using only for self-checking and not necessary for auto-testing
assert morse_encoder("some text") == "... --- -- . - . -..- -"
assert morse_encoder("2018") == "..--- ----- .---- ---.."
assert morse_encoder("It was a good day") == ".. - .-- .- ... .- --. --- --- -.. -.. .- -.--"
print("Coding complete? Click 'Check' to earn cool rewards!")

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def checkio(matr):
clone = zip(*matr)
modifiedClone = []
for row in clone:
modifiedClone.append(list(map(mult, row)))
for i, row in enumerate(matr):
for j, cell in enumerate(matr[i]):
if cell != modifiedClone[i][j]:
return False
return True
def mult(e):
return -1 * e
if __name__ == '__main__':
assert checkio([[0, 1, 2],
[-1, 0, 1],
[-2, -1, 0]]) == True, 'First'
assert checkio([[0, 1, 2],
[-1, 1, 1],
[-2, -1, 0]]) == False, 'Second'
assert checkio([[0, 1, 2],
[-1, 0, 1],
[-3, -1, 0]]) == False, 'Third'
print('All ok')

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def create_intervals(data):
"""
Create a list of intervals out of set of ints.
"""
results = []
data = sorted(data)
start = None
current_number = None
for number in data:
if start is None:
start = number
current_number = start
continue
if number != start and number != (current_number + 1):
results.append((start, current_number))
start = number
current_number = number
if start is not None:
results.append((start, current_number))
return iter(results)
if __name__ == '__main__':
# These "asserts" using only for self-checking and not necessary for auto-testing
res = create_intervals(iter(sorted(list({1, 2, 3, 4, 5, 7, 8, 12}))))
assert hasattr(res, '__iter__'), "your function should return the iterator object"
assert hasattr(res, '__next__'), "your function should return the iterator object"
assert list(create_intervals(iter(sorted(list({1, 2, 3, 4, 5, 7, 8, 12}))))) == [
(1, 5), (7, 8), (12, 12)], "First"
assert list(create_intervals(iter(sorted(list({1, 2, 3, 6, 7, 8, 4, 5}))))) == [
(1, 8)], "Second"
assert list(create_intervals(iter([]))) == [], "Empty"
print('Almost done! The only thing left to do is to Check it!')

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def flat_list(array):
return iter(flat_iter(array))
def flat_iter(array):
new_array = []
for i in array:
if hasattr(i, '__next__'):
new_array += flat_iter(i)
else:
new_array.append(i)
return new_array
if __name__ == '__main__':
res = flat_list([1, 2, 3])
assert hasattr(res, '__iter__'), "your function should return the iterator object"
assert hasattr(res, '__next__'), "your function should return the iterator object"
assert list(flat_list(iter([1, 2, 3]))) == [1, 2, 3], "First"
assert list(flat_list(iter([1, iter([2, 2, 2]), 4]))) == [1, 2, 2, 2, 4], "Second"
assert list(flat_list(iter([iter([2]), iter([4, iter([5, 6, iter([6]), 6, 6, 6]), 7])]))) == [2, 4, 5, 6, 6, 6, 6,
6, 7], "Third"
assert list(flat_list(iter([-1, iter([1, iter([-2]), 1]), -1]))) == [-1, 1, -2, 1, -1], "Four"
print('Done! Check it')

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def most_wanted(text: str) -> str:
text = text.lower()
letters = []
max = 0
for letter in text:
if letter.isalpha():
if letter not in letters:
count = text.count(letter)
if max == count:
letters.append(letter)
if count > max:
letters = [letter]
max = count
return letters
if __name__ == '__main__':
# These "asserts" using only for self-checking and not necessary for auto-testing
assert sorted(most_wanted("Hello World!")) == ["l"], "Hello test"
assert sorted(most_wanted("How do you do?")) == ["o"], "O is most wanted"
assert sorted(most_wanted("One")) == ["e", "n", "o"], "All letter only once."
assert sorted(most_wanted("Oops!")) == ["o"], "Don't forget about lower case."
assert sorted(most_wanted("AAaooo!!!!")) == ["a", "o"], "Only letters."
assert sorted(most_wanted("abe")) == ["a", "b", "e"], "The First."
print("Start the long test")
assert sorted(most_wanted("a" * 9000 + "b" * 1000)) == ["a"], "Long."
print("The local tests are done.")

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def checkio(matr):
"""return a transposed matrix"""
return map(list, zip(*matr))
if __name__ == '__main__':
assert checkio([[1, 2],
[1, 2]]) == [[1, 1],
[2, 2]], 'First'
assert checkio([[1, 0, 3, 4, 0],
[2, 0, 4, 5, 6],
[3, 4, 9, 0, 6]]) == [[1, 2, 3],
[0, 0, 4],
[3, 4, 9],
[4, 5, 0],
[0, 6, 6]], 'Second'
print('All ok')

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PyconTW/simple_hashlib.py Normal file
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import hashlib
def checkio(hashed_string, algorithm):
m = hashlib.new(algorithm)
m.update(hashed_string.encode('utf-8'))
return m.hexdigest()
if __name__ == '__main__':
# These "asserts" using only for self-checking and not necessary for auto-testing
assert checkio('welcome', 'md5') == '40be4e59b9a2a2b5dffb918c0e86b3d7'
assert checkio('happy spam', 'sha224') == '6e9dc3e01d57f1598c2b40ce59fc3527e698c77b15d0840ae96a8b5e'

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from datetime import date, timedelta
def checkio(from_date: date, to_date: date) -> int:
"""
Count the days of rest
"""
plus_a_day = timedelta(days=1)
count = 0
while from_date != to_date:
if from_date.weekday() == 5 or from_date.weekday() == 6:
count += 1
from_date += plus_a_day
count += 1 if to_date.weekday() == 5 or to_date.weekday() == 6 else 0
return count
# These "asserts" using only for self-checking and not necessary for auto-testing
if __name__ == '__main__':
assert checkio(date(2013, 9, 18), date(2013, 9, 23)) == 2, "1st example"
assert checkio(date(2013, 1, 1), date(2013, 2, 1)) == 8, "2nd example"
assert checkio(date(2013, 2, 2), date(2013, 2, 3)) == 2, "3rd example"