计算机代考程序代写 1

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None None
def square_it(x): x*x
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None None
def square_it(x): x*x
None
square_it(4)
4

None None
def square_it(x): x*x
None
square_it(4)
None
sixteen = square_it(4)
sum = sixteen + 4 # TypeError!
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print()
print(-2)
f = open(‘songs.txt’, ‘w’)
f.write(“Dancing On My Own, Robyn”)
f.close()
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def square_num1(number): return pow(number, 2)
def square_num2(number): print(number ** 2)
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def square_num1(number): return pow(number, 2)
def square_num2(number): print(number ** 2)
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def square_num1(number): return pow(number, 2)
def square_num2(number): print(number ** 2)
None
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None
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print(print(1), print(2))
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print(print(1), print(2))
print(print(1), print(2))
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print(print(1), print(2))
print(print(1), print(2))
def print()…
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print(print(1), print(2))
print(print(1), print(2))
def print()…
print(1)
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print(print(1), print(2))
print(print(1), print(2))
def print()…
print(1)
def print()…
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print(print(1), print(2))
print(print(1), print(2))
def print()…
print(1)
def print()…
1
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print(print(1), print(2))
print(print(1), print(2))
def print()…
print(1)
def print()…
1
8

print(print(1), print(2))
print(print(1), print(2))
def print()…
print(1)
def print()…
1
8

print(print(1), print(2))
print(print(1), print(2))
def print()…
print(1) print(2)
def print()…
1
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print(print(1), print(2))
print(print(1), print(2))
def print()…
print(1)
print(2)
def print()…
def print()…
1
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print(print(1), print(2))
print(print(1), print(2))
def print()…
print(1)
print(2)
def print()…
1
def print()…
2
8

print(print(1), print(2))
print(print(1), print(2))
def print()…
print(1)
print(2)
def print()…
1
def print()…
2
8

print(print(1), print(2))
print(print(1), print(2))
def print()…
print(1)
print(2)
def print()…
1
def print()…
2
8

print(print(1), print(2))
print(print(1), print(2))
def print()…
print(1)
print(2)
def print()…
1
def print()…
2
8

print(print(1), print(2))
print(print(1), print(2))
def print()…
print(1)
print(2)
def print()…
1
def print()…
2
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def calculate_dog_age(human_years, multiplier = 7): return human_years * multiplier
calculate_dog_age(3)
calculate_dog_age(3, 7)
calculate_dog_age(3, 6)
calculate_dog_age(3, multiplier=6)
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def divide_exact(n, d): quotient = n // d remainder = n % d
return quotient, remainder
q, r = divide_exact(618, 10)
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def divide_exact(n, d): “””
>>> q, r = divide_exact(2021, 10)
>>> q
202
>>> r
1
“””
quotient = n // d remainder = n % d
return quotient, remainder
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True False
avoid_highways = True
personalized_ads = False
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passed_class = grade > 65
wear_jacket = is_raining or is_windy
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32 == 32
30 != 32
60 >= 32
60 >= 32 32 >= 32 20 < 32 20<32 32<=32 ⚠= == 16 and 4 > 0 and -2 < 0 True False False or 4 > 0 or -2 > 0
True False
True False
not not (5 == 0)
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may_have_mobility_issues = (age >= 0 and age < 2) or age > 90
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def passed_class(grade): return grade > 65
def should_wear_jacket(is_rainy, is_windy): return is_rainy or is_windy
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name = ‘sosuke’
greeting = ‘ahoy, ‘ + name
def greet(name):
return ‘ahoy, ‘ + name
return ‘ahoy, ‘ + name
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:



:



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: # CLAUSE



: # CLAUSE



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: # CLAUSE
# SUITE


: # CLAUSE
# SUITE


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: # CLAUSE
# SUITE


: # CLAUSE
# SUITE


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:



:



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:
# SUITE


:
# SUITE


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if :

clothing = “shirt”
if temperature < 32: clothing = "jacket" 26 elif if :

elif :


elif :


clothing = “shirt”
if temperature < 0: clothing = "snowsuit" elif temperature < 32: clothing = "jacket" 27 else if :

elif :


else :


if temperature < 0: clothing = "snowsuit" elif temperature < 32: clothing = "jacket" else: clothing = "shirt" 28 if num < 0: sign = "negative" elif num > 0:
sign = “positive”
else:
sign = “neutral”
if elif
else
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def get_number_sign(num): if num < 0: sign = "negative" elif num > 0:
sign = “positive” else:
sign = “neutral” return sign
get_number_sign(50) # “positive”
get_number_sign(-1) # “negative”
get_number_sign(0) # “neutral”
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def get_number_sign(num): if num < 0: return "negative" elif num > 0:
return “positive” else:
return “neutral”
get_number_sign(50) # “positive”
get_number_sign(-1) # “negative”
get_number_sign(0) # “neutral”
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while :

multiplier = 1
while multiplier <= 5: print(9 * multiplier) multiplier += 1 35 total = 0 counter = 0 while counter < 5: total += pow(2, 1) counter += 1 total = 0 counter = 0 while counter < 5: total += pow(2, counter) counter += 1 36 counter = 1 while counter < 5: total += pow(2, counter) 37 counter = 1 while counter < 5: total += pow(2, counter) counter += 1 37 counter = 1 while counter < 5: total += pow(2, counter) counter += 1 counter = 6 while counter > 5:
total += pow(2, counter)
counter += 1
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counter = 1
while counter < 5: total += pow(2, counter) counter += 1 counter = 6 while counter > 5:
total += pow(2, counter)
counter += 1
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def sum_up_squares(start, end): counter = start
total = 0
while counter <= end: total += pow(counter, 2) counter += 1 return total sum_up_squares(1, 5) 39 break counter = 100 while counter < 200: if counter % 7 == 0: first_multiple = counter break counter += 1 40 counter = 100 while True: if counter % 62 == 0: first_multiple = counter break counter += 1 ⚠ 41 42 def is prime(n): """Return True iff N is prime.""" return n > 1 and smallest factor(n) == n
def smallest factor(n):
“””Returns the smallest value k>1 that evenly divides N.””” ???
def print factors(n):
“””Print the prime factors of N.””” ???
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