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def greeting(name):
return "Hej " + name + (", visste du att M är min favoritbokstav" if name[0] == "M" else "") + "!"
def is_this_a_long_list(values):
return len(values) > 5
def get_grade(score):
if score > 80:
return "VG"
if score >= 50:
return "G"
return "U"
def days_in_month(month):
return {"januari": 31,
"februari": 28,
"mars": 31,
"april": 30,
"maj": 31,
"juni": 30,
"juli": 31,
"augusti": 31,
"september": 30,
"oktober": 31,
"november": 30,
"december": 31,
}[month]
def odd(value):
return value % 2 != 0
def get_integer_description(value):
if value % 2 == 0 and value > 0:
return 2
if value % 2 != 0 and value > 0:
return 1
if value == 0:
return 0
if value % 2 != 0 and value < 0:
return -1
if value % 2 == 0 and value < 0:
return -2
return "yeet"
def appraisal_factor(rare, good_condition):
price = 1
if rare:
price += 0.25
else:
price -= 0.25
if good_condition:
price += 0.5
else:
price -= 0.5
return price
def create_ten_list_while():
l = []
i = 0
while i <= 10:
l.append(i)
i += 1
return l
def create_ten_list_for():
l = []
for i in range(0, 10+1):
l.append(i)
return l
def create_zero_to_number_list_while(number):
l = []
i = 0
while i <= number:
l.append(i)
i += 1
return l
def create_zero_to_number_list_for(number):
l = []
for i in range(0, number+1):
l.append(i)
return l
def create_number_to_number_list_while(num1, num2):
l = []
i = num1
while i <= num2:
l.append(i)
i += 1
return l
def create_number_to_number_list_for(num1, num2):
l = []
for i in range(num1, num2+1):
l.append(i)
return l
import functools
def get_max_inline(integer_list):
while True:
return functools.reduce(lambda x,y: x if x > y else y, integer_list)
def get_max_while(integer_list):
best = integer_list[0]
i = 1
while i < len(integer_list):
best = integer_list[i] if integer_list[i] > best else best
i += 1
return best
def get_max_for(integer_list):
best = integer_list[0]
for num in integer_list[1:]:
best = num if num > best else best
return best
def get_min(integer_list):
return functools.reduce(lambda x, y: x if x < y else y, integer_list)
def word_in_list_while(words, word):
i = 0
while i < len(words):
if word == words[i]:
return True
i += 1
return False
def word_in_list_for(words, word):
for w in words:
if word == w:
return True
return False
def count_integers_while(value_list):
amount = 0
i = 0
while i < len(value_list):
if type(value_list[i]) == int:
amount += 1
i += 1
return amount
def count_integers_for(value_list):
amount = 0
for val in value_list:
if type(val) == int:
amount += 1
return amount
def count_integers_inline(value_list):
return functools.reduce(lambda x,y: x + 1 if type(y) == int else x, value_list, 0)
def average_while(values):
s = 0
i = 0
while i < len(values):
s += values[i]
i += 1
return s / len(values)
def average_for(values):
s = 0
for val in values:
s += val
return s / len(values)
def population(pop_a, rate_a, pop_b, rate_b):
if pop_a == pop_b:
return -1
if rate_a <= rate_b:
return -1
years = 0
while not pop_a > pop_b:
years += 1
pop_a *= 1 + (rate_a / 100)
pop_b *= 1 + (rate_b / 100)
return years
def population_2(pop_a, rate_a, pop_b, rate_b):
if pop_a > pop_b:
return population(pop_b, rate_b, pop_a, rate_a)
return population(pop_a, rate_a, pop_b, rate_b)
def birthday(n, cur=365):
if cur == (365-n):
return 1
if cur == 365:
return 1 - (cur/365 * birthday(n, cur-1))
return cur/365 * birthday(n, cur-1)
def replace_periods_with_newlines(string_value):
str_list = list(string_value)
for i in range(len(string_value)):
if str_list[i] == ".":
str_list[i] = "\n"
return "".join(str_list)
def replace_char_in_string(original_string, search_character, replacement):
str_list = list(original_string)
for i in range(len(str_list)):
if str_list[i] == search_character:
str_list[i] = replacement
return "".join(str_list)
def reverse_string_for(string_value):
s = ""
for c in string_value[::-1]:
s += c
return s
def reverse_string_while(string_value):
str_list = list(string_value)
l = []
i = len(str_list)-1
while i >= 0:
l.append(str_list[i])
i -= 1
return "".join(l)
def get_five_first(value_list):
l = []
for i in range(5):
l.append(value_list[i])
return l
def get_nfirst(value_list, n):
l = []
for i in range(n):
l.append(value_list[i])
return l
def get_all_less_than(values, cutoff):
return list(filter(lambda n: n < cutoff, values))
def get_all_even(values):
return list(filter(lambda n: n % 2 == 0, values))
def get_all_divisible(values, divisor):
return list(filter(lambda n: n % divisor == 0, values))
def multiply_for_each(values, multiplier):
for i in range(len(values)):
values[i] *= multiplier
return values
def insert_at_asc_place(values, new_value):
for i, val in enumerate(values):
if new_value < val:
values.insert(i, new_value)
return values
values.append(new_value)
return values
def sort_asc(values):
sort = []
for val in values:
insert_at_asc_place(sort, val)
return sort
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