add_days
- title: add_days
- tags: date,intermediate
Calculates the date of n
days from the given date.
- Use
datetime.timedelta
and the+
operator to calculate the newdatetime.datetime
value after addingn
days tod
. - Omit the second argument,
d
, to use a default value ofdatetime.today()
.
from datetime import datetime, timedelta
def add_days(n, d = datetime.today()):
return d + timedelta(n)
from datetime import date
add_days(5, date(2020, 10, 25)) ## date(2020, 10, 30)
add_days(-5, date(2020, 10, 25)) ## date(2020, 10, 20)
all_equal
- title: all_equal
- tags: list,beginner
Checks if all elements in a list are equal.
- Use
set()
to eliminate duplicate elements and then uselen()
to check if length is1
.
def all_equal(lst):
return len(set(lst)) == 1
all_equal([1, 2, 3, 4, 5, 6]) ## False
all_equal([1, 1, 1, 1]) ## True
all_unique
- title: all_unique
- tags: list,beginner
Checks if all the values in a list are unique.
- Use
set()
on the given list to keep only unique occurrences. - Use
len()
to compare the length of the unique values to the original list.
def all_unique(lst):
return len(lst) == len(set(lst))
x = [1, 2, 3, 4, 5, 6]
y = [1, 2, 2, 3, 4, 5]
all_unique(x) ## True
all_unique(y) ## False
arithmetic_progression
- title: arithmetic_progression
- tags: math,beginner
Generates a list of numbers in the arithmetic progression starting with the given positive integer and up to the specified limit.
- Use
range()
andlist()
with the appropriate start, step and end values.
def arithmetic_progression(n, lim):
return list(range(n, lim + 1, n))
arithmetic_progression(5, 25) ## [5, 10, 15, 20, 25]
average
- title: average
- tags: math,list,beginner
Calculates the average of two or more numbers.
- Use
sum()
to sum all of theargs
provided, divide bylen()
.
def average(*args):
return sum(args, 0.0) / len(args)
average(*[1, 2, 3]) ## 2.0
average(1, 2, 3) ## 2.0
average_by
- title: average_by
- tags: math,list,intermediate
Calculates the average of a list, after mapping each element to a value using the provided function.
- Use
map()
to map each element to the value returned byfn
. - Use
sum()
to sum all of the mapped values, divide bylen(lst)
. - Omit the last argument,
fn
, to use the default identity function.
def average_by(lst, fn = lambda x: x):
return sum(map(fn, lst), 0.0) / len(lst)
average_by([{ 'n': 4 }, { 'n': 2 }, { 'n': 8 }, { 'n': 6 }], lambda x: x['n'])
## 5.0
bifurcate
- title: bifurcate
- tags: list,intermediate
Splits values into two groups, based on the result of the given filter
list.
- Use a list comprehension and
zip()
to add elements to groups, based onfilter
. - If
filter
has a truthy value for any element, add it to the first group, otherwise add it to the second group.
def bifurcate(lst, filter):
return [
[x for x, flag in zip(lst, filter) if flag],
[x for x, flag in zip(lst, filter) if not flag]
]
bifurcate(['beep', 'boop', 'foo', 'bar'], [True, True, False, True])
## [ ['beep', 'boop', 'bar'], ['foo'] ]
bifurcate_by
- title: bifurcate_by
- tags: list,intermediate
Splits values into two groups, based on the result of the given filtering function.
- Use a list comprehension to add elements to groups, based on the value returned by
fn
for each element. - If
fn
returns a truthy value for any element, add it to the first group, otherwise add it to the second group.
def bifurcate_by(lst, fn):
return [
[x for x in lst if fn(x)],
[x for x in lst if not fn(x)]
]
bifurcate_by(['beep', 'boop', 'foo', 'bar'], lambda x: x[0] == 'b')
## [ ['beep', 'boop', 'bar'], ['foo'] ]
binomial_coefficient
- title: binomial_coefficient
- tags: math,beginner
Calculates the number of ways to choose k
items from n
items without repetition and without order.
- Use
math.comb()
to calculate the binomial coefficient.
from math import comb
def binomial_coefficient(n, k):
return comb(n, k)
binomial_coefficient(8, 2) ## 28
byte_size
- title: byte_size
- tags: string,beginner
Returns the length of a string in bytes.
- Use
str.encode('utf-8')
to encode the given string and return its length.
def byte_size(s):
return len(s.encode('utf-8'))
byte_size('😀') ## 4
byte_size('Hello World') ## 11
camel
- title: camel
- tags: string,regexp,intermediate
Converts a string to camelcase.
- Use
re.sub()
to replace any-
or_
with a space, using the regexpr"(_|-)+"
. - Use
str.title()
to capitalize the first letter of each word and convert the rest to lowercase. - Finally, use
str.replace()
to remove spaces between words.
from re import sub
def camel(s):
s = sub(r"(_|-)+", " ", s).title().replace(" ", "")
return ''.join([s[0].lower(), s[1:]])
camel('some_database_field_name') ## 'someDatabaseFieldName'
camel('Some label that needs to be camelized')
## 'someLabelThatNeedsToBeCamelized'
camel('some-javascript-property') ## 'someJavascriptProperty'
camel('some-mixed_string with spaces_underscores-and-hyphens')
## 'someMixedStringWithSpacesUnderscoresAndHyphens'
capitalize
- title: capitalize
- tags: string,intermediate
Capitalizes the first letter of a string.
- Use list slicing and
str.upper()
to capitalize the first letter of the string. - Use
str.join()
to combine the capitalized first letter with the rest of the characters. - Omit the
lower_rest
parameter to keep the rest of the string intact, or set it toTrue
to convert to lowercase.
def capitalize(s, lower_rest = False):
return ''.join([s[:1].upper(), (s[1:].lower() if lower_rest else s[1:])])
capitalize('fooBar') ## 'FooBar'
capitalize('fooBar', True) ## 'Foobar'
capitalize_every_word
- title: capitalize_every_word
- tags: string,beginner
Capitalizes the first letter of every word in a string.
- Use
str.title()
to capitalize the first letter of every word in the string.
def capitalize_every_word(s):
return s.title()
capitalize_every_word('hello world!') ## 'Hello World!'
cast_list
- title: cast_list
- tags: list,intermediate
Casts the provided value as a list if it's not one.
- Use
isinstance()
to check if the given value is enumerable. - Return it by using
list()
or encapsulated in a list accordingly.
def cast_list(val):
return list(val) if isinstance(val, (tuple, list, set, dict)) else [val]
cast_list('foo') ## ['foo']
cast_list([1]) ## [1]
cast_list(('foo', 'bar')) ## ['foo', 'bar']
celsius_to_fahrenheit
- title: celsius_to_fahrenheit
- tags: math,beginner unlisted: true
Converts Celsius to Fahrenheit.
- Follow the conversion formula
F = 1.8 * C + 32
.
def celsius_to_fahrenheit(degrees):
return ((degrees * 1.8) + 32)
celsius_to_fahrenheit(180) ## 356.0
check_prop
- title: check_prop
- tags: function,intermediate
Creates a function that will invoke a predicate function for the specified property on a given object.
- Return a
lambda
function that takes an object and applies the predicate function,fn
to the specified property.
def check_prop(fn, prop):
return lambda obj: fn(obj[prop])
check_age = check_prop(lambda x: x >= 18, 'age')
user = {'name': 'Mark', 'age': 18}
check_age(user) ## True
chunk
- title: chunk
- tags: list,intermediate
Chunks a list into smaller lists of a specified size.
- Use
list()
andrange()
to create a list of the desiredsize
. - Use
map()
on the list and fill it with splices of the given list. - Finally, return the created list.
from math import ceil
def chunk(lst, size):
return list(
map(lambda x: lst[x * size:x * size + size],
list(range(ceil(len(lst) / size)))))
chunk([1, 2, 3, 4, 5], 2) ## [[1, 2], [3, 4], [5]]
chunk_into_n
- title: chunk_into_n
- tags: list,intermediate
Chunks a list into n
smaller lists.
- Use
math.ceil()
andlen()
to get the size of each chunk. - Use
list()
andrange()
to create a new list of sizen
. - Use
map()
to map each element of the new list to a chunk the length ofsize
. - If the original list can't be split evenly, the final chunk will contain the remaining elements.
from math import ceil
def chunk_into_n(lst, n):
size = ceil(len(lst) / n)
return list(
map(lambda x: lst[x * size:x * size + size],
list(range(n)))
)
chunk_into_n([1, 2, 3, 4, 5, 6, 7], 4) ## [[1, 2], [3, 4], [5, 6], [7]]
clamp_number
- title: clamp_number
- tags: math,beginner
Clamps num
within the inclusive range specified by the boundary values.
- If
num
falls within the range (a
,b
), returnnum
. - Otherwise, return the nearest number in the range.
def clamp_number(num, a, b):
return max(min(num, max(a, b)), min(a, b))
clamp_number(2, 3, 5) ## 3
clamp_number(1, -1, -5) ## -1
collect_dictionary
- title: collect_dictionary
- tags: dictionary,intermediate
Inverts a dictionary with non-unique hashable values.
- Create a
collections.defaultdict
withlist
as the default value for each key. - Use
dictionary.items()
in combination with a loop to map the values of the dictionary to keys usingdict.append()
. - Use
dict()
to convert thecollections.defaultdict
to a regular dictionary.
from collections import defaultdict
def collect_dictionary(obj):
inv_obj = defaultdict(list)
for key, value in obj.items():
inv_obj[value].append(key)
return dict(inv_obj)
ages = {
'Peter': 10,
'Isabel': 10,
'Anna': 9,
}
collect_dictionary(ages) ## { 10: ['Peter', 'Isabel'], 9: ['Anna'] }
compact
- title: compact
- tags: list,beginner
Removes falsy values from a list.
- Use
filter()
to filter out falsy values (False
,None
,0
, and""
).
def compact(lst):
return list(filter(None, lst))
compact([0, 1, False, 2, '', 3, 'a', 's', 34]) ## [ 1, 2, 3, 'a', 's', 34 ]
compose
- title: compose
- tags: function,advanced
Performs right-to-left function composition.
- Use
functools.reduce()
to perform right-to-left function composition. - The last (rightmost) function can accept one or more arguments; the remaining functions must be unary.
from functools import reduce
def compose(*fns):
return reduce(lambda f, g: lambda *args: f(g(*args)), fns)
add5 = lambda x: x + 5
multiply = lambda x, y: x * y
multiply_and_add_5 = compose(add5, multiply)
multiply_and_add_5(5, 2) ## 15
compose_right
- title: compose_right
- tags: function,advanced
Performs left-to-right function composition.
- Use
functools.reduce()
to perform left-to-right function composition. - The first (leftmost) function can accept one or more arguments; the remaining functions must be unary.
from functools import reduce
def compose_right(*fns):
return reduce(lambda f, g: lambda *args: g(f(*args)), fns)
add = lambda x, y: x + y
square = lambda x: x * x
add_and_square = compose_right(add, square)
add_and_square(1, 2) ## 9
count_by
- title: count_by
- tags: list,intermediate
Groups the elements of a list based on the given function and returns the count of elements in each group.
- Use
collections.defaultdict
to initialize a dictionary. - Use
map()
to map the values of the given list using the given function. - Iterate over the map and increase the element count each time it occurs.
from collections import defaultdict
def count_by(lst, fn = lambda x: x):
count = defaultdict(int)
for val in map(fn, lst):
count[val] += 1
return dict(count)
from math import floor
count_by([6.1, 4.2, 6.3], floor) ## {6: 2, 4: 1}
count_by(['one', 'two', 'three'], len) ## {3: 2, 5: 1}
count_occurrences
- title: count_occurrences
- tags: list,beginner
Counts the occurrences of a value in a list.
- Use
list.count()
to count the number of occurrences ofval
inlst
.
def count_occurrences(lst, val):
return lst.count(val)
count_occurrences([1, 1, 2, 1, 2, 3], 1) ## 3
cumsum
- title: cumsum
- tags: list,intermediate
Creates a list of partial sums.
- Use
itertools.accumulate()
to create the accumulated sum for each element. - Use
list()
to convert the result into a list.
from itertools import accumulate
def cumsum(lst):
return list(accumulate(lst))
cumsum(range(0, 15, 3)) ## [0, 3, 9, 18, 30]
curry
- title: curry
- tags: function,intermediate
Curries a function.
- Use
functools.partial()
to return a new partial object which behaves likefn
with the given arguments,args
, partially applied.
from functools import partial
def curry(fn, *args):
return partial(fn, *args)
add = lambda x, y: x + y
add10 = curry(add, 10)
add10(20) ## 30
daterange
- title: daterange
- tags: date,intermediate
Creates a list of dates between start
(inclusive) and end
(not inclusive).
- Use
datetime.timedelta.days
to get the days betweenstart
andend
. - Use
int()
to convert the result to an integer andrange()
to iterate over each day. - Use a list comprehension and
datetime.timedelta()
to create a list ofdatetime.date
objects.
from datetime import timedelta, date
def daterange(start, end):
return [start + timedelta(n) for n in range(int((end - start).days))]
from datetime import date
daterange(date(2020, 10, 1), date(2020, 10, 5))
## [date(2020, 10, 1), date(2020, 10, 2), date(2020, 10, 3), date(2020, 10, 4)]
days_ago
- title: days_ago
- tags: date,intermediate
Calculates the date of n
days ago from today.
- Use
datetime.date.today()
to get the current day. - Use
datetime.timedelta
to subtractn
days from today's date.
from datetime import timedelta, date
def days_ago(n):
return date.today() - timedelta(n)
days_ago(5) ## date(2020, 10, 23)
days_diff
- title: days_diff
- tags: date,beginner
Calculates the day difference between two dates.
- Subtract
start
fromend
and usedatetime.timedelta.days
to get the day difference.
def days_diff(start, end):
return (end - start).days
from datetime import date
days_diff(date(2020, 10, 25), date(2020, 10, 28)) ## 3
days_from_now
- title: days_from_now
- tags: date,intermediate
Calculates the date of n
days from today.
- Use
datetime.date.today()
to get the current day. - Use
datetime.timedelta
to addn
days from today's date.
from datetime import timedelta, date
def days_from_now(n):
return date.today() + timedelta(n)
days_from_now(5) ## date(2020, 11, 02)
decapitalize
- title: decapitalize
- tags: string,intermediate
Decapitalizes the first letter of a string.
- Use list slicing and
str.lower()
to decapitalize the first letter of the string. - Use
str.join()
to combine the lowercase first letter with the rest of the characters. - Omit the
upper_rest
parameter to keep the rest of the string intact, or set it toTrue
to convert to uppercase.
def decapitalize(s, upper_rest = False):
return ''.join([s[:1].lower(), (s[1:].upper() if upper_rest else s[1:])])
decapitalize('FooBar') ## 'fooBar'
decapitalize('FooBar', True) ## 'fOOBAR'
deep_flatten
- title: deep_flatten
- tags: list,recursion,intermediate
Deep flattens a list.
- Use recursion.
- Use
isinstance()
withcollections.abc.Iterable
to check if an element is iterable. - If it is iterable, apply
deep_flatten()
recursively, otherwise return[lst]
.
from collections.abc import Iterable
def deep_flatten(lst):
return ([a for i in lst for a in
deep_flatten(i)] if isinstance(lst, Iterable) else [lst])
deep_flatten([1, [2], [[3], 4], 5]) ## [1, 2, 3, 4, 5]
degrees_to_rads
- title: degrees_to_rads
- tags: math,beginner
Converts an angle from degrees to radians.
- Use
math.pi
and the degrees to radians formula to convert the angle from degrees to radians.
from math import pi
def degrees_to_rads(deg):
return (deg * pi) / 180.0
degrees_to_rads(180) ## ~3.1416
delay
- title: delay
- tags: function,intermediate
Invokes the provided function after ms
milliseconds.
- Use
time.sleep()
to delay the execution offn
byms / 1000
seconds.
from time import sleep
def delay(fn, ms, *args):
sleep(ms / 1000)
return fn(*args)
delay(lambda x: print(x), 1000, 'later') ## prints 'later' after one second
dict_to_list
- title: dict_to_list
- tags: dictionary,list,intermediate
Converts a dictionary to a list of tuples.
- Use
dict.items()
andlist()
to get a list of tuples from the given dictionary.
def dict_to_list(d):
return list(d.items())
d = {'one': 1, 'three': 3, 'five': 5, 'two': 2, 'four': 4}
dict_to_list(d)
## [('one', 1), ('three', 3), ('five', 5), ('two', 2), ('four', 4)]
difference
- title: difference
- tags: list,beginner
Calculates the difference between two iterables, without filtering duplicate values.
- Create a
set
fromb
. - Use a list comprehension on
a
to only keep values not contained in the previously created set,_b
.
def difference(a, b):
_b = set(b)
return [item for item in a if item not in _b]
difference([1, 2, 3], [1, 2, 4]) ## [3]
difference_by
- title: difference_by
- tags: list,function,intermediate
Returns the difference between two lists, after applying the provided function to each list element of both.
- Create a
set
, usingmap()
to applyfn
to each element inb
. - Use a list comprehension in combination with
fn
ona
to only keep values not contained in the previously created set,_b
.
def difference_by(a, b, fn):
_b = set(map(fn, b))
return [item for item in a if fn(item) not in _b]
from math import floor
difference_by([2.1, 1.2], [2.3, 3.4], floor) ## [1.2]
difference_by([{ 'x': 2 }, { 'x': 1 }], [{ 'x': 1 }], lambda v : v['x'])
## [ { x: 2 } ]
digitize
- title: digitize
- tags: math,list,beginner
Converts a number to a list of digits.
- Use
map()
combined withint
on the string representation ofn
and return a list from the result.
def digitize(n):
return list(map(int, str(n)))
digitize(123) ## [1, 2, 3]
drop
- title: drop
- tags: list,beginner
Returns a list with n
elements removed from the left.
- Use slice notation to remove the specified number of elements from the left.
- Omit the last argument,
n
, to use a default value of1
.
def drop(a, n = 1):
return a[n:]
drop([1, 2, 3]) ## [2, 3]
drop([1, 2, 3], 2) ## [3]
drop([1, 2, 3], 42) ## []
drop_right
- title: drop_right
- tags: list,beginner
Returns a list with n
elements removed from the right.
- Use slice notation to remove the specified number of elements from the right.
- Omit the last argument,
n
, to use a default value of1
.
def drop_right(a, n = 1):
return a[:-n]
drop_right([1, 2, 3]) ## [1, 2]
drop_right([1, 2, 3], 2) ## [1]
drop_right([1, 2, 3], 42) ## []
every
- title: every
- tags: list,intermediate
Checks if the provided function returns True
for every element in the list.
- Use
all()
in combination withmap()
andfn
to check iffn
returnsTrue
for all elements in the list.
def every(lst, fn = lambda x: x):
return all(map(fn, lst))
every([4, 2, 3], lambda x: x > 1) ## True
every([1, 2, 3]) ## True
every_nth
- title: every_nth
- tags: list,beginner
Returns every nth
element in a list.
- Use slice notation to create a new list that contains every
nth
element of the given list.
def every_nth(lst, nth):
return lst[nth - 1::nth]
every_nth([1, 2, 3, 4, 5, 6], 2) ## [ 2, 4, 6 ]
factorial
- title: factorial
- tags: math,recursion,beginner
Calculates the factorial of a number.
- Use recursion.
- If
num
is less than or equal to1
, return1
. - Otherwise, return the product of
num
and the factorial ofnum - 1
. - Throws an exception if
num
is a negative or a floating point number.
def factorial(num):
if not ((num >= 0) and (num % 1 == 0)):
raise Exception("Number can't be floating point or negative.")
return 1 if num == 0 else num * factorial(num - 1)
factorial(6) ## 720
fahrenheit_to_celsius
- title: fahrenheit_to_celsius
- tags: math,beginner unlisted: true
Converts Fahrenheit to Celsius.
- Follow the conversion formula
C = (F - 32) * 5/9
.
def fahrenheit_to_celsius(degrees):
return ((degrees - 32) * 5/9)
fahrenheit_to_celsius(77) ## 25.0
fibonacci
- title: fibonacci
- tags: math,list,intermediate
Generates a list, containing the Fibonacci sequence, up until the nth term.
- Starting with
0
and1
, uselist.append()
to add the sum of the last two numbers of the list to the end of the list, until the length of the list reachesn
. - If
n
is less or equal to0
, return a list containing0
.
def fibonacci(n):
if n <= 0:
return [0]
sequence = [0, 1]
while len(sequence) <= n:
next_value = sequence[len(sequence) - 1] + sequence[len(sequence) - 2]
sequence.append(next_value)
return sequence
fibonacci(7) ## [0, 1, 1, 2, 3, 5, 8, 13]
filter_non_unique
- title: filter_non_unique
- tags: list,beginner
Creates a list with the non-unique values filtered out.
- Use
collections.Counter
to get the count of each value in the list. - Use a list comprehension to create a list containing only the unique values.
from collections import Counter
def filter_non_unique(lst):
return [item for item, count in Counter(lst).items() if count == 1]
filter_non_unique([1, 2, 2, 3, 4, 4, 5]) ## [1, 3, 5]
filter_unique
- title: filter_unique
- tags: list,beginner
Creates a list with the unique values filtered out.
- Use
collections.Counter
to get the count of each value in the list. - Use a list comprehension to create a list containing only the non-unique values.
from collections import Counter
def filter_unique(lst):
return [item for item, count in Counter(lst).items() if count > 1]
filter_unique([1, 2, 2, 3, 4, 4, 5]) ## [2, 4]
find
- title: find
- tags: list,beginner
Finds the value of the first element in the given list that satisfies the provided testing function.
- Use a list comprehension and
next()
to return the first element inlst
for whichfn
returnsTrue
.
def find(lst, fn):
return next(x for x in lst if fn(x))
find([1, 2, 3, 4], lambda n: n % 2 == 1) ## 1
find_index
- title: find_index
- tags: list,intermediate
Finds the index of the first element in the given list that satisfies the provided testing function.
- Use a list comprehension,
enumerate()
andnext()
to return the index of the first element inlst
for whichfn
returnsTrue
.
def find_index(lst, fn):
return next(i for i, x in enumerate(lst) if fn(x))
find_index([1, 2, 3, 4], lambda n: n % 2 == 1) ## 0
find_index_of_all
- title: find_index_of_all
- tags: list,intermediate
Finds the indexes of all elements in the given list that satisfy the provided testing function.
- Use
enumerate()
and a list comprehension to return the indexes of the all element inlst
for whichfn
returnsTrue
.
def find_index_of_all(lst, fn):
return [i for i, x in enumerate(lst) if fn(x)]
find_index_of_all([1, 2, 3, 4], lambda n: n % 2 == 1) ## [0, 2]
find_key
- title: find_key
- tags: dictionary,intermediate
Finds the first key in the provided dictionary that has the given value.
- Use
dictionary.items()
andnext()
to return the first key that has a value equal toval
.
def find_key(dict, val):
return next(key for key, value in dict.items() if value == val)
ages = {
'Peter': 10,
'Isabel': 11,
'Anna': 9,
}
find_key(ages, 11) ## 'Isabel'
find_keys
- title: find_keys
- tags: dictionary,intermediate
Finds all keys in the provided dictionary that have the given value.
- Use
dictionary.items()
, a generator andlist()
to return all keys that have a value equal toval
.
def find_keys(dict, val):
return list(key for key, value in dict.items() if value == val)
ages = {
'Peter': 10,
'Isabel': 11,
'Anna': 10,
}
find_keys(ages, 10) ## [ 'Peter', 'Anna' ]
find_last
- title: find_last
- tags: list,beginner
Finds the value of the last element in the given list that satisfies the provided testing function.
- Use a list comprehension and
next()
to return the last element inlst
for whichfn
returnsTrue
.
def find_last(lst, fn):
return next(x for x in lst[::-1] if fn(x))
find_last([1, 2, 3, 4], lambda n: n % 2 == 1) ## 3
find_last_index
- title: find_last_index
- tags: list,beginner
Finds the index of the last element in the given list that satisfies the provided testing function.
- Use a list comprehension,
enumerate()
andnext()
to return the index of the last element inlst
for whichfn
returnsTrue
.
def find_last_index(lst, fn):
return len(lst) - 1 - next(i for i, x in enumerate(lst[::-1]) if fn(x))
find_last_index([1, 2, 3, 4], lambda n: n % 2 == 1) ## 2
find_parity_outliers
- title: find_parity_outliers
- tags: list,math,intermediate
Finds the items that are parity outliers in a given list.
- Use
collections.Counter
with a list comprehension to count even and odd values in the list. - Use
collections.Counter.most_common()
to get the most common parity. - Use a list comprehension to find all elements that do not match the most common parity.
from collections import Counter
def find_parity_outliers(nums):
return [
x for x in nums
if x % 2 != Counter([n % 2 for n in nums]).most_common()[0][0]
]
find_parity_outliers([1, 2, 3, 4, 6]) ## [1, 3]
flatten
- title: flatten
- tags: list,intermediate
Flattens a list of lists once.
- Use a list comprehension to extract each value from sub-lists in order.
def flatten(lst):
return [x for y in lst for x in y]
flatten([[1, 2, 3, 4], [5, 6, 7, 8]]) ## [1, 2, 3, 4, 5, 6, 7, 8]
for_each
- title: for_each
- tags: list,beginner
Executes the provided function once for each list element.
- Use a
for
loop to executefn
for each element initr
.
def for_each(itr, fn):
for el in itr:
fn(el)
for_each([1, 2, 3], print) ## 1 2 3
for_each_right
- title: for_each_right
- tags: list,beginner
Executes the provided function once for each list element, starting from the list's last element.
- Use a
for
loop in combination with slice notation to executefn
for each element initr
, starting from the last one.
def for_each_right(itr, fn):
for el in itr[::-1]:
fn(el)
for_each_right([1, 2, 3], print) ## 3 2 1
frequencies
- title: frequencies
- tags: list,intermediate
Creates a dictionary with the unique values of a list as keys and their frequencies as the values.
- Use
collections.defaultdict()
to store the frequencies of each unique element. - Use
dict()
to return a dictionary with the unique elements of the list as keys and their frequencies as the values.
from collections import defaultdict
def frequencies(lst):
freq = defaultdict(int)
for val in lst:
freq[val] += 1
return dict(freq)
frequencies(['a', 'b', 'a', 'c', 'a', 'a', 'b']) ## { 'a': 4, 'b': 2, 'c': 1 }
from_iso_date
- title: from_iso_date
- tags: date,intermediate
Converts a date from its ISO-8601 representation.
- Use
datetime.datetime.fromisoformat()
to convert the given ISO-8601 date to adatetime.datetime
object.
from datetime import datetime
def from_iso_date(d):
return datetime.fromisoformat(d)
from_iso_date('2020-10-28T12:30:59.000000') ## 2020-10-28 12:30:59
gcd
- title: gcd
- tags: math,beginner
Calculates the greatest common divisor of a list of numbers.
- Use
functools.reduce()
andmath.gcd()
over the given list.
from functools import reduce
from math import gcd as _gcd
def gcd(numbers):
return reduce(_gcd, numbers)
gcd([8, 36, 28]) ## 4
geometric_progression
- title: geometric_progression
- tags: math,list,intermediate
Initializes a list containing the numbers in the specified range where start
and end
are inclusive and the ratio between two terms is step
.
Returns an error if step
equals 1
.
- Use
range()
,math.log()
andmath.floor()
and a list comprehension to create a list of the appropriate length, applying the step for each element. - Omit the second argument,
start
, to use a default value of1
. - Omit the third argument,
step
, to use a default value of2
.
from math import floor, log
def geometric_progression(end, start=1, step=2):
return [start * step ** i for i in range(floor(log(end / start)
/ log(step)) + 1)]
geometric_progression(256) ## [1, 2, 4, 8, 16, 32, 64, 128, 256]
geometric_progression(256, 3) ## [3, 6, 12, 24, 48, 96, 192]
geometric_progression(256, 1, 4) ## [1, 4, 16, 64, 256]
get
- title: get
- tags: dictionary,list,intermediate
Retrieves the value of the nested key indicated by the given selector list from a dictionary or list.
- Use
functools.reduce()
to iterate over theselectors
list. - Apply
operator.getitem()
for each key inselectors
, retrieving the value to be used as the iteratee for the next iteration.
from functools import reduce
from operator import getitem
def get(d, selectors):
return reduce(getitem, selectors, d)
users = {
'freddy': {
'name': {
'first': 'fred',
'last': 'smith'
},
'postIds': [1, 2, 3]
}
}
get(users, ['freddy', 'name', 'last']) ## 'smith'
get(users, ['freddy', 'postIds', 1]) ## 2
group_by
- title: group_by
- tags: list,dictionary,intermediate
Groups the elements of a list based on the given function.
- Use
collections.defaultdict
to initialize a dictionary. - Use
fn
in combination with afor
loop anddict.append()
to populate the dictionary. - Use
dict()
to convert it to a regular dictionary.
from collections import defaultdict
def group_by(lst, fn):
d = defaultdict(list)
for el in lst:
d[fn(el)].append(el)
return dict(d)
from math import floor
group_by([6.1, 4.2, 6.3], floor) ## {4: [4.2], 6: [6.1, 6.3]}
group_by(['one', 'two', 'three'], len) ## {3: ['one', 'two'], 5: ['three']}
hamming_distance
- title: hamming_distance
- tags: math,intermediate
Calculates the Hamming distance between two values.
- Use the XOR operator (
^
) to find the bit difference between the two numbers. - Use
bin()
to convert the result to a binary string. - Convert the string to a list and use
list.count()
to count and return the number of1
s in it.
def hamming_distance(a, b):
return list(bin(a ^ b)).count('1')
hamming_distance(2, 3) ## 1
has_duplicates
- title: has_duplicates
- tags: list,beginner
Checks if there are duplicate values in a flat list.
- Use
set()
on the given list to remove duplicates, compare its length with the length of the list.
def has_duplicates(lst):
return len(lst) != len(set(lst))
x = [1, 2, 3, 4, 5, 5]
y = [1, 2, 3, 4, 5]
has_duplicates(x) ## True
has_duplicates(y) ## False
have_same_contents
- title: have_same_contents
- tags: list,intermediate
Checks if two lists contain the same elements regardless of order.
- Use
set()
on the combination of both lists to find the unique values. - Iterate over them with a
for
loop comparing thecount()
of each unique value in each list. - Return
False
if the counts do not match for any element,True
otherwise.
def have_same_contents(a, b):
for v in set(a + b):
if a.count(v) != b.count(v):
return False
return True
have_same_contents([1, 2, 4], [2, 4, 1]) ## True
head
- title: head
- tags: list,beginner
Returns the head of a list.
- Use
lst[0]
to return the first element of the passed list.
def head(lst):
return lst[0]
head([1, 2, 3]) ## 1
hex_to_rgb
- title: hex_to_rgb
- tags: string,math,intermediate
Converts a hexadecimal color code to a tuple of integers corresponding to its RGB components.
- Use a list comprehension in combination with
int()
and list slice notation to get the RGB components from the hexadecimal string. - Use
tuple()
to convert the resulting list to a tuple.
def hex_to_rgb(hex):
return tuple(int(hex[i:i+2], 16) for i in (0, 2, 4))
hex_to_rgb('FFA501') ## (255, 165, 1)
in_range
- title: in_range
- tags: math,beginner
Checks if the given number falls within the given range.
- Use arithmetic comparison to check if the given number is in the specified range.
- If the second parameter,
end
, is not specified, the range is considered to be from0
tostart
.
def in_range(n, start, end = 0):
return start <= n <= end if end >= start else end <= n <= start
in_range(3, 2, 5) ## True
in_range(3, 4) ## True
in_range(2, 3, 5) ## False
in_range(3, 2) ## False
includes_all
- title: includes_all
- tags: list,intermediate
Checks if all the elements in values
are included in lst
.
- Check if every value in
values
is contained inlst
using afor
loop. - Return
False
if any one value is not found,True
otherwise.
def includes_all(lst, values):
for v in values:
if v not in lst:
return False
return True
includes_all([1, 2, 3, 4], [1, 4]) ## True
includes_all([1, 2, 3, 4], [1, 5]) ## False
includes_any
- title: includes_any
- tags: list,intermediate
Checks if any element in values
is included in lst
.
- Check if any value in
values
is contained inlst
using afor
loop. - Return
True
if any one value is found,False
otherwise.
def includes_any(lst, values):
for v in values:
if v in lst:
return True
return False
includes_any([1, 2, 3, 4], [2, 9]) ## True
includes_any([1, 2, 3, 4], [8, 9]) ## False
index_of_all
- title: index_of_all
- tags: list,intermediate
Returns a list of indexes of all the occurrences of an element in a list.
- Use
enumerate()
and a list comprehension to check each element for equality withvalue
and addingi
to the result.
def index_of_all(lst, value):
return [i for i, x in enumerate(lst) if x == value]
index_of_all([1, 2, 1, 4, 5, 1], 1) ## [0, 2, 5]
index_of_all([1, 2, 3, 4], 6) ## []
initial
- title: initial
- tags: list,beginner
Returns all the elements of a list except the last one.
- Use
lst[:-1]
to return all but the last element of the list.
def initial(lst):
return lst[:-1]
initial([1, 2, 3]) ## [1, 2]
initialize_2d_list
- title: initialize_2d_list
- tags: list,intermediate
Initializes a 2D list of given width and height and value.
- Use a list comprehension and
range()
to generateh
rows where each is a list with lengthh
, initialized withval
. - Omit the last argument,
val
, to set the default value toNone
.
def initialize_2d_list(w, h, val = None):
return [[val for x in range(w)] for y in range(h)]
initialize_2d_list(2, 2, 0) ## [[0, 0], [0, 0]]
initialize_list_with_range
- title: initialize_list_with_range
- tags: list,beginner
Initializes a list containing the numbers in the specified range where start
and end
are inclusive with their common difference step
.
- Use
list()
andrange()
to generate a list of the appropriate length, filled with the desired values in the given range. - Omit
start
to use the default value of0
. - Omit
step
to use the default value of1
.
def initialize_list_with_range(end, start = 0, step = 1):
return list(range(start, end + 1, step))
initialize_list_with_range(5) ## [0, 1, 2, 3, 4, 5]
initialize_list_with_range(7, 3) ## [3, 4, 5, 6, 7]
initialize_list_with_range(9, 0, 2) ## [0, 2, 4, 6, 8]
initialize_list_with_values
- title: initialize_list_with_values
- tags: list,beginner
Initializes and fills a list with the specified value.
- Use a list comprehension and
range()
to generate a list of length equal ton
, filled with the desired values. - Omit
val
to use the default value of0
.
def initialize_list_with_values(n, val = 0):
return [val for x in range(n)]
initialize_list_with_values(5, 2) ## [2, 2, 2, 2, 2]
intersection
- title: intersection
- tags: list,beginner
Returns a list of elements that exist in both lists.
- Create a
set
froma
andb
. - Use the built-in set operator
&
to only keep values contained in both sets, then transform theset
back into alist
.
def intersection(a, b):
_a, _b = set(a), set(b)
return list(_a & _b)
intersection([1, 2, 3], [4, 3, 2]) ## [2, 3]
intersection_by
- title: intersection_by
- tags: list,function,intermediate
Returns a list of elements that exist in both lists, after applying the provided function to each list element of both.
- Create a
set
, usingmap()
to applyfn
to each element inb
. - Use a list comprehension in combination with
fn
ona
to only keep values contained in both lists.
def intersection_by(a, b, fn):
_b = set(map(fn, b))
return [item for item in a if fn(item) in _b]
from math import floor
intersection_by([2.1, 1.2], [2.3, 3.4], floor) ## [2.1]
invert_dictionary
- title: invert_dictionary
- tags: dictionary,intermediate
Inverts a dictionary with unique hashable values.
- Use
dictionary.items()
in combination with a list comprehension to create a new dictionary with the values and keys inverted.
def invert_dictionary(obj):
return { value: key for key, value in obj.items() }
ages = {
'Peter': 10,
'Isabel': 11,
'Anna': 9,
}
invert_dictionary(ages) ## { 10: 'Peter', 11: 'Isabel', 9: 'Anna' }
is_anagram
- title: is_anagram
- tags: string,intermediate
Checks if a string is an anagram of another string (case-insensitive, ignores spaces, punctuation and special characters).
- Use
str.isalnum()
to filter out non-alphanumeric characters,str.lower()
to transform each character to lowercase. - Use
collections.Counter
to count the resulting characters for each string and compare the results.
from collections import Counter
def is_anagram(s1, s2):
return Counter(
c.lower() for c in s1 if c.isalnum()
) == Counter(
c.lower() for c in s2 if c.isalnum()
)
is_anagram('##anagram', 'Nag a ram!') ## True
is_contained_in
- title: is_contained_in
- tags: list,intermediate
Checks if the elements of the first list are contained in the second one regardless of order.
- Use
count()
to check if any value ina
has more occurrences than it has inb
. - Return
False
if any such value is found,True
otherwise.
def is_contained_in(a, b):
for v in set(a):
if a.count(v) > b.count(v):
return False
return True
is_contained_in([1, 4], [2, 4, 1]) ## True
is_divisible
- title: is_divisible
- tags: math,beginner unlisted: true
Checks if the first numeric argument is divisible by the second one.
- Use the modulo operator (
%
) to check if the remainder is equal to0
.
def is_divisible(dividend, divisor):
return dividend % divisor == 0
is_divisible(6, 3) ## True
is_even
- title: is_even
- tags: math,beginner unlisted: true
Checks if the given number is even.
- Check whether a number is odd or even using the modulo (
%
) operator. - Return
True
if the number is even,False
if the number is odd.
def is_even(num):
return num % 2 == 0
is_even(3) ## False
is_odd
- title: is_odd
- tags: math,beginner unlisted: true
Checks if the given number is odd.
- Checks whether a number is even or odd using the modulo (
%
) operator. - Returns
True
if the number is odd,False
if the number is even.
def is_odd(num):
return num % 2 != 0
is_odd(3) ## True
is_prime
- title: is_prime
- tags: math,intermediate
Checks if the provided integer is a prime number.
- Return
False
if the number is0
,1
, a negative number or a multiple of2
. - Use
all()
andrange()
to check numbers from3
to the square root of the given number. - Return
True
if none divides the given number,False
otherwise.
from math import sqrt
def is_prime(n):
if n <= 1 or (n % 2 == 0 and n > 2):
return False
return all(n % i for i in range(3, int(sqrt(n)) + 1, 2))
is_prime(11) ## True
is_weekday
- title: is_weekday
- tags: date,beginner
Checks if the given date is a weekday.
- Use
datetime.datetime.weekday()
to get the day of the week as an integer. - Check if the day of the week is less than or equal to
4
. - Omit the second argument,
d
, to use a default value ofdatetime.today()
.
from datetime import datetime
def is_weekday(d = datetime.today()):
return d.weekday() <= 4
from datetime import date
is_weekday(date(2020, 10, 25)) ## False
is_weekday(date(2020, 10, 28)) ## True
is_weekend
- title: is_weekend
- tags: date,beginner
Checks if the given date is a weekend.
- Use
datetime.datetime.weekday()
to get the day of the week as an integer. - Check if the day of the week is greater than
4
. - Omit the second argument,
d
, to use a default value ofdatetime.today()
.
from datetime import datetime
def is_weekend(d = datetime.today()):
return d.weekday() > 4
from datetime import date
is_weekend(date(2020, 10, 25)) ## True
is_weekend(date(2020, 10, 28)) ## False
kebab
- title: kebab
- tags: string,regexp,intermediate
Converts a string to kebab case.
- Use
re.sub()
to replace any-
or_
with a space, using the regexpr"(_|-)+"
. - Use
re.sub()
to match all words in the string,str.lower()
to lowercase them. - Finally, use
str.join()
to combine all word using-
as the separator.
from re import sub
def kebab(s):
return '-'.join(
sub(r"(\s|_|-)+"," ",
sub(r"[A-Z]{2,}(?=[A-Z][a-z]+[0-9]*|\b)|[A-Z]?[a-z]+[0-9]*|[A-Z]|[0-9]+",
lambda mo: ' ' + mo.group(0).lower(), s)).split())
kebab('camelCase') ## 'camel-case'
kebab('some text') ## 'some-text'
kebab('some-mixed_string With spaces_underscores-and-hyphens')
## 'some-mixed-string-with-spaces-underscores-and-hyphens'
kebab('AllThe-small Things') ## 'all-the-small-things'
key_in_dict
- title: key_in_dict
- tags: dictionary,beginner
Checks if the given key exists in a dictionary.
- Use the
in
operator to check ifd
containskey
.
def key_in_dict(d, key):
return (key in d)
d = {'one': 1, 'three': 3, 'five': 5, 'two': 2, 'four': 4}
key_in_dict(d, 'three') ## True
key_of_max
- title: key_of_max
- tags: dictionary,beginner
Finds the key of the maximum value in a dictionary.
- Use
max()
with thekey
parameter set todict.get()
to find and return the key of the maximum value in the given dictionary.
def key_of_max(d):
return max(d, key = d.get)
key_of_max({'a':4, 'b':0, 'c':13}) ## c
key_of_min
- title: key_of_min
- tags: dictionary,beginner
Finds the key of the minimum value in a dictionary.
- Use
min()
with thekey
parameter set todict.get()
to find and return the key of the minimum value in the given dictionary.
def key_of_min(d):
return min(d, key = d.get)
key_of_min({'a':4, 'b':0, 'c':13}) ## b
keys_only
- title: keys_only
- tags: dictionary,list,beginner
Creates a flat list of all the keys in a flat dictionary.
- Use
dict.keys()
to return the keys in the given dictionary. - Return a
list()
of the previous result.
def keys_only(flat_dict):
return list(flat_dict.keys())
ages = {
'Peter': 10,
'Isabel': 11,
'Anna': 9,
}
keys_only(ages) ## ['Peter', 'Isabel', 'Anna']
km_to_miles
- title: km_to_miles
- tags: math,beginner unlisted: true
Converts kilometers to miles.
- Follows the conversion formula
mi = km * 0.621371
.
def km_to_miles(km):
return km * 0.621371
km_to_miles(8.1) ## 5.0331051
last
- title: last
- tags: list,beginner
Returns the last element in a list.
- Use
lst[-1]
to return the last element of the passed list.
def last(lst):
return lst[-1]
last([1, 2, 3]) ## 3
lcm
- title: lcm
- tags: math,list,intermediate
Returns the least common multiple of a list of numbers.
- Use
functools.reduce()
,math.gcd()
andlcm(x,y) = x * y / gcd(x,y)
over the given list.
from functools import reduce
from math import gcd
def lcm(numbers):
return reduce((lambda x, y: int(x * y / gcd(x, y))), numbers)
lcm([12, 7]) ## 84
lcm([1, 3, 4, 5]) ## 60
longest_item
- title: longest_item
- tags: list,string,intermediate
Takes any number of iterable objects or objects with a length property and returns the longest one.
- Use
max()
withlen()
as thekey
to return the item with the greatest length. - If multiple objects have the same length, the first one will be returned.
def longest_item(*args):
return max(args, key = len)
longest_item('this', 'is', 'a', 'testcase') ## 'testcase'
longest_item([1, 2, 3], [1, 2], [1, 2, 3, 4, 5]) ## [1, 2, 3, 4, 5]
longest_item([1, 2, 3], 'foobar') ## 'foobar'
map_dictionary
- title: map_dictionary
- tags: list,dictionary,intermediate
Maps the values of a list to a dictionary using a function, where the key-value pairs consist of the original value as the key and the result of the function as the value.
- Use
map()
to applyfn
to each value of the list. - Use
zip()
to pair original values to the values produced byfn
. - Use
dict()
to return an appropriate dictionary.
def map_dictionary(itr, fn):
return dict(zip(itr, map(fn, itr)))
map_dictionary([1, 2, 3], lambda x: x * x) ## { 1: 1, 2: 4, 3: 9 }
map_values
- title: map_values
- tags: dictionary,intermediate
Creates a dictionary with the same keys as the provided dictionary and values generated by running the provided function for each value.
- Use
dict.items()
to iterate over the dictionary, assigning the values produced byfn
to each key of a new dictionary.
def map_values(obj, fn):
return dict((k, fn(v)) for k, v in obj.items())
users = {
'fred': { 'user': 'fred', 'age': 40 },
'pebbles': { 'user': 'pebbles', 'age': 1 }
}
map_values(users, lambda u : u['age']) ## {'fred': 40, 'pebbles': 1}
max_by
- title: max_by
- tags: math,list,beginner
Returns the maximum value of a list, after mapping each element to a value using the provided function.
- Use
map()
withfn
to map each element to a value using the provided function. - Use
max()
to return the maximum value.
def max_by(lst, fn):
return max(map(fn, lst))
max_by([{ 'n': 4 }, { 'n': 2 }, { 'n': 8 }, { 'n': 6 }], lambda v : v['n']) ## 8
max_element_index
- title: max_element_index
- tags: math,list,beginner
Returns the index of the element with the maximum value in a list.
- Use
max()
andlist.index()
to get the maximum value in the list and return its index.
def max_element_index(arr):
return arr.index(max(arr))
max_element_index([5, 8, 9, 7, 10, 3, 0]) ## 4
max_n
- title: max_n
- tags: list,math,beginner
Returns the n
maximum elements from the provided list.
- Use
sorted()
to sort the list. - Use slice notation to get the specified number of elements.
- Omit the second argument,
n
, to get a one-element list. - If
n
is greater than or equal to the provided list's length, then return the original list (sorted in descending order).
def max_n(lst, n = 1):
return sorted(lst, reverse = True)[:n]
max_n([1, 2, 3]) ## [3]
max_n([1, 2, 3], 2) ## [3, 2]
median
- title: median
- tags: math,beginner
Finds the median of a list of numbers.
- Sort the numbers of the list using
list.sort()
. - Find the median, which is either the middle element of the list if the list length is odd or the average of the two middle elements if the list length is even.
statistics.median()
provides similar functionality to this snippet.
def median(list):
list.sort()
list_length = len(list)
if list_length % 2 == 0:
return (list[int(list_length / 2) - 1] + list[int(list_length / 2)]) / 2
return float(list[int(list_length / 2)])
median([1, 2, 3]) ## 2.0
median([1, 2, 3, 4]) ## 2.5
merge
- title: merge
- tags: list,advanced
Merges two or more lists into a list of lists, combining elements from each of the input lists based on their positions.
- Use
max()
combined with a list comprehension to get the length of the longest list in the arguments. - Use
range()
in combination with themax_length
variable to loop as many times as there are elements in the longest list. - If a list is shorter than
max_length
, usefill_value
for the remaining items (defaults toNone
). zip()
anditertools.zip_longest()
provide similar functionality to this snippet.
def merge(*args, fill_value = None):
max_length = max([len(lst) for lst in args])
result = []
for i in range(max_length):
result.append([
args[k][i] if i < len(args[k]) else fill_value for k in range(len(args))
])
return result
merge(['a', 'b'], [1, 2], [True, False]) ## [['a', 1, True], ['b', 2, False]]
merge(['a'], [1, 2], [True, False]) ## [['a', 1, True], [None, 2, False]]
merge(['a'], [1, 2], [True, False], fill_value = '_')
## [['a', 1, True], ['_', 2, False]]
merge_dictionaries
- title: merge_dictionaries
- tags: dictionary,intermediate
Merges two or more dictionaries.
- Create a new
dict
and loop overdicts
, usingdictionary.update()
to add the key-value pairs from each one to the result.
def merge_dictionaries(*dicts):
res = dict()
for d in dicts:
res.update(d)
return res
ages_one = {
'Peter': 10,
'Isabel': 11,
}
ages_two = {
'Anna': 9
}
merge_dictionaries(ages_one, ages_two)
## { 'Peter': 10, 'Isabel': 11, 'Anna': 9 }
miles_to_km
- title: miles_to_km
- tags: math,beginner unlisted: true
Converts miles to kilometers.
- Follows the conversion formula
km = mi * 1.609344
.
def miles_to_km(miles):
return miles * 1.609344
miles_to_km(5.03) ## 8.09500032
min_by
- title: min_by
- tags: math,list,beginner
Returns the minimum value of a list, after mapping each element to a value using the provided function.
- Use
map()
withfn
to map each element to a value using the provided function. - Use
min()
to return the minimum value.
def min_by(lst, fn):
return min(map(fn, lst))
min_by([{ 'n': 4 }, { 'n': 2 }, { 'n': 8 }, { 'n': 6 }], lambda v : v['n']) ## 2
min_element_index
- title: min_element_index
- tags: math,list,beginner
Returns the index of the element with the minimum value in a list.
- Use
min()
andlist.index()
to obtain the minimum value in the list and then return its index.
def min_element_index(arr):
return arr.index(min(arr))
min_element_index([3, 5, 2, 6, 10, 7, 9]) ## 2
min_n
- title: min_n
- tags: list,math,beginner
Returns the n
minimum elements from the provided list.
- Use
sorted()
to sort the list. - Use slice notation to get the specified number of elements.
- Omit the second argument,
n
, to get a one-element list. - If
n
is greater than or equal to the provided list's length, then return the original list (sorted in ascending order).
def min_n(lst, n = 1):
return sorted(lst, reverse = False)[:n]
min_n([1, 2, 3]) ## [1]
min_n([1, 2, 3], 2) ## [1, 2]
months_diff
- title: months_diff
- tags: date,beginner
Calculates the month difference between two dates.
- Subtract
start
fromend
and usedatetime.timedelta.days
to get the day difference. - Divide by
30
and usemath.ceil()
to get the difference in months (rounded up).
from math import ceil
def months_diff(start, end):
return ceil((end - start).days / 30)
from datetime import date
months_diff(date(2020, 10, 28), date(2020, 11, 25)) ## 1
most_frequent
- title: most_frequent
- tags: list,beginner
Returns the most frequent element in a list.
- Use
set()
to get the unique values inlst
. - Use
max()
to find the element that has the most appearances.
def most_frequent(lst):
return max(set(lst), key = lst.count)
most_frequent([1, 2, 1, 2, 3, 2, 1, 4, 2]) ##2
n_times_string
- title: n_times_string
- tags: string,beginner
Generates a string with the given string value repeated n
number of times.
- Repeat the string
n
times, using the*
operator.
def n_times_string(s, n):
return (s * n)
n_times_string('py', 4) ##'pypypypy'
none
- title: none
- tags: list,intermediate
Checks if the provided function returns True
for at least one element in the list.
- Use
all()
andfn
to check iffn
returnsFalse
for all the elements in the list.
def none(lst, fn = lambda x: x):
return all(not fn(x) for x in lst)
none([0, 1, 2, 0], lambda x: x >= 2 ) ## False
none([0, 0, 0]) ## True
num_to_range
- title: num_to_range
- tags: math,beginner
Maps a number from one range to another range.
- Return
num
mapped betweenoutMin
-outMax
frominMin
-inMax
.
def num_to_range(num, inMin, inMax, outMin, outMax):
return outMin(float(num - inMin) / float(inMax - inMin) * (outMax
- outMin))
num_to_range(5, 0, 10, 0, 100) ## 50.0
offset
- title: offset
- tags: list,beginner
Moves the specified amount of elements to the end of the list.
- Use slice notation to get the two slices of the list and combine them before returning.
def offset(lst, offset):
return lst[offset:] + lst[:offset]
offset([1, 2, 3, 4, 5], 2) ## [3, 4, 5, 1, 2]
offset([1, 2, 3, 4, 5], -2) ## [4, 5, 1, 2, 3]
pad
- title: pad
- tags: string,beginner
Pads a string on both sides with the specified character, if it's shorter than the specified length.
- Use
str.ljust()
andstr.rjust()
to pad both sides of the given string. - Omit the third argument,
char
, to use the whitespace character as the default padding character.
from math import floor
def pad(s, length, char = ' '):
return s.rjust(floor((len(s) + length)/2), char).ljust(length, char)
pad('cat', 8) ## ' cat '
pad('42', 6, '0') ## '004200'
pad('foobar', 3) ## 'foobar'
pad_number
- title: pad_number
- tags: string,math,beginner
Pads a given number to the specified length.
- Use
str.zfill()
to pad the number to the specified length, after converting it to a string.
def pad_number(n, l):
return str(n).zfill(l)
pad_number(1234, 6); ## '001234'
palindrome
- title: palindrome
- tags: string,intermediate
Checks if the given string is a palindrome.
- Use
str.lower()
andre.sub()
to convert to lowercase and remove non-alphanumeric characters from the given string. - Then, compare the new string with its reverse, using slice notation.
from re import sub
def palindrome(s):
s = sub('[\W_]', '', s.lower())
return s == s[::-1]
palindrome('taco cat') ## True
pluck
- title: pluck
- tags: list,dictionary,beginner
Converts a list of dictionaries into a list of values corresponding to the specified key
.
- Use a list comprehension and
dict.get()
to get the value ofkey
for each dictionary inlst
.
def pluck(lst, key):
return [x.get(key) for x in lst]
simpsons = [
{ 'name': 'lisa', 'age': 8 },
{ 'name': 'homer', 'age': 36 },
{ 'name': 'marge', 'age': 34 },
{ 'name': 'bart', 'age': 10 }
]
pluck(simpsons, 'age') ## [8, 36, 34, 10]
powerset
- title: powerset
- tags: math,list,advanced
Returns the powerset of a given iterable.
- Use
list()
to convert the given value to a list. - Use
range()
anditertools.combinations()
to create a generator that returns all subsets. - Use
itertools.chain.from_iterable()
andlist()
to consume the generator and return a list.
from itertools import chain, combinations
def powerset(iterable):
s = list(iterable)
return list(chain.from_iterable(combinations(s, r) for r in range(len(s)+1)))
powerset([1, 2]) ## [(), (1,), (2,), (1, 2)]
rads_to_degrees
- title: rads_to_degrees
- tags: math,beginner
Converts an angle from radians to degrees.
- Use
math.pi
and the radian to degree formula to convert the angle from radians to degrees.
from math import pi
def rads_to_degrees(rad):
return (rad * 180.0) / pi
from math import pi
rads_to_degrees(pi / 2) ## 90.0
reverse
- title: reverse
- tags: list,string,beginner
Reverses a list or a string.
- Use slice notation to reverse the list or string.
def reverse(itr):
return itr[::-1]
reverse([1, 2, 3]) ## [3, 2, 1]
reverse('snippet') ## 'teppins'
reverse_number
- title: reverse_number
- tags: math,intermediate
Reverses a number.
- Use
str()
to convert the number to a string, slice notation to reverse it andstr.replace()
to remove the sign. - Use
float()
to convert the result to a number andmath.copysign()
to copy the original sign.
from math import copysign
def reverse_number(n):
return copysign(float(str(n)[::-1].replace('-', '')), n)
reverse_number(981) ## 189
reverse_number(-500) ## -5
reverse_number(73.6) ## 6.37
reverse_number(-5.23) ## -32.5
rgb_to_hex
- title: rgb_to_hex
- tags: string,math,intermediate
Converts the values of RGB components to a hexadecimal color code.
- Create a placeholder for a zero-padded hexadecimal value using
'{:02X}'
and copy it three times. - Use
str.format()
on the resulting string to replace the placeholders with the given values.
def rgb_to_hex(r, g, b):
return ('{:02X}' * 3).format(r, g, b)
rgb_to_hex(255, 165, 1) ## 'FFA501'
roll
- title: roll
- tags: list,beginner
Moves the specified amount of elements to the start of the list.
- Use slice notation to get the two slices of the list and combine them before returning.
def roll(lst, offset):
return lst[-offset:] + lst[:-offset]
roll([1, 2, 3, 4, 5], 2) ## [4, 5, 1, 2, 3]
roll([1, 2, 3, 4, 5], -2) ## [3, 4, 5, 1, 2]
sample
- title: sample
- tags: list,random,beginner
Returns a random element from a list.
- Use
random.choice()
to get a random element fromlst
.
from random import choice
def sample(lst):
return choice(lst)
sample([3, 7, 9, 11]) ## 9
shuffle
- title: shuffle
- tags: list,random,advanced
Randomizes the order of the values of an list, returning a new list.
- Uses the Fisher-Yates algorithm to reorder the elements of the list.
random.shuffle
provides similar functionality to this snippet.
from copy import deepcopy
from random import randint
def shuffle(lst):
temp_lst = deepcopy(lst)
m = len(temp_lst)
while (m):
m -= 1
i = randint(0, m)
temp_lst[m], temp_lst[i] = temp_lst[i], temp_lst[m]
return temp_lst
foo = [1, 2, 3]
shuffle(foo) ## [2, 3, 1], foo = [1, 2, 3]
similarity
- title: similarity
- tags: list,beginner
Returns a list of elements that exist in both lists.
- Use a list comprehension on
a
to only keep values contained in both lists.
def similarity(a, b):
return [item for item in a if item in b]
similarity([1, 2, 3], [1, 2, 4]) ## [1, 2]
slugify
- title: slugify
- tags: string,regexp,intermediate
Converts a string to a URL-friendly slug.
- Use
str.lower()
andstr.strip()
to normalize the input string. - Use
re.sub()
to to replace spaces, dashes and underscores with-
and remove special characters.
import re
def slugify(s):
s = s.lower().strip()
s = re.sub(r'[^\w\s-]', '', s)
s = re.sub(r'[\s_-]+', '-', s)
s = re.sub(r'^-+|-+$', '', s)
return s
slugify('Hello World!') ## 'hello-world'
snake
- title: snake
- tags: string,regexp,intermediate
Converts a string to snake case.
- Use
re.sub()
to match all words in the string,str.lower()
to lowercase them. - Use
re.sub()
to replace any-
characters with spaces. - Finally, use
str.join()
to combine all words using-
as the separator.
from re import sub
def snake(s):
return '_'.join(
sub('([A-Z][a-z]+)', r' \1',
sub('([A-Z]+)', r' \1',
s.replace('-', ' '))).split()).lower()
snake('camelCase') ## 'camel_case'
snake('some text') ## 'some_text'
snake('some-mixed_string With spaces_underscores-and-hyphens')
## 'some_mixed_string_with_spaces_underscores_and_hyphens'
snake('AllThe-small Things') ## 'all_the_small_things'
some
- title: some
- tags: list,intermediate
Checks if the provided function returns True
for at least one element in the list.
- Use
any()
in combination withmap()
to check iffn
returnsTrue
for any element in the list.
def some(lst, fn = lambda x: x):
return any(map(fn, lst))
some([0, 1, 2, 0], lambda x: x >= 2 ) ## True
some([0, 0, 1, 0]) ## True
sort_by_indexes
- title: sort_by_indexes
- tags: list,intermediate
Sorts one list based on another list containing the desired indexes.
- Use
zip()
andsorted()
to combine and sort the two lists, based on the values ofindexes
. - Use a list comprehension to get the first element of each pair from the result.
- Use the
reverse
parameter insorted()
to sort the dictionary in reverse order, based on the third argument.
def sort_by_indexes(lst, indexes, reverse=False):
return [val for (_, val) in sorted(zip(indexes, lst), key=lambda x: \
x[0], reverse=reverse)]
a = ['eggs', 'bread', 'oranges', 'jam', 'apples', 'milk']
b = [3, 2, 6, 4, 1, 5]
sort_by_indexes(a, b) ## ['apples', 'bread', 'eggs', 'jam', 'milk', 'oranges']
sort_by_indexes(a, b, True)
## ['oranges', 'milk', 'jam', 'eggs', 'bread', 'apples']
sort_dict_by_key
- title: sort_dict_by_key
- tags: dictionary,intermediate
Sorts the given dictionary by key.
- Use
dict.items()
to get a list of tuple pairs fromd
and sort it usingsorted()
. - Use
dict()
to convert the sorted list back to a dictionary. - Use the
reverse
parameter insorted()
to sort the dictionary in reverse order, based on the second argument.
def sort_dict_by_key(d, reverse = False):
return dict(sorted(d.items(), reverse = reverse))
d = {'one': 1, 'three': 3, 'five': 5, 'two': 2, 'four': 4}
sort_dict_by_key(d) ## {'five': 5, 'four': 4, 'one': 1, 'three': 3, 'two': 2}
sort_dict_by_key(d, True)
## {'two': 2, 'three': 3, 'one': 1, 'four': 4, 'five': 5}
sort_dict_by_value
- title: sort_dict_by_value
- tags: dictionary,intermediate
Sorts the given dictionary by value.
- Use
dict.items()
to get a list of tuple pairs fromd
and sort it using a lambda function andsorted()
. - Use
dict()
to convert the sorted list back to a dictionary. - Use the
reverse
parameter insorted()
to sort the dictionary in reverse order, based on the second argument. - ⚠️ NOTICE: Dictionary values must be of the same type.
def sort_dict_by_value(d, reverse = False):
return dict(sorted(d.items(), key = lambda x: x[1], reverse = reverse))
d = {'one': 1, 'three': 3, 'five': 5, 'two': 2, 'four': 4}
sort_dict_by_value(d) ## {'one': 1, 'two': 2, 'three': 3, 'four': 4, 'five': 5}
sort_dict_by_value(d, True)
## {'five': 5, 'four': 4, 'three': 3, 'two': 2, 'one': 1}
split_lines
- title: split_lines
- tags: string,beginner
Splits a multiline string into a list of lines.
- Use
str.split()
and'\n'
to match line breaks and create a list. str.splitlines()
provides similar functionality to this snippet.
def split_lines(s):
return s.split('\n')
split_lines('This\nis a\nmultiline\nstring.\n')
## ['This', 'is a', 'multiline', 'string.' , '']
spread
- title: spread
- tags: list,intermediate
Flattens a list, by spreading its elements into a new list.
- Loop over elements, use
list.extend()
if the element is a list,list.append()
otherwise.
def spread(arg):
ret = []
for i in arg:
ret.extend(i) if isinstance(i, list) else ret.append(i)
return ret
spread([1, 2, 3, [4, 5, 6], [7], 8, 9]) ## [1, 2, 3, 4, 5, 6, 7, 8, 9]
sum_by
- title: sum_by
- tags: math,list,beginner
Calculates the sum of a list, after mapping each element to a value using the provided function.
- Use
map()
withfn
to map each element to a value using the provided function. - Use
sum()
to return the sum of the values.
def sum_by(lst, fn):
return sum(map(fn, lst))
sum_by([{ 'n': 4 }, { 'n': 2 }, { 'n': 8 }, { 'n': 6 }], lambda v : v['n']) ## 20
sum_of_powers
- title: sum_of_powers
- tags: math,intermediate
Returns the sum of the powers of all the numbers from start
to end
(both inclusive).
- Use
range()
in combination with a list comprehension to create a list of elements in the desired range raised to the givenpower
. - Use
sum()
to add the values together. - Omit the second argument,
power
, to use a default power of2
. - Omit the third argument,
start
, to use a default starting value of1
.
def sum_of_powers(end, power = 2, start = 1):
return sum([(i) ** power for i in range(start, end + 1)])
sum_of_powers(10) ## 385
sum_of_powers(10, 3) ## 3025
sum_of_powers(10, 3, 5) ## 2925
symmetric_difference
- title: symmetric_difference
- tags: list,intermediate
Returns the symmetric difference between two iterables, without filtering out duplicate values.
- Create a
set
from each list. - Use a list comprehension on each of them to only keep values not contained in the previously created set of the other.
def symmetric_difference(a, b):
(_a, _b) = (set(a), set(b))
return [item for item in a if item not in _b] + [item for item in b
if item not in _a]
symmetric_difference([1, 2, 3], [1, 2, 4]) ## [3, 4]
symmetric_difference_by
- title: symmetric_difference_by
- tags: list,intermediate
Returns the symmetric difference between two lists, after applying the provided function to each list element of both.
- Create a
set
by applyingfn
to each element in every list. - Use a list comprehension in combination with
fn
on each of them to only keep values not contained in the previously created set of the other.
def symmetric_difference_by(a, b, fn):
(_a, _b) = (set(map(fn, a)), set(map(fn, b)))
return [item for item in a if fn(item) not in _b] + [item
for item in b if fn(item) not in _a]
from math import floor
symmetric_difference_by([2.1, 1.2], [2.3, 3.4], floor) ## [1.2, 3.4]
tail
- title: tail
- tags: list,beginner
Returns all elements in a list except for the first one.
- Use slice notation to return the last element if the list's length is more than
1
. - Otherwise, return the whole list.
def tail(lst):
return lst[1:] if len(lst) > 1 else lst
tail([1, 2, 3]) ## [2, 3]
tail([1]) ## [1]
take
- title: take
- tags: list,beginner
Returns a list with n
elements removed from the beginning.
- Use slice notation to create a slice of the list with
n
elements taken from the beginning.
def take(itr, n = 1):
return itr[:n]
take([1, 2, 3], 5) ## [1, 2, 3]
take([1, 2, 3], 0) ## []
take_right
- title: take_right
- tags: list,beginner
Returns a list with n
elements removed from the end.
- Use slice notation to create a slice of the list with
n
elements taken from the end.
def take_right(itr, n = 1):
return itr[-n:]
take_right([1, 2, 3], 2) ## [2, 3]
take_right([1, 2, 3]) ## [3]
to_binary
- title: to_binary
- tags: math,beginner
Returns the binary representation of the given number.
- Use
bin()
to convert a given decimal number into its binary equivalent.
def to_binary(n):
return bin(n)
to_binary(100) ## 0b1100100
to_dictionary
- title: to_dictionary
- tags: list,dictionary,intermediate
Combines two lists into a dictionary, where the elements of the first one serve as the keys and the elements of the second one serve as the values. The values of the first list need to be unique and hashable.
- Use
zip()
in combination withdict()
to combine the values of the two lists into a dictionary.
def to_dictionary(keys, values):
return dict(zip(keys, values))
to_dictionary(['a', 'b'], [1, 2]) ## { a: 1, b: 2 }
to_hex
- title: to_hex
- tags: math,beginner
Returns the hexadecimal representation of the given number.
- Use
hex()
to convert a given decimal number into its hexadecimal equivalent.
def to_hex(dec):
return hex(dec)
to_hex(41) ## 0x29
to_hex(332) ## 0x14c
to_iso_date
- title: to_iso_date
- tags: date,intermediate
Converts a date to its ISO-8601 representation.
- Use
datetime.datetime.isoformat()
to convert the givendatetime.datetime
object to an ISO-8601 date.
from datetime import datetime
def to_iso_date(d):
return d.isoformat()
from datetime import datetime
to_iso_date(datetime(2020, 10, 25)) ## 2020-10-25T00:00:00
to_roman_numeral
- title: to_roman_numeral
- tags: math,string,intermediate
Converts an integer to its roman numeral representation.
Accepts value between 1
and 3999
(both inclusive).
- Create a lookup list containing tuples in the form of (roman value, integer).
- Use a
for
loop to iterate over the values inlookup
. - Use
divmod()
to updatenum
with the remainder, adding the roman numeral representation to the result.
def to_roman_numeral(num):
lookup = [
(1000, 'M'),
(900, 'CM'),
(500, 'D'),
(400, 'CD'),
(100, 'C'),
(90, 'XC'),
(50, 'L'),
(40, 'XL'),
(10, 'X'),
(9, 'IX'),
(5, 'V'),
(4, 'IV'),
(1, 'I'),
]
res = ''
for (n, roman) in lookup:
(d, num) = divmod(num, n)
res += roman * d
return res
to_roman_numeral(3) ## 'III'
to_roman_numeral(11) ## 'XI'
to_roman_numeral(1998) ## 'MCMXCVIII'
transpose
- title: transpose
- tags: list,intermediate
Transposes a two-dimensional list.
- Use
*lst
to get the provided list as tuples. - Use
zip()
in combination withlist()
to create the transpose of the given two-dimensional list.
def transpose(lst):
return list(zip(*lst))
transpose([[1, 2, 3], [4, 5, 6], [7, 8, 9], [10, 11, 12]])
## [(1, 4, 7, 10), (2, 5, 8, 11), (3, 6, 9, 12)]
unfold
- title: unfold
- tags: function,list,advanced
Builds a list, using an iterator function and an initial seed value.
- The iterator function accepts one argument (
seed
) and must always return a list with two elements ([value
,nextSeed
]) orFalse
to terminate. - Use a generator function,
fn_generator
, that uses awhile
loop to call the iterator function andyield
thevalue
until it returnsFalse
. - Use a list comprehension to return the list that is produced by the generator, using the iterator function.
def unfold(fn, seed):
def fn_generator(val):
while True:
val = fn(val[1])
if val == False: break
yield val[0]
return [i for i in fn_generator([None, seed])]
f = lambda n: False if n > 50 else [-n, n + 10]
unfold(f, 10) ## [-10, -20, -30, -40, -50]
union
- title: union
- tags: list,beginner
Returns every element that exists in any of the two lists once.
- Create a
set
with all values ofa
andb
and convert to alist
.
def union(a, b):
return list(set(a + b))
union([1, 2, 3], [4, 3, 2]) ## [1, 2, 3, 4]
union_by
- title: union_by
- tags: list,intermediate
Returns every element that exists in any of the two lists once, after applying the provided function to each element of both.
- Create a
set
by applyingfn
to each element ina
. - Use a list comprehension in combination with
fn
onb
to only keep values not contained in the previously created set,_a
. - Finally, create a
set
from the previous result anda
and transform it into alist
def union_by(a, b, fn):
_a = set(map(fn, a))
return list(set(a + [item for item in b if fn(item) not in _a]))
from math import floor
union_by([2.1], [1.2, 2.3], floor) ## [2.1, 1.2]
unique_elements
- title: unique_elements
- tags: list,beginner
Returns the unique elements in a given list.
- Create a
set
from the list to discard duplicated values, then return alist
from it.
def unique_elements(li):
return list(set(li))
unique_elements([1, 2, 2, 3, 4, 3]) ## [1, 2, 3, 4]
values_only
- title: values_only
- tags: dictionary,list,beginner
Returns a flat list of all the values in a flat dictionary.
- Use
dict.values()
to return the values in the given dictionary. - Return a
list()
of the previous result.
def values_only(flat_dict):
return list(flat_dict.values())
ages = {
'Peter': 10,
'Isabel': 11,
'Anna': 9,
}
values_only(ages) ## [10, 11, 9]
weighted_average
- title: weighted_average
- tags: math,list,intermediate
Returns the weighted average of two or more numbers.
- Use
sum()
to sum the products of the numbers by their weight and to sum the weights. - Use
zip()
and a list comprehension to iterate over the pairs of values and weights.
def weighted_average(nums, weights):
return sum(x * y for x, y in zip(nums, weights)) / sum(weights)
weighted_average([1, 2, 3], [0.6, 0.2, 0.3]) ## 1.72727
when
- title: when
- tags: function,intermediate
Tests a value, x
, against a testing function, conditionally applying a function.
- Check if the value of
predicate(x)
isTrue
and if so returnwhen_true(x)
, otherwise returnx
.
def when(predicate, when_true):
return lambda x: when_true(x) if predicate(x) else x
double_even_numbers = when(lambda x: x % 2 == 0, lambda x : x * 2)
double_even_numbers(2) ## 4
double_even_numbers(1) ## 1
words
- title: words
- tags: string,regexp,beginner
Converts a given string into a list of words.
- Use
re.findall()
with the suppliedpattern
to find all matching substrings. - Omit the second argument to use the default regexp, which matches alphanumeric and hyphens.
import re
def words(s, pattern = '[a-zA-Z-]+'):
return re.findall(pattern, s)
words('I love Python!!') ## ['I', 'love', 'Python']
words('python, javaScript & coffee') ## ['python', 'javaScript', 'coffee']
words('build -q --out one-item', r'\b[a-zA-Z-]+\b')
## ['build', 'q', 'out', 'one-item']