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Python Cheat Sheet
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Installation/Config
PIP
-- list all installed packages pip list -- list only local installed packages in a virtual env pip list --local -- search a package pip list|grep <packagename> -- show the package location pip show <packagename>
location of the globally installed packages
python -m site
>>> import site >>> print(site.getsitepackages())' or >>> import sys >>> sys.path
location of the locally installed packages
pythom -m site --user-site
Virtual Env (Python 3.3+)
- venv is a package shipped with Python 3, which you can run using python3 -m venv.
- It serves the same purpose as virtualenv, but only has a subset of its features.
- virtualenv continues to be more popular than venv, especially since the former supports both Python 2 and 3.
[Difference between virtualenv and venv](https://virtualenv.pypa.io/en/latest/)
Install virtualenv
pip install virtualenv
upgrade virtualenv
pip install --upgrade virtualenv
using virtualenv to create a virtual env for a particular python version
virtualenv -p /usr/local/bin/python3.5 kevin-venv
Create a virtual env
python -m venv <venv-name> python -m venv kevin-venv
include global python packages
python -m venv kevin-venv --system-site-packages
using --local to list only local installed packages
pip list --local -- typically, you create a folder for your project first; -- then create a virtual env within/insider of that project folder >1. mkdir kevin_python_proj1 -- 2a and 2b is same; pick one you like >2a. python -m venv kevin_python_proj1/.venv >2b. cd mkdir kevin_python_proj1 && python -m venv .venv
Activate/Deactivate the vtirual env
activate
source <venv-name>/bin/activate source kevin-venv/bin/activate
deactivate
deactivate
Delete a virtualenv
rm -rf <venv-name> rm -rf kevin-venv
Store copy of python package versions
-- all packages pip freeze > requirements.txt -- only local installed packages pip freeze --local > requirements.txt
Install all packages from requirements.txt
pip install -r requriments.txt
Tips and Tricks
Date, Time, DateTime, Timezone
[See this](https://docs.python.org/3/library/datetime.html#datetime.datetime.now)
from datetime import datetime, date, time, timezone, timedelta
current_time = datetime.now(timezone.utc)
print("The current time with UTC is: ", current_time.strftime('%Y-%m-%d %H:%M:%S %Z'))
#The current time with UTC is: 2022-02-15 21:50:52 UT ==> when I run this from laptop, it is 3:50:52 PM,
# this mean Chicago is UTC-6
yesterday = date.today() - timedelta(days=1)
dt = yesterday.strftime("%Y-%m-%d")
print("Yesterday is: ", dt)
# Yesterday is: 2022-02-14
# local time
print("The local time is: ", time.strftime("%Y-%m-%d %H:%M:%S", time.localtime()));
# The local time is: 2022-02-15 15:50:03
switch value
a = 10 b = 30 # switch value, now a = 30, b = 10 a,b = b,a
Merging Dictionaries (Python 3.5+)
x = {'a': 1, 'b': 2}
y = {'c', 3, 'd': 4}
# merged = {'a': 1, 'b': 2, 'c': 3, 'd': 4}
merged = {**x, **y}
# if have same key, then right one win
x = {'a': 1, 'b': 2}
y = {'a', 3, 'c': 4}
# merged = {'a': 3, 'b': 2, 'c': 4}
merged = {**x, **y}
Check if a module contain a class/method
# Using a list comprehension import os [name for name in dir(os) if 'uname' in name.lower()] # return ['uname', 'uname_result'] # After you find the class, you can use built-in help() to see the detail help(os.uname) # another example import collections [name for name in dir(collections) if 'tuple' in name.lower()] # return ['_tuplegetter', 'namedtuple'] help(collections.namedtuple)
- Comprehensions
List Comprehensions
[expression for item in iterable] [expression for item in iterable if condition]
squares = [x * x for x in range(10)]
even_squares = [x * x for x in range(10) if x % 2 == 0]
# multiple loops
x_dimension = ['a', 'b']
y_dimension = [1, 2, 3]
matrix = [(x,y) for x in x_dimension for y in y_dimension]
#output: [('a', 1), ('a', 2), ('a', 3), ('b', 1), ('b', 2), ('b', 3)]
Tuple Comprehensions
there is no such thing. there is no tuple comprehension
Dictionary Comprehensions
{key_expression: value_expression for expression in iterable}
word = "dictionary"
# Method A:
letter_count1 = {letter: word.count(letter) for letter in word}
# Method B: better performance using set() to remove duplicated letter from word first
letter_count2 = {letter: word.count(letter) for letter in set(word)}
# with condition
old_salary = {'Kevin': 2000, 'Brandon': 400, 'Elena': 300}
new_salary = {k: v*1.5 if v < 500 else v for (k, v) in old_salary.items()}
#output: new_salary = {'Kevin': 2000, 'Brandon': 600.0, 'Elena': 450.0}
Set Comprehensions
{expression for item in iterable} {expression for item in iterable if condition}
random_nums = [3, 6, 9, 3, 9, 18, 20, 18]
great_tens = {num for num in random_nums if num > 10}
#output: {18, 20}
Generator Comprehensions
from pprint import pprint some_nums = (num for num in range(5)) pprint(some_nums) #output: <generator object <genexpr> at 0x00000264B87BCF90>
- Functional Programming
Named Tuple
import collections
from pprint import pprint
Cruise = collections.namedtuple(
"Cruise",
[
"year",
"cruise_line",
"ship",
"days",
],
)
my_cruise = (
Cruise(year=2016, cruise_line="RCL", ship="Independency of Seas", days=5),
Cruise(year=2017, cruise_line="NCL", ship="Escape", days=7),
Cruise(year=2018, cruise_line="NCL", ship="Bliss", days=7),
)
pprint(my_cruise)
# output
((Cruise(year=2016, cruise_line='RCL', ship='Independency of Seas', days=5),
Cruise(year=2017, cruise_line='NCL', ship='Escape', days=7),
Cruise(year=2018, cruise_line='NCL', ship='Bliss', days=7))
Filter()
# Method A: print only RCL cruise: using filter
rcl_cruise = tuple(
filter(lambda cruise: cruise.cruise_line.upper() == "RCL", my_cruise)
)
pprint(rcl_cruise)
#output
(Cruise(year=2016, cruise_line='RCL', ship='Independency of Seas', days=5),)
# Method B: print only RCL cruise: using iterator
rcl_cruise2 = tuple(
cruise for cruise in my_cruise if cruise.cruise_line.upper() == "RCL"
)
pprint(rcl_cruise2)
Map Function
## Method A: using map function
cruise_history = tuple(
map(
lambda cruise: {
"cruise_line": cruise.cruise_line,
"name": cruise.ship,
"past_year": 2022 - cruise.year,
},
my_cruise,
)
)
pprint(cruise_history)
#({'cruise_line': 'RCL', 'name': 'Independency of Seas', 'past_year': 6},
# {'cruise_line': 'NCL', 'name': 'Escape', 'past_year': 5},
# {'cruise_line': 'NCL', 'name': 'Bliss', 'past_year': 4})
# Method B: using generator comprehension and convert it to tuple
cruise_history2 = tuple(
{
"cruise_line": cruise.cruise_line,
"name": cruise.ship,
"past_year": 2022 - cruise.year,
}
for cruise in my_cruise
)
# Another great example: track for each cruise line, which year I took it
# Method A: hard-coded the cruise line dictionary object as initial value for reduce() function
def reducer(acc, val):
acc[val.cruise_line].append(val.year)
return acc
cruise_line_year_history = reduce(reducer, my_cruise, {"RCL": [], "NCL": [], "DISNEY": []})
pprint(cruise_line_year_history)
# {'DISNEY': [], 'NCL': [2017, 2018], 'RCL': [2016]}
# Method B: improve on top of Method A using collections.defaultdict
import collections
cruise_line_year_history2 = reduce(reducer, my_cruise, collections.defaultdict(list))
pprint(cruise_line_year_history2)
# defaultdict(<class 'list'>, {'RCL': [2016], 'NCL': [2017, 2018]})
# please notice result doesn't have 'DISNEY' in it
Reduce Function
# Method A: using reduce() function from functools import reduce total_cruise_days = reduce(lambda acc, cruise: acc + cruise.days, my_cruise, 0) pprint(total_cruise_days) #output: 19 # Method B: using sum() function instead of reduce() total_cruise_days2 = sum(cruise.days for cruise in my_cruise)
Parallel Processing
Please watch below youtube by Dan Bader
- [multiprocessing](https://www.youtube.com/watch?v=aysceqdGFw8&list=PLP8GkvaIxJP1z5bu4NX_bFrEInBkAgTMr)
- [concurrent.futures](https://www.youtube.com/watch?v=0NNV8FDuck8&list=PLP8GkvaIxJP1z5bu4NX_bFrEInBkAgTMr)
# Method A import multiprocessing # Method B import concurrent.futures
- Class & Object
Dynamic property set and get: setattr()/getattr()
class Cruise():
pass
cruise_2019 = Cruise()
first_key = 'cruise_line'
first_val = 'RCL Symphony'
second_key = 'cruise_days'
second_val = 7
setattr(cruise_2019, first_key, first_val)
setattr(cruise_2019, second_key, second_val)
print(cruise_2019.cruise_line, cruise_2019.cruise_days)
# RCL Symphony 7
cruise_2019_days = getattr(cruise_2019, second_key)
print(cruise_2019_days)
# 7
# convert dictionary to class object
cruise_2018_dict = {'cruise_line': 'NCL Bliss', 'cruise_days': 7}
cruise_2018 = Cruise()
for k, v in cruise_2018_dict.items():
setattr(cruise_2018, k, v)
for k in cruise_2018_dict.keys():
print(getattr(cruise_2018, k))
# NCL Bliss
# 7
- List
Looping List with both index and item: enumerate
cruise_hist = ['NCL Bliss', 'NCL Escape', 'Disney Dreamer']
for idx, cruise in enumerate(cruise_hist):
print(f"{idx}: {cruise}")
# Test
0: NCL Bliss
1: NCL Escape
2: Disney Dreamer
# using start=1
cruise_hist = ['NCL Bliss', 'NCL Escape', 'Disney Dreamer']
for idx, cruise in enumerate(cruise_hist, start=1):
print(f"{idx}: {cruise}")
# Test
1: NCL Bliss
2: NCL Escape
3: Disney Dreamer
Loop multiple lists using zip()
cruise_lines = ['NCL Bliss', 'RCL Independency', 'Disney Dreamer']
cruise_days = [7, 5, 4]
cruise_years = [2018, 2016, 2015]
for cruise_line, cruise_day, cruise_year in zip(cruise_lines, cruise_days, cruise_years):
print(
f"I cruised with {cruise_line} in year {cruise_year} for {cruise_day} days")
# Test
I cruised with NCL Bliss in year 2018 for 7 days
I cruised with RCL Independency in year 2016 for 5 days
I cruised with Disney Dreamer in year 2015 for 4 days
# cruise_tuple is a tuple in below
for cruise_tuple in zip(cruise_lines, cruise_days, cruise_years):
print(f"I cruised with {cruise_tuple} ")
# Test
I cruised with ('NCL Bliss', 7, 2018)
I cruised with ('RCL Independency', 5, 2016)
I cruised with ('Disney Dreamer', 4, 2015)
- File Operation
Using Content Manager
with open('test.txt', 'rd') as f:
file_contents = f.read()
words = file_contents.split(' ')
word_count = len(words)
- Misc
Get Help
- In Python Interpreter, type 'help(dir)' - In Python Interpreter, type build-in 'dir(xyz)'
Make sure you import the module(xyz) you want to investigate before you run help(xyz) or dir(xyz)
Input secret information (e.g. password)
from getpass import getpass
username = input('Username: ')
password = getpass('Password: ')
Unpacking
cruise_2018 = ('NCL Bliss', 7)
# using _ as a variable is a convention in Python
# to indicate you are not use that variable
_, days_cruised_2018 = cruise_2018
print(days_cruised_2018) # 7
cruise_years = [2008, 2015, 2016, 2017, 2018, 2019]
first_cruise_yr, second_cruise_yr, *rest_cruise_yrs = cruise_years
print(f"my very 1st cruise is in year {first_cruise_yr}")
print(f"my 2nd cruise is in year {second_cruise_yr}")
print(f"my rest of cruise years are {rest_cruise_yrs}")
# Test
my very 1st cruise is in year 2008
my 2nd cruise is in year 2015
my rest of cruise years are [2016, 2017, 2018, 2019]
cruise_years = [2008, 2015, 2016, 2017, 2018, 2019]
first_cruise_yr, *rest_cruise_yrs, latest_cruise_yr = cruise_years
print(f"my very 1st cruise is in year {first_cruise_yr}")
print(f"my latest cruise year is ==> {latest_cruise_yr}")
print(f"my rest of cruise years are {rest_cruise_yrs}")
# Test
my very 1st cruise is in year 2008
my latest cruise year is ==> 2019
my rest of cruise years are [2015, 2016, 2017, 2018]
Ternary Operator
cruise_2018 = 'NCL'
cruise_2019 = 'RCL'
favorite_flag = 'Y' if cruise_2019 == my_favorite_cruise else 'N'
print(f"my 2019 cruise is my favorite cruise? {favorite_flag}")
favorite_flag = 'Y' if cruise_2018 == my_favorite_cruise else 'N'
print(f"my 2018 cruise is my favorite cruise? {favorite_flag}")
# Test
my 2019 cruise is my favorite cruise? Y
my 2018 cruise is my favorite cruise? N
Large Number format
- Using underscore (\_) in declaration - Using ':," to set group seperator to ',' in f string
china_population = 1_300_000_000_000
usa_population = 330_000_000_000
print(f"China population = {china_population:,}")
print(f"USA {usa_population:,}")
# Test
China population = 1,300,000,000,000
USA 330,000,000,000