Comprehensive Python Cheatsheet =============================== ^{[Download text file](https://raw.githubusercontent.com/gto76/python-cheatsheet/master/README.md), [Fork me on GitHub](https://github.com/gto76/python-cheatsheet) or [Check out FAQ](https://github.com/gto76/python-cheatsheet/wiki/Frequently-Asked-Questions).} ![Monty Python](web/image_888.jpeg) Contents -------- ** ** **1. Collections:** ** ** **[`List`](#list)**__,__ **[`Dictionary `](#dictionary)**__,__ **[`Set`](#set)**__,__ **[`Tuple`](#tuple)**__,__ **[`Range`](#range)**__,__ **[`Enumerate`](#enumerate)**__,__ **[`Iterator`](#iterator)**__,__ **[`Generator`](#generator)**__.__ ** ** **2. Types:** ** ** **[`Type`](#type)**__,__ **[`String`](#string)**__,__ **[`Regular_Exp`](#regex)**__,__ **[`Format`](#format)**__,__ **[`Numbers`](#numbers)**__,__ **[`Combinatorics`](#combinatorics)**__,__ **[`Datetime`](#datetime)**__.__ ** ** **3. Syntax:** ** ** **[`Args`](#arguments)**__,__ **[`Inline`](#inline)**__,__ **[`Closure`](#closure)**__,__ **[`Decorator`](#decorator)**__,__ **[`Class`](#class)**__,__ **[`Duck_Types`](#duck-types)**__,__ **[`Enum`](#enum)**__,__ **[`Exceptions`](#exceptions)**__.__ ** ** **4. System:** ** ** **[`Print`](#print)**__,__ **[`Input`](#input)**__,__ **[`Command_Line_Arguments`](#command-line-arguments)**__,__ **[`Open`](#open)**__,__ **[`Path`](#path)**__,__ **[`Command_Execution`](#command-execution)**__.__ ** ** **5. Data:** ** ** **[`CSV`](#csv)**__,__ **[`JSON`](#json)**__,__ **[`Pickle`](#pickle)**__,__ **[`SQLite`](#sqlite)**__,__ **[`Bytes`](#bytes)**__,__ **[`Struct`](#struct)**__,__ **[`Array`](#array)**__,__ **[`MemoryView`](#memory-view)**__,__ **[`Deque`](#deque)**__.__ ** ** **6. Advanced:** ** ** **[`Threading`](#threading)**__,__ **[`Introspection`](#introspection)**__,__ **[`Metaprograming`](#metaprograming)**__,__ **[`Operator`](#operator)**__,__ **[`Eval`](#eval)**__,__ **[`Coroutine`](#coroutine)**__.__ ** ** **7. Libraries:** ** ** **[`Progress_Bar`](#progress-bar)**__,__ **[`Plot`](#plot)**__,__ **[`Table`](#table)**__,__ **[`Curses`](#curses)**__,__ **[`Logging`](#logging)**__,__ **[`Scraping`](#scraping)**__,__ **[`Web`](#web)**__,__ **[`Profile`](#profile)**__,__ ** ** **[`NumPy`](#numpy)**__,__ **[`Image`](#image)**__,__ **[`Audio`](#audio)**__.__ Main ---- ```python if __name__ == '__main__': # Runs main() if file wasn't imported. main() ``` List ---- ```python = [from_inclusive : to_exclusive : ±step_size] ``` ```python .append() # Or: += [] .extend() # Or: += ``` ```python .sort() .reverse() = sorted() = reversed() ``` ```python sum_of_elements = sum() elementwise_sum = [sum(pair) for pair in zip(list_a, list_b)] sorted_by_second = sorted(, key=lambda el: el[1]) sorted_by_both = sorted(, key=lambda el: (el[1], el[0])) flatter_list = list(itertools.chain.from_iterable()) product_of_elems = functools.reduce(lambda out, x: out * x, ) list_of_chars = list() ``` ```python index = .index() # Returns index of first occurrence or raises ValueError. .insert(index, ) # Inserts item at index and moves the rest to the right. = .pop([index]) # Removes and returns item at index or from the end. .remove() # Removes first occurrence of item or raises ValueError. .clear() # Removes all items. Also works on dict and set. ``` Dictionary ---------- ```python = .keys() # Coll. of keys that reflects changes. = .values() # Coll. of values that reflects changes. = .items() # Coll. of key-value tuples. ``` ```python value = .get(key, default=None) # Returns default if key does not exist. value = .setdefault(key, default=None) # Same, but also adds default to dict. = collections.defaultdict() # Creates a dict with default value of type. = collections.defaultdict(lambda: 1) # Creates a dict with default value 1. ``` ```python .update() = dict() # Creates a dict from coll. of key-value pairs. = dict(zip(keys, values)) # Creates a dict from two collections. = dict.fromkeys(keys [, value]) # Creates a dict from collection of keys. ``` ```python value = .pop(key) # Removes item from dictionary. {k: v for k, v in .items() if k in keys} # Filters dictionary by keys. ``` ### Counter ```python >>> from collections import Counter >>> colors = ['red', 'blue', 'yellow', 'blue', 'red', 'blue'] >>> counter = Counter(colors) Counter({'blue': 3, 'red': 2, 'yellow': 1}) >>> counter.most_common()[0] ('blue', 3) ``` Set --- ```python = set() ``` ```python .add() # Or: |= {} .update() # Or: |= ``` ```python = .union() # Or: | = .intersection() # Or: & = .difference() # Or: - = .symmetric_difference() # Or: ^ = .issubset() # Or: <= = .issuperset() # Or: >= ``` ```python .remove() # Raises KeyError. .discard() # Doesn't raise an error. ``` ### Frozen Set * **Is immutable and hashable.** * **That means it can be used as a key in a dictionary or as an element in a set.** ```python = frozenset() ``` Tuple ----- **Tuple is an immutable and hashable list.** ```python = () = (, ) = (, , ...) ``` ### Named Tuple **Tuple's subclass with named elements.** ```python >>> from collections import namedtuple >>> Point = namedtuple('Point', 'x y') >>> p = Point(1, y=2) Point(x=1, y=2) >>> p[0] 1 >>> p.x 1 >>> getattr(p, 'y') 2 >>> p._fields # Or: Point._fields ('x', 'y') ``` Range ----- ```python = range(to_exclusive) = range(from_inclusive, to_exclusive) = range(from_inclusive, to_exclusive, ±step_size) ``` ```python from_inclusive = .start to_exclusive = .stop ``` Enumerate --------- ```python for i, el in enumerate( [, i_start]): ... ``` Iterator -------- ```python = iter() # Calling `iter()` returns unmodified iterator. = iter(, to_exclusive) # Sequence of return values until 'to_exclusive'. = next( [, default]) # Raises StopIteration or returns 'default' on end. ``` ### Itertools ```python from itertools import count, repeat, cycle, chain, islice ``` ```python = count(start=0, step=1) # Returns incremented value endlessly. = repeat( [, times]) # Returns element endlessly or 'times' times. = cycle() # Repeats the sequence indefinitely. ``` ```python = chain(, [, ...]) # Empties collections in order. = chain.from_iterable() # Empties collections inside a collection in order. ``` ```python = islice(, to_exclusive) = islice(, from_inclusive, to_exclusive) = islice(, from_inclusive, to_exclusive, +step_size) ``` Generator --------- * **Convenient way to implement the iterator protocol.** * **Any function that contains a yield statement returns a generator object.** * **Generators and iterators are interchangeable.** ```python def count(start, step): while True: yield start start += step ``` ```python >>> counter = count(10, 2) >>> next(counter), next(counter), next(counter) (10, 12, 14) ``` Type ---- * **Everything is an object.** * **Every object has a type.** * **Type and class are synonymous.** ```python = type() # Or: .__class__ = isinstance(, ) # Or: issubclass(type(), ) ``` ```python >>> type('a'), 'a'.__class__, str (, , ) ``` #### Some types do not have builtin names, so they must be imported: ```python from types import FunctionType, MethodType, LambdaType, GeneratorType ``` ### ABC **An abstract base class introduces virtual subclasses, that don’t inherit from it but are still recognized by isinstance() and issubclass().** ```python >>> from collections.abc import Sequence, Collection, Iterable >>> isinstance([1, 2, 3], Iterable) True ``` ```text +------------------+----------+------------+----------+ | | Sequence | Collection | Iterable | +------------------+----------+------------+----------+ | list, range, str | yes | yes | yes | | dict, set | | yes | yes | | iter | | | yes | +------------------+----------+------------+----------+ ``` ```python >>> from numbers import Integral, Rational, Real, Complex, Number >>> isinstance(123, Number) True ``` ```text +--------------------+----------+----------+------+---------+--------+ | | Integral | Rational | Real | Complex | Number | +--------------------+----------+----------+------+---------+--------+ | int | yes | yes | yes | yes | yes | | fractions.Fraction | | yes | yes | yes | yes | | float | | | yes | yes | yes | | complex | | | | yes | yes | +--------------------+----------+----------+------+---------+--------+ ``` String ------ ```python = .strip() # Strips all whitespace characters from both ends. = .strip('') # Strips all passed characters from both ends. ``` ```python = .split() # Splits on one or more whitespace characters. = .split(sep=None, maxsplit=-1) # Splits on 'sep' str at most 'maxsplit' times. = .splitlines(keepends=False) # Splits on line breaks. Keeps them if 'keepends'. = .join() # Joins elements using string as separator. ``` ```python = in # Checks if string contains a substring. = .startswith() # Pass tuple of strings for multiple options. = .endswith() # Pass tuple of strings for multiple options. = .find() # Returns start index of first match or -1. = .index() # Same but raises ValueError. ``` ```python = .replace(old, new [, count]) # Replaces 'old' with 'new' at most 'count' times. = .isnumeric() # True if str contains only numeric characters. = textwrap.wrap(, width) # Nicely breaks string into lines. ``` * **Also: `'lstrip()'`, `'rstrip()'`.** * **Also: `'lower()'`, `'upper()'`, `'capitalize()'` and `'title()'`.** ### Char ```python = chr() # Converts int to unicode char. = ord() # Converts unicode char to int. ``` ```python >>> ord('0'), ord('9') (48, 57) >>> ord('A'), ord('Z') (65, 90) >>> ord('a'), ord('z') (97, 122) ``` Regex ----- ```python import re = re.sub(, new, text, count=0) # Substitutes all occurrences. = re.findall(, text) # Returns all occurrences. = re.split(, text, maxsplit=0) # Use brackets in regex to keep the matches. = re.search(, text) # Searches for first occurrence of pattern. = re.match(, text) # Searches only at the beginning of the text. = re.finditer(, text) # Returns all occurrences as match objects. ``` * **Argument `'flags=re.IGNORECASE'` can be used with all functions.** * **Argument `'flags=re.MULTILINE'` makes `'^'` and `'$'` match the start/end of each line.** * **Argument `'flags=re.DOTALL'` makes dot also accept newline.** * **Use `r'\1'` or `'\\1'` for backreference.** * **Use `'?'` to make an operator non-greedy.** ### Match Object ```python = .group() # Whole match. Also group(0). = .group(1) # Part in first bracket. = .groups() # All bracketed parts. = .start() # Start index of a match. = .end() # Exclusive end index of a match. ``` ### Special Sequences * **By default digits, whitespaces and alphanumerics from all alphabets are matched, unless `'flags=re.ASCII'` argument is used.** * **Use capital letters for negation.** ```python '\d' == '[0-9]' # Digit '\s' == '[ \t\n\r\f\v]' # Whitespace '\w' == '[a-zA-Z0-9_]' # Alphanumeric ``` Format ------ ```python = f'{}, {}' = '{}, {}'.format(, ) ``` ### Attributes ```python >>> from collections import namedtuple >>> Person = namedtuple('Person', 'name height') >>> person = Person('Jean-Luc', 187) >>> f'{person.height}' '187' >>> '{p.height}'.format(p=person) '187' ``` ### General Options ```python {:<10} # ' ' {:^10} # ' ' {:>10} # ' ' ``` ```python {:.<10} # '......' {:>0} # '' ``` ### Strings **`'!r'` calls object's repr() method, instead of str(), to get a string.** ```python {'abcde'!r:<10} # "'abcde' " {'abcde':.3} # 'abc' {'abcde':10.3} # 'abc ' ``` ### Numbers ```python { 123456:10,} # ' 123,456' { 123456:10_} # ' 123_456' { 123456:+10} # ' +123456' {-123456:=10} # '- 123456' { 123456: } # ' 123456' {-123456: } # '-123456' ``` ### Floats ```python {1.23456:10.3} # ' 1.23' {1.23456:10.3f} # ' 1.235' {1.23456:10.3e} # ' 1.235e+00' {1.23456:10.3%} # ' 123.456%' ``` #### Comparison of float presentation types: ```text +----------------+----------------+---------------+----------------+-----------------+ | | {} | {:f} | {:e} | {:%} | +----------------+----------------+---------------+----------------+-----------------+ | 0.000056789 | '5.6789e-05' | '0.000057' | '5.678900e-05' | '0.005679%' | | 0.00056789 | '0.00056789' | '0.000568' | '5.678900e-04' | '0.056789%' | | 0.0056789 | '0.0056789' | '0.005679' | '5.678900e-03' | '0.567890%' | | 0.056789 | '0.056789' | '0.056789' | '5.678900e-02' | '5.678900%' | | 0.56789 | '0.56789' | '0.567890' | '5.678900e-01' | '56.789000%' | | 5.6789 | '5.6789' | '5.678900' | '5.678900e+00' | '567.890000%' | | 56.789 | '56.789' | '56.789000' | '5.678900e+01' | '5678.900000%' | | 567.89 | '567.89' | '567.890000' | '5.678900e+02' | '56789.000000%' | +----------------+----------------+---------------+----------------+-----------------+ ``` ```text +----------------+----------------+---------------+----------------+-----------------+ | | {:.2} | {:.2f} | {:.2e} | {:.2%} | +----------------+----------------+---------------+----------------+-----------------+ | 0.000056789 | '5.7e-05' | '0.00' | '5.68e-05' | '0.01%' | | 0.00056789 | '0.00057' | '0.00' | '5.68e-04' | '0.06%' | | 0.0056789 | '0.0057' | '0.01' | '5.68e-03' | '0.57%' | | 0.056789 | '0.057' | '0.06' | '5.68e-02' | '5.68%' | | 0.56789 | '0.57' | '0.57' | '5.68e-01' | '56.79%' | | 5.6789 | '5.7' | '5.68' | '5.68e+00' | '567.89%' | | 56.789 | '5.7e+01' | '56.79' | '5.68e+01' | '5678.90%' | | 567.89 | '5.7e+02' | '567.89' | '5.68e+02' | '56789.00%' | +----------------+----------------+---------------+----------------+-----------------+ ``` ### Ints ```python {90:c} # 'Z' {90:X} # '5A' {90:b} # '1011010' ``` Numbers ------- ```python = int() # Or: math.floor() = float() = complex(real=0, imag=0) # Or: + j = fractions.Fraction(numerator=0, denominator=1) ``` * **`'int()'` and `'float()'` raise 'ValueError' on malformed strings.** ### Basic Functions ```python = pow(, ) # Or: ** = abs() = round() = round(, ±ndigits) # `round(126, -1) == 130` ``` ### Math ```python from math import e, pi, inf, nan from math import cos, acos, sin, asin, tan, atan, degrees, radians from math import log, log10, log2 ``` ### Statistics ```python from statistics import mean, median, variance, pvariance, pstdev ``` ### Random ```python from random import random, randint, choice, shuffle = random() = randint(from_inclusive, to_inclusive) = choice() shuffle() ``` ### Bin, Hex ```python = 0b # Or: 0x = int('0b', 0) # Or: int('0x', 0) = int('', 2) # Or: int('', 16) '0b' = bin() # Or: '0x' = hex() ``` ### Bitwise Operators ```python = & # And = | # Or = ^ # Xor (0 if both bits equal) = << n_bits # Shift left = >> n_bits # Shift right = ~ # Compliment (flips bits) ``` Combinatorics ------------- * **Every function returns an iterator.** * **If you want to print the iterator, you need to pass it to the list() function!** ```python from itertools import product, combinations, combinations_with_replacement, permutations ``` ```python >>> product([0, 1], repeat=3) [(0, 0, 0), (0, 0, 1), (0, 1, 0), (0, 1, 1), (1, 0, 0), (1, 0, 1), (1, 1, 0), (1, 1, 1)] ``` ```python >>> product('ab', '12') [('a', '1'), ('a', '2'), ('b', '1'), ('b', '2')] ``` ```python >>> combinations('abc', 2) [('a', 'b'), ('a', 'c'), ('b', 'c')] ``` ```python >>> combinations_with_replacement('abc', 2) [('a', 'a'), ('a', 'b'), ('a', 'c'), ('b', 'b'), ('b', 'c'), ('c', 'c')] ``` ```python >>> permutations('abc', 2) [('a', 'b'), ('a', 'c'), ('b', 'a'), ('b', 'c'), ('c', 'a'), ('c', 'b')] ``` Datetime -------- * **Module 'datetime' provides 'date' ``, 'time' ``, 'datetime' `

` and 'timedelta' `` classes. All are immutable and hashable.** * **Time and datetime can be 'aware' ``, meaning they have defined timezone, or 'naive' ``, meaning they don't.** * **If object is naive it is presumed to be in system's timezone.** ```python from datetime import date, time, datetime, timedelta from dateutil.tz import UTC, tzlocal, gettz ``` ### Constructors ```python = date(year, month, day) = time(hour=0, minute=0, second=0, microsecond=0, tzinfo=None, fold=0)

= datetime(year, month, day, hour=0, minute=0, second=0, ...) = timedelta(days=0, seconds=0, microseconds=0, milliseconds=0, minutes=0, hours=0, weeks=0) ``` * **Use `'.weekday()'` to get the day of the week (Mon == 0).** * **`'fold=1'` means second pass in case of time jumping back for one hour.** ### Now ```python = D/DT.today() # Current local date or naive datetime. = DT.utcnow() # Naive datetime from current UTC time. = DT.now() # Aware datetime from current tz time. ``` * **To extract time use `'.time()'`, `'.time()'` or `'.timetz()'`.** ### Timezone ```python = UTC # UTC timezone. London without DST. = tzlocal() # Local timezone. Also gettz(). = gettz('/') # Timezone from 'Continent/City_Name' str. ``` ```python =

.astimezone() # Datetime, converted to passed timezone. = .replace(tzinfo=) # Unconverted object with new timezone. ``` ### Encode ```python = D/T/DT.fromisoformat('') # Object from ISO string.

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