Python RegEx (avec des exemples)

Dans ce didacticiel, vous découvrirez les expressions régulières (RegEx) et utiliserez le module re de Python pour travailler avec RegEx (à l'aide d'exemples).

A Re gulaire Ex pression (RegEx) est une séquence de caractères qui définit un motif de recherche. Par exemple,

 ^a… s$

Le code ci-dessus définit un modèle RegEx. Le modèle est: toute chaîne de cinq lettres commençant par a et se terminant par s .

Un modèle défini à l'aide de RegEx peut être utilisé pour correspondre à une chaîne.

Expression	Chaîne	Correspondant?
^a… s$	abs	Pas de correspondance
	alias	Rencontre
	abyss	Rencontre
	Alias	Pas de correspondance
	An abacus	Pas de correspondance

Python a un module nommé repour fonctionner avec RegEx. Voici un exemple:

 import re pattern = '^a… s$' test_string = 'abyss' result = re.match(pattern, test_string) if result: print("Search successful.") else: print("Search unsuccessful.") 

Ici, nous avons utilisé une re.match()fonction pour rechercher un modèle dans la chaîne test_string. La méthode renvoie un objet de correspondance si la recherche aboutit. Sinon, il revient None.

Il existe plusieurs autres fonctions définies dans le module re pour fonctionner avec RegEx. Avant d'explorer cela, découvrons les expressions régulières elles-mêmes.

Si vous connaissez déjà les bases de RegEx, passez à Python RegEx.

Spécifier le modèle à l'aide de RegEx

Pour spécifier des expressions régulières, des métacaractères sont utilisés. Dans l'exemple ci-dessus, ^et $sont des métacaractères.

MétaCaractères

Les métacaractères sont des caractères qui sont interprétés de manière spéciale par un moteur RegEx. Voici une liste de métacaractères:

(). $ * +? () () |

() - Crochets

Les crochets indiquent un jeu de caractères que vous souhaitez faire correspondre.

Expression	Chaîne	Correspondant?
(abc)	a	1 match
	ac	2 matchs
	Hey Jude	Pas de correspondance
	abc de ca	5 matchs

Ici, (abc)correspondra si la chaîne que vous essayez de faire correspondre contient l'un des a, bou c.

Vous pouvez également spécifier une plage de caractères en utilisant -des crochets entre crochets.

• (a-e)est le même que (abcde).
• (1-4)est le même que (1234).
• (0-39)est le même que (01239).

Vous pouvez compléter (inverser) le jeu de caractères en utilisant le ^symbole caret au début d'un crochet.

• (^abc) signifie tout caractère sauf a, b ou c.
• (^0-9) signifie tout caractère non numérique.

.- Période

Un point correspond à n'importe quel caractère unique (sauf nouvelle ligne '').

Expression	Chaîne	Correspondant?
…	a	Pas de correspondance
	ac	1 match
	acd	1 match
	acde	2 correspondances (contient 4 caractères)

^- Caret

Le symbole caret ^est utilisé pour vérifier si une chaîne commence par un certain caractère.

Expression	Chaîne	Correspondant?
^a	a	1 match
	abc	1 match
	bac	Pas de correspondance
^ab	abc	1 match
	acb	Pas de correspondance (commence par amais pas suivi de b)

$- Dollar

Le symbole dollar $est utilisé pour vérifier si une chaîne se termine par un certain caractère.

Expression	Chaîne	Correspondant?
a$	a	1 match
	formula	1 match
	cab	Pas de correspondance

*- étoile

Le symbole étoile *correspond à zéro ou plusieurs occurrences du motif laissé à lui.

Expression	Chaîne	Correspondant?
ma*n	mn	1 match
	man	1 match
	maaan	1 match
	main	Pas de correspondance ( an'est pas suivi de n)
	woman	1 match

+- Plus

Le symbole plus +correspond à une ou plusieurs occurrences du motif laissé à lui.

Expression	Chaîne	Correspondant?
ma+n	mn	Pas de correspondance (pas de acaractère)
	man	1 match
	maaan	1 match
	main	Pas de correspondance (a n'est pas suivi de n)
	woman	1 match

? - Question Mark

The question mark symbol ? matches zero or one occurrence of the pattern left to it.

Expression	String	Matched?
ma?n	mn	1 match
	man	1 match
	maaan	No match (more than one a character)
	main	No match (a is not followed by n)
	woman	1 match

() - Braces

Consider this code: (n,m). This means at least n, and at most m repetitions of the pattern left to it.

Expression	String	Matched?
a(2,3)	abc dat	No match
	abc daat	1 match (at daat)
	aabc daaat	2 matches (at aabc and daaat)
	aabc daaaat	2 matches (at aabc and daaaat)

Let's try one more example. This RegEx (0-9)(2, 4) matches at least 2 digits but not more than 4 digits

Expression	String	Matched?
(0-9)(2,4)	ab123csde	1 match (match at ab123csde)
	12 and 345673	3 matches (12, 3456, 73)
	1 and 2	No match

| - Alternation

Vertical bar | is used for alternation (or operator).

Expression	String	Matched?
a|b	cde	No match
	ade	1 match (match at ade)
	acdbea	3 matches (at acdbea)

Here, a|b match any string that contains either a or b

() - Group

Parentheses () is used to group sub-patterns. For example, (a|b|c)xz match any string that matches either a or b or c followed by xz

Expression	String	Matched?
(a|b|c)xz	ab xz	No match
	abxz	1 match (match at abxz)
	axz cabxz	2 matches (at axzbc cabxz)

- Backslash

Backlash is used to escape various characters including all metacharacters. For example,

$a match if a string contains $ followed by a. Here, $ is not interpreted by a RegEx engine in a special way.

If you are unsure if a character has special meaning or not, you can put in front of it. This makes sure the character is not treated in a special way.

Special Sequences

Special sequences make commonly used patterns easier to write. Here's a list of special sequences:

A - Matches if the specified characters are at the start of a string.

Expression	String	Matched?
Athe	the sun	Match
	In the sun	No match

 - Matches if the specified characters are at the beginning or end of a word.

Expression	String	Matched?
foo	football	Match
	a football	Match
	afootball	No match
foo	the foo	Match
	the afoo test	Match
	the afootest	No match

B - Opposite of . Matches if the specified characters are not at the beginning or end of a word.

Expression	String	Matched?
Bfoo	football	No match
	a football	No match
	afootball	Match
fooB	the foo	No match
	the afoo test	No match
	the afootest	Match

d - Matches any decimal digit. Equivalent to (0-9)

Expression	String	Matched?
d	12abc3	3 matches (at 12abc3)
	Python	No match

D - Matches any non-decimal digit. Equivalent to (^0-9)

Expression	String	Matched?
D	1ab34"50	3 matches (at 1ab34"50)
	1345	No match

s - Matches where a string contains any whitespace character. Equivalent to ( fv).

Expression	String	Matched?
s	Python RegEx	1 match
	PythonRegEx	No match

S - Matches where a string contains any non-whitespace character. Equivalent to (fv).

Expression	String	Matched?
S	a b	2 matches (at a b)
		No match

w - Matches any alphanumeric character (digits and alphabets). Equivalent to (a-zA-Z0-9_). By the way, underscore _ is also considered an alphanumeric character.

Expression	String	Matched?
w	12&": ;c	3 matches (at 12&": ;c)
	%"> !	No match

W - Matches any non-alphanumeric character. Equivalent to (^a-zA-Z0-9_)

Expression	String	Matched?
W	1a2%c	1 match (at 1a2%c)
	Python	No match

 - Matches if the specified characters are at the end of a string.

Expression	String	Matched?
Python	I like Python	1 match
	I like Python Programming	No match
	Python is fun.	No match

Tip: To build and test regular expressions, you can use RegEx tester tools such as regex101. This tool not only helps you in creating regular expressions, but it also helps you learn it.

Now you understand the basics of RegEx, let's discuss how to use RegEx in your Python code.

Python RegEx

Python has a module named re to work with regular expressions. To use it, we need to import the module.

 import re

The module defines several functions and constants to work with RegEx.

re.findall()

The re.findall() method returns a list of strings containing all matches.

Example 1: re.findall()

  # Program to extract numbers from a string import re string = 'hello 12 hi 89. Howdy 34' pattern = 'd+' result = re.findall(pattern, string) print(result) # Output: ('12', '89', '34') 

If the pattern is not found, re.findall() returns an empty list.

re.split()

The re.split method splits the string where there is a match and returns a list of strings where the splits have occurred.

Example 2: re.split()

  import re string = 'Twelve:12 Eighty nine:89.' pattern = 'd+' result = re.split(pattern, string) print(result) # Output: ('Twelve:', ' Eighty nine:', '.') 

If the pattern is not found, re.split() returns a list containing the original string.

You can pass maxsplit argument to the re.split() method. It's the maximum number of splits that will occur.

  import re string = 'Twelve:12 Eighty nine:89 Nine:9.' pattern = 'd+' # maxsplit = 1 # split only at the first occurrence result = re.split(pattern, string, 1) print(result) # Output: ('Twelve:', ' Eighty nine:89 Nine:9.') 

By the way, the default value of maxsplit is 0; meaning all possible splits.

re.sub()

The syntax of re.sub() is:

 re.sub(pattern, replace, string)

The method returns a string where matched occurrences are replaced with the content of replace variable.

Example 3: re.sub()

  # Program to remove all whitespaces import re # multiline string string = 'abc 12 de 23 f45 6' # matches all whitespace characters pattern = 's+' # empty string replace = '' new_string = re.sub(pattern, replace, string) print(new_string) # Output: abc12de23f456 

If the pattern is not found, re.sub() returns the original string.

You can pass count as a fourth parameter to the re.sub() method. If omited, it results to 0. This will replace all occurrences.

  import re # multiline string string = 'abc 12 de 23 f45 6' # matches all whitespace characters pattern = 's+' replace = '' new_string = re.sub(r's+', replace, string, 1) print(new_string) # Output: # abc12de 23 # f45 6 

re.subn()

The re.subn() is similar to re.sub() expect it returns a tuple of 2 items containing the new string and the number of substitutions made.

Example 4: re.subn()

  # Program to remove all whitespaces import re # multiline string string = 'abc 12 de 23 f45 6' # matches all whitespace characters pattern = 's+' # empty string replace = '' new_string = re.subn(pattern, replace, string) print(new_string) # Output: ('abc12de23f456', 4) 

re.search()

The re.search() method takes two arguments: a pattern and a string. The method looks for the first location where the RegEx pattern produces a match with the string.

If the search is successful, re.search() returns a match object; if not, it returns None.

 match = re.search(pattern, str)

Example 5: re.search()

  import re string = "Python is fun" # check if 'Python' is at the beginning match = re.search('APython', string) if match: print("pattern found inside the string") else: print("pattern not found") # Output: pattern found inside the string 

Here, match contains a match object.

Match object

You can get methods and attributes of a match object using dir() function.

Some of the commonly used methods and attributes of match objects are:

match.group()

The group() method returns the part of the string where there is a match.

Example 6: Match object

  import re string = '39801 356, 2102 1111' # Three digit number followed by space followed by two digit number pattern = '(d(3)) (d(2))' # match variable contains a Match object. match = re.search(pattern, string) if match: print(match.group()) else: print("pattern not found") # Output: 801 35 

Here, match variable contains a match object.

Our pattern (d(3)) (d(2)) has two subgroups (d(3)) and (d(2)). You can get the part of the string of these parenthesized subgroups. Here's how:

 >>> match.group(1) '801' >>> match.group(2) '35' >>> match.group(1, 2) ('801', '35') >>> match.groups() ('801', '35') 

match.start(), match.end() and match.span()

The start() function returns the index of the start of the matched substring. Similarly, end() returns the end index of the matched substring.

 >>> match.start() 2 >>> match.end() 8

The span() function returns a tuple containing start and end index of the matched part.

 >>> match.span() (2, 8)

match.re and match.string

The re attribute of a matched object returns a regular expression object. Similarly, string attribute returns the passed string.

 >>> match.re re.compile('(\d(3)) (\d(2))') >>> match.string '39801 356, 2102 1111' 

We have covered all commonly used methods defined in the re module. If you want to learn more, visit Python 3 re module.

Using r prefix before RegEx

When r or R prefix is used before a regular expression, it means raw string. For example, '' is a new line whereas r'' means two characters: a backslash followed by n.

Backlash est utilisé pour échapper à divers caractères, y compris tous les métacaractères. Cependant, l'utilisation du préfixe r permet de le traiter comme un caractère normal.

Exemple 7: Chaîne brute utilisant le préfixe r

  import re string = ' and are escape sequences.' result = re.findall(r'()', string) print(result) # Output: ('', '')