r modifier builds a raw string. It tells Python not to convert backslash escape sequences to special characters, such as
\n, for built-in strings. It has nothing to do with regular expression escape sequences.
>>> len('\t') # tab character only
>>> len(r'\t') # backslach character followed by a tee
However, regular expression syntax has its own set of escaping rules which often collide with the escape rules of built-in Python strings. The
r keyword helps us only deal with one. For example the first string below is a regular expression text that matches word characters, so is the second one because Python converts
\ for built-in strings unless the
r keyword is provided.
>>> re.compile(r'\w') == re.compile('\\w')
In your case
r'(foobar)' is exactly equivalent to
'(foobar)' because there is no backslash sequence to escape. This string is a regular expression text only in your mind. The
r keyword does not tell Python to interpret the string that way. Python only knows about regular expression objects which you build with
re.compile() or which are inherently compiled with methods like
Compiling regular expression objects have its own set of rules different from built-in string escape sequence rules and regex rules are not related to the
r keyword. The regular expression compiler does not understand its special meaning, only the Python interpreter does.
In your case the
r keyword in
"r'(foobar)'" has no special treatment, because it is directly passed to the regex compiler. You are effectively building a regular expression that searches a string beginning with
", followed by
r and so on. That's why two expressions differ.
>>> re.compile(r'(foobar)') == re.compile('"r(foobar)"') # your expressions
The usage of the
r keyword has no effect here:
>>> re.compile(r'(foobar)') == re.compile('(foobar)')
>>> re.compile(r'"r(foobar)"') == re.compile('"r(foobar)"')
For more information: