I have the idea to use a regex pattern as a template and wonder if t开发者_如何学JAVAhere is a convenient way to do so in Python (3 or newer).
import re
pattern = re.compile("/something/(?P<id>.*)")
pattern.populate(id=1) # that is what I'm looking for
should result in
/something/1
that's not what regex are for, you could just use normal string formatting.
>>> '/something/{id}'.format(id=1)
'/something/1'
Below is a a light-weight class I created that does what you're looking for. You can write a single regular expression, and use that expression for both matching strings and generating strings.
There is a small example on the bottom of the code on how to use it.
Generally, you construct a regular expression normally, and use the match and search functions as normal. The format function is used much like string.format to generate a new string.
import re
regex_type = type(re.compile(""))
# This is not perfect. It breaks if there is a parenthesis in the regex.
re_term = re.compile(r"(?<!\\)\(\?P\<(?P<name>[\w_\d]+)\>(?P<regex>[^\)]*)\)")
class BadFormatException(Exception):
pass
class RegexTemplate(object):
def __init__(self, r, *args, **kwargs):
self.r = re.compile(r, *args, **kwargs)
def __repr__(self):
return "<RegexTemplate '%s'>"%self.r.pattern
def match(self, *args, **kwargs):
'''The regex match function'''
return self.r.match(*args, **kwargs)
def search(self, *args, **kwargs):
'''The regex match function'''
return self.r.search(*args, **kwargs)
def format(self, **kwargs):
'''Format this regular expression in a similar way as string.format.
Only supports true keyword replacement, not group replacement.'''
pattern = self.r.pattern
def replace(m):
name = m.group('name')
reg = m.group('regex')
val = kwargs[name]
if not re.match(reg, val):
raise BadFormatException("Template variable '%s' has a value "
"of %s, does not match regex %s."%(name, val, reg))
return val
# The regex sub function does most of the work
value = re_term.sub(replace, pattern)
# Now we have un-escape the special characters.
return re.sub(r"\\([.\(\)\[\]])", r"\1", value)
def compile(*args, **kwargs):
return RegexTemplate(*args, **kwargs)
if __name__ == '__main__':
# Construct a typical URL routing regular expression
r = RegexTemplate(r"http://example\.com/(?P<year>\d\d\d\d)/(?P<title>\w+)")
print(r)
# This should match
print(r.match("http://example.com/2015/article"))
# Generate the same URL using url formatting.
print(r.format(year = "2015", title = "article"))
# This should not match
print(r.match("http://example.com/abcd/article"))
# This will raise an exception because year is not formatted properly
try:
print(r.format(year = "15", title = "article"))
except BadFormatException as e:
print(e)
There are some limitations:
- The format function only works with keyword arguments (you can't use the
\1style formatting as instring.format). - There is also a bug with matching elements with sub-elements, e.g.,
RegexTemplate(r'(?P<foo>biz(baz)?)'). This could be corrected with a bit of work. - If your regular expression contains character classes outside of a named group, (e.g.,
[a-z123]) we will not know how to format those.
Save the compile until after the substitution:
pattern = re.compile("/something/(?P<%s>.*)" % 1)
For very simple cases, probably the easiest way to do this is by replacing the named capture groups with format fields.
Here is a basic validator/formatter:
import re
from functools import partial
unescape = partial(re.compile(r'\\(.)').sub, r'\1')
namedgroup = partial(re.compile(r'\(\?P<(\w+)>.*?\)').sub, r'{\1}')
class Mould:
def __init__(self, pattern):
self.pattern = re.compile(pattern)
self.template = unescape(namedgroup(pattern))
def format(self, **values):
try:
return self.template.format(**values)
except KeyError as e:
raise TypeError(f'Missing argument: {e}') from None
def search(self, string):
try:
return self.pattern.search(string).groupdict()
except AttributeError:
raise ValueError(string) from None
So, for example, to instantiate a validator/formatter for phone numbers in the form (XXX) YYY-ZZZZ:
template = r'\((?P<area>\d{3})\)\ (?P<prefix>\d{3})\-(?P<line>\d{4})'
phonenum = Mould(template)
And then:
>>> phonenum.search('(333) 444-5678')
{'area': '333', 'prefix': '444', 'line': '5678'}
>>> phonenum.format(area=111, prefix=555, line=444)
(111) 555-444
But this is a very basic skeleton that overlooks many regex features (like lookarounds or non-capturing groups, for example). If they are needed, things can get quite messy pretty quickly. In this case, the other way around: generating the pattern from the template, although more verbose, may be more flexible and less error-prone.
Here is the basic validator/formatter (.search() and .format() are the same):
import string
import re
FMT = string.Formatter()
class Mould:
def __init__(self, template, **kwargs):
self.template = template
self.pattern = self.make_pattern(template, **kwargs)
@staticmethod
def make_pattern(template, **kwargs):
pattern = ''
# for each field in the template, add to the pattern
for text, field, *_ in FMT.parse(template):
# the escaped preceding text
pattern += re.escape(text)
if field:
# a named regex capture group
pattern += f'(?P<{field}>{kwargs[field]})'
# XXX: if there's text after the last field,
# the parser will iterate one more time,
# hence the 'if field'
return re.compile(pattern)
Instantiation:
template = '({area}) {prefix}-{line}'
content = dict(area=r'\d{3}', prefix=r'\d{3}', line=r'\d{4}')
phonenum = Mould(template, **content)
Execution:
>>> phonenum.search('(333) 444-5678')
{'area': '333', 'prefix': '444', 'line': '5678'}
>>> phonenum.format(area=111, prefix=555, line=444)
(111) 555-444
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