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I'm working with a large list containing integers and I would like to do some pattern matching on them (like finding certain sequences). Regular expressions would be the perfect fit, except that they always seem to only handle lists of characters, a.k.a. strings. Is there any library (in any language) that can handle lists of an arbitrary type?

I'm aware that I could convert my integer list into a string and then do a normal regular expression search but that seems a bit wasteful and inelegant.

edit:

My requirements are fairly simple. No need for nested lists, no need for fancy character classes. Basically I'm just interested in occurrences of sequences that can get pretty complicated. (e.g. something like "[abc]{3,}.([ab]?[^a]{4,7})" etc. where a,b,c are integers). This should be possible to generalize over any type which can be checked for equality. For an enumerable type you could also get things like "[a-z]" to work.

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Could you post some examples? –  Bart Kiers Nov 29 '10 at 11:32
    
+1 for the interesting question. I had a look and was disappointed to see Scala'a regex only work with Strings - the standard library there is usually quite generalised. I look forward to some answers –  Paul Nov 29 '10 at 11:37
    
How big is the integers? If 21-bits or below, you could convert each to a Unicode code point. –  leppie Nov 29 '10 at 12:05
    
@leppie: I could, but as I state it's hardly an elegant solution to convert it into a string and then back again. –  pafcu Nov 29 '10 at 12:17
    
How big is a big list? –  Paddy Nov 29 '10 at 12:32
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5 Answers

Regular expressions match only strings, by definition.

Of course, in theory you could construct an equivalent grammar, say for lists of numbers. With new tokens like \e for even numbers, \o for odd numbers, \s for square numbers, \r for real numbers etc., so that

[1, 2, 3, 4, 5, 6]

would be matched by

^(\o\e)*$

or

[ln(3), math.pi, sqrt(-1)]

would be matched by

^\R*$

etc. Sounds like a fun project, but also like a very difficult one. And how this could be expanded to handle arbitrary lists, nested and all, is beyond me.

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I don't need anything so integer-specific. I actually just want to match repeats of various lengths –  pafcu Nov 29 '10 at 12:19
    
Finite lists of int (32 bit) are strings (words) in the sense of formal languages. Therefore, regular expressions are in theory applicable in this case. –  Christian Semrau Nov 29 '10 at 22:38
    
@Christian: That's certainly correct. pafcu was asking about lists of arbitrary types, though, and edited his question to clarify his requirements after I had answered. –  Tim Pietzcker Dec 1 '10 at 11:17
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Some of the regex syntax generalize to generic sequences. Also, to be able to specify any object, strings is not the best medium for the expression themselves.

"Small" example in python:

def choice(*items):
  return ('choice',[value(item) for item in items])

def seq(*items):
  return ('seq',[value(item) for item in items])

def repeat(min,max,lazy,item):
  return ('repeat',min,max,lazy,value(item))

def value(item):
  if not isinstance(item,tuple):
    return ('value',item)
  return item

def compile(pattern):
  ret = []
  key = pattern[0]
  if key == 'value':
    ret.append(('literal',pattern[1]))
  elif key == 'seq':
    for subpattern in pattern[1]:
      ret.extend(compile(subpattern))
  elif key == 'choice':
    jumps = []
    n = len(pattern[1])
    for i,subpattern in enumerate(pattern[1]):
      if i < n-1:
        pos = len(ret)
        ret.append('placeholder for choice')
        ret.extend(compile(subpattern))
        jumps.append(len(ret))
        ret.append('placeholder for jump')
        ret[pos] = ('choice',len(ret)-pos)
      else:
        ret.extend(compile(subpattern))
    for pos in jumps:
      ret[pos] = ('jump', len(ret)-pos)
  elif key == 'repeat':
    min,max,lazy,subpattern = pattern[1:]
    for _ in xrange(min):
      ret.extend(compile(subpattern))
    if max == -1:
      if lazy:
        pos = len(ret)
        ret.append('placeholder for jump')
        ret.extend(compile(subpattern))
        ret[pos] = ('jump',len(ret)-pos)
        ret.append(('choice',pos+1-len(ret)))
      else:
        pos = len(ret)
        ret.append('placeholder for choice')
        ret.extend(compile(subpattern))
        ret.append(('jump',pos-len(ret)))
        ret[pos] = ('choice',len(ret)-pos)
    elif max > min:
      if lazy:
        jumps = []
        for _ in xrange(min,max):
          ret.append(('choice',2))
          jumps.append(len(ret))
          ret.append('placeholder for jump')
          ret.extend(compile(subpattern))
        for pos in jumps:
          ret[pos] = ('jump', len(ret)-pos)
      else:
        choices = []
        for _ in xrange(min,max):
          choices.append(len(ret))
          ret.append('placeholder for choice')
          ret.extend(compile(subpattern))
          ret.append(('drop,'))
        for pos in choices:
          ret[pos] = ('choice',len(ret)-pos)
  return ret

def match(pattern,subject,start=0):
  stack = []
  pos = start
  i = 0
  while i < len(pattern):
    instruction = pattern[i]
    key = instruction[0]
    if key == 'literal':
      if pos < len(subject) and subject[pos] == instruction[1]:
        i += 1
        pos += 1
        continue
    elif key == 'jump':
      i += instruction[1]
      continue
    elif key == 'choice':
      stack.append((i+instruction[1],pos))
      i += 1
      continue
    # fail
    if not stack:
      return None
    i,pos = stack.pop()
  return pos

def find(pattern,subject,start=0):
  for pos1 in xrange(start,len(subject)+1):
    pos2 = match(pattern,subject,pos1)
    if pos2 is not None: return pos1,pos2
  return None,None

def find_all(pattern,subject,start=0):
  matches = []
  pos1,pos2 = find(pattern,subject,start)
  while pos1 is not None:
    matches.append((pos1,pos2))
    pos1,pos2 = find(pattern,subject,pos2)
  return matches

# Timestamps: ([01][0-9]|2[0-3])[0-5][0-9]
pattern = compile(
  seq(
    choice(
      seq(choice(0,1),choice(0,1,2,3,4,5,6,7,8,9)),
      seq(2,choice(0,1,2,3)),
    ),
    choice(0,1,2,3,4,5),
    choice(0,1,2,3,4,5,6,7,8,9),
  )
)

print find_all(pattern,[1,3,2,5,6,3,4,2,4,3,2,2,3,6,6,5,3,5,3,3,2,5,4,5])
# matches: (0,4): [1,3,2,5]; (10,14): [2,2,3,6]

A few points of improvement:

  • More constructs: classes with negation, ranges
  • Classes instead of tuples
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If you really need a free grammar like in regular expressions, then you have to go a way as described in Tim's answer. If you only have a fixed number of patterns to search for, then the easiest and fastest way is to write your own search/filter functions.

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Interesting problem indeed.

Lateral thinking: download the .Net Framework Source code, lift the Regex source code and adapt it to work with integers rather than characters.

Just an idea.

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Well, Erlang has pattern matching (of your type) built right in. I did something similar once in Ruby - a bit of probably not too well performing hackery, see http://radiospiel.org/0x16-its-a-bird

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Based on the example on your page it doesn't seem like it can be used for such complicated matching like "((between 3 and 7 occurrences of 7) OR exactly one 1) followed by (an optional 9) followed by (three numbers that are not 5 or 7) followed by ..." –  pafcu Nov 30 '10 at 12:53
    
This does not match the OPs request perfectly, no. I wanted to hint to Erlang's pattern matching, and show, that it is possible to do similar things with ruby, without Regexes. –  radiospiel Dec 1 '10 at 12:16
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