def __init__(self, name, description, subsets):
self._name = name
self._description = description
self._negated = False
self._pairs = set()
self._subsets = subsets
desc = list(tokenize.regexp(description, _kimmo_rule))
self._parse(desc)
def __init__(self, name, description, subsets):
self._name = name
self._description = description
self._negated = False
self._pairs = set()
self._subsets = subsets
desc = list(tokenize.regexp(description, _kimmo_rule))
self._parse(desc)
def re2nfa(fsa, re):
tokens = tokenize.regexp(re, pattern=r'.')
tree = _parser.parse(tokens)
if tree is None: raise ValueError('Bad Regexp')
state = re2nfa_build(fsa, fsa.start(), tree)
fsa.set_final([state])
def re2nfa(fsa, re):
tokens = tokenize.regexp(re, pattern=r'.')
tree = _parser.parse(tokens)
if tree is None: raise ValueError('Bad Regexp')
state = re2nfa_build(fsa, fsa.start(), tree)
fsa.set_final([state])
def parse(self, p_string):
"""
Parses a string and stores the resulting hierarchy of "domains"
"hierarchies" and "tables"
For the sake of NLP I've parsed the string using the nltk
context free grammar library.
A query is a "sentence" and can either be a domain, hierarchy or a table.
A domain is simply a word.
A hierarchy is expressed as "domain/domain"
A table is exressed as "table(sentence, sentence, sentence)"
Internally the query is represented as a nltk.parse.tree
Process:
1. string is tokenized
2. develop a context free grammar
3. parse
4. convert to a tree representation
"""
self.nltktree = None
# Store the query string
self.string = p_string
# Tokenize the query string, allowing only strings, parentheses,
# forward slashes and commas.
re_all = r'table[(]|\,|[)]|[/]|\w+'
data_tokens = tokenize.regexp(self.string, re_all)
# Develop a context free grammar
# S = sentence, T = table, H = hierarchy, D = domain
O, T, H, D = cfg.nonterminals('O, T, H, D')
# Specify the grammar
productions = (
# A sentence can be either a table, hierarchy or domain
cfg.Production(O, [D]),
cfg.Production(O, [H]),
cfg.Production(O, [T]),
# A table must be the following sequence:
# "table(", sentence, comma, sentence, comma, sentence, ")"
cfg.Production(T, ['table(', O, ',', O, ',', O, ')']),
# A hierarchy must be the following sequence:
# domain, forward slash, domain
cfg.Production(H, [D, '/', D]),
# domain, forward slash, another operator
cfg.Production(H, [D, '/', O]))
# Add domains to the cfg productions
# A domain is a token that is entirely word chars
re_domain = compile(r'^\w+$')
# Try every token and add if it matches the above regular expression
for tok in data_tokens:
if re_domain.match(tok):
prod = cfg.Production(D, [tok]),
productions = productions + prod
# Make a grammar out of our productions
grammar = cfg.Grammar(O, productions)
rd_parser = parse.RecursiveDescentParser(grammar)
# Tokens need to be redefined.
# It disappears after first use, and I don't know why.
tokens = tokenize.regexp_tokenize(self.string, re_all)
toklist = list(tokens)
# Store the parsing.
# Only the first one, as the grammar should be completely nonambiguous.
try:
self.parseList = rd_parser.get_parse_list(toklist)[0]
except IndexError:
print "Could not parse query."
return
# Set the nltk.parse.tree tree for this query to the global sentence
string = str(self.parseList)
string2 = string.replace(":", "").replace("')'", "").replace(
"table(", "").replace("','", "").replace("'", "").replace("/", "")
self.nltktree = parse.tree.bracket_parse(string2)
# Store the resulting nltk.parse.tree tree
self.parseTree = QuerySentence(self.nltktree)
self.xml = self.parseTree.toXML()
def tokenize_words(input):
input = input.lower()
tokenizer = regexp(r'w+')
tokens = tokenizer.tokenize(input)
filtered = filter(lambda token: token not in stopwords.words('english'), tokens)
return ''.join(filtered)
def parse(self, p_string):
"""
Parses a string and stores the resulting hierarchy of "domains"
"hierarchies" and "tables"
For the sake of NLP I've parsed the string using the nltk
context free grammar library.
A query is a "sentence" and can either be a domain, hierarchy or a table.
A domain is simply a word.
A hierarchy is expressed as "domain/domain"
A table is exressed as "table(sentence, sentence, sentence)"
Internally the query is represented as a nltk.parse.tree
Process:
1. string is tokenized
2. develop a context free grammar
3. parse
4. convert to a tree representation
"""
self.nltktree = None
# Store the query string
self.string = p_string
# Tokenize the query string, allowing only strings, parentheses,
# forward slashes and commas.
re_all = r'table[(]|\,|[)]|[/]|\w+'
data_tokens = tokenize.regexp(self.string, re_all)
# Develop a context free grammar
# S = sentence, T = table, H = hierarchy, D = domain
O, T, H, D = cfg.nonterminals('O, T, H, D')
# Specify the grammar
productions = (
# A sentence can be either a table, hierarchy or domain
cfg.Production(O, [D]), cfg.Production(O, [H]), cfg.Production(O, [T]),
# A table must be the following sequence:
# "table(", sentence, comma, sentence, comma, sentence, ")"
cfg.Production(T, ['table(', O, ',', O, ',', O, ')']),
# A hierarchy must be the following sequence:
# domain, forward slash, domain
cfg.Production(H, [D, '/', D]),
# domain, forward slash, another operator
cfg.Production(H, [D, '/', O])
)
# Add domains to the cfg productions
# A domain is a token that is entirely word chars
re_domain = compile(r'^\w+$')
# Try every token and add if it matches the above regular expression
for tok in data_tokens:
if re_domain.match(tok):
prod = cfg.Production(D,[tok]),
productions = productions + prod
# Make a grammar out of our productions
grammar = cfg.Grammar(O, productions)
rd_parser = parse.RecursiveDescentParser(grammar)
# Tokens need to be redefined.
# It disappears after first use, and I don't know why.
tokens = tokenize.regexp_tokenize(self.string, re_all)
toklist = list(tokens)
# Store the parsing.
# Only the first one, as the grammar should be completely nonambiguous.
try:
self.parseList = rd_parser.get_parse_list(toklist)[0]
except IndexError:
print "Could not parse query."
return
# Set the nltk.parse.tree tree for this query to the global sentence
string = str(self.parseList)
string2 = string.replace(":","").replace("')'","").replace("table(","").replace("','","").replace("'","").replace("/","")
self.nltktree = parse.tree.bracket_parse(string2)
# Store the resulting nltk.parse.tree tree
self.parseTree = QuerySentence(self.nltktree)
self.xml = self.parseTree.toXML()
