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-
- from ..utils import bfs, fzset, classify
- from ..common import GrammarError, is_terminal
- from ..grammar import Rule
-
-
- class RulePtr(object):
- def __init__(self, rule, index):
- assert isinstance(rule, Rule)
- assert index <= len(rule.expansion)
- self.rule = rule
- self.index = index
-
- def __repr__(self):
- before = self.rule.expansion[:self.index]
- after = self.rule.expansion[self.index:]
- return '<%s : %s * %s>' % (self.rule.origin, ' '.join(before), ' '.join(after))
-
- @property
- def next(self):
- return self.rule.expansion[self.index]
-
- def advance(self, sym):
- assert self.next == sym
- return RulePtr(self.rule, self.index+1)
-
- @property
- def is_satisfied(self):
- return self.index == len(self.rule.expansion)
-
- def __eq__(self, other):
- return self.rule == other.rule and self.index == other.index
- def __hash__(self):
- return hash((self.rule, self.index))
-
-
- def update_set(set1, set2):
- copy = set(set1)
- set1 |= set2
- return set1 != copy
-
- def calculate_sets(rules):
- """Calculate FOLLOW sets.
-
- Adapted from: http://lara.epfl.ch/w/cc09:algorithm_for_first_and_follow_sets"""
- symbols = {sym for rule in rules for sym in rule.expansion} | {rule.origin for rule in rules}
-
- # foreach grammar rule X ::= Y(1) ... Y(k)
- # if k=0 or {Y(1),...,Y(k)} subset of NULLABLE then
- # NULLABLE = NULLABLE union {X}
- # for i = 1 to k
- # if i=1 or {Y(1),...,Y(i-1)} subset of NULLABLE then
- # FIRST(X) = FIRST(X) union FIRST(Y(i))
- # for j = i+1 to k
- # if i=k or {Y(i+1),...Y(k)} subset of NULLABLE then
- # FOLLOW(Y(i)) = FOLLOW(Y(i)) union FOLLOW(X)
- # if i+1=j or {Y(i+1),...,Y(j-1)} subset of NULLABLE then
- # FOLLOW(Y(i)) = FOLLOW(Y(i)) union FIRST(Y(j))
- # until none of NULLABLE,FIRST,FOLLOW changed in last iteration
-
- NULLABLE = set()
- FIRST = {}
- FOLLOW = {}
- for sym in symbols:
- FIRST[sym]={sym} if is_terminal(sym) else set()
- FOLLOW[sym]=set()
-
- # Calculate NULLABLE and FIRST
- changed = True
- while changed:
- changed = False
-
- for rule in rules:
- if set(rule.expansion) <= NULLABLE:
- if update_set(NULLABLE, {rule.origin}):
- changed = True
-
- for i, sym in enumerate(rule.expansion):
- if set(rule.expansion[:i]) <= NULLABLE:
- if update_set(FIRST[rule.origin], FIRST[sym]):
- changed = True
-
- # Calculate FOLLOW
- changed = True
- while changed:
- changed = False
-
- for rule in rules:
- for i, sym in enumerate(rule.expansion):
- if i==len(rule.expansion)-1 or set(rule.expansion[i:]) <= NULLABLE:
- if update_set(FOLLOW[sym], FOLLOW[rule.origin]):
- changed = True
-
- for j in range(i+1, len(rule.expansion)):
- if set(rule.expansion[i+1:j]) <= NULLABLE:
- if update_set(FOLLOW[sym], FIRST[rule.expansion[j]]):
- changed = True
-
- return FIRST, FOLLOW, NULLABLE
-
-
- class GrammarAnalyzer(object):
- def __init__(self, parser_conf, debug=False):
- self.debug = debug
-
- rules = parser_conf.rules + [Rule('$root', [parser_conf.start, '$END'])]
- self.rules_by_origin = classify(rules, lambda r: r.origin)
-
- assert len(rules) == len(set(rules))
- for r in rules:
- for sym in r.expansion:
- if not (is_terminal(sym) or sym in self.rules_by_origin):
- raise GrammarError("Using an undefined rule: %s" % sym) # TODO test validation
-
- self.start_state = self.expand_rule('$root')
-
- self.FIRST, self.FOLLOW, self.NULLABLE = calculate_sets(rules)
-
- def expand_rule(self, rule):
- "Returns all init_ptrs accessible by rule (recursive)"
- init_ptrs = set()
- def _expand_rule(rule):
- assert not is_terminal(rule), rule
-
- for r in self.rules_by_origin[rule]:
- init_ptr = RulePtr(r, 0)
- init_ptrs.add(init_ptr)
-
- if r.expansion: # if not empty rule
- new_r = init_ptr.next
- if not is_terminal(new_r):
- yield new_r
-
- _ = list(bfs([rule], _expand_rule))
-
- return fzset(init_ptrs)
-
- def _first(self, r):
- if is_terminal(r):
- return {r}
- else:
- return {rp.next for rp in self.expand_rule(r) if is_terminal(rp.next)}
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