def _TwoArgs(argv):
"""Returns an expression tree to be evaluated."""
a0, a1 = argv
if a0 == '!':
return ast.LogicalNot(_StringWordTest(a1))
unary_id = _UNARY_LOOKUP.get(a0)
if unary_id is None:
# TODO:
# - syntax error
# - separate lookup by unary
util.p_die('Expected unary operator, got %r', a0)
child = ast.StringWord(Id.Word_Compound, a1)
return ast.BoolUnary(unary_id, child)
def ParseFactor(self):
"""
Factor : WORD
| UNARY_OP WORD
| WORD BINARY_OP WORD
| '(' Expr ')'
"""
#print('ParseFactor %s %s' % (self.b_kind, IdName(self.op_id)))
if self.b_kind == Kind.BoolUnary:
# Just save the type and not the token itself?
op = self.op_id
if not self._Next(): return None
w = self.cur_word
if not self._Next(): return None
node = ast.BoolUnary(op, w)
return node
if self.b_kind == Kind.Word:
# Peek ahead another token.
t2 = self._LookAhead()
t2_op_id = word.BoolId(t2)
t2_b_kind = LookupKind(t2_op_id)
# Redir PUN for < and >
if t2_b_kind in (Kind.BoolBinary, Kind.Redir):
left = self.cur_word
if not self._Next(): return None
op = self.op_id
# TODO: Need to change to LexMode.BASH_REGEX.
# _Next(lex_mode) then?
is_regex = t2_op_id == Id.BoolBinary_EqualTilde
if is_regex:
if not self._Next(lex_mode=LexMode.BASH_REGEX): return None
else:
if not self._Next(): return None
right = self.cur_word
if is_regex:
ok, regex_str, unused_quoted = word.StaticEval(right)
# doesn't contain $foo, etc.
if ok and not libc.regex_parse(regex_str):
self.AddErrorContext("Invalid regex: %r" % regex_str,
word=right)
return None
if not self._Next(): return None
return ast.BoolBinary(op, left, right)
else:
# [[ foo ]]
w = self.cur_word
if not self._Next(): return None
return ast.WordTest(w)
if self.op_id == Id.Op_LParen:
if not self._Next(): return None
node = self.ParseExpr()
if self.op_id != Id.Op_RParen:
raise RuntimeError("Expected ), got %s", self.cur_word)
if not self._Next(): return None
return node
# TODO: A proper error, e.g. for "&&"
raise AssertionError("Unexpected token: %s" % self.cur_word)
def ParseFactor(self):
"""
Factor : WORD
| UNARY_OP WORD
| WORD BINARY_OP WORD
| '(' Expr ')'
"""
if self.b_kind == Kind.BoolUnary:
# Just save the type and not the token itself?
op = self.op_id
if not self._Next(): return None
w = self.cur_word
if not self._Next(): return None
node = ast.BoolUnary(op, w)
return node
if self.b_kind == Kind.Word:
# Peek ahead another token.
t2 = self._LookAhead()
t2_op_id = word.BoolId(t2)
t2_b_kind = LookupKind(t2_op_id)
#log('t2 %s / t2_op_id %s / t2_b_kind %s', t2, t2_op_id, t2_b_kind)
# Redir pun for < and >, -a and -o pun
if t2_b_kind in (Kind.BoolBinary, Kind.Redir):
left = self.cur_word
if not self._Next(): return None
op = self.op_id
# TODO: Need to change to lex_mode_e.BASH_REGEX.
# _Next(lex_mode) then?
is_regex = t2_op_id == Id.BoolBinary_EqualTilde
if is_regex:
if not self._Next(lex_mode=lex_mode_e.BASH_REGEX):
return None
else:
if not self._Next(): return None
right = self.cur_word
if is_regex:
# TODO: Quoted parts need to be regex-escaped, e.g. [[ $a =~ "{" ]].
# I don't think libc has a function to do this. Escape these
# characters:
# https://www.gnu.org/software/sed/manual/html_node/ERE-syntax.html0
ok, regex_str, unused_quoted = word.StaticEval(right)
# doesn't contain $foo, etc.
if ok and not libc.regex_parse(regex_str):
self.AddErrorContext("Invalid regex: %r" % regex_str,
word=right)
return None
if not self._Next(): return None
return ast.BoolBinary(op, left, right)
else:
# [[ foo ]]
w = self.cur_word
if not self._Next(): return None
return ast.WordTest(w)
if self.op_id == Id.Op_LParen:
if not self._Next(): return None
node = self.ParseExpr()
if self.op_id != Id.Op_RParen:
self.AddErrorContext("Expected ), got %s",
self.cur_word,
word=self.cur_word)
return None
if not self._Next(): return None
return node
# TODO: A proper error, e.g. for [[ && ]] or [[ ]]
self.AddErrorContext("Unexpected token: %s" % self.cur_word,
word=self.cur_word)
return None