import re from ._regexes import ( _ind, STRING_LITERAL, VAR_DECL as _VAR_DECL, ) def log_match(group, m): from . import _logger _logger.debug(f'matched <{group}> ({m.group(0)})') ############################# # regex utils def set_capture_group(pattern, group, *, strict=True): old = f'(?: # <{group}>' if strict and f'(?: # <{group}>' not in pattern: raise ValueError(f'{old!r} not found in pattern') return pattern.replace(old, f'( # <{group}>', 1) def set_capture_groups(pattern, groups, *, strict=True): for group in groups: pattern = set_capture_group(pattern, group, strict=strict) return pattern ############################# # syntax-related utils _PAREN_RE = re.compile(rf''' (?: (?: [^'"()]* {_ind(STRING_LITERAL, 3)} )* [^'"()]* (?: ( [(] ) | ( [)] ) ) ) ''', re.VERBOSE) def match_paren(text, depth=0): pos = 0 while (m := _PAREN_RE.match(text, pos)): pos = m.end() _open, _close = m.groups() if _open: depth += 1 else: # _close depth -= 1 if depth == 0: return pos else: raise ValueError(f'could not find matching parens for {text!r}') VAR_DECL = set_capture_groups(_VAR_DECL, ( 'STORAGE', 'TYPE_QUAL', 'TYPE_SPEC', 'DECLARATOR', 'IDENTIFIER', 'WRAPPED_IDENTIFIER', 'FUNC_IDENTIFIER', )) def parse_var_decl(decl): m = re.match(VAR_DECL, decl, re.VERBOSE) (storage, typequal, typespec, declarator, name, wrappedname, funcptrname, ) = m.groups() if name: kind = 'simple' elif wrappedname: kind = 'wrapped' name = wrappedname elif funcptrname: kind = 'funcptr' name = funcptrname else: raise NotImplementedError abstract = declarator.replace(name, '') vartype = { 'storage': storage, 'typequal': typequal, 'typespec': typespec, 'abstract': abstract, } return (kind, name, vartype) ############################# # parser state utils # XXX Drop this or use it! def iter_results(results): if not results: return if callable(results): results = results() for result, text in results(): if result: yield result, text