import os.path from c_common import fsutil from c_common.clsutil import classonly import c_common.misc as _misc from c_parser.info import ( KIND, HighlevelParsedItem, Declaration, TypeDeclaration, ) from c_parser.match import ( is_type_decl, ) IGNORED = _misc.Labeled('IGNORED') UNKNOWN = _misc.Labeled('UNKNOWN') class SystemType(TypeDeclaration): def __init__(self, name): super().__init__(None, name, None, None, _shortkey=name) class Analyzed: _locked = False @classonly def is_target(cls, raw): if isinstance(raw, HighlevelParsedItem): return True else: return False @classonly def from_raw(cls, raw, **extra): if isinstance(raw, cls): if extra: # XXX ? raise NotImplementedError((raw, extra)) #return cls(raw.item, raw.typedecl, **raw._extra, **extra) else: return info elif cls.is_target(raw): return cls(raw, **extra) else: raise NotImplementedError((raw, extra)) @classonly def from_resolved(cls, item, resolved, **extra): if isinstance(resolved, TypeDeclaration): return cls(item, typedecl=resolved, **extra) else: typedeps, extra = cls._parse_raw_resolved(item, resolved, extra) if item.kind is KIND.ENUM: if typedeps: raise NotImplementedError((item, resolved, extra)) elif not typedeps: raise NotImplementedError((item, resolved, extra)) return cls(item, typedeps, **extra or {}) @classonly def _parse_raw_resolved(cls, item, resolved, extra_extra): if resolved in (UNKNOWN, IGNORED): return resolved, None try: typedeps, extra = resolved except (TypeError, ValueError): typedeps = extra = None if extra: # The resolved data takes precedence. extra = dict(extra_extra, **extra) if isinstance(typedeps, TypeDeclaration): return typedeps, extra elif typedeps in (None, UNKNOWN): # It is still effectively unresolved. return UNKNOWN, extra elif None in typedeps or UNKNOWN in typedeps: # It is still effectively unresolved. return typedeps, extra elif any(not isinstance(td, TypeDeclaration) for td in typedeps): raise NotImplementedError((item, typedeps, extra)) return typedeps, extra def __init__(self, item, typedecl=None, **extra): assert item is not None self.item = item if typedecl in (UNKNOWN, IGNORED): pass elif item.kind is KIND.STRUCT or item.kind is KIND.UNION: if isinstance(typedecl, TypeDeclaration): raise NotImplementedError(item, typedecl) elif typedecl is None: typedecl = UNKNOWN else: typedecl = [UNKNOWN if d is None else d for d in typedecl] elif typedecl is None: typedecl = UNKNOWN elif typedecl and not isinstance(typedecl, TypeDeclaration): # All the other decls have a single type decl. typedecl, = typedecl if typedecl is None: typedecl = UNKNOWN self.typedecl = typedecl self._extra = extra self._locked = True self._validate() def _validate(self): item = self.item extra = self._extra # Check item. if not isinstance(item, HighlevelParsedItem): raise ValueError(f'"item" must be a high-level parsed item, got {item!r}') # Check extra. for key, value in extra.items(): if key.startswith('_'): raise ValueError(f'extra items starting with {"_"!r} not allowed, got {extra!r}') if hasattr(item, key) and not callable(getattr(item, key)): raise ValueError(f'extra cannot override item, got {value!r} for key {key!r}') def __repr__(self): kwargs = [ f'item={self.item!r}', f'typedecl={self.typedecl!r}', *(f'{k}={v!r}' for k, v in self._extra.items()) ] return f'{type(self).__name__}({", ".join(kwargs)})' def __str__(self): try: return self._str except AttributeError: self._str, = self.render('line') return self._str def __hash__(self): return hash(self.item) def __eq__(self, other): if isinstance(other, Analyzed): return self.item == other.item elif isinstance(other, HighlevelParsedItem): return self.item == other elif type(other) is tuple: return self.item == other else: return NotImplemented def __gt__(self, other): if isinstance(other, Analyzed): return self.item > other.item elif isinstance(other, HighlevelParsedItem): return self.item > other elif type(other) is tuple: return self.item > other else: return NotImplemented def __dir__(self): names = set(super().__dir__()) names.update(self._extra) names.remove('_locked') return sorted(names) def __getattr__(self, name): if name.startswith('_'): raise AttributeError(name) # The item takes precedence over the extra data (except if callable). try: value = getattr(self.item, name) if callable(value): raise AttributeError(name) except AttributeError: try: value = self._extra[name] except KeyError: pass else: # Speed things up the next time. self.__dict__[name] = value return value raise # re-raise else: return value def __setattr__(self, name, value): if self._locked and name != '_str': raise AttributeError(f'readonly ({name})') super().__setattr__(name, value) def __delattr__(self, name): if self._locked: raise AttributeError(f'readonly ({name})') super().__delattr__(name) @property def decl(self): if not isinstance(self.item, Declaration): raise AttributeError('decl') return self.item @property def signature(self): # XXX vartype... ... @property def istype(self): return is_type_decl(self.item.kind) @property def is_known(self): if self.typedecl in (UNKNOWN, IGNORED): return False elif isinstance(self.typedecl, TypeDeclaration): return True else: return UNKNOWN not in self.typedecl def fix_filename(self, relroot=fsutil.USE_CWD, **kwargs): self.item.fix_filename(relroot, **kwargs) return self def as_rowdata(self, columns=None): # XXX finish! return self.item.as_rowdata(columns) def render_rowdata(self, columns=None): # XXX finish! return self.item.render_rowdata(columns) def render(self, fmt='line', *, itemonly=False): if fmt == 'raw': yield repr(self) return rendered = self.item.render(fmt) if itemonly or not self._extra: yield from rendered return extra = self._render_extra(fmt) if not extra: yield from rendered elif fmt in ('brief', 'line'): rendered, = rendered extra, = extra yield f'{rendered}\t{extra}' elif fmt == 'summary': raise NotImplementedError(fmt) elif fmt == 'full': yield from rendered for line in extra: yield f'\t{line}' else: raise NotImplementedError(fmt) def _render_extra(self, fmt): if fmt in ('brief', 'line'): yield str(self._extra) else: raise NotImplementedError(fmt) class Analysis: _item_class = Analyzed @classonly def build_item(cls, info, resolved=None, **extra): if resolved is None: return cls._item_class.from_raw(info, **extra) else: return cls._item_class.from_resolved(info, resolved, **extra) @classmethod def from_results(cls, results): self = cls() for info, resolved in results: self._add_result(info, resolved) return self def __init__(self, items=None): self._analyzed = {type(self).build_item(item): None for item in items or ()} def __repr__(self): return f'{type(self).__name__}({list(self._analyzed.keys())})' def __iter__(self): #yield from self.types #yield from self.functions #yield from self.variables yield from self._analyzed def __len__(self): return len(self._analyzed) def __getitem__(self, key): if type(key) is int: for i, val in enumerate(self._analyzed): if i == key: return val else: raise IndexError(key) else: return self._analyzed[key] def fix_filenames(self, relroot=fsutil.USE_CWD, **kwargs): if relroot and relroot is not fsutil.USE_CWD: relroot = os.path.abspath(relroot) for item in self._analyzed: item.fix_filename(relroot, fixroot=False, **kwargs) def _add_result(self, info, resolved): analyzed = type(self).build_item(info, resolved) self._analyzed[analyzed] = None return analyzed