import argparse import csv import os import sys import clang.cindex # pylint: disable=import-error from clang.cindex import CursorKind, LinkageKind, StorageClass, TypeKind # pylint: disable=import-error try: from tqdm import tqdm except ImportError: def tqdm(it, *_args, **_kwargs): return it def traverse_namespaced(root, filter_files=None, skip_namespaces=1, namespace=()): if root.location.file is not None and root.location.file.name not in filter_files: return yield namespace, root if root.displayname != "": if skip_namespaces > 0: skip_namespaces -= 1 else: namespace += (root.spelling,) for node in root.get_children(): yield from traverse_namespaced(node, filter_files, skip_namespaces, namespace) INTERESTING_NODE_KINDS = { CursorKind.CLASS_DECL: "class", CursorKind.CLASS_TEMPLATE: "class", CursorKind.ENUM_DECL: "enum", CursorKind.ENUM_CONSTANT_DECL: "enum_constant", CursorKind.FIELD_DECL: "variable", CursorKind.PARM_DECL: "variable", CursorKind.STRUCT_DECL: "struct", CursorKind.UNION_DECL: "union", CursorKind.VAR_DECL: "variable", CursorKind.FUNCTION_DECL: "function", } def is_array_type(typ): return typ.kind in (TypeKind.CONSTANTARRAY, TypeKind.DEPENDENTSIZEDARRAY, TypeKind.INCOMPLETEARRAY) def get_complex_type(typ): if typ.spelling in ("IOHANDLE", "LOCK"): return "" if typ.kind == TypeKind.AUTO: return get_complex_type(typ.get_canonical()) if typ.kind == TypeKind.LVALUEREFERENCE: return get_complex_type(typ.get_pointee()) if typ.kind == TypeKind.POINTER: return "p" + get_complex_type(typ.get_pointee()) if is_array_type(type): return "a" + get_complex_type(typ.element_type) if typ.kind == TypeKind.FUNCTIONPROTO: return "fn" if typ.kind == TypeKind.TYPEDEF: return get_complex_type(typ.get_declaration().underlying_typedef_type) if typ.kind == TypeKind.ELABORATED: return get_complex_type(typ.get_named_type()) if typ.kind in (TypeKind.UNEXPOSED, TypeKind.RECORD): if typ.get_declaration().spelling in "shared_ptr unique_ptr".split(): return "p" + get_complex_type(typ.get_template_argument_type(0)) if typ.get_declaration().spelling in "array sorted_array".split(): return "a" + get_complex_type(typ.get_template_argument_type(0)) return "" def is_static_member_definition_hack(node): last_colons = False for t in node.get_tokens(): t = t.spelling if t == "::": last_colons = True elif last_colons: if t.startswith("ms_"): return True last_colons = False if t == "=": return False return False def is_const(typ): if typ.is_const_qualified(): return True if is_array_type(type): return is_const(typ.element_type) return False class ParseError(RuntimeError): pass def process_source_file(out, file, extra_args, break_on): args = extra_args + ["-Isrc"] if file.endswith(".c"): header = f"{file[:-2]}.h" elif file.endswith(".cpp"): header = f"{file[:-4]}.h" else: raise ValueError(f"unrecognized source file: {file}") index = clang.cindex.Index.create() unit = index.parse(file, args=args) errors = list(unit.diagnostics) if errors: for error in errors: print(f"{file}: {error.format()}", file=sys.stderr) print(args, file=sys.stderr) raise ParseError(f"failed parsing {file}") filter_files = frozenset([file, header]) for namespace, node in traverse_namespaced(unit.cursor, filter_files=filter_files): cur_file = None if node.location.file is not None: cur_file = node.location.file.name if cur_file is None or cur_file not in (file, header): continue if node.kind in INTERESTING_NODE_KINDS and node.spelling: typ = get_complex_type(node.type) qualifiers = "" if INTERESTING_NODE_KINDS[node.kind] in {"variable", "function"}: is_member = node.semantic_parent.kind in {CursorKind.CLASS_DECL, CursorKind.CLASS_TEMPLATE, CursorKind.STRUCT_DECL, CursorKind.UNION_DECL} is_static = node.storage_class == StorageClass.STATIC or is_static_member_definition_hack(node) if is_static: qualifiers = "s" + qualifiers if is_member: qualifiers = "m" + qualifiers if is_static and not is_member and is_const(node.type): qualifiers = "c" + qualifiers if node.linkage == LinkageKind.EXTERNAL and not is_member: qualifiers = "g" + qualifiers out.writerow({ "file": cur_file, "line": node.location.line, "column": node.location.column, "kind": INTERESTING_NODE_KINDS[node.kind], "path": "::".join(namespace), "qualifiers": qualifiers, "type": typ, "name": node.spelling, }) if node.spelling == break_on: breakpoint() # pylint: disable=forgotten-debug-statement def main(): p = argparse.ArgumentParser(description="Extracts identifier data from a Teeworlds source file and its header, outputting the data as CSV to stdout") p.add_argument("file", metavar="FILE", nargs="+", help="Source file to analyze") p.add_argument("--break-on", help="Break on a specific variable name, useful to debug issues with the script") args = p.parse_args() extra_args = [] if "CXXFLAGS" in os.environ: extra_args = os.environ["CXXFLAGS"].split() out = csv.DictWriter(sys.stdout, "file line column kind path qualifiers type name".split()) out.writeheader() files = args.file if len(files) > 1: files = tqdm(files, leave=False) error = False for file in files: try: process_source_file(out, file, extra_args, args.break_on) except ParseError: error = True return int(error) if __name__ == "__main__": sys.exit(main())