Esempio n. 1
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    def visit_Assign(self, node: Assign):
        if hasattr(node, "value") and hasattr(node.value, "func") and hasattr(
                node.value.func,
                "id") and node.value.func.id == "NewType" and hasattr(
                    node, "value") and hasattr(node.value, "args") and len(
                        node.value.args) == 2:
            self.__type_graph.add_type_alias(
                parse_type_annotation_node(node.value.args[0]),
                parse_type_annotation_node(node.value.args[1]))

        # TODO: Type aliases are of the form Vector=List[float] how do we parse these?

        if node.type_comment is not None and len(node.targets) != 1:
            assert False

        for i, target in enumerate(node.targets):
            if isinstance(target, Attribute) or isinstance(target, Name):
                self.__visit_variable_like(
                    target,
                    target.lineno,
                    target.col_offset,
                    can_annotate_here=True,
                    type_annotation=parse_type_comment(node.type_comment)
                    if node.type_comment is not None else None)
            else:
                self.visit(target)
            if i > 0:
                self._add_edge(node.targets[i - 1], target, EdgeType.NEXT)

            self._add_edge(target, node.value, EdgeType.COMPUTED_FROM)
            if i < len(node.targets) - 1:
                self.add_terminal(TokenNode(','))

        self.add_terminal(TokenNode('='))
        self.visit(node.value)
Esempio n. 2
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 def visit_FormattedValue(self, node: FormattedValue):
     self.add_terminal(TokenNode(str('f"')))
     self.visit(node.value)
     if node.format_spec is not None:
         self.add_terminal(TokenNode(str(':')))
         self.visit(node.format_spec)
     self.add_terminal(TokenNode(str('"')))
Esempio n. 3
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 def visit_Raise(self, node: Raise):
     self._add_edge(node, self.__return_scope, EdgeType.RETURNS_TO)
     self.add_terminal(TokenNode('raise'))
     if node.exc is not None:
         self.visit(node.exc)
         if node.cause is not None:
             self.add_terminal(TokenNode('from'))
             self.visit(node.cause)
Esempio n. 4
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 def __sequence_datastruct_visit(self, node, open_brace: str,
                                 close_brace: str):
     self.add_terminal(TokenNode(open_brace))
     for idx, element in enumerate(node.elts):
         self.visit(element)
         self.add_terminal(
             TokenNode(',')
         )  # Always add , this is always correct and useful for len one tuples.
     self.add_terminal(TokenNode(close_brace))
Esempio n. 5
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    def visit_While(self, node: While):
        self.add_terminal(TokenNode('while'))
        self.visit(node.test)
        self.__visit_statement_block(node.body)

        if node.orelse is None:
            return
        self.add_terminal(TokenNode('else'))
        self.__visit_statement_block(node.orelse)
Esempio n. 6
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 def __visit_with(self, node: Union[With, AsyncWith], is_asyc: bool):
     # TODO: There is a type comment here! node.type_comment
     if is_asyc:
         self.add_terminal(TokenNode('async'))
     self.add_terminal(TokenNode('with'))
     for i, w_item in enumerate(node.items):
         self.visit(w_item)
         if i < len(node.items) - 1:
             self.add_terminal(TokenNode(','))
     self.__visit_statement_block(node.body)
Esempio n. 7
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    def visit_Lambda(self, node: Lambda):
        self.add_terminal(TokenNode('lambda'))

        try:
            self.__enter_child_symbol_table('function', 'lambda', node.lineno)
            self.visit(node.args)
            self.add_terminal(TokenNode(':'))
            self.visit(node.body)
            self.__scope_symtable.pop()
        except ValueError:
            pass  # In the rare case of nexted lambdas symtable acts odd...
Esempio n. 8
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 def visit_Slice(self, node):
     self.add_terminal(TokenNode('['))
     if node.lower is not None:
         self.visit(node.lower)
     self.add_terminal(TokenNode(':'))
     if node.upper is not None:
         self.visit(node.upper)
     if node.step is not None:
         self.add_terminal(TokenNode(':'))
         self.visit(node.step)
     self.add_terminal(TokenNode(']'))
Esempio n. 9
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 def visit_Dict(self, node):
     self.add_terminal(TokenNode('{'))
     for idx, (key, value) in enumerate(zip(node.keys, node.values)):
         if key is None:
             self.add_terminal(TokenNode('None'))
         else:
             self.visit(key)
         self.add_terminal(TokenNode(':'))
         self.visit(value)
         if idx < len(node.keys) - 1:
             self.add_terminal(TokenNode(','))
     self.add_terminal(TokenNode('}'))
Esempio n. 10
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    def __visit_statement_block(self, stmts: List):
        self.add_terminal(TokenNode(
            self.INDENT))  # Skip ":" since it is implied
        for i, statement in enumerate(stmts):
            self.visit(statement)
            if i < len(stmts) - 1:
                self.add_terminal(TokenNode(self.NLINE))
            if i > 0:
                self._add_edge(stmts[i - 1],
                               statement,
                               edge_type=EdgeType.NEXT)

        self.add_terminal(TokenNode(self.DEDENT))
Esempio n. 11
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    def __get_symbol_for_name(self, name, lineno, col_offset):
        if isinstance(name, str):
            node = TokenNode(name, lineno, col_offset)
            self.add_terminal(node)

            if self.__scope_symtable[-1].get_type(
            ) == 'class' and name.startswith('__') and not name.endswith('__'):
                name = '_' + self.__scope_symtable[-1].get_name() + name

            current_idx = len(self.__scope_symtable) - 1
            while current_idx >= 0:
                try:
                    symbol = self.__scope_symtable[current_idx].lookup(name)
                    break
                except KeyError:
                    current_idx -= 1
            else:
                logging.warning(
                    f'Symbol "{name}"@{lineno}:{col_offset} Not Found!')
                symbol = None
        else:
            node = name
            assert isinstance(node, Attribute)
            # Heuristic: create symbols only for attributes of the form X.Y and X.Y.Z
            self.visit(node.value)
            self.add_terminal(TokenNode('.', node.lineno, node.col_offset))
            self.add_terminal(
                TokenNode(node.attr, node.lineno, node.col_offset))
            if isinstance(node.value, Name):
                name = f'{node.value.id}.{node.attr}'
                symbol = StrSymbol(name)
            elif isinstance(node.value, Attribute) and isinstance(
                    node.value.value, Name):
                name = f'{node.value.value.id}.{node.value.attr}.{node.attr}'
                symbol = StrSymbol(name)
            else:
                symbol = None
        if isinstance(symbol, StrSymbol):
            symbol_type = 'variable'
        elif isinstance(symbol, Symbol):
            if symbol.is_namespace():
                symbol_type = 'class-or-function'
            elif symbol.is_parameter():
                symbol_type = 'parameter'
            elif symbol.is_imported():
                symbol_type = 'imported'
            else:
                symbol_type = 'variable'
        else:
            symbol_type = None
        return name, node, symbol, symbol_type
Esempio n. 12
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    def __visit_for(self, node, is_async: bool):
        if is_async:
            self.add_terminal(TokenNode('async'))
        self.add_terminal(TokenNode('for'))
        self.visit(node.target)
        self.add_terminal(TokenNode('in'))
        self.visit(node.iter)
        self._add_edge(node.target, node.iter, EdgeType.COMPUTED_FROM)

        self.__visit_statement_block(node.body)

        if node.orelse is not None:
            self.add_terminal(TokenNode('else'))
            self.__visit_statement_block(node.orelse)
Esempio n. 13
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    def visit_comprehension(self, node: comprehension):
        if node.is_async:
            self.add_terminal(TokenNode('async'))
        self.add_terminal(TokenNode('for'))
        self.visit(node.target)

        self.add_terminal(TokenNode('in'))
        inner_symtable = self.__scope_symtable.pop()
        self.visit(node.iter)
        self.__scope_symtable.append(inner_symtable)

        for if_ in node.ifs:
            self.add_terminal(TokenNode('if'))
            self.visit(if_)
Esempio n. 14
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    def visit_Try(self, node: Try):
        self.add_terminal(TokenNode('try'))
        self.__visit_statement_block(node.body)
        for i, exc_handler in enumerate(node.handlers):
            self.visit(exc_handler)
            if i > 0:
                self._add_edge(node.handlers[i - 1], exc_handler,
                               EdgeType.NEXT)

        if node.orelse:
            self.add_terminal(TokenNode('else'))
            self.__visit_statement_block(node.orelse)
        if node.finalbody:
            self.add_terminal(TokenNode('finally'))
            self.__visit_statement_block(node.finalbody)
Esempio n. 15
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 def visit_SetComp(self, node):
     self.__enter_child_symbol_table('function', 'setcomp', node.lineno)
     try:
         self.add_terminal(TokenNode('{'))
         self.visit(node.elt)
         for i, generator in enumerate(node.generators):
             if i > 0:
                 # When we have multiple generators, then the symbol table of the iter is in the setcomp symboltable.
                 # Reasonable, but I don't see any other
                 self.__scope_symtable.append(self.__scope_symtable[-1])
             self.visit(generator)
             if i > 0:
                 self.__scope_symtable.pop()
         self.add_terminal(TokenNode('}'))
     finally:
         self.__scope_symtable.pop()
Esempio n. 16
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 def visit_Nonlocal(self, node: Nonlocal):
     self.add_terminal(TokenNode('nonlocal'))
     for name in node.names:
         self.__visit_variable_like(name,
                                    node.lineno,
                                    node.col_offset,
                                    can_annotate_here=False)
Esempio n. 17
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    def __add_subtoken_of_edges(self):
        def is_identifier_node(n):
            if not isinstance(n, str) and not isinstance(n, TokenNode):
                return False
            if not self.IDENTIFER_REGEX.fullmatch(str(n)):
                return False
            if keyword.iskeyword(str(n)):
                return False
            if n == self.INDENT or n == self.DEDENT or n == self.NLINE:
                return False
            return True

        all_identifier_like_nodes: Set[TokenNode] = {
            n
            for n in self.__node_to_id if is_identifier_node(n)
        }
        subtoken_nodes: Dict[str, TokenNode] = {}

        for node in all_identifier_like_nodes:
            for subtoken in split_identifier_into_parts(str(node)):
                if subtoken == '_':
                    continue
                subtoken_dummy_node = subtoken_nodes.get(subtoken)
                if subtoken_dummy_node is None:
                    subtoken_dummy_node = TokenNode(subtoken)
                    subtoken_nodes[subtoken] = subtoken_dummy_node
                self._add_edge(subtoken_dummy_node, node, EdgeType.SUBTOKEN_OF)
Esempio n. 18
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    def visit_Call(self, node: Call):
        self.visit(node.func)
        self.add_terminal(TokenNode('('))
        num_args = len(node.args) + len(node.keywords)
        num_args_added = 0
        for arg in node.args:
            self.visit(arg)
            num_args_added += 1
            if num_args_added < num_args:
                self.add_terminal(TokenNode(','))

        for arg in node.keywords:
            self.visit(arg)
            num_args_added += 1
            if num_args_added < num_args:
                self.add_terminal(TokenNode(','))

        self.add_terminal(TokenNode(')'))
Esempio n. 19
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 def visit_ExceptHandler(self, node):
     self.add_terminal(TokenNode('except'))
     if node.type:
         self.visit(node.type)
         if node.name:
             self.__visit_variable_like(node.name,
                                        node.lineno,
                                        node.col_offset,
                                        can_annotate_here=False)
     self.__visit_statement_block(node.body)
Esempio n. 20
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    def visit_AugAssign(self, node: AugAssign):
        if isinstance(node.target, Name) or isinstance(node.target, Attribute):
            self.__visit_variable_like(node.target,
                                       node.lineno,
                                       node.col_offset,
                                       can_annotate_here=False)
        else:
            self.visit(node.target)
        self._add_edge(node.target, node.value, EdgeType.COMPUTED_FROM)

        self.add_terminal(TokenNode(self.BINOP_SYMBOLS[type(node.op)] + '='))
        self.visit(node.value)
Esempio n. 21
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    def visit_ClassDef(self, node):
        # Add class inheritance (if any)
        self.__type_graph.add_class(node.name, [
            self.__type_graph.canonicalize_annotation(
                parse_type_annotation_node(parent), self.__imported_symbols)
            for parent in node.bases
        ])
        if len(node.bases) == 0:
            self.__type_graph.add_class(node.name,
                                        [parse_type_annotation_node('object')])

        for decorator in node.decorator_list:
            self.add_terminal(TokenNode('@'))
            self.visit(decorator)

        self.add_terminal(TokenNode('class'))
        self.add_terminal(TokenNode(node.name, node.lineno, node.col_offset))
        if len(node.bases) > 0:
            self.add_terminal(TokenNode('('))
            for i, base in enumerate(node.bases):
                self.visit(base)
                if i < len(node.bases) - 1:
                    self.add_terminal(TokenNode(','))

            self.add_terminal(TokenNode(')'))

        self.__enter_child_symbol_table('class', node.name, node.lineno)
        try:
            self.__visit_statement_block(node.body)
        finally:
            self.__scope_symtable.pop()
Esempio n. 22
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    def visit_AnnAssign(self, node: AnnAssign):
        self.__visit_variable_like(node.target,
                                   node.target.lineno,
                                   node.target.col_offset,
                                   can_annotate_here=True,
                                   type_annotation=parse_type_annotation_node(
                                       node.annotation))

        if node.value is not None:
            self.add_terminal(TokenNode('='))
            self.visit(node.value)

        self._add_edge(node.target, node.value, EdgeType.COMPUTED_FROM)
Esempio n. 23
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    def __visit_function(self, node: Union[FunctionDef, AsyncFunctionDef],
                         is_async: bool):
        for decorator in node.decorator_list:
            self.add_terminal(TokenNode('@'))
            self.visit(decorator)

        if is_async:
            self.add_terminal(TokenNode('async'))
        self.add_terminal(TokenNode('def'))

        t = None
        if node.returns is not None:
            t = parse_type_annotation_node(node.returns)
        elif node.type_comment is not None and "->" in node.type_comment:
            # TODO: Add support for argument types
            t = node.type_comment
            t = t.split("->")[-1].strip()
            t = parse_type_comment(t)

        symbol_name = node.name
        self.__visit_variable_like(symbol_name,
                                   node.lineno,
                                   node.col_offset,
                                   can_annotate_here=True,
                                   type_annotation=t)

        old_return_scope = self.__return_scope
        self.__enter_child_symbol_table('function', node.name, node.lineno)
        try:

            self.add_terminal(TokenNode('('))
            self.visit(node.args)
            self.add_terminal(TokenNode(')'))

            self.__return_scope = node
            self.__visit_statement_block(node.body)
        finally:
            self.__return_scope = old_return_scope
            self.__scope_symtable.pop()
Esempio n. 24
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    def visit_arguments(self, node: arguments):
        defaults = [None
                    ] * (len(node.args) - len(node.defaults)) + node.defaults
        for i, (argument, default) in enumerate(zip(node.args, defaults)):
            self.visit(argument)
            if default is not None:
                self.add_terminal(TokenNode('='))
                inner_symtable = self.__scope_symtable.pop()
                self.visit(default)
                self.__scope_symtable.append(inner_symtable)
                self._add_edge(argument, default, EdgeType.COMPUTED_FROM)
            self.add_terminal(TokenNode(','))
            if i > 0:
                self._add_edge(node.args[i - 1], argument, EdgeType.NEXT)

        if node.vararg is not None:
            self.add_terminal(TokenNode('*'))
            self.visit(node.vararg)
            self.add_terminal(TokenNode(','))

        if node.kwarg is not None:
            self.add_terminal(TokenNode('**'))
            self.visit(node.kwarg)

        if len(node.kwonlyargs) > 0:
            self.add_terminal(TokenNode('*'))
            self.add_terminal(TokenNode(','))
            defaults = [None] * (len(node.kwonlyargs) -
                                 len(node.kw_defaults)) + node.kw_defaults
            for argument, default in zip(node.kwonlyargs, defaults):
                self.visit(argument)
                if default is not None:
                    self.add_terminal(TokenNode('='))
                    inner_symtable = self.__scope_symtable.pop()
                    self.visit(default)
                    self.__scope_symtable.append(inner_symtable)
                    self._add_edge(argument, default, EdgeType.COMPUTED_FROM)
                self.add_terminal(TokenNode(','))
Esempio n. 25
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 def visit_UnaryOp(self, node):
     op = self.UNARYOP_SYMBOLS[type(node.op)]
     self.add_terminal(TokenNode(op))
     self.visit(node.operand)
Esempio n. 26
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 def visit_Starred(self, node: Starred):
     self.add_terminal(TokenNode('*'))
     self.visit(node.value)
Esempio n. 27
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 def visit_Subscript(self, node: Subscript):
     self.visit(node.value)
     self.add_terminal(TokenNode('['))
     self.visit(node.slice)
     self.add_terminal(TokenNode(']'))
Esempio n. 28
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 def visit_Pass(self, node):
     self.add_terminal(TokenNode('pass'))
Esempio n. 29
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 def visit_ExtSlice(self, node: ExtSlice):
     for i, value in enumerate(node.dims):
         self.visit(value)
         if i < len(node.dims) - 1:
             self.add_terminal(TokenNode(','))
Esempio n. 30
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 def visit_Ellipsis(self, node):
     self.add_terminal(TokenNode('...'))