コード例 #1
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 def visit_callnode(self, node, context):
     """
     Visits the CallNode instance.
     :param node: The CallNode instance.
     :param context: The caller's context.
     :return: The resulting Node from the exec call.
     """
     args = []
     runtime_result = RuntimeResult()
     value_to_call = runtime_result.register(
         self.visit(node.node_to_call, context))
     if runtime_result.should_return():
         return runtime_result
     value_to_call = value_to_call.copy().set_position(
         node.start_pos, node.end_pos)
     for arg_node in node.arg_nodes:
         args.append(runtime_result.register(self.visit(arg_node, context)))
         if runtime_result.should_return():
             return runtime_result
     return_value = runtime_result.register(value_to_call.execute(args))
     if runtime_result.should_return():
         return runtime_result
     return_value = return_value.copy().set_position(
         node.start_pos, node.end_pos).set_context(context)
     return runtime_result.success(return_value)
コード例 #2
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 def visit_whilenode(self, node, context):
     """
     Visits the WhileNode for while-loops in the stream.
     :param node: Node of the while-loop.
     :param context: Context of the caller.
     :return: List of all evaluated results.
     """
     elements = []
     runtime_result = RuntimeResult()
     while True:
         condition = runtime_result.register(
             self.visit(node.condition, context))
         if runtime_result.should_return():
             return runtime_result
         if not condition.is_true():
             break
         current_value = runtime_result.register(
             self.visit(node.body_node, context))
         if runtime_result.should_return() \
                 and runtime_result.loop_should_continue is False \
                 and runtime_result.loop_should_break is False:
             return runtime_result
         if runtime_result.loop_should_continue:
             continue
         if runtime_result.loop_should_break:
             break
         elements.append(current_value)
     return runtime_result.success(
         Number(0) if node.should_return_null else List(elements).
         set_context(context).set_position(node.start_pos, node.end_pos))
コード例 #3
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 def visit_ifnode(self, node, context):
     """
     Accesses the IfNode instance in the stream.
     :param node: IfNode instance we wish to visit.
     :param context: Context of the caller.
     :return: Value of the if-statement, or None.
     """
     runtime_result = RuntimeResult()
     for condition, expr, should_return_null in node.cases:
         condition_value = runtime_result.register(
             self.visit(condition, context))
         if runtime_result.should_return():
             return runtime_result
         if condition_value.is_true():
             expr_value = runtime_result.register(self.visit(expr, context))
             if runtime_result.should_return():
                 return runtime_result
             return runtime_result.success(
                 Number(0) if should_return_null else expr_value)
     if node.else_case:
         expr, should_return_null = node.else_case
         expr_value = runtime_result.register(self.visit(expr, context))
         if runtime_result.should_return():
             return runtime_result
         return runtime_result.success(
             Number(0) if should_return_null else expr_value)
     return runtime_result.success(Number(0))
コード例 #4
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    def visit_fornode(self, node, context):
        """
        Visits the ForNode for for-loops in the stream.
        :param node: Node of the for-loop.
        :param context: Context of the caller.
        :return: List of evaluated values.
        """
        elements = []
        runtime_result = RuntimeResult()
        start_value = runtime_result.register(
            self.visit(node.start_value_node, context))
        if runtime_result.should_return():
            return runtime_result
        end_value = runtime_result.register(
            self.visit(node.end_value_node, context))
        if runtime_result.should_return():
            return runtime_result
        if node.step_value_node:
            step_value = runtime_result.register(
                self.visit(node.step_value_node, context))
            if runtime_result.should_return():
                return runtime_result
        else:  # Default to one iteration
            step_value = Number(1)

        # Note: PEP 8 doesn't allow for lambda expressions to be assigned to
        #       variables directly. They prefer a function definition. However, this
        #       is the cleanest way to do this. Code is read more often than it's
        #       written. This expression is easier to read and understand as an
        #       inline lambda assignment.
        index = start_value.value
        if step_value.value >= 0:
            condition = lambda: index < end_value.value
        else:  # Step value must be negative
            condition = lambda: index > end_value.value

        while condition():
            context.symbol_table.set(node.var_name_token.value, Number(index))
            index += step_value.value
            current_value = runtime_result.register(
                self.visit(node.body_node, context))
            if runtime_result.should_return() \
                    and runtime_result.loop_should_continue is False \
                    and runtime_result.loop_should_break is False:
                return runtime_result
            if runtime_result.loop_should_continue:
                continue
            if runtime_result.loop_should_break:
                break
            elements.append(current_value)
        return runtime_result.success(
            Number(0) if node.should_return_null else List(elements).
            set_context(context).set_position(node.start_pos, node.end_pos))
コード例 #5
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 def visit_binopnode(self, node, context):
     """
     Returns the result of the binary operation.
     :param node: Node which houses two children Nodes.
     :param context: Context of the caller.
     :return: Result of the binary operation on both child Nodes.
     """
     result, error = None, None
     runtime_result = RuntimeResult()
     left_node = runtime_result.register(self.visit(node.left_node,
                                                    context))
     right_node = runtime_result.register(
         self.visit(node.right_node, context))
     if runtime_result.should_return():
         return runtime_result
     if node.op_token.type == TP_PLUS:
         result, error = left_node.add_to(right_node)
     elif node.op_token.type == TP_MINUS:
         result, error = left_node.subtract_by(right_node)
     elif node.op_token.type == TP_POWER:
         result, error = left_node.power_by(right_node)
     elif node.op_token.type == TP_MUL:
         result, error = left_node.multiply_by(right_node)
     elif node.op_token.type == TP_DIV:
         result, error = left_node.divide_by(right_node)
     elif node.op_token.type == TP_MODULO:
         result, error = left_node.modulo_by(right_node)
     elif node.op_token.type == TP_CLEAN_DIV:
         result, error = left_node.divide_by(right_node, clean=True)
     elif node.op_token.type == TP_NE:
         result, error = left_node.get_comparison_ne(right_node)
     elif node.op_token.type == TP_EE:
         result, error = left_node.get_comparison_ee(right_node)
     elif node.op_token.type == TP_LT:
         result, error = left_node.get_comparison_lt(right_node)
     elif node.op_token.type == TP_LTE:
         result, error = left_node.get_comparison_lte(right_node)
     elif node.op_token.type == TP_GT:
         result, error = left_node.get_comparison_gt(right_node)
     elif node.op_token.type == TP_GTE:
         result, error = left_node.get_comparison_gte(right_node)
     elif node.op_token.matches(TP_KEYWORD, 'AND'):
         result, error = left_node.anded_by(right_node)
     elif node.op_token.matches(TP_KEYWORD, 'OR'):
         result, error = left_node.ored_by(right_node)
     if runtime_result.should_return():
         return runtime_result.failure(runtime_result)
     if error:
         return runtime_result.failure(error)
     return runtime_result.success(
         result.set_position(node.start_pos, node.end_pos))
コード例 #6
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 def execute(self, args):
     """
     Execute a Function instance.
     :param args: Arguments being passed into the Function.
     :return: Value of the executed Function.
     """
     runtime_result = RuntimeResult()
     interpreter = Interpreter()
     exec_context = self.generate_new_context()
     runtime_result.register(
         self.check_and_populate_args(self.arg_names, args, exec_context))
     if runtime_result.should_return():
         return runtime_result
     value = runtime_result.register(
         interpreter.visit(self.body_node, exec_context))
     if runtime_result.should_return(
     ) and runtime_result.func_return_value is None:
         return runtime_result
     return_value \
         = (value if self.should_auto_return else None) or runtime_result.func_return_value or Number(0)
     return runtime_result.success(return_value)
コード例 #7
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 def visit_varassignnode(self, node, context):
     """
     Assigns the value of variables in the stream.
     :param node: Node of a variable to assign.
     :param context: Context of the caller.
     :return: Value of the variable.
     """
     runtime_result = RuntimeResult()
     var_name = node.var_name.value
     var_value = runtime_result.register(
         self.visit(node.value_node, context))
     if runtime_result.should_return():
         return runtime_result
     context.symbol_table.set(var_name, var_value)
     return runtime_result.success(var_value)
コード例 #8
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 def visit_returnnode(self, node, context):
     """
     Visits the ReturnNode instance.
     :param node: The ReturnNode instance.
     :param context: The caller's context.
     :return: Value of the ReturnNode instance.
     """
     runtime_result = RuntimeResult()
     if node.node_to_return:
         value = runtime_result.register(
             self.visit(node.node_to_return, context))
         if runtime_result.should_return():
             return runtime_result
     else:
         value = Number(0)
     return runtime_result.success_return(value)
コード例 #9
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 def visit_listnode(self, node, context):
     """
     Visits the ListNode instance.
     :param node:  The ListNode instance.
     :param context: The caller's context.
     :return: List instance with all values.
     """
     elements = []
     runtime_result = RuntimeResult()
     for element_node in node.element_nodes:
         elements.append(
             runtime_result.register(self.visit(element_node, context)))
         if runtime_result.should_return():
             return runtime_result
     return runtime_result.success(
         List(elements).set_context(context).set_position(
             node.start_pos, node.end_pos))
コード例 #10
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 def visit_unaryopnode(self, node, context):
     """
     Returns result of the unary operator on the node.
     :param node: Node with which to perform a unary operation.
     :param context: Context of the caller.
     :return: Result of the unary operation on the node.
     """
     error = None
     runtime_result = RuntimeResult()
     number = runtime_result.register(self.visit(node.right_node, context))
     if runtime_result.should_return():
         return runtime_result
     if node.op_token.type == TP_MINUS:
         number, error = number.multiply_by(Number(-1))
     elif node.op_token.matches(TP_KEYWORD, 'NOT'):
         number, error = number.notted()
     if error:
         return runtime_result.failure(error)
     return runtime_result.success(
         number.set_position(node.start_pos, node.end_pos))