# -*- coding: utf-8 -*- # # Copyright 2013 - Mirantis, Inc. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import abc import re import yaql import six from mistral.openstack.common import log as logging LOG = logging.getLogger(__name__) class Evaluator(object): """Expression evaluator interface. Having this interface gives the flexibility to change the actual expression language used in Mistral DSL for conditions, output calculation etc. """ @classmethod @abc.abstractmethod def evaluate(cls, expression, context): """Evaluates the expression against the given data context. :param expression: Expression string :param context: Data context :return: Expression result """ pass @classmethod @abc.abstractmethod def is_expression(cls, expression): """ Check expression string and decide whether it is expression or not. :param expression: Expression string :return: True if string is expression """ pass class YAQLEvaluator(Evaluator): @classmethod def evaluate(cls, expression, context): LOG.debug("Evaluating YAQL expression [expression='%s', context=%s]" % (expression, context)) return yaql.parse(expression).evaluate(context) @classmethod def is_expression(cls, s): # TODO(rakhmerov): It should be generalized since it may not be YAQL. return s and s.startswith('$') class InlineYAQLEvaluator(YAQLEvaluator): # Put YAQL-specific regexp pattern here. # Use form {$.any_symbols_except'}'} to find an expression. find_expression_pattern = re.compile("\{\$\.*[^\}]*\}") @classmethod def evaluate(cls, expression, context): if super(InlineYAQLEvaluator, cls).is_expression(expression): return super(InlineYAQLEvaluator, cls).evaluate(expression, context) result = expression found_expressions = cls.find_inline_expressions(expression) if found_expressions: for expr in found_expressions: trim_expr = expr.strip("{}") evaluated = super(InlineYAQLEvaluator, cls).evaluate(trim_expr, context) replacement = str(evaluated) if evaluated else expr result = result.replace(expr, replacement) return result @classmethod def is_expression(cls, s): return s @classmethod def find_inline_expressions(cls, s): return cls.find_expression_pattern.findall(s) # TODO(rakhmerov): Make it configurable. _EVALUATOR = InlineYAQLEvaluator def evaluate(expression, context): # Check if the passed value is expression so we don't need to do this # every time on a caller side. if not isinstance(expression, six.string_types) or \ not _EVALUATOR.is_expression(expression): return expression return _EVALUATOR.evaluate(expression, context) def _evaluate_item(item, context): if isinstance(item, six.string_types): try: return evaluate(item, context) except AttributeError as e: LOG.debug("Expression %s is not evaluated, [context=%s]: %s" % (item, context, e)) return item else: return evaluate_recursively(item, context) def evaluate_recursively(data, context): if not context: return data if isinstance(data, dict): for key in data: data[key] = _evaluate_item(data[key], context) elif isinstance(data, list): for index, item in enumerate(data): data[index] = _evaluate_item(item, context) elif isinstance(data, six.string_types): return _evaluate_item(data, context) return data