# Copyright (c) 2014 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 types from murano.dsl import constants from murano.dsl import dsl_exception from murano.dsl import exceptions from murano.dsl import expressions from murano.dsl import helpers from murano.dsl import yaql_expression class CodeBlock(expressions.DslExpression): def __init__(self, body): if not isinstance(body, types.ListType): body = [body] self.code_block = map(expressions.parse_expression, body) def execute(self, context): for expr in self.code_block: if hasattr(expr, 'virtual_instruction'): instruction = expr.virtual_instruction context[constants.CTX_CURRENT_INSTRUCTION] = instruction try: expr.execute(context) except (dsl_exception.MuranoPlException, exceptions.InternalFlowException): raise except Exception as ex: raise dsl_exception.MuranoPlException.from_python_exception( ex, context) class MethodBlock(CodeBlock): def __init__(self, body, name=None): super(MethodBlock, self).__init__(body) self._name = name def execute(self, context): new_context = context.create_child_context() new_context[constants.CTX_VARIABLE_SCOPE] = True try: super(MethodBlock, self).execute(new_context) except exceptions.ReturnException as e: return e.value except exceptions.BreakException: raise exceptions.DslInvalidOperationError( 'Break cannot be used on method level') except exceptions.ContinueException: raise exceptions.DslInvalidOperationError( 'Continue cannot be used on method level') else: return None class ReturnMacro(expressions.DslExpression): def __init__(self, Return): self._value = Return def execute(self, context): raise exceptions.ReturnException( helpers.evaluate(self._value, context)) class BreakMacro(expressions.DslExpression): def __init__(self, Break): if Break: raise exceptions.DslSyntaxError('Break cannot have value') def execute(self, context): raise exceptions.BreakException() class ContinueMacro(expressions.DslExpression): def __init__(self, Continue): if Continue: raise exceptions.DslSyntaxError('Continue cannot have value') def execute(self, context): raise exceptions.ContinueException() class ParallelMacro(CodeBlock): def __init__(self, Parallel, Limit=None): super(ParallelMacro, self).__init__(Parallel) self._limit = Limit or len(self.code_block) def execute(self, context): if not self.code_block: return limit = helpers.evaluate(self._limit, context) helpers.parallel_select( self.code_block, lambda expr: expr.execute(context.create_child_context()), limit) class IfMacro(expressions.DslExpression): def __init__(self, If, Then, Else=None): self._code1 = CodeBlock(Then) self._code2 = None if Else is None else CodeBlock(Else) self._condition = If def execute(self, context): if helpers.evaluate(self._condition, context): self._code1.execute(context) elif self._code2 is not None: self._code2.execute(context) class WhileDoMacro(expressions.DslExpression): def __init__(self, While, Do): if not isinstance(While, yaql_expression.YaqlExpression): raise TypeError() self._code = CodeBlock(Do) self._condition = While def execute(self, context): while self._condition(context): try: self._code.execute(context) except exceptions.BreakException: break except exceptions.ContinueException: continue class ForMacro(expressions.DslExpression): def __init__(self, For, In, Do): if not isinstance(For, types.StringTypes): raise exceptions.DslSyntaxError( 'For value must be of string type') self._code = CodeBlock(Do) self._var = For self._collection = In def execute(self, context): collection = helpers.evaluate(self._collection, context) for t in collection: context[self._var] = t try: self._code.execute(context) except exceptions.BreakException: break except exceptions.ContinueException: continue class RepeatMacro(expressions.DslExpression): def __init__(self, Repeat, Do): if not isinstance(Repeat, (int, yaql_expression.YaqlExpression)): raise exceptions.DslSyntaxError( 'Repeat value must be either int or expression') self._count = Repeat self._code = CodeBlock(Do) def execute(self, context): count = helpers.evaluate(self._count, context) for _ in range(0, count): try: self._code.execute(context) except exceptions.BreakException: break except exceptions.ContinueException: continue class MatchMacro(expressions.DslExpression): def __init__(self, Match, Value, Default=None): if not isinstance(Match, types.DictionaryType): raise exceptions.DslSyntaxError( 'Match value must be of dictionary type') self._switch = Match self._value = Value self._default = None if Default is None else CodeBlock(Default) def execute(self, context): match_value = helpers.evaluate(self._value, context) for key, value in self._switch.iteritems(): if key == match_value: CodeBlock(value).execute(context) return if self._default is not None: self._default.execute(context) class SwitchMacro(expressions.DslExpression): def __init__(self, Switch, Default=None): if not isinstance(Switch, types.DictionaryType): raise exceptions.DslSyntaxError( 'Switch value must be of dictionary type') self._switch = Switch self._default = None if Default is None else CodeBlock(Default) def execute(self, context): matched = False for key, value in self._switch.iteritems(): if helpers.evaluate(key, context): matched = True CodeBlock(value).execute(context) if self._default is not None and not matched: self._default.execute(context) class DoMacro(expressions.DslExpression): def __init__(self, Do): self._code = CodeBlock(Do) def execute(self, context): self._code.execute(context) def register(): expressions.register_macro(DoMacro) expressions.register_macro(ReturnMacro) expressions.register_macro(BreakMacro) expressions.register_macro(ContinueMacro) expressions.register_macro(ParallelMacro) expressions.register_macro(IfMacro) expressions.register_macro(WhileDoMacro) expressions.register_macro(ForMacro) expressions.register_macro(RepeatMacro) expressions.register_macro(MatchMacro) expressions.register_macro(SwitchMacro)