private string generateExecCounterNode(string nidSwitchActivity) { var sb = new StringBuilder(); var nSteps = from a in _activities select a.Behavior.StepTimings.Count(); sb.AppendFormat("const step = [{0}];\n", string.Join(", ", nSteps)); sb.Append(@" let currActivity = global.get('currActivity') || 1; let currStep = global.get('currStep') || 0; // for the first execution. // Increment the counter. ++currStep; // Check if the task is over. if (currActivity === 1 + step.length) { return msg; } if (step[currActivity - 1] < currStep) { ++currActivity; currStep = 1; } global.set('currActivity', currActivity); global.set('currStep', currStep); return msg; "); var node = new NRFunctionNode(sb.ToString()); node.Wire(nidSwitchActivity); node.WriteTo(_writer); return(node.Id); }
private void generateParallelFlow(ParallelTiming timing, NRFunctionNode prev, NRJoinFunctionNode next) { var svcmap = _activity.ServiceMap; foreach (var anim in timing.Animations) { var service = svcmap.Lookup(anim.ShapeId); if (null == service) { // No available service for the shape. continue; } JObject flowObj; using (var flow = anim.Type == AnimationType.Entrance ? service.ActivationFlow : service.DeactivationFlow) using (var flowReader = flow.Reader) { flowObj = (JObject)JToken.ReadFrom(flowReader); } var meta = (JObject)flowObj["meta"]; var nidIn = (string)meta["in"]; var nidOut = (string)meta["out"]; var topic = $@"{service.nodeName}-{(anim.Type == AnimationType.Entrance ? "activation" : "deactivation")}"; var nodeTopic = new NRFunctionNode(func: $"msg.topic = '{topic}';return msg;"); nodeTopic.Wire(next.Id); nodeTopic.WriteTo(_writer); nidIn = generateCopyOfFlow((JArray)flowObj["flow"], nidIn, nidOut, nodeTopic.Id); // If this animation effect has a delay, put a delay node. var nidFirst = nidIn; if (anim.HasDefiniteDelay && anim.Delay > 0) { var nodeDelay = new NRDelayNode(anim.Delay); nodeDelay.Wire(nidIn); nodeDelay.WriteTo(_writer); nidFirst = nodeDelay.Id; } prev.Wire(nidFirst); next.AddTopic(topic); } prev.WriteTo(_writer); }
private string generateHttpResFuncNode(string nidHttpRes, int?currActivity, int?currStep, bool taskFinished) { var _currActivity = currActivity?.ToString() ?? @"global.get('currActivity')"; var _currStep = currStep?.ToString() ?? @"global.get('currStep')"; string func = $@" msg.payload = {{ status: {JsonConvert.SerializeObject(HttpResponseBody.StatusType.Success, Converter)}, curr_activity: {_currActivity}, curr_step: {_currStep}, task_finished: {(taskFinished ? "true" : "false")} }}; msg.headers = msg.headers || {{}}; msg.headers['Content-Type'] = 'application/json'; return msg; "; var node = new NRFunctionNode(func); node.Wire(nidHttpRes); node.WriteTo(_writer); return(node.Id); }
public string generate(string nidHttpResFunc) { var returnNode = new NRFunctionNode(); var switchNode = new NRSwitchNode(NRSwitchNode.PropertyType.GLOBAL, property: "currStep", checkall: false); var i = 0; var behavior = _activity.Behavior; foreach (var stepTiming in behavior.StepTimings) { var nidStep = generateStepFlow(stepTiming, returnNode.Id); var rule = new NRSwitchRule(NRSwitchRule.OperatorType.EQ, (i + 1).ToString(), NRSwitchRule.ValueType.Num); switchNode.AddRule(rule); switchNode.Wire(nidStep, i); ++i; } returnNode.Wire(nidHttpResFunc); returnNode.WriteTo(_writer); switchNode.WriteTo(_writer); return(switchNode.Id); }