public async void OnDuplicateBtnClicked(object sender, EventArgs e)
{
string name = await DisplayPromptAsync(
Resx.TextResource.Common_AskTitle,
Resx.TextResource.New_AskDuplicatePrompt,
Resx.TextResource.Common_OK,
Resx.TextResource.Common_Cancel,
initialValue : Item.HostName + " 1");
if (name == null)
{
return;
}
if (hostsModel.DataStore.HasHost(name))
{
await DisplayAlert(
Resx.TextResource.Common_ErrorTitle,
string.Format(Resx.TextResource.New_HostHasBeenAdded, name),
Resx.TextResource.Common_OK);
return;
}
var newItem = Item.Duplicate(name);
newItem.LoadBalance.Clear();
newItem.LoadBalance.AddRange(LoadBalance);
LoadBalance.Clear();
MessagingCenter.Send(this, "AddItem", newItem);
await Navigation.PopModalAsync();
}
static void Main(string[] args)
{
//Step 2: Create 'vps' object and call 'Providers' method. Run the program to see the output.
Vps vps = new Vps();
vps.Providers();
//Step 4: Create 'loadBalance' object and call 'Providers' method. Run the program to see the output.
LoadBalance loadBalance = new LoadBalance();
loadBalance.Providers();
//Step 6: Create 'loadBalance2' object and call both 'Providers' & 'Providers2' methods.
//Run the program to see the output.
LoadBalance2 loadBalance2 = new LoadBalance2();
loadBalance2.Providers();
loadBalance2.Providers2();
//Step 8: Create 'cdn' object and call 'CdnProviders' method. Run the program to see the output.
Cdn cdn = new Cdn();
cdn.CdnProviders();
//Step 10: Create 'dns' object and call 'CdnProviders' method. Run the program to see the output.
Dns dns = new Dns();
dns.CdnProviders();
}
public async void Save_Clicked(object sender, EventArgs e)
{
if (string.IsNullOrEmpty(Item.HostName))
{
await DisplayAlert(
Resx.TextResource.Common_ErrorTitle,
Resx.TextResource.New_HostErrorNeedName,
Resx.TextResource.Common_OK);
return;
}
if (addedOrEdit)
{
if (hostsModel.DataStore.HasHost(Item.HostName))
{
await DisplayAlert(
Resx.TextResource.Common_ErrorTitle,
string.Format(Resx.TextResource.New_HostHasBeenAdded, Item.HostName),
Resx.TextResource.Common_OK);
return;
}
}
else
{
Item.LoadBalance.Clear();
Item.LoadBalance.AddRange(LoadBalance);
MessagingCenter.Send(this, "UpdateItem", Item);
await Navigation.PopModalAsync();
return;
}
if (!Item.IsValid())
{
await DisplayAlert(
Resx.TextResource.Common_ErrorTitle,
string.Format(Resx.TextResource.New_ErrorAttributes, Item.HostName),
Resx.TextResource.Common_OK);
return;
}
Item.LoadBalance.Clear();
Item.LoadBalance.AddRange(LoadBalance);
LoadBalance.Clear();
MessagingCenter.Send(this, "AddItem", Item);
await Navigation.PopModalAsync();
}
public Puller(string subject, string consumerGroup, bool isBroadcast, TagType tagType, string[] tags, ConsumeMode consumeMode, PullController controller, PullStrategy pullStrategy, LoadBalance loadBalance)
{
_subject = subject;
_originSubject = RetrySubjectUtils.RealSubject(_subject);
_consumerGroup = consumerGroup;
_isBroadcast = isBroadcast;
_consumeMode = consumeMode;
_tagType = (_tags == null || _tags.Length == 0) ? (byte)0 : (byte)tagType;
_tags = tags;
_controller = controller;
_pullStrategy = pullStrategy;
_loadBalance = loadBalance;
}
public async void OnDeleteLoadbalanceClicked(object sender, EventArgs e)
{
var layout = (BindableObject)sender;
var hostName = layout.BindingContext as string;
bool response = await DisplayAlert(
Resx.TextResource.Common_AskTitle,
string.Format(Resx.TextResource.New_LoadBalanceDelHostAsk, hostName),
Resx.TextResource.Common_Yes,
Resx.TextResource.Common_No);
if (response)
{
LoadBalance.Remove(hostName);
}
}
public async void OnAddLoadbalanceClicked(object sender, EventArgs e)
{
List <string> hosts = null;
if (addedOrEdit)
{
hosts = hostsModel.Items
.Where(h => h.EnablePipeline &&
!LoadBalance.Contains(h.HostName))
.Select(h => h.HostName)
.ToList();
}
else
{
hosts = hostsModel.Items
.Where(h => h.EnablePipeline &&
!LoadBalance.Contains(h.HostName) &&
!h.HostName.Equals(Item.HostName))
.Select(h => h.HostName)
.ToList();
}
if (hosts.Count == 0)
{
await DisplayAlert(
Resx.TextResource.Common_ErrorTitle,
Resx.TextResource.New_LoadBalanceHost_Error,
Resx.TextResource.Common_Yes);
return;
}
string action = await DisplayActionSheet(
Resx.TextResource.New_LoadBalanceHost_Title,
Resx.TextResource.Common_Cancel,
null,
hosts.ToArray());
if (hosts.Contains(action))
{
LoadBalance.Add(action);
}
}
public HostEditPage(HostsViewModel viewModel, HostModel editHost)
{
InitializeComponent();
hostsModel = viewModel;
addedOrEdit = editHost == null;
Item = editHost ?? new HostModel()
{
SSLVerify = true
};
ShowDeleteBtn = !addedOrEdit;
EnableEditHostName = addedOrEdit;
foreach (var h in Item.LoadBalance)
{
LoadBalance.Add(h);
}
BindingContext = this;
}
private void MessagePopupForm_Load(object sender, EventArgs e)
{
MySmartThreadPool.InstanceLoadModel().QueueWorkItem(() =>
{
try
{
LoadBalance.Ini(INIHelper.ReadInteger("AiBaseConfig", "LoadModelNum", 0, Application.StartupPath + "/config.ini"));
this.DialogResult = DialogResult.OK;
}
catch (System.AccessViolationException er)
{
LogHelper.WriteLog("AI初始化失败", er);
this.DialogResult = DialogResult.No;
}
finally
{
this.BeginInvoke((Action)(() =>
{
this.Close();
}));
}
});
}
/// <summary>
/// 动态调用WebService主函数
/// </summary>
/// <param name="request"></param>
/// <returns></returns>
public static ESB.Core.Schema.务响应 DynamicalCallWebService(
Boolean needResponse
, ESB.Core.Schema.务请求 request
, List <BindingTemplate> bindings
, Int32 version
, EsbView_ServiceConfig serviceConfig
, AdvanceInvokeParam invokeParam)
{
//--记录接收时间并放在请求结束时间中,用于判读ESB在接到请求到开始调用的耗时
DateTime receiveDateTime = DateTime.Now;
//--验证并预处理请求参数
InvalidRequest(request);
//--获取跟踪上下文
ESBTraceContext esbTraceContext = GetEsbTraceContext();
//--获取到请求对应服务的绑定
BindingTemplate binding = LoadBalance.GetBinding(bindings, serviceConfig.HBPolicy);
//--构造调用参数
CallState state = new CallState()
{
Binding = binding,
ServiceConfig = serviceConfig,
InvokeParam = invokeParam,
Request = request,
RequestBeginTime = request.请求时间,
RequestEndTime = receiveDateTime,
TraceContext = esbTraceContext,
ServiceVersion = version,
MessageID = Guid.NewGuid().ToString()
};
return(CallService(state));
}
public static void SaveOutputDataInPi(Outputs UnitOutputTags, IList <PIPoint> points, eRCM_KernelControl objACIkernal, Service unit)
{
IList <AFValue> valuesToWrite = new List <AFValue>();
List <Tag> lstTagResult = new List <Tag>();
var LoadArray = objACIkernal.LoadArray(unit.LoadStep);
//Load Step
object IdealLS = UnitOutputTags.LoadStep.Ideal.Value;
object IdealLSDetails = UnitOutputTags.LoadStep.IdealDetails.Value;
var loadStep = LoadSteps.GetLoadSteps(objACIkernal, UnitOutputTags.LoadStep);
//lstTagResult.Add(loadStep.Current);
//lstTagResult.Add(loadStep.CurrentDetails);
//lstTagResult.Add(loadStep.Ideal);
//lstTagResult.Add(loadStep.IdealDetails);
lstTagResult.Add(loadStep.NextDown);
lstTagResult.Add(loadStep.NextUp);
//Load Prediction
//var loadPredictionResult = LoadPrediction.GetLoadPrediction(objACIkernal, UnitOutputTags.LoadPrediction);
//lstTagResult.Add(loadPredictionResult.Current);
//lstTagResult.Add(loadPredictionResult.Ideal);
//Flow Prediction
//var flowPredictionResult = FlowPrediction.GetFlowPrediction(objACIkernal, UnitOutputTags.FlowPrediction);
//lstTagResult.Add(flowPredictionResult.Current);
//lstTagResult.Add(flowPredictionResult.Ideal);
//Meachinical Efficiency
UnitOutputTags.MechanicalEfficiency.Value = objACIkernal.MechanicalEfficiency;
lstTagResult.Add(UnitOutputTags.MechanicalEfficiency);
//Current Torque
UnitOutputTags.CurrentTorque.Value = objACIkernal.CurrentTorque;
lstTagResult.Add(UnitOutputTags.CurrentTorque);
//Max Load
UnitOutputTags.MaxLoad.Value = objACIkernal.MaxAllowedLoad;
lstTagResult.Add(UnitOutputTags.MaxLoad);
//ErroCode objERCM.FullEnglishErrors(objERCM.ErrorArray(objERCM.CurrentLoadStep), 0)
//UnitOutputTags.ErrorCode.Value = objACIkernal.FullEnglishErrors(objACIkernal.ErrorArray(objACIkernal.CurrentLoadStep), 0);
//UnitOutputTags.ErrorCode.Value = objACIkernal.ErrorArray(objACIkernal.CurrentLoadStep);
//lstTagResult.Add(UnitOutputTags.ErrorCode);
//Rated Load
UnitOutputTags.RatedLoad.Value = objACIkernal.RatedLoad;
lstTagResult.Add(UnitOutputTags.RatedLoad);
//Rated Speed
UnitOutputTags.RatedSpeed.Value = objACIkernal.RatedSpeed;
lstTagResult.Add(UnitOutputTags.RatedSpeed);
//Min Load/Flow Change Allowed
UnitOutputTags.MinChangeAllowed.Value = objACIkernal.MinLoadFlowChangeAllowed;
lstTagResult.Add(UnitOutputTags.MinChangeAllowed);
//Max Load Change Allowed
UnitOutputTags.MaxChangeAllowed.Value = objACIkernal.MaxLoadChangeAllowed;
lstTagResult.Add(UnitOutputTags.MaxChangeAllowed);
//Min Speed
UnitOutputTags.MinSpeed.Value = objACIkernal.MinSpeedCurrentLS();
lstTagResult.Add(UnitOutputTags.MinSpeed);
//Max Speed
UnitOutputTags.MaxSpeed.Value = objACIkernal.MaxSpeedCurrentLS();
lstTagResult.Add(UnitOutputTags.MaxSpeed);
//Stage Info
var stageInfoResult = StageInfo.GetStageInfoList(objACIkernal, UnitOutputTags.StageInfo, unit);
foreach (var stage in stageInfoResult)
{
// Trace.WriteLine("StageNumber:" + stage.StageNumber);
lstTagResult.Add(stage.CompressionRatio);
lstTagResult.Add(stage.DischargePressureAtFlange);
lstTagResult.Add(stage.DischargePressureAtGadge);
lstTagResult.Add(stage.DischargeTemperature);
lstTagResult.Add(stage.Load);
lstTagResult.Add(stage.RatioActualVsTheoriticalPressure);
lstTagResult.Add(stage.RatioActualVsTheoriticalTemperature);
}
//Load Balance
var lbResult = LoadBalance.GetLoadBalance(objACIkernal, UnitOutputTags.LoadBalance);
foreach (var stage in lbResult)
{
// Trace.WriteLine("StageNumber:" + stage.Stages);
lstTagResult.Add(stage.Ratio);
}
//Head End Info
var headEndResult = HeadEndInfo.GetHeadEndInfo(objACIkernal, UnitOutputTags.HeadEndInfo);
foreach (var headEndCylinder in headEndResult)
{
lstTagResult.Add(headEndCylinder.DischargeVE);
lstTagResult.Add(headEndCylinder.Flow);
lstTagResult.Add(headEndCylinder.Load);
lstTagResult.Add(headEndCylinder.SuctionVE);
}
//Crank End
var crankEndResult = CrankEndInfo.GetHeadEndInfo(objACIkernal, UnitOutputTags.CrankEndInfo);
foreach (var crankEndCylinder in crankEndResult)
{
lstTagResult.Add(crankEndCylinder.DischargeVE);
lstTagResult.Add(crankEndCylinder.Flow);
lstTagResult.Add(crankEndCylinder.Load);
lstTagResult.Add(crankEndCylinder.SuctionVE);
lstTagResult.Add(crankEndCylinder.EstimatedDischargeTemperature);
}
//Compression Forces
var compForcesResults = CompressionForces.GetCompressionForces(objACIkernal, UnitOutputTags.CompressionForces);
foreach (var throws in compForcesResults)
{
lstTagResult.Add(throws.Force);
}
//Tension Forces
var tensForcesResults = TensionForces.GetTensionForces(objACIkernal, UnitOutputTags.TensionForces);
foreach (var throws in tensForcesResults)
{
lstTagResult.Add(throws.Force);
}
//Fuel Rate
//var fuelRatesResult = FuelRates.GetFuelRates(objACIkernal, UnitOutputTags.FuelRate, unit);
//lstTagResult.Add(fuelRatesResult.Current);
//lstTagResult.Add(fuelRatesResult.Ideal);
lstTagResult.Add(UnitOutputTags.MaxAllowedDischargePressure);
lstTagResult.Add(UnitOutputTags.IdealFlow90T);
lstTagResult.Add(UnitOutputTags.IdealFuelRate90T);
lstTagResult.Add(UnitOutputTags.IdealLoad90T);
lstTagResult.Add(UnitOutputTags.IdealLoadStep90T);
lstTagResult.Add(UnitOutputTags.IdealLoadStepDetail90T);
lstTagResult.Add(UnitOutputTags.IdealFlow95T);
lstTagResult.Add(UnitOutputTags.IdealFuelRate95T);
lstTagResult.Add(UnitOutputTags.IdealLoad95T);
lstTagResult.Add(UnitOutputTags.IdealLoadStep95T);
lstTagResult.Add(UnitOutputTags.IdealLoadStepDetail95T);
UnitOutputTags.LoadStep.Ideal.Value = IdealLS;
lstTagResult.Add(UnitOutputTags.LoadStep.Ideal);
UnitOutputTags.LoadStep.IdealDetails.Value = IdealLSDetails;
lstTagResult.Add(UnitOutputTags.LoadStep.IdealDetails);
lstTagResult.Add(UnitOutputTags.LoadPrediction.Ideal);
lstTagResult.Add(UnitOutputTags.FlowPrediction.Ideal);
lstTagResult.Add(UnitOutputTags.FuelRate.Ideal);
lstTagResult.Add(UnitOutputTags.LoadStep.Current);
lstTagResult.Add(UnitOutputTags.LoadStep.CurrentDetails);
lstTagResult.Add(UnitOutputTags.LoadPrediction.Current);
lstTagResult.Add(UnitOutputTags.FlowPrediction.Current);
lstTagResult.Add(UnitOutputTags.FuelRate.Current);
lstTagResult.Add(UnitOutputTags.ErrorCode);
foreach (var pipoint in points)
{
var tagValue = lstTagResult.Where(x => x.Name == pipoint.Name).Select(x => x.Value).FirstOrDefault();
AFValue afValueFloat = new AFValue(tagValue, DateTime.Now)
{
PIPoint = pipoint
};
valuesToWrite.Add(afValueFloat);
}
piServer.UpdateValues(valuesToWrite, AFUpdateOption.InsertNoCompression, AFBufferOption.BufferIfPossible);
Console.WriteLine("Pi Values Added for " + unit.UnitName + " at" + DateTime.Now + " Successfully");
}