C# (CSharp) WFloInterface.GetOpPtCalculator Examples

Example #1

File: Program.cs Project: prasannarhegde2015/C-Advanced-Learning

        static void Main(string[] args)
        {
            try
            {
                if (args.Length == 0)
                {
                    Console.WriteLine("Uage :  CheckObjectType.exe <full file path > <val1> <val2> ");
                    return;
                }
                WFloInterface WfInt = new WFloInterface();
                WfInt.OpenFile(args[0]);
                var OpPtCalc = WfInt.GetOpPtCalculator();
                OpPtCalc.UsePCPPumpPerformanceRange = true;
                OpPtCalc.AutoSearchOpPtforPCP = false;
                var res = OpPtCalc.CalculateOperatingSpeedforPCP(Convert.ToDouble(args[1]), Convert.ToDouble(args[2]));
                Console.WriteLine(" Min Value " + OpPtCalc.MinimumRangeValue);
                Console.WriteLine(" Min Value " + OpPtCalc.MaximumRangeValue);
           
            }
            catch (Exception ex)
            {
                Console.WriteLine("Got Exception : "+ex.Message);
            }

        }

Example #2

 static void Main(string[] args)
 {
     try
     {
         if (args.Length == 0)
         {
             Console.WriteLine("Uage :  CheckObjectType.exe <full file path > <val1> <val2> ");
             return;
         }
         WFloInterface WfInt = new WFloInterface();
         WfInt.OpenFile(args[0]);
         var OpPtCalc = WfInt.GetOpPtCalculator();
         OpPtCalc.UsePCPPumpPerformanceRange = true;
         OpPtCalc.AutoSearchOpPtforPCP       = false;
         var res = OpPtCalc.CalculateOperatingSpeedforPCP(Convert.ToDouble(args[1]), Convert.ToDouble(args[2]));
         Console.WriteLine(" Min Value " + OpPtCalc.MinimumRangeValue);
         Console.WriteLine(" Min Value " + OpPtCalc.MaximumRangeValue);
     }
     catch (Exception ex)
     {
         Console.WriteLine("Got Exception : " + ex.Message);
     }
 }

Example #3

File: WPS_Layer.cs Project: prasannarhegde2015/SampleUnitTests

        public void Layer_A1_MultiLayer_Both_Active()
        {
            using (new LifeTimeScope())
            {
                WFloInterface WFInt = new WFloInterface();
                WFInt.AddRef();

                string sfile = WellFloFileLocation.BaselineWPSModel("WPS_ReoForecast\\before active layer.wflx");

                WFInt.OpenFile(sfile);

                bool firstLayer = WFInt.WellModel.AddRef().Layers.AddRef().GetLayerStatus(1);

                bool secondLayer = WFInt.WellModel.AddRef().Layers.AddRef().GetLayerStatus(2);

                Assert.AreEqual(false, firstLayer);
                Assert.AreEqual(true, secondLayer);

                //make both layer active
                WFInt.WellModel.AddRef().Layers.AddRef().SetLayerStatus(1, true);

                WFInt.AddRef().GetOpPtCalculator().AddRef().CalculateOperatingPoint(50, 0);

                double LiqRateAfterSet = WFInt.GetOpPtCalculator().AddRef().OilRate + WFInt.GetOpPtCalculator().AddRef().WaterRate;

                double PressureAfterSet = WFInt.GetOpPtCalculator().AddRef().OperatingPressure;

                Assert.AreEqual(4778.4, LiqRateAfterSet, DeltaFraction.Default(4778.4));
                Assert.AreEqual(3655.1, PressureAfterSet, DeltaFraction.Default(3655.1));

                bool firstLayerAfterChange = WFInt.WellModel.AddRef().Layers.AddRef().GetLayerStatus(1);
                bool secondLayerAfterChange = WFInt.WellModel.AddRef().Layers.AddRef().GetLayerStatus(2);

                Assert.AreEqual(true, firstLayerAfterChange);
                Assert.AreEqual(true, secondLayerAfterChange);

                // just making it unchanges beacuse many times changes in global variable causes a problem
                WFInt.WellModel.AddRef().Layers.AddRef().SetLayerStatus(2, true);
                WFInt.WellModel.AddRef().Layers.AddRef().SetLayerStatus(1, false);
            }
        }