public void SerializeBoardConfigTest1() { var conf = new BoardConfiguration (); conf.AddPin (new APin (){ Number = 42 }); Formator.Serialize (MemStream, conf); MemStream.Seek (0, SeekOrigin.Begin); var confClone = (BoardConfiguration)Formator.Deserialize (MemStream); Assert.AreEqual (conf.Pins [0], confClone.Pins [0]); }
public void CSVMappingTest() { var con = new BoardConfiguration (); con.AddPin (new APin (){ Number = 1, Name = "Pin1" }); con.AddPin (new APin (){ Number = 2, Name = "Pin2" }); con.AddPin (new APin (){ Number = 3, Name = "Pin3" }); var res = con.CreateMapping (); Assert.AreEqual (3, res.Keys.Count); Assert.AreEqual (0, res [con.Pins [0].DisplayName]); Assert.AreEqual (1, res [con.Pins [1].DisplayName]); Assert.AreEqual (2, res [con.Pins [2].DisplayName]); con.AddMeasurementCombination (new MeasurementCombination () { Pins = new System.Collections.Generic.List<APin> (){ con.Pins [0] as APin, con.Pins [1] as APin }, Name = "MeCom" }); res = con.CreateMapping (); Assert.AreEqual (4, res.Keys.Count); Assert.AreEqual (3, res [con.MeasurementCombinations [0].DisplayName]); }
public void DPinCloneTest2() { string name = "TestPin"; conf = new BoardConfiguration (); conf.AddPin (new DPin () { Number = 5, Name = name }); conf.ClonePin (conf.DigitalPins [0]); Assert.AreEqual (2, conf.DigitalPins.Count); Assert.AreEqual (name, conf.DigitalPins [0].Name); Assert.AreEqual (name, conf.DigitalPins [1].Name); conf.DigitalPins [0].Name = string.Empty; Assert.AreEqual (name, conf.DigitalPins [1].Name); }
public void SerializeBoardConfigTest2() { var conf = new BoardConfiguration (); conf.Board.AnalogReferenceVoltageType = "INTERNAL"; conf.Board.AnalogReferenceVoltage = 4.24; var pin = new APin (){ Number = 42 }; var MeCom = new MeasurementCombination (); MeCom.AddPin (pin); conf.AddPin (pin); conf.AddMeasurementCombination (MeCom); Formator.Serialize (MemStream, conf); MemStream.Seek (0, SeekOrigin.Begin); var confClone = (BoardConfiguration)Formator.Deserialize (MemStream); Assert.AreEqual (conf.Pins [0], confClone.Pins [0]); Assert.AreEqual (conf.MeasurementCombinations [0], confClone.MeasurementCombinations [0]); Assert.AreEqual (4.24, conf.Board.AnalogReferenceVoltage, 0.000000001); Assert.AreEqual (4.24, confClone.Board.AnalogReferenceVoltage, 0.000000001); Assert.AreEqual ("INTERNAL", conf.Board.AnalogReferenceVoltageType); Assert.AreEqual ("INTERNAL", confClone.Board.AnalogReferenceVoltageType); Assert.AreSame (conf.Pins [0], conf.MeasurementCombinations [0].Pins [0]); Assert.AreSame (confClone.Pins [0], confClone.MeasurementCombinations [0].Pins [0]); conf.Pins [0].Name = "Dulli"; Assert.AreEqual (conf.Pins [0].Name, conf.MeasurementCombinations [0].Pins [0].Name); Assert.AreEqual (19, confClone.AvailableDigitalPins.Length); Assert.AreEqual (6, confClone.AvailableAnalogPins.Length); conf.ClearPins (); Assert.AreEqual (0, conf.Pins.Count); Assert.AreEqual (0, conf.MeasurementCombinations.Count); }
public void GroupTest() { var conf = new BoardConfiguration (); for (uint i = 0; i < 10; i++) { conf.AddPin (new DPin () { Number = i }); conf.AddSequence (new Sequence () { Pin = conf.DigitalPins [(int)i], GroupName = i.ToString () }); } Assert.AreEqual (10, conf.SequenceGroups.Count); conf.RemoveSequence (5); Assert.AreEqual (9, conf.SequenceGroups.Count); conf.Sequences [2].GroupName = conf.Sequences [0].GroupName; Assert.AreEqual (8, conf.SequenceGroups.Count); }
public void SetupSequence() { conf = new BoardConfiguration (); conf.AddPin (new DPin (){ Number = 0 }); conf.AddPin (new DPin (){ Number = 1 }); conf.AddSequence (new Sequence () { Pin = conf.DigitalPins [0], Chain = new List<SequenceOperation> () { new SequenceOperation () { Duration = TimeSpan.FromSeconds (1), State = DPinState.HIGH }, new SequenceOperation () { Duration = TimeSpan.FromSeconds (1), State = DPinState.HIGH } } }); }
public void SetupMeasurementCombination() { conf = new BoardConfiguration (); conf.AddPin (new APin (){ Number = 0 }); conf.AddPin (new APin (){ Number = 1 }); conf.AddMeasurementCombination (new MeasurementCombination () { Pins = new List<APin> (){ conf.AnalogPins [0], conf.AnalogPins [1] }, }); }
public void Setup() { conf = new BoardConfiguration (); for (int i = 0; i < 5; i++) { conf.AddPin (new APin (){ Number = (uint)i }); conf.AddPin (new DPin (){ Number = (uint)i }); } }