305 lines
7.9 KiB
C#
305 lines
7.9 KiB
C#
namespace AMWD.Protocols.Modbus.Tests.Common.Extensions
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{
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[TestClass]
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public class ModbusDecimalExtensionsTest
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{
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#region Modbus to value
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[TestMethod]
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public void ShouldGetSingle()
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{
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// Arrange
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var registers = new HoldingRegister[]
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{
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new(),
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new() { Address = 100, HighByte = 0x41, LowByte = 0x45 },
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new() { Address = 101, HighByte = 0x70, LowByte = 0xA4 }
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};
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// Act
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float f = registers.GetSingle(1);
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// Assert
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Assert.AreEqual(12.34f, f);
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}
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[TestMethod]
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public void ShouldGetSingleReversedRegisters()
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{
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// Arrange
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var registers = new HoldingRegister[]
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{
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new() { Address = 101, HighByte = 0x41, LowByte = 0x45 },
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new() { Address = 100, HighByte = 0x70, LowByte = 0xA4 }
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};
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// Act
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float f = registers.GetSingle(0, reverseRegisterOrder: true);
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// Assert
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Assert.AreEqual(12.34f, f);
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}
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[TestMethod]
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public void ShouldThrowNullOnGetSingle()
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{
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// Arrange
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HoldingRegister[] registers = null;
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// Act + Assert
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Assert.ThrowsException<ArgumentNullException>(() => registers.GetSingle(0));
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}
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[TestMethod]
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public void ShouldThrowArgumentOnGetSingleForLength()
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{
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// Arrange
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var registers = new HoldingRegister[]
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{
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new() { Address = 101, HighByte = 0x01, LowByte = 0x02 }
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};
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// Act + Assert
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Assert.ThrowsException<ArgumentException>(() => registers.GetSingle(0));
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}
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[DataTestMethod]
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[DataRow(1)]
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[DataRow(-1)]
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public void ShouldThrowArgumentOutOfRangeOnGetSingle(int startIndex)
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{
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// Arrange
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var registers = new HoldingRegister[]
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{
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new() { Address = 101, HighByte = 0x01, LowByte = 0x02 },
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new() { Address = 100, HighByte = 0x03, LowByte = 0x04 }
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};
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// Act + Assert
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Assert.ThrowsException<ArgumentOutOfRangeException>(() => registers.GetSingle(startIndex));
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}
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[TestMethod]
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public void ShouldThrowArgumentOnGetSingleForType()
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{
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// Arrange
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var registers = new ModbusObject[]
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{
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new HoldingRegister { Address = 100, HighByte = 0x01, LowByte = 0x02 },
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new InputRegister { Address = 101, HighByte = 0x03, LowByte = 0x04 }
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};
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// Act + Assert
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Assert.ThrowsException<ArgumentException>(() => registers.GetSingle(0));
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}
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[TestMethod]
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public void ShouldGetDouble()
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{
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// Arrange
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var registers = new HoldingRegister[]
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{
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new(),
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new() { Address = 100, HighByte = 0x40, LowByte = 0x28 },
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new() { Address = 101, HighByte = 0xAE, LowByte = 0x14 },
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new() { Address = 102, HighByte = 0x7A, LowByte = 0xE1 },
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new() { Address = 103, HighByte = 0x47, LowByte = 0xAE }
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};
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// Act
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double d = registers.GetDouble(1);
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// Assert
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Assert.AreEqual(12.34, d);
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}
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[TestMethod]
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public void ShouldGetDoubleReversedRegisters()
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{
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// Arrange
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var registers = new HoldingRegister[]
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{
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new() { Address = 103, HighByte = 0x40, LowByte = 0x28 },
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new() { Address = 102, HighByte = 0xAE, LowByte = 0x14 },
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new() { Address = 101, HighByte = 0x7A, LowByte = 0xE1 },
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new() { Address = 100, HighByte = 0x47, LowByte = 0xAE }
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};
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// Act
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double d = registers.GetDouble(0, reverseRegisterOrder: true);
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// Assert
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Assert.AreEqual(12.34, d);
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}
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[TestMethod]
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public void ShouldThrowNullOnGetDouble()
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{
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// Arrange
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HoldingRegister[] registers = null;
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// Act + Assert
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Assert.ThrowsException<ArgumentNullException>(() => registers.GetDouble(0));
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}
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[TestMethod]
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public void ShouldThrowArgumentOnGetDoubleForLength()
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{
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// Arrange
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var registers = new HoldingRegister[]
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{
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new() { Address = 100, HighByte = 0x40, LowByte = 0x28 },
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new() { Address = 101, HighByte = 0xAE, LowByte = 0x14 },
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new() { Address = 102, HighByte = 0x7A, LowByte = 0xE1 }
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};
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// Act + Assert
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Assert.ThrowsException<ArgumentException>(() => registers.GetDouble(0));
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}
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[DataTestMethod]
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[DataRow(1)]
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[DataRow(-1)]
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public void ShouldThrowArgumentOutOfRangeOnGetDouble(int startIndex)
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{
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// Arrange
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var registers = new HoldingRegister[]
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{
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new() { Address = 100, HighByte = 0x40, LowByte = 0x28 },
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new() { Address = 101, HighByte = 0xAE, LowByte = 0x14 },
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new() { Address = 102, HighByte = 0x7A, LowByte = 0xE1 },
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new() { Address = 103, HighByte = 0x47, LowByte = 0xAE }
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};
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// Act + Assert
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Assert.ThrowsException<ArgumentOutOfRangeException>(() => registers.GetDouble(startIndex));
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}
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[TestMethod]
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public void ShouldThrowArgumentOnGetDoubleForType()
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{
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// Arrange
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var registers = new ModbusObject[]
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{
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new HoldingRegister { Address = 100, HighByte = 0x40, LowByte = 0x28 },
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new InputRegister { Address = 101, HighByte = 0xAE, LowByte = 0x14 },
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new HoldingRegister { Address = 102, HighByte = 0x7A, LowByte = 0xE1 },
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new InputRegister { Address = 103, HighByte = 0x47, LowByte = 0xAE }
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};
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// Act + Assert
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Assert.ThrowsException<ArgumentException>(() => registers.GetDouble(0));
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}
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#endregion Modbus to value
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#region Value to Modbus
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[TestMethod]
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public void ShouldConvertSingle()
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{
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// Arrange
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float f = 12.34f;
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// Act
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var registers = f.ToRegister(5).ToList();
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// Assert
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Assert.IsNotNull(registers);
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Assert.AreEqual(2, registers.Count);
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Assert.AreEqual(5, registers[0].Address);
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Assert.AreEqual(0x41, registers[0].HighByte);
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Assert.AreEqual(0x45, registers[0].LowByte);
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Assert.AreEqual(6, registers[1].Address);
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Assert.AreEqual(0x70, registers[1].HighByte);
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Assert.AreEqual(0xA4, registers[1].LowByte);
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}
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[TestMethod]
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public void ShouldConvertSingleReversed()
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{
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// Arrange
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float f = 12.34f;
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// Act
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var registers = f.ToRegister(5, reverseRegisterOrder: true).ToList();
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// Assert
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Assert.IsNotNull(registers);
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Assert.AreEqual(2, registers.Count);
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Assert.AreEqual(6, registers[0].Address);
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Assert.AreEqual(0x41, registers[0].HighByte);
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Assert.AreEqual(0x45, registers[0].LowByte);
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Assert.AreEqual(5, registers[1].Address);
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Assert.AreEqual(0x70, registers[1].HighByte);
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Assert.AreEqual(0xA4, registers[1].LowByte);
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}
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[TestMethod]
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public void ShouldConvertDouble()
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{
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// Arrange
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double d = 12.34;
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// Act
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var registers = d.ToRegister(5).ToList();
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// Assert
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Assert.IsNotNull(registers);
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Assert.AreEqual(4, registers.Count);
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Assert.AreEqual(5, registers[0].Address);
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Assert.AreEqual(0x40, registers[0].HighByte);
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Assert.AreEqual(0x28, registers[0].LowByte);
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Assert.AreEqual(6, registers[1].Address);
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Assert.AreEqual(0xAE, registers[1].HighByte);
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Assert.AreEqual(0x14, registers[1].LowByte);
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Assert.AreEqual(7, registers[2].Address);
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Assert.AreEqual(0x7A, registers[2].HighByte);
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Assert.AreEqual(0xE1, registers[2].LowByte);
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Assert.AreEqual(8, registers[3].Address);
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Assert.AreEqual(0x47, registers[3].HighByte);
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Assert.AreEqual(0xAE, registers[3].LowByte);
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}
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[TestMethod]
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public void ShouldConvertDoubleReversed()
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{
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// Arrange
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double d = 12.34;
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// Act
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var registers = d.ToRegister(5, reverseRegisterOrder: true).ToList();
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// Assert
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Assert.IsNotNull(registers);
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Assert.AreEqual(4, registers.Count);
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Assert.AreEqual(8, registers[0].Address);
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Assert.AreEqual(0x40, registers[0].HighByte);
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Assert.AreEqual(0x28, registers[0].LowByte);
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Assert.AreEqual(7, registers[1].Address);
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Assert.AreEqual(0xAE, registers[1].HighByte);
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Assert.AreEqual(0x14, registers[1].LowByte);
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Assert.AreEqual(6, registers[2].Address);
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Assert.AreEqual(0x7A, registers[2].HighByte);
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Assert.AreEqual(0xE1, registers[2].LowByte);
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Assert.AreEqual(5, registers[3].Address);
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Assert.AreEqual(0x47, registers[3].HighByte);
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Assert.AreEqual(0xAE, registers[3].LowByte);
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}
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#endregion Value to Modbus
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}
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}
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