public void ConvertFromCelsiusToFahrenheitTest()
 {
     var converter = new TemperatureConverter(TemperatureUnit.Celsius, TemperatureUnit.Fahrenheit);
     Assert.AreEqual(32, converter.Convert(0));
     Assert.AreEqual(33.8, converter.Convert(1));
     Assert.AreEqual(89.6, converter.Convert(32));
     Assert.AreEqual(212, converter.Convert(100));
 }
Exemple #2
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        public void ConvertFromCelsiusToFahrenheitTest()
        {
            var converter = new TemperatureConverter(TemperatureUnit.Celsius, TemperatureUnit.Fahrenheit);

            Assert.AreEqual(32, converter.Convert(0));
            Assert.AreEqual(33.8, converter.Convert(1));
            Assert.AreEqual(89.6, converter.Convert(32));
            Assert.AreEqual(212, converter.Convert(100));
        }
 public void ConvertFromFahrenheitToCelsiusTest()
 {
     var converter = new TemperatureConverter(TemperatureUnit.Fahrenheit, TemperatureUnit.Celsius);
     Assert.AreEqual(-17.7777778, converter.Convert(0),0.00000005);
     Assert.AreEqual(0, converter.Convert(32), 0.0000000001);
     Assert.AreEqual(1, converter.Convert(33.8),0.0000000001);
     Assert.AreEqual(32, converter.Convert(89.6), 0.0000000001);
     Assert.AreEqual(100, converter.Convert(212), 0.0000000001);
 }
Exemple #4
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        public void ConvertFromFahrenheitToCelsiusTest()
        {
            var converter = new TemperatureConverter(TemperatureUnit.Fahrenheit, TemperatureUnit.Celsius);

            Assert.AreEqual(-17.7777778, converter.Convert(0), 0.00000005);
            Assert.AreEqual(0, converter.Convert(32), 0.0000000001);
            Assert.AreEqual(1, converter.Convert(33.8), 0.0000000001);
            Assert.AreEqual(32, converter.Convert(89.6), 0.0000000001);
            Assert.AreEqual(100, converter.Convert(212), 0.0000000001);
        }
        public void testSupportedTemperatureConversions(SupportedTypes.Temperature fromType, double fromValue, SupportedTypes.Temperature toType, double expectedResult)
        {
            IConverter temperatureConverter       = new TemperatureConverter();
            Task <IConverterResult> convertResult = temperatureConverter.Convert(fromType, fromValue, toType);

            Assert.Equal(expectedResult, convertResult.Result.resultValue);
        }
Exemple #6
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        public object Convert(ConverterType type, object value)
        {
            switch (type)
            {
            case ConverterType.Temperature:
                _logger.Debug("Temperature converter started");
                return(TemperatureConverter.Convert(value));

            case ConverterType.Speed:
                _logger.Debug("Speed converter started");
                return(SpeedConverter.Convert(value));

            case ConverterType.DegreeToDirection:
                _logger.Debug("Degree to direction converter started");
                return(DegreeToDirectionConverter.Convert(value));

            case ConverterType.Pressure:
                _logger.Debug("Pressure converter started");
                return(PressureConverter.Convert(value));

            default:
                _logger.Error("Unknown converter type");
                return(null);
            }
        }
        public void ConvertsToFahrenheit(int source, int expected)
        {
            // Arrange
            var converter = new TemperatureConverter();

            // Act
            var result = converter.Convert(source, "F");

            // Assert
            Assert.Equal(expected, result);
        }
        public void ConvertsToCelsius_32()
        {
            // Arrange
            var converter = new TemperatureConverter();

            // Act
            var result = converter.Convert(32, "C");

            // Assert
            Assert.Equal(0, result);
        }
Exemple #9
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        public void Test100FarenheitConvertsTo310Kelvin()
        {
            // Arrange
            var converter  = new TemperatureConverter();
            var inputvalue = 100;

            // Act
            var result = converter.Convert(inputvalue, Temperature.Fahrenheit, Temperature.Kelvin);

            // Assert
            Assert.AreEqual(310.928, result, 0.1);
        }
Exemple #10
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        public void Test100FarenheitConvertsTo37Celcius()
        {
            // Arrange
            var converter  = new TemperatureConverter();
            var inputvalue = 100;

            // Act
            var result = converter.Convert(inputvalue, Temperature.Fahrenheit, Temperature.Celcius);

            // Assert
            Assert.AreEqual(37.7778, result, 0.1);
        }
Exemple #11
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        public void Test800KelvinConvertsTo526Celcius()
        {
            // Arrange
            var converter  = new TemperatureConverter();
            var inputvalue = 800;

            // Act
            var result = converter.Convert(inputvalue, Temperature.Kelvin, Temperature.Celcius);

            // Assert
            Assert.AreEqual(526.85, result, 0.1);
        }
Exemple #12
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        public void Test800KelvinConvertsTo980Farenheit()
        {
            // Arrange
            var converter  = new TemperatureConverter();
            var inputvalue = 800;

            // Act
            var result = converter.Convert(inputvalue, Temperature.Kelvin, Temperature.Fahrenheit);

            // Assert
            Assert.AreEqual(980.33, result, 0.1);
        }
Exemple #13
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        public void Test1CelciusConvertsTo33Point8Farentheit()
        {
            // Arrange
            var converter  = new TemperatureConverter();
            var inputvalue = 1;

            // Act
            var result = converter.Convert(inputvalue, Temperature.Celcius, Temperature.Fahrenheit);

            // Assert
            Assert.AreEqual(33.8, result, 0.1);
        }
Exemple #14
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        public void Test100CelciusConvertsTo373Kelvin()
        {
            // Arrange
            var converter  = new TemperatureConverter();
            var inputvalue = 100;

            // Act
            var result = converter.Convert(inputvalue, Temperature.Celcius, Temperature.Kelvin);

            // Assert
            Assert.AreEqual(373.15, result, 0.1);
        }
Exemple #15
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        public void CelsuisToKelvin(decimal input, decimal expectedResult)
        {
            var temp   = new Temperature(input, Unit.Celsius);
            var result = temperatureConverter.Convert(temp, Unit.Kelvin);

            Assert.Equal(expectedResult, Math.Round(result.Value, 2));
        }
Exemple #16
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    public void TemperatureConverter_Convert()
    {
        decimal result = TemperatureConverter.Convert(TemperatureUnit.Celsius, TemperatureUnit.Fahrenheit, -40);

        Assert.AreEqual(-40m, result);

        result = TemperatureConverter.Convert(TemperatureUnit.Celsius, TemperatureUnit.Fahrenheit, 0);
        Assert.AreEqual(32m, result);

        result = TemperatureConverter.Convert(TemperatureUnit.Fahrenheit, TemperatureUnit.Celsius, 212);
        Assert.AreEqual(100m, result);

        result = TemperatureConverter.Convert(TemperatureUnit.Fahrenheit, TemperatureUnit.Kelvin, 212);
        Assert.AreEqual(373.15m, result);
    }
        /// <summary>Convert the numbers to the new unit.</summary>
        /// <param name="numbers">The numbers used in the convertion.</param>
        /// <returns>The result of the convertion execution.</returns>
        /// <exception cref="ArgumentNullException">When numbers is null.</exception>
        /// <exception cref="ArgumentException">When the length of numbers do not equal <see cref="ArgumentCount"/>.</exception>
        public double Convert(double[] numbers)
        {
            base.Validate(numbers);
            double fromValue = numbers[0];

            switch (current.UnitType)
            {
            case UnitType.Length:
                return(LengthConverter.Convert(
                           (LengthUnit)current.FromUnit,
                           (LengthUnit)current.ToUnit,
                           fromValue));

            case UnitType.Mass:
                return(MassConverter.Convert(
                           (MassUnit)current.FromUnit,
                           (MassUnit)current.ToUnit,
                           fromValue));

            case UnitType.Speed:
                return(SpeedConverter.Convert(
                           (SpeedUnit)current.FromUnit,
                           (SpeedUnit)current.ToUnit,
                           fromValue));

            case UnitType.Temperature:
                return(TemperatureConverter.Convert(
                           (TemperatureUnit)current.FromUnit,
                           (TemperatureUnit)current.ToUnit,
                           fromValue));

            case UnitType.Time:
                return(TimeConverter.Convert(
                           (TimeUnit)current.FromUnit,
                           (TimeUnit)current.ToUnit,
                           fromValue));

            case UnitType.Volume:
                return(VolumeConverter.Convert(
                           (VolumeUnit)current.FromUnit,
                           (VolumeUnit)current.ToUnit,
                           fromValue));

            default:
                throw new ArgumentOutOfRangeException("numbers");
            }
        }
        public ActionResult ConvertTemp(float?inputtemp, Temperature inputunit, Temperature outputunit)
        {
            if (ModelState.IsValid && inputtemp.HasValue)
            {
                var converter = new TemperatureConverter();
                var result    = converter.Convert(inputtemp.Value, inputunit, outputunit);

                var con = new UnitConverter.Dto.Convert();
                con.outputtemp = result;

                return(View("Index", con));
            }
            else
            {
                return(View("Index"));
            }
        }
Exemple #19
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        public void Convert()
        {
            double result = TemperatureConverter.Convert(
                TemperatureUnit.Celsius, TemperatureUnit.Fahrenheit, -40d);

            Assert.AreEqual(-40, result);

            result = TemperatureConverter.Convert(
                TemperatureUnit.Celsius, TemperatureUnit.Fahrenheit, 0);
            Assert.AreEqual(32, result);

            result = TemperatureConverter.Convert(
                TemperatureUnit.Fahrenheit, TemperatureUnit.Celsius, 212);
            Assert.AreEqual(100, result);

            result = TemperatureConverter.Convert(
                TemperatureUnit.Fahrenheit, TemperatureUnit.Kelvin, 212);
            Assert.AreEqual(373.15, result);
        }
        public ActionResult GetAll(TemperatureType type)
        {
            Log.Information("GET Element/GetAll triggered");

            var elements = _repo.GetAllElements();

            //Map to DTO object
            var elementDtos = Mapper.Map <List <ElementDto> >(elements);

            //Recalculate temperature
            if (type != TemperatureType.Kelvin)
            {
                foreach (var element in elementDtos)
                {
                    element.BoilingTemperature = TemperatureConverter.Convert(element.BoilingTemperature, type);
                }
            }

            return(Json(elementDtos, JsonRequestBehavior.AllowGet));
        }
Exemple #21
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        public static void Main()
        {
            List <string> result = new List <string>();

            while (true)
            {
                var inputLine = Console.ReadLine();

                if (inputLine == "End")
                {
                    break;
                }

                result.Add(TemperatureConverter.Convert(inputLine));
            }

            foreach (var temperature in result)
            {
                Console.WriteLine(temperature);
            }
        }
Exemple #22
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    /// <summary>Convert the numbers to the new unit.</summary>
    /// <param name="numbers">The numbers used in the conversion.</param>
    /// <returns>The result of the conversion execution.</returns>
    /// <exception cref="ArgumentNullException">When numbers is null.</exception>
    /// <exception cref="ArgumentException">When the length of numbers do not equal <see cref="ArgumentCount"/>.</exception>
    public PreciseNumber Evaluate(PreciseNumber[] operands)
    {
        ((IExpression)this).Validate(operands);

        PreciseNumber fromValue = operands[0];

        if (!fromValue.HasValue)
        {
            return(fromValue);
        }

        return(_current.UnitType switch
        {
            UnitType.Length => new PreciseNumber(LengthConverter.Convert((LengthUnit)_current.FromUnit, (LengthUnit)_current.ToUnit, fromValue.Value)),
            UnitType.Mass => new PreciseNumber(MassConverter.Convert((MassUnit)_current.FromUnit, (MassUnit)_current.ToUnit, fromValue.Value)),
            UnitType.Speed => new PreciseNumber(SpeedConverter.Convert((SpeedUnit)_current.FromUnit, (SpeedUnit)_current.ToUnit, fromValue.Value)),
            UnitType.Temperature => new PreciseNumber(TemperatureConverter.Convert((TemperatureUnit)_current.FromUnit, (TemperatureUnit)_current.ToUnit, fromValue.Value)),
            UnitType.Time => new PreciseNumber(TimeConverter.Convert((TimeUnit)_current.FromUnit, (TimeUnit)_current.ToUnit, fromValue.Value)),
            UnitType.Volume => new PreciseNumber(VolumeConverter.Convert((VolumeUnit)_current.FromUnit, (VolumeUnit)_current.ToUnit, fromValue.Value)),
            _ => throw new ArgumentOutOfRangeException(nameof(operands)),
        });
Exemple #23
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        public override void Execute()
        {
            bool   calculateWindChill = false;
            double windSpeed          = 0.0;

            //Tell the user which options are available.
            Output.Add("--------------------------------------------------------------");
            Output.Add("Temperatuur types: F (Farhenheit), C (Celsius), K (Kelvin).");
            Output.Add("Zet de letter achter het nummer, hoofdletters maakt niet uit.");
            Output.Add("--------------------------------------------------------------");

            //Ask the user which value he wants to use for the conversion
            AssignmentHelper.RequestInput(
                this,
                "Voer de temperatuur in die je wilt gebruiken. (bijv. 20.0C of 25.6F)",
                out string inputString
                );

            bool parsed = TemperatureParser.Parse(inputString, out TemperatureUnit inputUnit, out double inputValue);

            if (!parsed)
            {
                Error = $"Kan waarde `{inputString}` niet conventeren naar een double.";
                return;
            }

            if (inputUnit == TemperatureUnit.Unknown)
            {
                Error = $"Onbekende temperatuur type!";
                return;
            }

            // Ask the user which type he wants to convert to.
            bool targetUnitSuccess = AssignmentHelper.RequestInput(
                this,
                "Naar welk temperatuur type wil je het conveteren (F/C/K)?",
                out char targeUnitResult
                );

            if (!targetUnitSuccess)
            {
                Error = "Kan input niet converteren naar goede type.";
                return;
            }

            TemperatureUnit targetUnit = (TemperatureUnit)targeUnitResult;

            if (inputUnit.Equals(targetUnit))
            {
                Error = $"De conversie is het zelfde (van {inputUnit} naar {targetUnit})";
                return;
            }

            ConsoleKey key = AssignmentHelper.RequestKey(
                "Wil je ook het gevoelstemperatuur berekenen?",
                new[] { ConsoleKey.Y, ConsoleKey.N }
                );

            if (key == ConsoleKey.Y)
            {
                AssignmentHelper.RequestInput <double>(
                    this,
                    "Wat is de wind snelheid in kilometer per seconde?",
                    out windSpeed
                    );

                calculateWindChill = true;
            }
            else if (key == ConsoleKey.N)
            {
                calculateWindChill = false;
            }
            else
            {
                Error = "De ingevoerde toets is incorrect.";
                return;
            }

            //Lookup conversion, print result
            double result        = TemperatureConverter.Convert(inputValue, inputUnit, targetUnit);
            double resultRounded = Math.Round(result, 2);

            StringBuilder builder = new StringBuilder();

            builder.AppendLine("");
            builder.AppendLine($"Het gegeven temperatuur was {inputValue} {inputUnit}, omgezet is het resultaat: {result} {targetUnit}");
            builder.AppendLine("");

            //Append the results of the wind chill calculations.
            if (calculateWindChill)
            {
                double resultWindChill        = TemperatureConverter.ConvertInclWindChill(inputValue, windSpeed, inputUnit, targetUnit);
                double resultWindChillRounded = Math.Round(resultWindChill, 2);

                builder.AppendLine($"Het gevoelstemperatuur met een windsnelheid van {windSpeed} km/h is {resultWindChillRounded} {targetUnit} \n");
            }

            //Write out the entire result.
            Output.Add(builder.ToString());
            Output.Add("Oant moan!");
        }
        public void UnsupportedConversionFromTypeThrowsException()
        {
            IConverter temperatureConverter = new TemperatureConverter();

            Assert.ThrowsAsync <NotImplementedException>(() => temperatureConverter.Convert(SupportedTypes.Temperature.Unsupported, 2.25, SupportedTypes.Temperature.Celsius));
        }
 public void InvalidCurrentUnit()
 {
     converter.Convert("f", 5, "celsius");
 }
        public void ConvertMustReturnIConverterResult()
        {
            IConverter temperatureConverter = new TemperatureConverter();

            Assert.IsAssignableFrom <Task <IConverterResult> >(temperatureConverter.Convert(SupportedTypes.Temperature.Fahrenheit, 2.25, SupportedTypes.Temperature.Celsius));
        }
Exemple #27
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        private void Convert(double value)
        {
            switch (SelectedOp)
            {
            case "Length":
            {
                LengthunitConverter unit = new LengthunitConverter();
                Result = unit.Convert(value, SelectedFrom, SelectedTo).ToString();
                break;
            }

            case "Mass and Weight":
            {
                MassConverter unit = new MassConverter();
                Result = unit.Convert(value, SelectedFrom, SelectedTo).ToString();
                break;
            }

            case "Power":
            {
                PowerConverter unit = new PowerConverter();
                Result = unit.Convert(value, SelectedFrom, SelectedTo).ToString();
                break;
            }

            case "Pressure":
            {
                PressureConverter unit = new PressureConverter();
                Result = unit.Convert(value, SelectedFrom, SelectedTo).ToString();
                break;
            }

            case "Energy":
            {
                EnergyConveter unit = new EnergyConveter();
                Result = unit.Convert(value, SelectedFrom, SelectedTo).ToString();
                break;
            }

            case "Temperature":
            {
                TemperatureConverter unit = new TemperatureConverter();
                Result = unit.Convert(value, SelectedFrom, SelectedTo).ToString();
                break;
            }

            case "Volume":
            {
                VolumeConverter unit = new VolumeConverter();
                Result = unit.Convert(value, SelectedFrom, SelectedTo).ToString();
                break;
            }

            case "Angle":
            {
                AngleConverter unit = new AngleConverter();
                Result = unit.Convert(value, SelectedFrom, SelectedTo).ToString();
                break;
            }

            case "Area":
            {
                AreaConverter unit = new AreaConverter();
                Result = unit.Convert(value, SelectedFrom, SelectedTo).ToString();
                break;
            }

            case "Speed":
            {
                SpeedConverter unit = new SpeedConverter();
                Result = unit.Convert(value, SelectedFrom, SelectedTo).ToString();
                break;
            }

            case "Time":
            {
                TimeunitsConverter unit = new TimeunitsConverter();
                Result = unit.Convert(value, SelectedFrom, SelectedTo).ToString();
                break;
            }
            }
        }
        public void UnsupportedConversionToTypeThrowsException()
        {
            IConverter temperatureConverter = new TemperatureConverter();

            Assert.ThrowsAsync <NotImplementedException>(() => temperatureConverter.Convert(SupportedTypes.Temperature.Fahrenheit, 2.25, SupportedTypes.Temperature.Unsupported));
        }
Exemple #29
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        public void ConvertToSame()
        {
            var value = conv.Convert(12, TemperatureUnits.Celsius, TemperatureUnits.Celsius);

            Assert.Equal(12, value);
        }