Ejemplo n.º 1
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        public void AddTest()
        {
            var a = quantity1.Add(quantity3);
            var b = quantity1.Add(quantity2);

            Assert.AreEqual(400.200, a.Amount);
            Assert.AreEqual("kilomeeter", a.Unit.Name);
        }
Ejemplo n.º 2
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 private ComplexMathViewModel SetResults(ComplexMathViewModel quantity, Quantity q1, Quantity q2)
 {
     if (quantity.SelectedOperation == "Add")
     {
         quantity.ResultQuantity = q1.Add(q2);
     }
     else if (quantity.SelectedOperation == "Subtract")
     {
         quantity.ResultQuantity = q1.Subtract(q2);
     }
     else if (quantity.SelectedOperation == "Multiply")
     {
         quantity.ResultQuantity = q1.Multiply(q2);
     }
     else if (quantity.SelectedOperation == "Divide")
     {
         quantity.ResultQuantity = q1.Divide(q2);
     }
     else if (quantity.SelectedOperation == "Compare")
     {
         quantity.Result = SetComparingResult(q1, q2);
     }
     else if (quantity.SelectedOperation == "Round")
     {
         quantity.ResultQuantity = q1.Round(new Rounding());
     }
     if (quantity.Result == null)
     {
         quantity.Result = quantity.ResultQuantity.Amount.ToString();
     }
     return(quantity);
 }
Ejemplo n.º 3
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        public void TestExceptions()
        {
            UnitOfMeasure floz = sys.GetUOM(Unit.BR_FLUID_OUNCE);

            Quantity q1 = new Quantity(10, sys.GetDay());
            Quantity q2 = new Quantity(10, sys.GetUOM(Unit.BR_FLUID_OUNCE));

            try
            {
                String amount = null;
                Quantity.CreateAmount(amount);
                Assert.Fail("create");
            }
            catch (Exception)
            {
            }

            try
            {
                q1.Convert(floz);
                Assert.Fail("Convert");
            }
            catch (Exception)
            {
            }

            try
            {
                q1.Add(q2);
                Assert.Fail("Add");
            }
            catch (Exception)
            {
            }

            try
            {
                q1.Subtract(q2);
                Assert.Fail("Subtract");
            }
            catch (Exception)
            {
            }

            // OK
            q1.Multiply(q2);

            // OK
            q1.Divide(q2);
        }
Ejemplo n.º 4
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        public void Blah()
        {
            //Test: Quantity construction
            var tenUnitLengths = new Quantity <Length>(10);

            var fiveUnitLengths = new Quantity <Length>(5);

            var twoUnitsOfTime = new Quantity <Time>(2);

            //Test: Addition
            var fifteenLengthUnits = tenUnitLengths.Add(fiveUnitLengths);

            var fourUnitsOfTime = twoUnitsOfTime.Add(twoUnitsOfTime);

            //var cantAddLengthToTime = tenUnitLengths.Add(twoUnitsOfTime);

            //Test: Subtraction

            var threeUnitsOfTime = fourUnitsOfTime.Subtract(new Quantity <Time>(1));

            //Test: Multiplication
            var hundredLengthUnitsSquared = tenUnitLengths.MultipliedBy(tenUnitLengths);

            var thirtyLengthTimeUnits = fifteenLengthUnits.MultipliedBy(twoUnitsOfTime);

            //var cantAddProductToSingleDimensionQuantity = thirtyMetreSeconds.Add(fourUnitsOfTime);

            //Test: Division

            var fiveLengthPerTimeUnits = tenUnitLengths.DivideBy(twoUnitsOfTime);

            var twentyLengthUnitsDodgy = fiveLengthPerTimeUnits.MultipliedBy(new Quantity <Time>(4));

            //Now, it would be nice if these were to compile, removing the nested Product / Quotient constructors:

            /*
             * Quantity<Length> twentyLengthUnitsNice = hundredLengthUnitsSquared.DivideBy(fiveUnitLengths);
             *
             * Quantity<Length> twentyLengthUnitsAlsoNice = fiveLengthPerTimeUnits.MultipliedBy(new Quantity<Time>(4));
             */
        }
Ejemplo n.º 5
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        private void RunSingleTest()
        {
            // for each unit type, execute the quantity operations
            foreach (KeyValuePair <UnitType, List <UnitOfMeasure> > entry in unitListMap)
            {
                // run the matrix
                foreach (UnitOfMeasure rowUOM in entry.Value)
                {
                    // row quantity
                    Quantity rowQty = new Quantity(10, rowUOM);

                    foreach (UnitOfMeasure colUOM in entry.Value)
                    {
                        // column qty
                        Quantity colQty = new Quantity(10, colUOM);

                        // arithmetic operations
                        rowQty.Add(colQty);
                        rowQty.Subtract(colQty);

                        // offsets are not supported
                        if (rowUOM.Offset.CompareTo(0) == 0 &&
                            colUOM.Offset.CompareTo(0) == 0)
                        {
                            rowQty.Multiply(colQty);
                            rowQty.Divide(colQty);
                            rowQty.Invert();
                        }

                        rowQty.Convert(colUOM);
                        rowQty.Equals(colQty);
                        double        d   = rowQty.Amount;
                        UnitOfMeasure uom = rowQty.UOM;
                        rowQty.ToString();
                    }
                }
            }
        }
Ejemplo n.º 6
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 public void IncreaseItemQtyBy(NonNegativeQuantity quantity)
 {
     Quantity = Quantity.Add(quantity);
 }
Ejemplo n.º 7
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        public void TestGenericQuantity()
        {
            UnitOfMeasure a = sys.CreateScalarUOM(UnitType.UNCLASSIFIED, "a", "aUOM", "A");

            UnitOfMeasure b = sys.CreateScalarUOM(UnitType.UNCLASSIFIED, "b", "b", "B");

            b.SetConversion(10, a);

            double four = 4;

            double bd = Quantity.CreateAmount("4");

            Assert.IsTrue(bd.Equals(four));

            bd = Quantity.CreateAmount(4);
            Assert.IsTrue(bd.Equals(four));

            bd = Quantity.CreateAmount((decimal)4.0);
            Assert.IsTrue(bd.Equals(four));

            bd = Quantity.CreateAmount((decimal)4.0f);
            Assert.IsTrue(bd.Equals(four));

            bd = Quantity.CreateAmount(4L);
            Assert.IsTrue(bd.Equals(four));

            bd = Quantity.CreateAmount((short)4);
            Assert.IsTrue(bd.Equals(four));

            // Add
            Quantity q1 = new Quantity(four, a);

            Assert.IsFalse(q1.Equals(null));

            Quantity q2 = new Quantity(four, b);
            Quantity q3 = q1.Add(q2);

            Assert.IsTrue(IsCloseTo(q3.UOM.ScalingFactor, 1, DELTA6));
            Assert.IsTrue(q3.UOM.AbscissaUnit.Equals(a));
            Assert.IsTrue(IsCloseTo(q3.UOM.Offset, 0, DELTA6));
            Assert.IsTrue(IsCloseTo(q3.Amount, 44, DELTA6));

            // Subtract
            q3 = q1.Subtract(q2);
            Assert.IsTrue(IsCloseTo(q3.UOM.ScalingFactor, 1, DELTA6));
            Assert.IsTrue(q3.UOM.AbscissaUnit.Equals(a));
            Assert.IsTrue(IsCloseTo(q3.UOM.Offset, 0, DELTA6));
            Assert.IsTrue(IsCloseTo(q3.Amount, -36, DELTA6));

            // Multiply
            q3 = q1.Multiply(q2);
            Assert.IsTrue(IsCloseTo(q3.Amount, 16, DELTA6));
            Assert.IsTrue(IsCloseTo(q3.UOM.ScalingFactor, 1, DELTA6));
            Assert.IsTrue(IsCloseTo(q3.UOM.Offset, 0, DELTA6));

            UnitOfMeasure a2 = sys.CreatePowerUOM(UnitType.UNCLASSIFIED, "a*2", "a*2", "A squared", a, 2);
            Quantity      q4 = q3.Convert(a2);

            Assert.IsTrue(IsCloseTo(q4.Amount, 160, DELTA6));
            Assert.IsTrue(q4.UOM.Equals(a2));

            q4 = q3.Divide(q2);
            Assert.IsTrue(q4.Equals(q1));
            Assert.IsTrue(IsCloseTo(q4.Amount, 4, DELTA6));

            // Divide
            q3 = q1.Divide(q2);
            Assert.IsTrue(IsCloseTo(q3.Amount, 1, DELTA6));
            Assert.IsTrue(IsCloseTo(q3.UOM.ScalingFactor, 0.1, DELTA6));

            q4 = q3.Multiply(q2);
            Assert.IsTrue(q4.Equals(q1));
        }
Ejemplo n.º 8
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        public void TestSIQuantity()
        {
            double ten = 10;

            UnitOfMeasure litre    = sys.GetUOM(Unit.LITRE);
            UnitOfMeasure m3       = sys.GetUOM(Unit.CUBIC_METRE);
            UnitOfMeasure m2       = sys.GetUOM(Unit.SQUARE_METRE);
            UnitOfMeasure m        = sys.GetUOM(Unit.METRE);
            UnitOfMeasure cm       = sys.GetUOM(Prefix.CENTI, m);
            UnitOfMeasure mps      = sys.GetUOM(Unit.METRE_PER_SEC);
            UnitOfMeasure secPerM  = sys.CreateQuotientUOM(UnitType.UNCLASSIFIED, null, "s/m", null, sys.GetSecond(), m);
            UnitOfMeasure oneOverM = sys.GetUOM(Unit.DIOPTER);
            UnitOfMeasure fperm    = sys.GetUOM(Unit.FARAD_PER_METRE);

            UnitOfMeasure oneOverCm = sys.CreateScalarUOM(UnitType.UNCLASSIFIED, null, "1/cm", null);

            oneOverCm.SetConversion(100, oneOverM);

            Quantity q1 = new Quantity(ten, litre);
            Quantity q2 = q1.Convert(m3);

            Assert.IsTrue(IsCloseTo(q2.Amount, 0.01, DELTA6));
            Assert.IsTrue(q2.UOM.Equals(m3));

            q2 = q1.Convert(litre);
            Assert.IsTrue(IsCloseTo(q2.Amount, ten, DELTA6));
            Assert.IsTrue(q2.UOM.Equals(litre));

            // Add
            q1 = new Quantity(2, m);
            q2 = new Quantity(2, cm);
            Quantity q3 = q1.Add(q2);

            Assert.IsTrue(IsCloseTo(q3.UOM.ScalingFactor, 1, DELTA6));
            Assert.IsTrue(q3.UOM.AbscissaUnit.Equals(m));
            Assert.IsTrue(IsCloseTo(q3.UOM.Offset, 0, DELTA6));
            Assert.IsTrue(IsCloseTo(q3.Amount, 2.02, DELTA6));

            Quantity q4 = q3.Convert(cm);

            Assert.IsTrue(IsCloseTo(q4.Amount, 202, DELTA6));
            Assert.IsTrue(q4.UOM.Equals(cm));

            // Subtract
            q3 = q3.Subtract(q1);
            Assert.IsTrue(IsCloseTo(q3.UOM.ScalingFactor, 1, DELTA6));
            Assert.IsTrue(q3.UOM.AbscissaUnit.Equals(m));
            Assert.IsTrue(IsCloseTo(q3.Amount, 0.02, DELTA6));

            q4 = q3.Convert(cm);
            Assert.IsTrue(IsCloseTo(q4.Amount, 2, DELTA6));
            Assert.IsTrue(q4.UOM.Equals(cm));

            // Multiply
            q3 = q1.Multiply(q2);
            Assert.IsTrue(IsCloseTo(q3.Amount, 4, DELTA6));
            UnitOfMeasure u = q3.UOM;

            Assert.IsTrue(IsCloseTo(u.ScalingFactor, 0.01, DELTA6));
            Assert.IsTrue(u.GetBaseSymbol().Equals(m2.GetBaseSymbol()));

            q4 = q3.Divide(q3);
            Assert.IsTrue(IsCloseTo(q4.Amount, 1, DELTA6));
            Assert.IsTrue(q4.UOM.Equals(sys.GetOne()));

            q4 = q3.Divide(q1);
            Assert.IsTrue(q4.Equals(q2));

            q4 = q3.Convert(m2);
            Assert.IsTrue(IsCloseTo(q4.Amount, 0.04, DELTA6));
            Assert.IsTrue(q4.UOM.Equals(m2));

            // Divide
            q3 = q3.Divide(q2);
            Assert.IsTrue(IsCloseTo(q3.Amount, 2.0, DELTA6));
            Assert.IsTrue(q3.UOM.Equals(m));
            Assert.IsTrue(q3.Equals(q1));

            q3 = q3.Convert(m);
            Assert.IsTrue(IsCloseTo(q3.Amount, 2.0, DELTA6));

            q1 = new Quantity(0, litre);

            try
            {
                q2 = q1.Divide(q1);
                Assert.Fail("Divide by zero)");
            }
            catch (Exception)
            {
            }

            q1 = q3.Convert(cm).Divide(ten);
            Assert.IsTrue(IsCloseTo(q1.Amount, 20, DELTA6));

            // Invert
            q1 = new Quantity(10, mps);
            q2 = q1.Invert();
            Assert.IsTrue(IsCloseTo(q2.Amount, 0.1, DELTA6));
            Assert.IsTrue(q2.UOM.Equals(secPerM));

            q2 = q2.Invert();
            Assert.IsTrue(IsCloseTo(q2.Amount, 10, DELTA6));
            Assert.IsTrue(q2.UOM.Equals(mps));

            q1 = new Quantity(10, cm);
            q2 = q1.Invert();
            Assert.IsTrue(IsCloseTo(q2.Amount, 0.1, DELTA6));
            u = q2.UOM;
            Assert.IsTrue(u.Equals(oneOverCm));

            q2 = q2.Convert(m.Invert());
            Assert.IsTrue(IsCloseTo(q2.Amount, 10, DELTA6));
            Assert.IsTrue(q2.UOM.Equals(oneOverM));

            Assert.IsTrue(q2.ToString() != null);

            // Newton-metres Divided by metres
            q1 = new Quantity(10, sys.GetUOM(Unit.NEWTON_METRE));
            q2 = new Quantity(1, sys.GetUOM(Unit.METRE));
            q3 = q1.Divide(q2);
            Assert.IsTrue(IsCloseTo(q3.Amount, 10, DELTA6));
            Assert.IsTrue(q3.UOM.Equals(sys.GetUOM(Unit.NEWTON)));

            // length multiplied by force
            q1 = new Quantity(10, sys.GetUOM(Unit.NEWTON));
            q2 = new Quantity(1, sys.GetUOM(Unit.METRE));
            q3 = q1.Multiply(q2);
            Assert.IsTrue(IsCloseTo(q3.Amount, 10, DELTA6));
            UnitOfMeasure nm1 = q3.UOM;
            UnitOfMeasure nm2 = sys.GetUOM(Unit.NEWTON_METRE);

            Assert.IsTrue(nm1.GetBaseSymbol().Equals(nm2.GetBaseSymbol()));
            q4 = q3.Convert(sys.GetUOM(Unit.JOULE));
            Assert.IsTrue(q4.UOM.Equals(sys.GetUOM(Unit.JOULE)));

            // farads
            q1 = new Quantity(10, fperm);
            q2 = new Quantity(1, m);
            q3 = q1.Multiply(q2);
            Assert.IsTrue(IsCloseTo(q3.Amount, 10, DELTA6));
            Assert.IsTrue(q3.UOM.Equals(sys.GetUOM(Unit.FARAD)));

            // amps
            q1 = new Quantity(10, sys.GetUOM(Unit.AMPERE_PER_METRE));
            q2 = new Quantity(1, m);
            q3 = q1.Multiply(q2);
            Assert.IsTrue(IsCloseTo(q3.Amount, 10, DELTA6));
            Assert.IsTrue(q3.UOM.Equals(sys.GetUOM(Unit.AMPERE)));

            // Boltzmann and Avogadro
            Quantity boltzmann = sys.GetQuantity(Constant.BOLTZMANN_CONSTANT);
            Quantity avogadro  = sys.GetQuantity(Constant.AVAGADRO_CONSTANT);
            Quantity gas       = sys.GetQuantity(Constant.GAS_CONSTANT);
            Quantity qR        = boltzmann.Multiply(avogadro);

            Assert.IsTrue(IsCloseTo(qR.UOM.ScalingFactor, gas.UOM.ScalingFactor, DELTA6));

            // Sieverts
            q1 = new Quantity(20, sys.GetUOM(Prefix.MILLI, Unit.SIEVERTS_PER_HOUR));
            q2 = new Quantity(24, sys.GetHour());
            q3 = q1.Multiply(q2);
            Assert.IsTrue(IsCloseTo(q3.Amount, 480, DELTA6));
        }
Ejemplo n.º 9
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        public void TestLength()
        {
            UnitOfMeasure m  = sys.GetUOM(Unit.METRE);
            UnitOfMeasure cm = sys.GetUOM(Prefix.CENTI, m);
            UnitOfMeasure m2 = sys.GetUOM(Unit.SQUARE_METRE);

            const char    squared = (char)0xB2;
            String        cmsym   = "cm" + squared;
            UnitOfMeasure cm2     = sys.GetUOM(cmsym);

            if (cm2 == null)
            {
                cm2 = sys.CreatePowerUOM(UnitType.AREA, "square centimetres", cmsym, "centimetres squared", cm, 2);
            }

            UnitOfMeasure ft  = sys.GetUOM(Unit.FOOT);
            UnitOfMeasure yd  = sys.GetUOM(Unit.YARD);
            UnitOfMeasure ft2 = sys.GetUOM(Unit.SQUARE_FOOT);
            UnitOfMeasure in2 = sys.GetUOM(Unit.SQUARE_INCH);

            double oneHundred = 100;

            Quantity q1 = new Quantity(1, ft2);
            Quantity q2 = q1.Convert(in2);

            Assert.IsTrue(IsCloseTo(q2.Amount, 144, DELTA6));
            Assert.IsTrue(IsCloseTo(q2.Convert(ft2).Amount, 1, DELTA6));

            q1 = new Quantity(1, sys.GetUOM(Unit.SQUARE_METRE));
            q2 = q1.Convert(ft2);
            Assert.IsTrue(IsCloseTo(q2.Amount, 10.76391041670972, DELTA6));
            Assert.IsTrue(IsCloseTo(q2.Convert(m2).Amount, 1, DELTA6));

            double bd = 3;

            q1 = new Quantity(bd, ft);
            q2 = q1.Convert(yd);
            Assert.IsTrue(IsCloseTo(q2.Amount, 1, DELTA6));
            Assert.IsTrue(IsCloseTo(q2.Convert(ft).Amount, bd, DELTA6));

            bd = 0.3048;
            q1 = new Quantity(1, ft);
            q2 = q1.Convert(m);
            Assert.IsTrue(IsCloseTo(q2.Amount, bd, DELTA6));
            Assert.IsTrue(IsCloseTo(q2.Convert(ft).Amount, 1, DELTA6));

            bd = oneHundred;
            q1 = new Quantity(bd, cm);
            q2 = q1.Convert(m);
            Assert.IsTrue(IsCloseTo(q2.Amount, 1, DELTA6));
            Assert.IsTrue(IsCloseTo(q2.Convert(cm).Amount, bd, DELTA6));

            // Add
            bd = 50;
            q1 = new Quantity(bd, cm);
            q2 = new Quantity(bd, cm);
            Quantity q3 = q1.Add(q2);

            Assert.IsTrue(IsCloseTo(q3.Amount, bd + bd, DELTA6));
            Assert.IsTrue(IsCloseTo(q3.Convert(m).Amount, 1, DELTA6));

            Quantity q4 = q2.Add(q1);

            Assert.IsTrue(IsCloseTo(q4.Amount, bd + bd, DELTA6));
            Assert.IsTrue(IsCloseTo(q4.Convert(m).Amount, 1, DELTA6));
            Assert.IsTrue(q3.Equals(q4));

            // Subtract
            q3 = q1.Subtract(q2);
            Assert.IsTrue(IsCloseTo(q3.Amount, 0, DELTA6));
            Assert.IsTrue(IsCloseTo(q3.Convert(m).Amount, 0, DELTA6));

            q4 = q2.Subtract(q1);
            Assert.IsTrue(IsCloseTo(q4.Amount, 0, DELTA6));
            Assert.IsTrue(IsCloseTo(q4.Convert(m).Amount, 0, DELTA6));
            Assert.IsTrue(q3.Equals(q4));

            // Multiply
            q3 = q1.Multiply(q2);
            Assert.IsTrue(IsCloseTo(q3.Amount, 2500, DELTA6));

            q4 = q3.Convert(cm2);
            Assert.IsTrue(IsCloseTo(q4.Amount, 2500, DELTA6));

            q4 = q3.Convert(m2);
            Assert.IsTrue(IsCloseTo(q4.Amount, 0.25, DELTA6));

            // Divide
            q4 = q3.Divide(q1);
            Assert.IsTrue(q4.Equals(q2));
        }
Ejemplo n.º 10
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 private void Apply(ProductReservationCancelled e)
 {
     Reserved = Reserved.Subtract(e.Quantity);
     Quantity = Quantity.Add(e.Quantity);
 }
Ejemplo n.º 11
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 private void Apply(ProductQuantityAdded e)
 {
     Quantity = Quantity.Add(e.Quantity);
 }
Ejemplo n.º 12
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 public void IncreaseItemQtyBy(Quantity quantity)
 {
     Quantity = Quantity.Add(quantity);
 }