/// <summary> /// Reads an instance of <see cref="Gu.Units.Wavenumber"/> from the <paramref name="reader"/> /// </summary> /// <param name="reader"></param> /// <returns>An instance of <see cref="Gu.Units.Wavenumber"/></returns> public static Wavenumber ReadFrom(XmlReader reader) { var v = new Wavenumber(); v.ReadXml(reader); return(v); }
/// <devdoc> /// <para>Converts the given object to a <see cref='Gu.Units.Wavenumber'/> /// object.</para> /// </devdoc> public override object ConvertFrom(ITypeDescriptorContext context, CultureInfo culture, object value) { var text = value as string; if (text != null) { return(Wavenumber.Parse(text, culture)); } return(base.ConvertFrom(context, culture, value)); }
public void ReadXml(XmlReader reader) { reader.MoveToContent(); var attribute = reader.GetAttribute("Value"); if (attribute is null) { throw new XmlException($"Could not find attribute named: Value"); } this = new Wavenumber(XmlConvert.ToDouble(attribute), WavenumberUnit.ReciprocalMetres); reader.ReadStartElement(); }
/// <summary> /// Multiplies <paramref name="left"/> with <paramref name="right"/> /// </summary> /// <param name="left">The left value</param> /// <param name="right">The right value</param> /// <returns>The <see cref="Wavenumber"/> that is the result from the multiplication.</returns> public static Wavenumber operator *(Flexibility left, Pressure right) { return(Wavenumber.FromReciprocalMetres(left.metresPerNewton * right.pascals)); }
public static Wavenumber operator /(Frequency left, Speed right) { return(Wavenumber.FromReciprocalMetres(left.hertz / right.metresPerSecond)); }
public static Wavenumber operator /(Area left, Volume right) { return(Wavenumber.FromReciprocalMetres(left.squareMetres / right.cubicMetres)); }
public static Wavenumber operator /(Force left, Energy right) { return(Wavenumber.FromReciprocalMetres(left.newtons / right.joules)); }
/// <summary> /// Divides <paramref name="left"/> by <paramref name="right"/> /// </summary> /// <param name="left">The left value</param> /// <param name="right">The right value</param> /// <returns>The <see cref="Wavenumber"/> that is the result from the division.</returns> public static Wavenumber operator /(Pressure left, Stiffness right) { return(Wavenumber.FromReciprocalMetres(left.pascals / right.newtonsPerMetre)); }
/// <summary> /// Returns a quantity indicating whether this instance is equal to a specified <see cref="Gu.Units.Wavenumber"/> object within the given tolerance. /// </summary> /// <returns> /// true if <paramref name="other"/> represents the same Wavenumber as this instance; otherwise, false. /// </returns> /// <param name="other">An instance of <see cref="Gu.Units.Wavenumber"/> object to compare with this instance.</param> /// <param name="tolerance">The maximum difference for being considered equal. Must be greater than zero.</param> public bool Equals(Wavenumber other, Wavenumber tolerance) { Ensure.GreaterThan(tolerance.reciprocalMetres, 0, nameof(tolerance)); return(Math.Abs(this.reciprocalMetres - other.reciprocalMetres) < tolerance.reciprocalMetres); }
/// <summary> /// Divides <paramref name="left"/> by <paramref name="right"/> /// </summary> /// <param name="left">The left value</param> /// <param name="right">The right value</param> /// <returns>The Wavenumber that is the result from the division.</returns> public static Wavenumber operator /(double left, Length right) { return(Wavenumber.FromReciprocalMetres(left / right.metres)); }
/// <summary> /// Divides <paramref name="left"/> by <paramref name="right"/> /// </summary> /// <param name="left">The left value</param> /// <param name="right">The right value</param> /// <returns>The <see cref="Wavenumber"/> that is the result from the division.</returns> public static Wavenumber operator /(Density left, AreaDensity right) { return(Wavenumber.FromReciprocalMetres(left.kilogramsPerCubicMetre / right.kilogramsPerSquareMetre)); }
/// <summary> /// Divides <paramref name="left"/> by <paramref name="right"/> /// </summary> /// <param name="left">The left value</param> /// <param name="right">The right value</param> /// <returns>The <see cref="Wavenumber"/> that is the result from the division.</returns> public static Wavenumber operator /(Length left, Area right) { return(Wavenumber.FromReciprocalMetres(left.metres / right.squareMetres)); }
/// <summary> /// Creates an instance of <see cref="Gu.Units.Wavenumber"/> from its string representation /// </summary> /// <param name="text">The string representation of the <see cref="Gu.Units.Wavenumber"/></param> /// <param name="styles">Specifies the <see cref="NumberStyles"/> to be used.</param> /// <param name="provider">Specifies the formatProvider to be used.</param> /// <param name="result">The parsed <see cref="Wavenumber"/></param> /// <returns>True if an instance of <see cref="Wavenumber"/> could be parsed from <paramref name="text"/></returns> public static bool TryParse(string text, NumberStyles styles, IFormatProvider provider, out Wavenumber result) { return(QuantityParser.TryParse <WavenumberUnit, Wavenumber>(text, From, styles, provider, out result)); }
/// <summary> /// Divides <paramref name="left"/> by <paramref name="right"/> /// </summary> /// <param name="left">The left value</param> /// <param name="right">The right value</param> /// <returns>The <see cref="Wavenumber"/> that is the result from the division.</returns> public static Wavenumber operator /(Speed left, KinematicViscosity right) { return(Wavenumber.FromReciprocalMetres(left.metresPerSecond / right.squareMetresPerSecond)); }
/// <summary> /// Creates an instance of <see cref="Gu.Units.Wavenumber"/> from its string representation /// </summary> /// <param name="text">The string representation of the <see cref="Gu.Units.Wavenumber"/></param> /// <param name="styles">Specifies the <see cref="NumberStyles"/> to be used.</param> /// <param name="result">The parsed <see cref="Wavenumber"/></param> /// <returns>True if an instance of <see cref="Wavenumber"/> could be parsed from <paramref name="text"/></returns> public static bool TryParse(string text, NumberStyles styles, out Wavenumber result) { return(QuantityParser.TryParse <WavenumberUnit, Wavenumber>(text, From, styles, CultureInfo.CurrentCulture, out result)); }
public static Wavenumber operator /(Acceleration left, SpecificEnergy right) { return(Wavenumber.FromReciprocalMetres(left.metresPerSecondSquared / right.joulesPerKilogram)); }
/// <summary> /// Divides <paramref name="left"/> by <paramref name="right"/> /// </summary> /// <param name="left">The left value</param> /// <param name="right">The right value</param> /// <returns>The <see cref="Wavenumber"/> that is the result from the division.</returns> public static Wavenumber operator /(Stiffness left, Force right) { return(Wavenumber.FromReciprocalMetres(left.newtonsPerMetre / right.newtons)); }
public static Wavenumber operator *(Resistance left, Conductivity right) { return(Wavenumber.FromReciprocalMetres(left.ohms * right.siemensPerMetre)); }
/// <summary> /// Divides <paramref name="left"/> by <paramref name="right"/> /// </summary> /// <param name="left">The left value</param> /// <param name="right">The right value</param> /// <returns>The <see cref="Wavenumber"/> that is the result from the division.</returns> public static Wavenumber operator /(Conductivity left, ElectricalConductance right) { return(Wavenumber.FromReciprocalMetres(left.siemensPerMetre / right.siemens)); }
/// <summary> /// Divides <paramref name="left"/> by <paramref name="right"/> /// </summary> /// <param name="left">The left value</param> /// <param name="right">The right value</param> /// <returns>The <see cref="Wavenumber"/> that is the result from the division.</returns> public static Wavenumber operator /(MassFlow left, Momentum right) { return(Wavenumber.FromReciprocalMetres(left.kilogramsPerSecond / right.newtonSecond)); }
/// <summary> /// Compares this instance to a specified <see cref="Gu.Units.Wavenumber"/> object and returns an integer that indicates whether this <paramref name="quantity"/> is smaller than, equal to, or greater than the <see cref="Gu.Units.Wavenumber"/> object. /// </summary> /// <returns> /// A signed number indicating the relative quantitys of this instance and <paramref name="quantity"/>. /// /// Value /// /// Description /// /// A negative integer /// /// This instance is smaller than <paramref name="quantity"/>. /// /// Zero /// /// This instance is equal to <paramref name="quantity"/>. /// /// A positive integer /// /// This instance is larger than <paramref name="quantity"/>. /// /// </returns> /// <param name="quantity">An instance of <see cref="Gu.Units.Wavenumber"/> object to compare to this instance.</param> public int CompareTo(Wavenumber quantity) { return(this.reciprocalMetres.CompareTo(quantity.reciprocalMetres)); }
/// <summary> /// Divides <paramref name="left"/> by <paramref name="right"/> /// </summary> /// <param name="left">The left value</param> /// <param name="right">The right value</param> /// <returns>The <see cref="Wavenumber"/> that is the result from the division.</returns> public static Wavenumber operator /(KinematicViscosity left, VolumetricFlow right) { return(Wavenumber.FromReciprocalMetres(left.squareMetresPerSecond / right.cubicMetresPerSecond)); }
/// <summary> /// Returns a quantity indicating whether this instance is equal to a specified <see cref="Gu.Units.Wavenumber"/> object. /// </summary> /// <returns> /// true if <paramref name="other"/> represents the same Wavenumber as this instance; otherwise, false. /// </returns> /// <param name="other">An instance of <see cref="Gu.Units.Wavenumber"/> object to compare with this instance.</param> public bool Equals(Wavenumber other) { return(this.reciprocalMetres.Equals(other.reciprocalMetres)); }