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Operations_Public.cs
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Operations_Public.cs
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using System;
namespace FlexibleParser
{
public partial class UnitP : IComparable<UnitP>
{
///<summary><para>Compares the current instance against another UnitP one.</para></summary>
///<param name="other">The other UnitP instance.</param>
public int CompareTo(UnitP other)
{
return
(
this.BaseTenExponent == other.BaseTenExponent ?
(this.Value * this.UnitPrefix.Factor).CompareTo(other.Value * other.UnitPrefix.Factor) :
this.BaseTenExponent.CompareTo(other.BaseTenExponent)
);
}
///<summary><para>Creates a new UnitP instance by relying on the most adequate constructor.</para></summary>
///<param name="input">String input.</param>
public static implicit operator UnitP(string input)
{
return new UnitP(input);
}
///<summary><para>Creates a new UnitP instance by relying on the most adequate constructor.</para></summary>
///<param name="input">Decimal input.</param>
public static implicit operator UnitP(decimal input)
{
return new UnitP(input);
}
///<summary><para>Creates a new UnitP instance by relying on the most adequate constructor.</para></summary>
///<param name="input">Units input.</param>
public static implicit operator UnitP(Units input)
{
return new UnitP(input);
}
///<summary>
///<para>Adds two UnitP variables by giving preference to the configuration of the first operand.</para>
///<para>Different unit types will trigger an error.</para>
///</summary>
///<param name="first">Augend. In case of incompatibilities, its configuration would prevail.</param>
///<param name="second">Addend.</param>
public static UnitP operator +(UnitP first, UnitP second)
{
return PerformUnitOperation
(
first, second, Operations.Addition,
GetOperationString(first, second, Operations.Addition)
);
}
///<summary>
///<para>Subtracts two UnitP variables by giving preference to the configuration of the first operand.</para>
///<para>Different unit types will trigger an error.</para>
///</summary>
///<param name="first">Minuend. In case of incompatibilities, its configuration would prevail.</param>
///<param name="second">Subtrahend.</param>
public static UnitP operator -(UnitP first, UnitP second)
{
return PerformUnitOperation
(
first, second, Operations.Subtraction,
GetOperationString(first, second, Operations.Subtraction)
);
}
///<summary>
///<para>Multiplies two UnitP variables by giving preference to the configuration of the first operand.</para>
///<para>Different unit types will trigger an error.</para>
///</summary>
///<param name="first">Multiplicand. In case of incompatibilities, its configuration would prevail.</param>
///<param name="second">Multiplier.</param>
public static UnitP operator *(UnitP first, UnitP second)
{
return PerformUnitOperation
(
first, second, Operations.Multiplication,
GetOperationString(first, second, Operations.Multiplication)
);
}
///<summary>
///<para>Multiplies the value of a UnitP variable by a decimal one.</para>
///<para>Eventual errors will be managed as defined in first.ExceptionHandling.</para>
///</summary>
///<param name="first">Multiplicand.</param>
///<param name="second">Multiplier.</param>
public static UnitP operator *(UnitP first, decimal second)
{
return PerformUnitOperation
(
first, second, Operations.Multiplication,
GetOperationString(first, second, Operations.Multiplication)
);
}
///<summary>
///<para>Multiplies a decimal variable by the value of a UnitP one.</para>
///<para>Eventual errors will be managed as defined by the decimal type.</para>
///</summary>
///<param name="first">Multiplicand.</param>
///<param name="second">Multiplier.</param>
public static UnitP operator *(decimal first, UnitP second)
{
return PerformUnitOperation
(
first, second, Operations.Multiplication,
GetOperationString(first, second, Operations.Multiplication)
);
}
///<summary>
///<para>Multiplies the value of a UnitP variable by a double one.</para>
///<para>Eventual errors will be managed as defined in first.ExceptionHandling.</para>
///<para>Eventual double to decimal conversion errors will be managed internally.</para>
///</summary>
///<param name="first">Multiplicand.</param>
///<param name="second">Multiplier.</param>
public static UnitP operator *(UnitP first, double second)
{
return PerformUnitOperation
(
first, second, Operations.Multiplication,
GetOperationString(first, second, Operations.Multiplication)
);
}
///<summary>
///<para>Multiplies a double variable by the value of a UnitP one.</para>
///<para>Eventual errors will be managed as defined by the double type.</para>
///<para>Eventual double to decimal conversion errors will be managed internally.</para>
///</summary>
///<param name="first">Multiplicand.</param>
///<param name="second">Multiplier.</param>
public static UnitP operator *(double first, UnitP second)
{
return PerformUnitOperation
(
first, second, Operations.Multiplication,
GetOperationString(first, second, Operations.Multiplication)
);
}
///<summary>
///<para>Divides two UnitP variables by giving preference to the configuration of the first operand.</para>
///<para>Different unit types will trigger an error.</para>
///</summary>
///<param name="first">Dividend. In case of incompatibilities, its configuration would prevail.</param>
///<param name="second">Divisor.</param>
public static UnitP operator /(UnitP first, UnitP second)
{
return PerformUnitOperation
(
first, second, Operations.Division,
GetOperationString(first, second, Operations.Division)
);
}
///<summary>
///<para>Divides the value of a UnitP variable by a decimal one.</para>
///<para>Eventual errors will be managed as defined in first.ExceptionHandling.</para>
///</summary>
///<param name="first">Dividend.</param>
///<param name="second">Divisor.</param>
public static UnitP operator /(UnitP first, decimal second)
{
return PerformUnitOperation
(
first, second, Operations.Division,
GetOperationString(first, second, Operations.Division)
);
}
///<summary>
///<para>Divides a decimal variable by the value of a UnitP one.</para>
///<para>Eventual errors will be managed as defined by the decimal type.</para>
///</summary>
///<param name="first">Multiplicand.</param>
///<param name="second">Multiplier.</param>
public static UnitP operator /(decimal first, UnitP second)
{
return PerformUnitOperation
(
first, second, Operations.Division,
GetOperationString(first, second, Operations.Division)
);
}
///<summary>
///<para>Divides the value of a UnitP variable by a double one.</para>
///<para>Eventual errors will be managed as defined in first.ExceptionHandling.</para>
///<para>Eventual double to decimal conversion errors will be managed internally.</para>
///</summary>
///<param name="first">Multiplicand.</param>
///<param name="second">Multiplier.</param>
public static UnitP operator /(UnitP first, double second)
{
return PerformUnitOperation
(
first, second, Operations.Division,
GetOperationString(first, second, Operations.Division)
);
}
///<summary>
///<para>Divides a double variable by the value of a UnitP one.</para>
///<para>Eventual errors will be managed as defined by the double type.</para>
///<para>Eventual double to decimal conversion errors will be managed internally.</para>
///</summary>
///<param name="first">Dividend.</param>
///<param name="second">Divisor.</param>
public static UnitP operator /(double first, UnitP second)
{
return PerformUnitOperation
(
first, second, Operations.Division,
GetOperationString(first, second, Operations.Division)
);
}
///<summary><para>Determines whether two UnitP instances are equal.</para></summary>
///<param name="first">First operand.</param>
///<param name="second">Second operand.</param>
public static bool operator ==(UnitP first, UnitP second)
{
return NoNullEquals(first, second);
}
///<summary><para>Determines whether two UnitP instances are different.</para></summary>
///<param name="first">First operand.</param>
///<param name="second">Second operand.</param>
public static bool operator !=(UnitP first, UnitP second)
{
return !NoNullEquals(first, second);
}
///<summary><para>Determines whether the current UnitP instance is equal to other one.</para></summary>
///<param name="other">Other variable.</param>
public bool Equals(UnitP other)
{
return
(
object.Equals(other, null) ? false : UnitPVarsAreEqual(this, other)
);
}
///<summary><para>Determines whether the current UnitP instance is equal to other one.</para></summary>
///<param name="obj">Other variable.</param>
public override bool Equals(object obj)
{
return Equals(obj as UnitP);
}
///<summary><para>Returns the hash code for this UnitP instance.</para></summary>
public override int GetHashCode()
{
return 0;
}
}
}