コード例 #1
0
 /// <summary>Returns the result of division of double and object.</summary>
 public static T operator /(double lhs, DoubleArithmetic <T> rhs)
 {
     if (rhs == null && DoubleUtil.Equal(lhs, 0.0))
     {
         return(null);
     }
     else if (rhs == null)
     {
         throw new Exception("Cannot accept null argument as it contains no information to create the result.");
     }
     return(rhs.Apply(lhs, (x, y) => x / y));
 }
コード例 #2
0
 /// <summary>Returns the result of subtraction of object and double.</summary>
 public static T operator -(DoubleArithmetic <T> lhs, double rhs)
 {
     if (lhs == null && DoubleUtil.Equal(rhs, 0.0))
     {
         return((T)lhs);
     }
     else if (lhs == null)
     {
         throw new Exception("Cannot accept null argument as it contains no information to create the result.");
     }
     return(lhs.Subtract(rhs));
 }
コード例 #3
0
 /// <summary>Returns the result of division of object and double.</summary>
 public static T operator /(DoubleArithmetic <T> lhs, double rhs)
 {
     if (DoubleUtil.Equal(rhs, 0.0))
     {
         throw new Exception("Division of array by zero.");
     }
     else if (lhs == null)
     {
         return(null);
     }
     return(lhs.DivideBy(rhs));
 }
コード例 #4
0
        /// <summary>Variants are equal when both types and values are equal.
        /// Comparison of doubles is performed with roundoff tolerance.</summary>
        public bool Equals(Variant other)
        {
            // The purpose of this check is to ensure that variant holds only one of the supported types
            switch (value_)
            {
            case null: return(other.value_ == null);

            case string stringValue: return(other.value_ is string && stringValue == (string)other.value_);

            case double doubleValue:
                // Perform comparison of doubles by function that uses numerical tolerance
                return(other.value_ is double && DoubleUtil.Equal(doubleValue, (double)other.value_));

            case bool boolValue: return(other.value_ is bool && boolValue == (bool)other.value_);

            case int intValue: return(other.value_ is int && intValue == (int)other.value_);

            case long longValue: return(other.value_ is long && longValue == (long)other.value_);

            case LocalDate dateValue: return(other.value_ is LocalDate && dateValue == (LocalDate)other.value_);

            case LocalTime timeValue: return(other.value_ is LocalTime && timeValue == (LocalTime)other.value_);

            case LocalMinute minuteValue: return(other.value_ is LocalMinute && minuteValue == (LocalMinute)other.value_);

            case LocalDateTime dateTimeValue: return(other.value_ is LocalDateTime && dateTimeValue == (LocalDateTime)other.value_);

            case Instant instantValue: return(other.value_ is Instant && instantValue == (Instant)other.value_);

            case Enum enumValue:
                // Use Equals(other) to avoid unintended reference comparison
                return(other.value_ is Enum && enumValue.Equals(other.value_));

            default:
                // Error message if any other type, should normally not get here
                throw new Exception(GetWrongTypeErrorMessage(value_));
            }
        }