SQLMoney.cs source code in C# .NET

Source code for the .NET framework in C#

                        

Code:

/ Dotnetfx_Win7_3.5.1 / Dotnetfx_Win7_3.5.1 / 3.5.1 / DEVDIV / depot / DevDiv / releases / whidbey / NetFXspW7 / ndp / fx / src / Data / System / Data / SQLTypes / SQLMoney.cs / 1 / SQLMoney.cs

                            //------------------------------------------------------------------------------ 
// 
//     Copyright (c) Microsoft Corporation.  All rights reserved.
//  
// junfang 
// [....]
// [....] 
//----------------------------------------------------------------------------- 

//************************************************************************* 
// @File: SqlMoney.cs
//
// Create by:    JunFang
// 
// Purpose: Implementation of SqlMoney which is equivalent to
//            data type "money" in SQL Server 
// 
// Notes:
// 
// History:
//
//   09/17/99  JunFang    Created and implemented as first drop.
// 
// @EndHeader@
//************************************************************************* 
 
using System;
using System.Data.Common; 
using System.Diagnostics;
using System.Runtime.InteropServices;
using System.Globalization;
using System.Xml; 
using System.Xml.Schema;
using System.Xml.Serialization; 
 
namespace System.Data.SqlTypes {
 
    /// 
    ///    
    ///       Represents a currency value ranging from
    ///       -2 (or -922,337,203,685,477.5808) to 2 -1 (or 
    ///       +922,337,203,685,477.5807) with an accuracy to
    ///       a ten-thousandth of currency unit to be stored in or retrieved from a 
    ///       database. 
    ///    
    ///  
    [Serializable]
    [StructLayout(LayoutKind.Sequential)]
    [XmlSchemaProvider("GetXsdType")]
    public struct SqlMoney : INullable, IComparable, IXmlSerializable { 
        private bool m_fNotNull; // false if null
        private long m_value; 
 
        // SQL Server stores money8 as ticks of 1/10000.
        internal static readonly int x_iMoneyScale = 4; 
        private static readonly long x_lTickBase = 10000;
        private static readonly double x_dTickBase = (double)x_lTickBase;

        private static readonly long MinLong = unchecked((long)0x8000000000000000L) / x_lTickBase; 
        private static readonly long MaxLong = 0x7FFFFFFFFFFFFFFFL / x_lTickBase;
 
        // constructor 
        // construct a Null
        private SqlMoney(bool fNull) { 
            m_fNotNull = false;
            m_value = 0;
        }
 
        // Constructs from a long value without scaling. The ignored parameter exists
        // only to distinguish this constructor from the constructor that takes a long. 
        // Used only internally. 
        internal SqlMoney(long value, int ignored) {
            m_value = value; 
            m_fNotNull = true;
        }

        ///  
        ///    
        ///       Initializes a new instance of the  class with the value given. 
        ///     
        /// 
        public SqlMoney(int value) { 
            m_value = (long)value * x_lTickBase;
            m_fNotNull = true;
        }
 
        /// 
        ///     
        ///       Initializes a new instance of the  class with the value given. 
        ///    
        ///  
        public SqlMoney(long value) {
            if (value < MinLong || value > MaxLong)
                throw new OverflowException(SQLResource.ArithOverflowMessage);
            m_value = value * x_lTickBase; 
            m_fNotNull = true;
        } 
 
        /// 
        ///     
        ///       Initializes a new instance of the  class with the value given.
        ///    
        /// 
        public SqlMoney(Decimal value) { 
            // Since Decimal is a value type, operate directly on value, don't worry about changing it.
            SqlDecimal snum = new SqlDecimal(value); 
            snum.AdjustScale(x_iMoneyScale - snum.Scale, true); 
            Debug.Assert(snum.Scale == x_iMoneyScale);
 
            if (snum.m_data3 != 0 || snum.m_data4 != 0)
                throw new OverflowException(SQLResource.ArithOverflowMessage);

            bool fPositive = snum.IsPositive; 
            ulong ulValue = (ulong)snum.m_data1 + ( ((ulong)snum.m_data2) << 32 );
            if (fPositive && ulValue > (ulong)(Int64.MaxValue) || 
                !fPositive && ulValue > unchecked((ulong)(Int64.MinValue))) 
                throw new OverflowException(SQLResource.ArithOverflowMessage);
 
            m_value = fPositive ? (long)ulValue : unchecked(- (long)ulValue);
            m_fNotNull = true;
        }
 
        /// 
        ///     
        ///       Initializes a new instance of the  class with the value given. 
        ///    
        ///  
        public SqlMoney(double value) : this(new Decimal(value)) {
        }

 
        // INullable
        ///  
        ///     
        ///       Gets a value indicating whether the 
        ///       property is assigned to null. 
        ///    
        /// 
        public bool IsNull {
            get { return !m_fNotNull;} 
        }
 
        // property: Value 
        /// 
        ///     
        ///       Gets or sets the monetary value of an instance of the 
        ///       class.
        ///    
        ///  
        public Decimal Value {
            get { 
                if (m_fNotNull) 
                    return ToDecimal();
                else 
                    throw new SqlNullValueException();
            }
        }
 
        /// 
        ///    [To be supplied.] 
        ///  
        public Decimal ToDecimal() {
            if(IsNull) 
                throw new SqlNullValueException();

            bool fNegative = false;
            long value = m_value; 
            if (m_value < 0) {
                fNegative = true; 
                value = - m_value; 
            }
 
            return new Decimal(unchecked((int)value), unchecked((int)(value >> 32)), 0, fNegative, (byte)x_iMoneyScale);
        }

        ///  
        ///    [To be supplied.]
        ///  
        public long ToInt64() { 
            if(IsNull)
                throw new SqlNullValueException(); 

            long ret = m_value / (x_lTickBase / 10);
            bool fPositive = (ret >= 0);
            long remainder = ret % 10; 
            ret = ret / 10;
 
            if (remainder >= 5) { 
                if (fPositive)
                    ret ++; 
                else
                    ret --;
            }
 
            return ret;
        } 
 
        internal long ToSqlInternalRepresentation() {
            if(IsNull) 
                throw new SqlNullValueException();

            return m_value;
        } 

        ///  
        ///    [To be supplied.] 
        /// 
        public int ToInt32() { 
            return checked((int)(ToInt64()));
        }

        ///  
        ///    [To be supplied.]
        ///  
        public double ToDouble() { 
            return Decimal.ToDouble(ToDecimal());
        } 

        // Implicit conversion from Decimal to SqlMoney
        /// 
        ///    [To be supplied.] 
        /// 
        public static implicit operator SqlMoney(Decimal x) { 
            return new SqlMoney(x); 
        }
 
        // Explicit conversion from Double to SqlMoney
        public static explicit operator SqlMoney(double x) {
            return new SqlMoney(x);
        } 

        // Implicit conversion from long to SqlMoney 
        public static implicit operator SqlMoney(long x) { 
            return new SqlMoney(new Decimal(x));
        } 

        // Explicit conversion from SqlMoney to Decimal. Throw exception if x is Null.
        /// 
        ///    [To be supplied.] 
        /// 
        public static explicit operator Decimal(SqlMoney x) { 
            return x.Value; 
        }
 
        /// 
        ///    [To be supplied.]
        /// 
        public override String ToString() { 
            if (this.IsNull) {
                return SQLResource.NullString; 
            } 
            Decimal money = ToDecimal();
            // Formatting of SqlMoney: At least two digits after decimal point 
            return money.ToString("#0.00##", (IFormatProvider)null);
        }

        ///  
        ///    [To be supplied.]
        ///  
        public static SqlMoney Parse(String s) { 
            // Try parsing the format of '#0.00##' generated by ToString() by using the
            // culture invariant NumberFormatInfo as well as the current culture's format 
            //
            Decimal d;
            SqlMoney money;
 
            const NumberStyles SqlNumberStyle =
                     NumberStyles.AllowCurrencySymbol | 
                     NumberStyles.AllowDecimalPoint | 
                     NumberStyles.AllowParentheses |
                     NumberStyles.AllowTrailingSign | 
                     NumberStyles.AllowLeadingSign |
                     NumberStyles.AllowTrailingWhite |
                     NumberStyles.AllowLeadingWhite;
 
            if ( s == SQLResource.NullString) {
                money = SqlMoney.Null; 
            } 
            else if (Decimal.TryParse(s, SqlNumberStyle, NumberFormatInfo.InvariantInfo, out d)) {
                money = new SqlMoney(d); 
            }
            else {
                money = new SqlMoney(Decimal.Parse(s, NumberStyles.Currency, NumberFormatInfo.CurrentInfo));
            } 

            return money; 
        } 

        // Unary operators 
        /// 
        ///    [To be supplied.]
        /// 
        public static SqlMoney operator -(SqlMoney x) { 
            if (x.IsNull)
                return Null; 
            if (x.m_value == MinLong) 
                throw new OverflowException(SQLResource.ArithOverflowMessage);
            return new SqlMoney(-x.m_value, 0); 
        }


        // Binary operators 

        // Arithmetic operators 
        ///  
        ///    [To be supplied.]
        ///  
        public static SqlMoney operator +(SqlMoney x, SqlMoney y) {
            try {
                return(x.IsNull || y.IsNull) ? Null : new SqlMoney(checked(x.m_value + y.m_value), 0);
            } 
            catch (OverflowException) {
                throw new OverflowException(SQLResource.ArithOverflowMessage); 
            } 
        }
 
        /// 
        ///    [To be supplied.]
        /// 
        public static SqlMoney operator -(SqlMoney x, SqlMoney y) { 
            try {
                return(x.IsNull || y.IsNull) ? Null : new SqlMoney(checked(x.m_value - y.m_value), 0); 
            } 
            catch (OverflowException) {
                throw new OverflowException(SQLResource.ArithOverflowMessage); 
            }
        }

        ///  
        ///    [To be supplied.]
        ///  
        public static SqlMoney operator *(SqlMoney x, SqlMoney y) { 
            return (x.IsNull || y.IsNull) ? Null :
 		new SqlMoney(Decimal.Multiply(x.ToDecimal(), y.ToDecimal())); 
        }

        /// 
        ///    [To be supplied.] 
        /// 
        public static SqlMoney operator /(SqlMoney x, SqlMoney y) { 
            return (x.IsNull || y.IsNull) ? Null : 
		new SqlMoney(Decimal.Divide(x.ToDecimal(), y.ToDecimal()));
        } 


        // Implicit conversions
 
        // Implicit conversion from SqlBoolean to SqlMoney
        ///  
        ///    [To be supplied.] 
        /// 
        public static explicit operator SqlMoney(SqlBoolean x) { 
            return x.IsNull ? Null : new SqlMoney((int)x.ByteValue);
        }

        // Implicit conversion from SqlByte to SqlMoney 
        /// 
        ///    [To be supplied.] 
        ///  
        public static implicit operator SqlMoney(SqlByte x) {
            return x.IsNull ? Null : new SqlMoney((int)x.Value); 
        }

        // Implicit conversion from SqlInt16 to SqlMoney
        ///  
        ///    [To be supplied.]
        ///  
        public static implicit operator SqlMoney(SqlInt16 x) { 
            return x.IsNull ? Null : new SqlMoney((int)x.Value);
        } 

        // Implicit conversion from SqlInt32 to SqlMoney
        /// 
        ///    [To be supplied.] 
        /// 
        public static implicit operator SqlMoney(SqlInt32 x) { 
            return x.IsNull ? Null : new SqlMoney(x.Value); 
        }
 
        // Implicit conversion from SqlInt64 to SqlMoney
        /// 
        ///    [To be supplied.]
        ///  
        public static implicit operator SqlMoney(SqlInt64 x) {
            return x.IsNull ? Null : new SqlMoney(x.Value); 
        } 

 
        // Explicit conversions

        // Explicit conversion from SqlSingle to SqlMoney
        ///  
        ///    [To be supplied.]
        ///  
        public static explicit operator SqlMoney(SqlSingle x) { 
            return x.IsNull ? Null : new SqlMoney((double)x.Value);
        } 

        // Explicit conversion from SqlDouble to SqlMoney
        /// 
        ///    [To be supplied.] 
        /// 
        public static explicit operator SqlMoney(SqlDouble x) { 
            return x.IsNull ? Null : new SqlMoney(x.Value); 
        }
 
        // Explicit conversion from SqlDecimal to SqlMoney
        /// 
        ///    [To be supplied.]
        ///  
        public static explicit operator SqlMoney(SqlDecimal x) {
            return x.IsNull ? SqlMoney.Null : new SqlMoney(x.Value); 
        } 

        // Explicit conversion from SqlString to SqlMoney 
        // Throws FormatException or OverflowException if necessary.
        /// 
        ///    [To be supplied.]
        ///  
        public static explicit operator SqlMoney(SqlString x) {
            return x.IsNull ? Null : new SqlMoney(Decimal.Parse(x.Value,NumberStyles.Currency,null)); 
        } 

 
        // Builtin functions

        // Overloading comparison operators
        ///  
        ///    [To be supplied.]
        ///  
        public static SqlBoolean operator==(SqlMoney x, SqlMoney y) { 
            return(x.IsNull || y.IsNull) ? SqlBoolean.Null : new SqlBoolean(x.m_value == y.m_value);
        } 

        /// 
        ///    [To be supplied.]
        ///  
        public static SqlBoolean operator!=(SqlMoney x, SqlMoney y) {
            return ! (x == y); 
        } 

        ///  
        ///    [To be supplied.]
        /// 
        public static SqlBoolean operator<(SqlMoney x, SqlMoney y) {
            return(x.IsNull || y.IsNull) ? SqlBoolean.Null : new SqlBoolean(x.m_value < y.m_value); 
        }
 
        ///  
        ///    [To be supplied.]
        ///  
        public static SqlBoolean operator>(SqlMoney x, SqlMoney y) {
            return(x.IsNull || y.IsNull) ? SqlBoolean.Null : new SqlBoolean(x.m_value > y.m_value);
        }
 
        /// 
        ///    [To be supplied.] 
        ///  
        public static SqlBoolean operator<=(SqlMoney x, SqlMoney y) {
            return(x.IsNull || y.IsNull) ? SqlBoolean.Null : new SqlBoolean(x.m_value <= y.m_value); 
        }

        /// 
        ///    [To be supplied.] 
        /// 
        public static SqlBoolean operator>=(SqlMoney x, SqlMoney y) { 
            return(x.IsNull || y.IsNull) ? SqlBoolean.Null : new SqlBoolean(x.m_value >= y.m_value); 
        }
 

        //--------------------------------------------------
        // Alternative methods for overloaded operators
        //-------------------------------------------------- 

        // Alternative method for operator + 
        public static SqlMoney Add(SqlMoney x, SqlMoney y) { 
            return x + y;
        } 
        // Alternative method for operator -
        public static SqlMoney Subtract(SqlMoney x, SqlMoney y) {
            return x - y;
        } 

        // Alternative method for operator * 
        public static SqlMoney Multiply(SqlMoney x, SqlMoney y) { 
            return x * y;
        } 

        // Alternative method for operator /
        public static SqlMoney Divide(SqlMoney x, SqlMoney y) {
            return x / y; 
        }
 
        // Alternative method for operator == 
        public static SqlBoolean Equals(SqlMoney x, SqlMoney y) {
            return (x == y); 
        }

        // Alternative method for operator !=
        public static SqlBoolean NotEquals(SqlMoney x, SqlMoney y) { 
            return (x != y);
        } 
 
        // Alternative method for operator <
        public static SqlBoolean LessThan(SqlMoney x, SqlMoney y) { 
            return (x < y);
        }

        // Alternative method for operator > 
        public static SqlBoolean GreaterThan(SqlMoney x, SqlMoney y) {
            return (x > y); 
        } 

        // Alternative method for operator <= 
        public static SqlBoolean LessThanOrEqual(SqlMoney x, SqlMoney y) {
            return (x <= y);
        }
 
        // Alternative method for operator >=
        public static SqlBoolean GreaterThanOrEqual(SqlMoney x, SqlMoney y) { 
            return (x >= y); 
        }
 
        // Alternative method for conversions.

        public SqlBoolean ToSqlBoolean() {
            return (SqlBoolean)this; 
        }
 
        public SqlByte ToSqlByte() { 
            return (SqlByte)this;
        } 

        public SqlDouble ToSqlDouble() {
            return (SqlDouble)this;
        } 

        public SqlInt16 ToSqlInt16() { 
            return (SqlInt16)this; 
        }
 
        public SqlInt32 ToSqlInt32() {
            return (SqlInt32)this;
        }
 
        public SqlInt64 ToSqlInt64() {
            return (SqlInt64)this; 
        } 

        public SqlDecimal ToSqlDecimal() { 
            return (SqlDecimal)this;
        }

        public SqlSingle ToSqlSingle() { 
            return (SqlSingle)this;
        } 
 
        public SqlString ToSqlString() {
            return (SqlString)this; 
        }


        // IComparable 
        // Compares this object to another object, returning an integer that
        // indicates the relationship. 
        // Returns a value less than zero if this < object, zero if this = object, 
        // or a value greater than zero if this > object.
        // null is considered to be less than any instance. 
        // If object is not of same type, this method throws an ArgumentException.
        /// 
        ///    [To be supplied.]
        ///  
        public int CompareTo(Object value) {
            if (value is SqlMoney) { 
                SqlMoney i = (SqlMoney)value; 

                return CompareTo(i); 
            }
            throw ADP.WrongType(value.GetType(), typeof(SqlMoney));
        }
 
        public int CompareTo(SqlMoney value) {
            // If both Null, consider them equal. 
            // Otherwise, Null is less than anything. 
            if (IsNull)
                return value.IsNull ? 0  : -1; 
            else if (value.IsNull)
                return 1;

            if (this < value) return -1; 
            if (this > value) return 1;
            return 0; 
        } 

        // Compares this instance with a specified object 
        /// 
        ///    [To be supplied.]
        /// 
        public override bool Equals(Object value) { 
            if (!(value is SqlMoney)) {
                return false; 
            } 

            SqlMoney i = (SqlMoney)value; 

            if (i.IsNull || IsNull)
                return (i.IsNull && IsNull);
            else 
                return (this == i).Value;
        } 
 
        // For hashing purpose
        ///  
        ///    [To be supplied.]
        /// 
        public override int GetHashCode() {
            // Don't use Value property, because Value will convert to Decimal, which is not necessary. 
            return IsNull ? 0 : m_value.GetHashCode();
        } 
 
        /// 
        ///    [To be supplied.] 
        /// 
        XmlSchema IXmlSerializable.GetSchema() { return null; }

        ///  
        ///    [To be supplied.]
        ///  
        void IXmlSerializable.ReadXml(XmlReader reader) { 
            string isNull = reader.GetAttribute("nil", XmlSchema.InstanceNamespace);
            if (isNull != null && XmlConvert.ToBoolean(isNull)) { 
                this.m_fNotNull = false;
            }
            else {
                SqlMoney money = new SqlMoney(XmlConvert.ToDecimal(reader.ReadElementString())); 
                this.m_fNotNull = money.m_fNotNull;
                this.m_value = money.m_value; 
            } 
        }
 
        /// 
        ///    [To be supplied.]
        /// 
        void IXmlSerializable.WriteXml(XmlWriter writer) { 
            if (IsNull) {
                writer.WriteAttributeString("xsi", "nil", XmlSchema.InstanceNamespace, "true"); 
            } 
            else {
                writer.WriteString( XmlConvert.ToString(ToDecimal()) ); 
            }
        }

        ///  
        ///    [To be supplied.]
        ///  
        public static XmlQualifiedName GetXsdType(XmlSchemaSet schemaSet) { 
            return new XmlQualifiedName("decimal", XmlSchema.Namespace);
        } 

        /// 
        ///    
        ///       Represents a null value that can be assigned to 
        ///       the  property of an instance of
        ///       the class. 
        ///     
        /// 
        public static readonly SqlMoney Null        = new SqlMoney(true); 

        /// 
        ///    
        ///       Represents the zero value that can be assigned to the  property of an instance of 
        ///       the  class.
        ///     
        ///  
        public static readonly SqlMoney Zero        = new SqlMoney(0);
 
        /// 
        ///    
        ///       Represents the minimum value that can be assigned
        ///       to  property of an instance of 
        ///       the 
        ///       class. 
        ///     
        /// 
        public static readonly SqlMoney MinValue    = new SqlMoney(unchecked((long)0x8000000000000000L), 0); 

        /// 
        ///    
        ///       Represents the maximum value that can be assigned to 
        ///       the  property of an instance of
        ///       the  
        ///       class. 
        ///    
        ///  
        public static readonly SqlMoney MaxValue    = new SqlMoney(0x7FFFFFFFFFFFFFFFL, 0);

    } // SqlMoney
 
} // namespace System.Data.SqlTypes

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
//------------------------------------------------------------------------------ 
// 
//     Copyright (c) Microsoft Corporation.  All rights reserved.
//  
// junfang 
// [....]
// [....] 
//----------------------------------------------------------------------------- 

//************************************************************************* 
// @File: SqlMoney.cs
//
// Create by:    JunFang
// 
// Purpose: Implementation of SqlMoney which is equivalent to
//            data type "money" in SQL Server 
// 
// Notes:
// 
// History:
//
//   09/17/99  JunFang    Created and implemented as first drop.
// 
// @EndHeader@
//************************************************************************* 
 
using System;
using System.Data.Common; 
using System.Diagnostics;
using System.Runtime.InteropServices;
using System.Globalization;
using System.Xml; 
using System.Xml.Schema;
using System.Xml.Serialization; 
 
namespace System.Data.SqlTypes {
 
    /// 
    ///    
    ///       Represents a currency value ranging from
    ///       -2 (or -922,337,203,685,477.5808) to 2 -1 (or 
    ///       +922,337,203,685,477.5807) with an accuracy to
    ///       a ten-thousandth of currency unit to be stored in or retrieved from a 
    ///       database. 
    ///    
    ///  
    [Serializable]
    [StructLayout(LayoutKind.Sequential)]
    [XmlSchemaProvider("GetXsdType")]
    public struct SqlMoney : INullable, IComparable, IXmlSerializable { 
        private bool m_fNotNull; // false if null
        private long m_value; 
 
        // SQL Server stores money8 as ticks of 1/10000.
        internal static readonly int x_iMoneyScale = 4; 
        private static readonly long x_lTickBase = 10000;
        private static readonly double x_dTickBase = (double)x_lTickBase;

        private static readonly long MinLong = unchecked((long)0x8000000000000000L) / x_lTickBase; 
        private static readonly long MaxLong = 0x7FFFFFFFFFFFFFFFL / x_lTickBase;
 
        // constructor 
        // construct a Null
        private SqlMoney(bool fNull) { 
            m_fNotNull = false;
            m_value = 0;
        }
 
        // Constructs from a long value without scaling. The ignored parameter exists
        // only to distinguish this constructor from the constructor that takes a long. 
        // Used only internally. 
        internal SqlMoney(long value, int ignored) {
            m_value = value; 
            m_fNotNull = true;
        }

        ///  
        ///    
        ///       Initializes a new instance of the  class with the value given. 
        ///     
        /// 
        public SqlMoney(int value) { 
            m_value = (long)value * x_lTickBase;
            m_fNotNull = true;
        }
 
        /// 
        ///     
        ///       Initializes a new instance of the  class with the value given. 
        ///    
        ///  
        public SqlMoney(long value) {
            if (value < MinLong || value > MaxLong)
                throw new OverflowException(SQLResource.ArithOverflowMessage);
            m_value = value * x_lTickBase; 
            m_fNotNull = true;
        } 
 
        /// 
        ///     
        ///       Initializes a new instance of the  class with the value given.
        ///    
        /// 
        public SqlMoney(Decimal value) { 
            // Since Decimal is a value type, operate directly on value, don't worry about changing it.
            SqlDecimal snum = new SqlDecimal(value); 
            snum.AdjustScale(x_iMoneyScale - snum.Scale, true); 
            Debug.Assert(snum.Scale == x_iMoneyScale);
 
            if (snum.m_data3 != 0 || snum.m_data4 != 0)
                throw new OverflowException(SQLResource.ArithOverflowMessage);

            bool fPositive = snum.IsPositive; 
            ulong ulValue = (ulong)snum.m_data1 + ( ((ulong)snum.m_data2) << 32 );
            if (fPositive && ulValue > (ulong)(Int64.MaxValue) || 
                !fPositive && ulValue > unchecked((ulong)(Int64.MinValue))) 
                throw new OverflowException(SQLResource.ArithOverflowMessage);
 
            m_value = fPositive ? (long)ulValue : unchecked(- (long)ulValue);
            m_fNotNull = true;
        }
 
        /// 
        ///     
        ///       Initializes a new instance of the  class with the value given. 
        ///    
        ///  
        public SqlMoney(double value) : this(new Decimal(value)) {
        }

 
        // INullable
        ///  
        ///     
        ///       Gets a value indicating whether the 
        ///       property is assigned to null. 
        ///    
        /// 
        public bool IsNull {
            get { return !m_fNotNull;} 
        }
 
        // property: Value 
        /// 
        ///     
        ///       Gets or sets the monetary value of an instance of the 
        ///       class.
        ///    
        ///  
        public Decimal Value {
            get { 
                if (m_fNotNull) 
                    return ToDecimal();
                else 
                    throw new SqlNullValueException();
            }
        }
 
        /// 
        ///    [To be supplied.] 
        ///  
        public Decimal ToDecimal() {
            if(IsNull) 
                throw new SqlNullValueException();

            bool fNegative = false;
            long value = m_value; 
            if (m_value < 0) {
                fNegative = true; 
                value = - m_value; 
            }
 
            return new Decimal(unchecked((int)value), unchecked((int)(value >> 32)), 0, fNegative, (byte)x_iMoneyScale);
        }

        ///  
        ///    [To be supplied.]
        ///  
        public long ToInt64() { 
            if(IsNull)
                throw new SqlNullValueException(); 

            long ret = m_value / (x_lTickBase / 10);
            bool fPositive = (ret >= 0);
            long remainder = ret % 10; 
            ret = ret / 10;
 
            if (remainder >= 5) { 
                if (fPositive)
                    ret ++; 
                else
                    ret --;
            }
 
            return ret;
        } 
 
        internal long ToSqlInternalRepresentation() {
            if(IsNull) 
                throw new SqlNullValueException();

            return m_value;
        } 

        ///  
        ///    [To be supplied.] 
        /// 
        public int ToInt32() { 
            return checked((int)(ToInt64()));
        }

        ///  
        ///    [To be supplied.]
        ///  
        public double ToDouble() { 
            return Decimal.ToDouble(ToDecimal());
        } 

        // Implicit conversion from Decimal to SqlMoney
        /// 
        ///    [To be supplied.] 
        /// 
        public static implicit operator SqlMoney(Decimal x) { 
            return new SqlMoney(x); 
        }
 
        // Explicit conversion from Double to SqlMoney
        public static explicit operator SqlMoney(double x) {
            return new SqlMoney(x);
        } 

        // Implicit conversion from long to SqlMoney 
        public static implicit operator SqlMoney(long x) { 
            return new SqlMoney(new Decimal(x));
        } 

        // Explicit conversion from SqlMoney to Decimal. Throw exception if x is Null.
        /// 
        ///    [To be supplied.] 
        /// 
        public static explicit operator Decimal(SqlMoney x) { 
            return x.Value; 
        }
 
        /// 
        ///    [To be supplied.]
        /// 
        public override String ToString() { 
            if (this.IsNull) {
                return SQLResource.NullString; 
            } 
            Decimal money = ToDecimal();
            // Formatting of SqlMoney: At least two digits after decimal point 
            return money.ToString("#0.00##", (IFormatProvider)null);
        }

        ///  
        ///    [To be supplied.]
        ///  
        public static SqlMoney Parse(String s) { 
            // Try parsing the format of '#0.00##' generated by ToString() by using the
            // culture invariant NumberFormatInfo as well as the current culture's format 
            //
            Decimal d;
            SqlMoney money;
 
            const NumberStyles SqlNumberStyle =
                     NumberStyles.AllowCurrencySymbol | 
                     NumberStyles.AllowDecimalPoint | 
                     NumberStyles.AllowParentheses |
                     NumberStyles.AllowTrailingSign | 
                     NumberStyles.AllowLeadingSign |
                     NumberStyles.AllowTrailingWhite |
                     NumberStyles.AllowLeadingWhite;
 
            if ( s == SQLResource.NullString) {
                money = SqlMoney.Null; 
            } 
            else if (Decimal.TryParse(s, SqlNumberStyle, NumberFormatInfo.InvariantInfo, out d)) {
                money = new SqlMoney(d); 
            }
            else {
                money = new SqlMoney(Decimal.Parse(s, NumberStyles.Currency, NumberFormatInfo.CurrentInfo));
            } 

            return money; 
        } 

        // Unary operators 
        /// 
        ///    [To be supplied.]
        /// 
        public static SqlMoney operator -(SqlMoney x) { 
            if (x.IsNull)
                return Null; 
            if (x.m_value == MinLong) 
                throw new OverflowException(SQLResource.ArithOverflowMessage);
            return new SqlMoney(-x.m_value, 0); 
        }


        // Binary operators 

        // Arithmetic operators 
        ///  
        ///    [To be supplied.]
        ///  
        public static SqlMoney operator +(SqlMoney x, SqlMoney y) {
            try {
                return(x.IsNull || y.IsNull) ? Null : new SqlMoney(checked(x.m_value + y.m_value), 0);
            } 
            catch (OverflowException) {
                throw new OverflowException(SQLResource.ArithOverflowMessage); 
            } 
        }
 
        /// 
        ///    [To be supplied.]
        /// 
        public static SqlMoney operator -(SqlMoney x, SqlMoney y) { 
            try {
                return(x.IsNull || y.IsNull) ? Null : new SqlMoney(checked(x.m_value - y.m_value), 0); 
            } 
            catch (OverflowException) {
                throw new OverflowException(SQLResource.ArithOverflowMessage); 
            }
        }

        ///  
        ///    [To be supplied.]
        ///  
        public static SqlMoney operator *(SqlMoney x, SqlMoney y) { 
            return (x.IsNull || y.IsNull) ? Null :
 		new SqlMoney(Decimal.Multiply(x.ToDecimal(), y.ToDecimal())); 
        }

        /// 
        ///    [To be supplied.] 
        /// 
        public static SqlMoney operator /(SqlMoney x, SqlMoney y) { 
            return (x.IsNull || y.IsNull) ? Null : 
		new SqlMoney(Decimal.Divide(x.ToDecimal(), y.ToDecimal()));
        } 


        // Implicit conversions
 
        // Implicit conversion from SqlBoolean to SqlMoney
        ///  
        ///    [To be supplied.] 
        /// 
        public static explicit operator SqlMoney(SqlBoolean x) { 
            return x.IsNull ? Null : new SqlMoney((int)x.ByteValue);
        }

        // Implicit conversion from SqlByte to SqlMoney 
        /// 
        ///    [To be supplied.] 
        ///  
        public static implicit operator SqlMoney(SqlByte x) {
            return x.IsNull ? Null : new SqlMoney((int)x.Value); 
        }

        // Implicit conversion from SqlInt16 to SqlMoney
        ///  
        ///    [To be supplied.]
        ///  
        public static implicit operator SqlMoney(SqlInt16 x) { 
            return x.IsNull ? Null : new SqlMoney((int)x.Value);
        } 

        // Implicit conversion from SqlInt32 to SqlMoney
        /// 
        ///    [To be supplied.] 
        /// 
        public static implicit operator SqlMoney(SqlInt32 x) { 
            return x.IsNull ? Null : new SqlMoney(x.Value); 
        }
 
        // Implicit conversion from SqlInt64 to SqlMoney
        /// 
        ///    [To be supplied.]
        ///  
        public static implicit operator SqlMoney(SqlInt64 x) {
            return x.IsNull ? Null : new SqlMoney(x.Value); 
        } 

 
        // Explicit conversions

        // Explicit conversion from SqlSingle to SqlMoney
        ///  
        ///    [To be supplied.]
        ///  
        public static explicit operator SqlMoney(SqlSingle x) { 
            return x.IsNull ? Null : new SqlMoney((double)x.Value);
        } 

        // Explicit conversion from SqlDouble to SqlMoney
        /// 
        ///    [To be supplied.] 
        /// 
        public static explicit operator SqlMoney(SqlDouble x) { 
            return x.IsNull ? Null : new SqlMoney(x.Value); 
        }
 
        // Explicit conversion from SqlDecimal to SqlMoney
        /// 
        ///    [To be supplied.]
        ///  
        public static explicit operator SqlMoney(SqlDecimal x) {
            return x.IsNull ? SqlMoney.Null : new SqlMoney(x.Value); 
        } 

        // Explicit conversion from SqlString to SqlMoney 
        // Throws FormatException or OverflowException if necessary.
        /// 
        ///    [To be supplied.]
        ///  
        public static explicit operator SqlMoney(SqlString x) {
            return x.IsNull ? Null : new SqlMoney(Decimal.Parse(x.Value,NumberStyles.Currency,null)); 
        } 

 
        // Builtin functions

        // Overloading comparison operators
        ///  
        ///    [To be supplied.]
        ///  
        public static SqlBoolean operator==(SqlMoney x, SqlMoney y) { 
            return(x.IsNull || y.IsNull) ? SqlBoolean.Null : new SqlBoolean(x.m_value == y.m_value);
        } 

        /// 
        ///    [To be supplied.]
        ///  
        public static SqlBoolean operator!=(SqlMoney x, SqlMoney y) {
            return ! (x == y); 
        } 

        ///  
        ///    [To be supplied.]
        /// 
        public static SqlBoolean operator<(SqlMoney x, SqlMoney y) {
            return(x.IsNull || y.IsNull) ? SqlBoolean.Null : new SqlBoolean(x.m_value < y.m_value); 
        }
 
        ///  
        ///    [To be supplied.]
        ///  
        public static SqlBoolean operator>(SqlMoney x, SqlMoney y) {
            return(x.IsNull || y.IsNull) ? SqlBoolean.Null : new SqlBoolean(x.m_value > y.m_value);
        }
 
        /// 
        ///    [To be supplied.] 
        ///  
        public static SqlBoolean operator<=(SqlMoney x, SqlMoney y) {
            return(x.IsNull || y.IsNull) ? SqlBoolean.Null : new SqlBoolean(x.m_value <= y.m_value); 
        }

        /// 
        ///    [To be supplied.] 
        /// 
        public static SqlBoolean operator>=(SqlMoney x, SqlMoney y) { 
            return(x.IsNull || y.IsNull) ? SqlBoolean.Null : new SqlBoolean(x.m_value >= y.m_value); 
        }
 

        //--------------------------------------------------
        // Alternative methods for overloaded operators
        //-------------------------------------------------- 

        // Alternative method for operator + 
        public static SqlMoney Add(SqlMoney x, SqlMoney y) { 
            return x + y;
        } 
        // Alternative method for operator -
        public static SqlMoney Subtract(SqlMoney x, SqlMoney y) {
            return x - y;
        } 

        // Alternative method for operator * 
        public static SqlMoney Multiply(SqlMoney x, SqlMoney y) { 
            return x * y;
        } 

        // Alternative method for operator /
        public static SqlMoney Divide(SqlMoney x, SqlMoney y) {
            return x / y; 
        }
 
        // Alternative method for operator == 
        public static SqlBoolean Equals(SqlMoney x, SqlMoney y) {
            return (x == y); 
        }

        // Alternative method for operator !=
        public static SqlBoolean NotEquals(SqlMoney x, SqlMoney y) { 
            return (x != y);
        } 
 
        // Alternative method for operator <
        public static SqlBoolean LessThan(SqlMoney x, SqlMoney y) { 
            return (x < y);
        }

        // Alternative method for operator > 
        public static SqlBoolean GreaterThan(SqlMoney x, SqlMoney y) {
            return (x > y); 
        } 

        // Alternative method for operator <= 
        public static SqlBoolean LessThanOrEqual(SqlMoney x, SqlMoney y) {
            return (x <= y);
        }
 
        // Alternative method for operator >=
        public static SqlBoolean GreaterThanOrEqual(SqlMoney x, SqlMoney y) { 
            return (x >= y); 
        }
 
        // Alternative method for conversions.

        public SqlBoolean ToSqlBoolean() {
            return (SqlBoolean)this; 
        }
 
        public SqlByte ToSqlByte() { 
            return (SqlByte)this;
        } 

        public SqlDouble ToSqlDouble() {
            return (SqlDouble)this;
        } 

        public SqlInt16 ToSqlInt16() { 
            return (SqlInt16)this; 
        }
 
        public SqlInt32 ToSqlInt32() {
            return (SqlInt32)this;
        }
 
        public SqlInt64 ToSqlInt64() {
            return (SqlInt64)this; 
        } 

        public SqlDecimal ToSqlDecimal() { 
            return (SqlDecimal)this;
        }

        public SqlSingle ToSqlSingle() { 
            return (SqlSingle)this;
        } 
 
        public SqlString ToSqlString() {
            return (SqlString)this; 
        }


        // IComparable 
        // Compares this object to another object, returning an integer that
        // indicates the relationship. 
        // Returns a value less than zero if this < object, zero if this = object, 
        // or a value greater than zero if this > object.
        // null is considered to be less than any instance. 
        // If object is not of same type, this method throws an ArgumentException.
        /// 
        ///    [To be supplied.]
        ///  
        public int CompareTo(Object value) {
            if (value is SqlMoney) { 
                SqlMoney i = (SqlMoney)value; 

                return CompareTo(i); 
            }
            throw ADP.WrongType(value.GetType(), typeof(SqlMoney));
        }
 
        public int CompareTo(SqlMoney value) {
            // If both Null, consider them equal. 
            // Otherwise, Null is less than anything. 
            if (IsNull)
                return value.IsNull ? 0  : -1; 
            else if (value.IsNull)
                return 1;

            if (this < value) return -1; 
            if (this > value) return 1;
            return 0; 
        } 

        // Compares this instance with a specified object 
        /// 
        ///    [To be supplied.]
        /// 
        public override bool Equals(Object value) { 
            if (!(value is SqlMoney)) {
                return false; 
            } 

            SqlMoney i = (SqlMoney)value; 

            if (i.IsNull || IsNull)
                return (i.IsNull && IsNull);
            else 
                return (this == i).Value;
        } 
 
        // For hashing purpose
        ///  
        ///    [To be supplied.]
        /// 
        public override int GetHashCode() {
            // Don't use Value property, because Value will convert to Decimal, which is not necessary. 
            return IsNull ? 0 : m_value.GetHashCode();
        } 
 
        /// 
        ///    [To be supplied.] 
        /// 
        XmlSchema IXmlSerializable.GetSchema() { return null; }

        ///  
        ///    [To be supplied.]
        ///  
        void IXmlSerializable.ReadXml(XmlReader reader) { 
            string isNull = reader.GetAttribute("nil", XmlSchema.InstanceNamespace);
            if (isNull != null && XmlConvert.ToBoolean(isNull)) { 
                this.m_fNotNull = false;
            }
            else {
                SqlMoney money = new SqlMoney(XmlConvert.ToDecimal(reader.ReadElementString())); 
                this.m_fNotNull = money.m_fNotNull;
                this.m_value = money.m_value; 
            } 
        }
 
        /// 
        ///    [To be supplied.]
        /// 
        void IXmlSerializable.WriteXml(XmlWriter writer) { 
            if (IsNull) {
                writer.WriteAttributeString("xsi", "nil", XmlSchema.InstanceNamespace, "true"); 
            } 
            else {
                writer.WriteString( XmlConvert.ToString(ToDecimal()) ); 
            }
        }

        ///  
        ///    [To be supplied.]
        ///  
        public static XmlQualifiedName GetXsdType(XmlSchemaSet schemaSet) { 
            return new XmlQualifiedName("decimal", XmlSchema.Namespace);
        } 

        /// 
        ///    
        ///       Represents a null value that can be assigned to 
        ///       the  property of an instance of
        ///       the class. 
        ///     
        /// 
        public static readonly SqlMoney Null        = new SqlMoney(true); 

        /// 
        ///    
        ///       Represents the zero value that can be assigned to the  property of an instance of 
        ///       the  class.
        ///     
        ///  
        public static readonly SqlMoney Zero        = new SqlMoney(0);
 
        /// 
        ///    
        ///       Represents the minimum value that can be assigned
        ///       to  property of an instance of 
        ///       the 
        ///       class. 
        ///     
        /// 
        public static readonly SqlMoney MinValue    = new SqlMoney(unchecked((long)0x8000000000000000L), 0); 

        /// 
        ///    
        ///       Represents the maximum value that can be assigned to 
        ///       the  property of an instance of
        ///       the  
        ///       class. 
        ///    
        ///  
        public static readonly SqlMoney MaxValue    = new SqlMoney(0x7FFFFFFFFFFFFFFFL, 0);

    } // SqlMoney
 
} // namespace System.Data.SqlTypes

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.

                        

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