// System.Data.SqlTypes.SqlInt32 // // Authors: // Konstantin Triger // Boris Kirzner // // (C) 2005 Mainsoft Corporation (http://www.mainsoft.com) // // // Permission is hereby granted, free of charge, to any person obtaining // a copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to // permit persons to whom the Software is furnished to do so, subject to // the following conditions: // // The above copyright notice and this permission notice shall be // included in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND // NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE // LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION // OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION // WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // namespace System.Data.SqlTypes { using System; public struct SqlInt32 : INullable, IComparable { private int _value; private bool _isNull; public static readonly SqlInt32 Null = new SqlInt32(true); public static readonly SqlInt32 MaxValue = new SqlInt32(int.MaxValue); public static readonly SqlInt32 MinValue = new SqlInt32(int.MinValue); public static readonly SqlInt32 Zero = new SqlInt32(0); private SqlInt32(bool isNull) { _isNull = isNull; _value = 0; } /** * Constructor * @param value A int whose value will be used for the new SqlInt32. */ public SqlInt32(int value) { _value = value; _isNull = false; } /** * Indicates whether or not Value is null. * @return true if Value is null, otherwise false. */ public bool IsNull { get { return _isNull; } } /** * Gets the value of the SqlInt32 instance. * @return the value of this instance */ public int Value { get { if(IsNull) throw new SqlNullValueException(); return _value; } } /** * Compares this instance to the supplied object and returns an indication of their relative values. * @param obj The object to compare. * @return A signed number indicating the relative values of the instance and the object. * Less than zero This instance is less than object. * Zero This instance is the same as object. * Greater than zero This instance is greater than object -or- * object is a null reference. */ public int CompareTo(Object obj) { if (obj == null) return 1; if (obj is SqlInt32) { SqlInt32 i = (SqlInt32)obj; if (i.IsNull) return 1; if (this.IsNull) return -1; return this._value.CompareTo(i._value); } throw new ArgumentException("parameter obj is not SqlInt32 : " + obj.GetType().Name); } /** * The addition operator computes the sum of the two SqlInt32 operands. * @param x A SqlInt32 structure. * @param y A SqlInt32 structure. * @return The sum of the two SqlInt32 operands. * If one of the parameters is null or null value - return SqlInt32.Null. */ public static SqlInt32 Add(SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlInt32.Null; int xVal = x._value; int yVal = y._value; int sum = checked(xVal + yVal); return new SqlInt32(sum); } /** * Computes the bitwise AND of its SqlInt32 operands. * @param x A SqlInt32 instance. * @param y A SqlInt32 instance. * @return The results of the bitwise AND operation. */ public static SqlInt32 BitwiseAnd(SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlInt32.Null; int res = x._value & y._value; return new SqlInt32(res); } /** * Computes the bitwise OR of its SqlInt32 operands. * @param x A SqlInt32 instance. * @param y A SqlInt32 instance. * @return The results of the bitwise OR operation. */ public static SqlInt32 BitwiseOr(SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlInt32.Null; int res = x._value | y._value; return new SqlInt32(res); } /** * The division operator divides the first SqlInt32 operand by the second. * @param x A SqlInt32 instance. * @param y A SqlInt32 instance. * @return A SqlInt32 instance containing the results of the division operation. * If one of the parameters is null or null value - return SqlInt32.Null. */ public static SqlInt32 Divide(SqlInt32 x, SqlInt32 y) { int val = x._value / y._value; return new SqlInt32(val); } public override bool Equals(Object obj) { if (obj == null) return false; if (obj is SqlInt32) { SqlInt32 i = (SqlInt32)obj; if (IsNull && i.IsNull) return true; if (IsNull || i.IsNull) return false; return _value == i._value; } return false; } /** * Performs a logical comparison on two instances of SqlInt32 to determine if they are equal. * @param x A SqlInt32 instance. * @param y A SqlInt32 instance. * @return true if the two values are equal, otherwise false. * If one of the parameters is null or null value return SqlBoolean.Null. */ public static SqlBoolean Equals(SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlBoolean.Null; if (x._value == y._value) return SqlBoolean.True; return SqlBoolean.False; } /** * Returns the hash code for this SqlInt32 instance. * @return A signed integer hash code. */ public override int GetHashCode() { return _value; } /** * Compares two instances of SqlByte to determine if the first is greater than the second. * @param x A SqlByte instance * @param y A SqlByte instance * @return A SqlBoolean that is True if the first instance is greater than the second instance, otherwise False. * If either instance of SqlInt32 is null, the Value of the SqlBoolean will be Null. */ public static SqlBoolean GreaterThan(SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlBoolean.Null; if (x._value > y._value) return SqlBoolean.True; return SqlBoolean.False; } /** * Compares two instances of SqlInt32 to determine if the first is greater than or equal to the second. * @param x A SqlInt32 instance * @param y A SqlInt32 instance * @return A SqlBoolean that is True if the first instance is greaater than or equal to the second instance, otherwise False. * If either instance of SqlInt32 is null, the Value of the SqlBoolean will be Null. */ public static SqlBoolean GreaterThanOrEqual(SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlBoolean.Null; if (x._value >= y._value) return SqlBoolean.True; return SqlBoolean.False; } /** * Compares two instances of SqlInt32 to determine if the first is less than the second. * @param x A SqlInt32 instance * @param y A SqlInt32 instance * @return A SqlBoolean that is True if the first instance is less than the second instance, otherwise False. * If either instance of SqlInt32 is null, the Value of the SqlBoolean will be Null. */ public static SqlBoolean LessThan(SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlBoolean.Null; if (x._value < y._value) return SqlBoolean.True; return SqlBoolean.False; } /** * Compares two instances of SqlInt32 to determine if the first is less than or equal to the second. * @param x A SqlInt32 instance * @param y A SqlInt32 instance * @return A SqlBoolean that is True if the first instance is less than or equal to the second instance, otherwise False. * If either instance of SqlInt32 is null, the Value of the SqlBoolean will be Null. */ public static SqlBoolean LessThanOrEqual(SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlBoolean.Null; if (x._value <= y._value) return SqlBoolean.True; return SqlBoolean.False; } /** * Computes the remainder after dividing its first SqlInt32 operand by its second. * @param x A SqlInt32 instance * @param y A SqlInt32 instance * @return A SqlInt32 instance whose Value contains the remainder. */ public static SqlInt32 Mod(SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlInt32.Null; int mod = x._value % y._value; return new SqlInt32(mod); } /** * The multiplication operator computes the product of the two SqlInt32 operands. * @param x A SqlInt32 instance * @param y A SqlInt32 instance * @return The product of the two SqlInt32 operands. */ public static SqlInt32 Multiply(SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlInt32.Null; int xVal = x._value; int yVal = y._value; int res = checked(xVal * yVal); return new SqlInt32(res); } /** * Compares two instances of SqlInt32 to determine if they are equal. * @param x A SqlInt32 instance * @param y A SqlInt32 instance * @return A SqlBoolean that is True if the two instances are not equal or False if the two instances are equal. * If either instance of SqlInt32 is null, the Value of the SqlBoolean will be Null. */ public static SqlBoolean NotEquals(SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlBoolean.Null; if (x._value != y._value) return SqlBoolean.True; return SqlBoolean.False; } /** * The ones complement operator performs a bitwise one's complement operation on its SqlInt32 operand. * @param x A SqlInt32 instance * @return A SqlInt32 instance whose Value property contains the ones complement of the SqlInt32 parameter. */ public static SqlInt32 OnesComplement(SqlInt32 x) { int res = (int)(x._value ^ 0xFFFFFFFF); return new SqlInt32(res); } /** * Converts the String representation of a number to its byte equivalent. * @param s The String to be parsed. * @return A SqlInt32 containing the value represented by the String. */ public static SqlInt32 Parse(String s) { int res = int.Parse(s); return new SqlInt32(res); } /** * The subtraction operator the second SqlInt32 operand from the first. * @param x A SqlInt32 instance * @param y A SqlInt32 instance * @return The results of the subtraction operation. */ public static SqlInt32 Subtract(SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlInt32.Null; int res = checked(x._value - y._value); return new SqlInt32(res); } /** * Performs a bitwise exclusive-OR operation on the supplied parameters. * @param x A SqlInt32 instance * @param y A SqlInt32 instance * @return The results of the XOR operation. */ public static SqlInt32 Xor(SqlInt32 x, SqlInt32 y) { int res = x._value ^ y._value; return new SqlInt32(res); } /** * Converts this SqlInt32 structure to SqlBoolean. * @return A SqlBoolean structure whose Value will be True if the SqlInt32 structure's Value is non-zero, False if the SqlInt32 is zero * and Null if the SqlInt32 structure is Null. */ public SqlBoolean ToSqlBoolean() { if (IsNull) return SqlBoolean.Null; if (_value == 0) return new SqlBoolean(0); return new SqlBoolean(1); } /** * Converts this SqlInt32 structure to SqlByte. * @return A SqlByte structure whose Value equals the Value of this SqlInt32 structure. */ public SqlByte ToSqlByte() { if (IsNull) return SqlByte.Null; if (_value < 0 || _value > 255) throw new OverflowException("Can not onvert this instance to SqlByte - overflowing : " + _value); return new SqlByte((byte)_value); } /** * Converts this SqlInt32 structure to SqlDecimal. * @return A SqlDecimal structure whose Value equals the Value of this SqlInt32 structure. */ public SqlDecimal ToSqlDecimal() { if (IsNull) return SqlDecimal.Null; return new SqlDecimal(_value); } /** * Converts this SqlInt32 structure to SqlDecimal. * @return A SqlDouble structure whose Value equals the Value of this SqlInt32 structure. */ public SqlDouble ToSqlDouble() { if (IsNull) return SqlDouble.Null; return new SqlDouble(_value); } /** * Converts this SqlInt32 structure to SqlInt16. * @return A SqlInt16 structure whose Value equals the Value of this SqlInt32 structure. */ public SqlInt16 ToSqlInt16() { if (IsNull) return SqlInt16.Null; return new SqlInt16(_value); } /** * Converts this SqlInt32 structure to SqlInt64. * @return A SqlInt64 structure whose Value equals the Value of this SqlInt32 structure. */ public SqlInt64 ToSqlInt64() { if (IsNull) return SqlInt64.Null; return new SqlInt64(_value); } /** * Converts this SqlInt32 instance to SqlDouble. * @return A SqlMoney instance whose Value equals the Value of this SqlInt32 instance. */ public SqlMoney ToSqlMoney() { if (IsNull) return SqlMoney.Null; return new SqlMoney(_value); } /** * Converts this SqlInt32 instance to SqlSingle. * @return A SqlSingle instance whose Value equals the Value of this SqlInt32 instance. */ public SqlSingle ToSqlSingle() { if (IsNull) return SqlSingle.Null; return new SqlSingle((float)_value); } /** * Converts this SqlInt32 structure to SqlString. * @return A SqlString structure whose value is a string representing the date and time contained in this SqlInt32 structure. */ public SqlString ToSqlString() { return new SqlString(ToString()); } public override String ToString() { if (IsNull) return "null"; return _value.ToString(); } // Compute Addition public static SqlInt32 operator + (SqlInt32 x, SqlInt32 y) { checked { return new SqlInt32 (x.Value + y.Value); } } // Bitwise AND public static SqlInt32 operator & (SqlInt32 x, SqlInt32 y) { return new SqlInt32 (x.Value & y.Value); } // Bitwise OR public static SqlInt32 operator | (SqlInt32 x, SqlInt32 y) { checked { return new SqlInt32 (x.Value | y.Value); } } // Compute Division public static SqlInt32 operator / (SqlInt32 x, SqlInt32 y) { checked { return new SqlInt32 (x.Value / y.Value); } } // Compare Equality public static SqlBoolean operator == (SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlBoolean.Null; else return new SqlBoolean (x.Value == y.Value); } // Bitwise Exclusive-OR (XOR) public static SqlInt32 operator ^ (SqlInt32 x, SqlInt32 y) { return new SqlInt32 (x.Value ^ y.Value); } // > Compare public static SqlBoolean operator >(SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlBoolean.Null; else return new SqlBoolean (x.Value > y.Value); } // >= Compare public static SqlBoolean operator >= (SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlBoolean.Null; else return new SqlBoolean (x.Value >= y.Value); } // != Inequality Compare public static SqlBoolean operator != (SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlBoolean.Null; else return new SqlBoolean (x.Value != y.Value); } // < Compare public static SqlBoolean operator < (SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlBoolean.Null; else return new SqlBoolean (x.Value < y.Value); } // <= Compare public static SqlBoolean operator <= (SqlInt32 x, SqlInt32 y) { if (x.IsNull || y.IsNull) return SqlBoolean.Null; else return new SqlBoolean (x.Value <= y.Value); } // Compute Modulus public static SqlInt32 operator % (SqlInt32 x, SqlInt32 y) { return new SqlInt32 (x.Value % y.Value); } // Compute Multiplication public static SqlInt32 operator * (SqlInt32 x, SqlInt32 y) { checked { return new SqlInt32 (x.Value * y.Value); } } // Ones Complement public static SqlInt32 operator ~ (SqlInt32 x) { return new SqlInt32 (~x.Value); } // Subtraction public static SqlInt32 operator - (SqlInt32 x, SqlInt32 y) { checked { return new SqlInt32 (x.Value - y.Value); } } // Negates the Value public static SqlInt32 operator - (SqlInt32 x) { return new SqlInt32 (-x.Value); } // Type Conversions public static explicit operator SqlInt32 (SqlBoolean x) { if (x.IsNull) return Null; else return new SqlInt32 ((int)x.ByteValue); } public static explicit operator SqlInt32 (SqlDecimal x) { checked { if (x.IsNull) return Null; else return new SqlInt32 ((int)x.Value); } } public static explicit operator SqlInt32 (SqlDouble x) { checked { if (x.IsNull) return Null; else return new SqlInt32 ((int)x.Value); } } public static explicit operator int (SqlInt32 x) { return x.Value; } public static explicit operator SqlInt32 (SqlInt64 x) { checked { if (x.IsNull) return Null; else return new SqlInt32 ((int)x.Value); } } public static explicit operator SqlInt32(SqlMoney x) { checked { if (x.IsNull) return Null; else return new SqlInt32 ((int)x.Value); } } public static explicit operator SqlInt32(SqlSingle x) { checked { if (x.IsNull) return Null; else return new SqlInt32 ((int)x.Value); } } public static explicit operator SqlInt32(SqlString x) { checked { return SqlInt32.Parse (x.Value); } } public static implicit operator SqlInt32(int x) { return new SqlInt32 (x); } public static implicit operator SqlInt32(SqlByte x) { if (x.IsNull) return Null; else return new SqlInt32 ((int)x.Value); } public static implicit operator SqlInt32(SqlInt16 x) { if (x.IsNull) return Null; else return new SqlInt32 ((int)x.Value); } } }