Decimal Constructores
Definición
Importante
Parte de la información hace referencia a la versión preliminar del producto, que puede haberse modificado sustancialmente antes de lanzar la versión definitiva. Microsoft no otorga ninguna garantía, explícita o implícita, con respecto a la información proporcionada aquí.
Inicializa una nueva instancia de la clase Decimal.
Sobrecargas
| Decimal(Double) |
Inicializa una nueva instancia de Decimal en el valor del número de punto flotante de precisión doble especificado. |
| Decimal(Int32) |
Inicializa una nueva instancia de Decimal en el valor del entero de 32 bits con signo especificado. |
| Decimal(Int32[]) |
Inicializa una nueva instancia de Decimal en un valor decimal representado en binario e incluido en una matriz especificada. |
| Decimal(Int64) |
Inicializa una nueva instancia de Decimal en el valor del entero de 64 bits con signo especificado. |
| Decimal(ReadOnlySpan<Int32>) |
Inicializa una instancia nueva de Decimal en un valor decimal representado en binario e incluido en el intervalo especificado. |
| Decimal(Single) |
Inicializa una nueva instancia de Decimal en el valor del número de punto flotante de precisión sencilla especificado. |
| Decimal(UInt32) |
Inicializa una nueva instancia de Decimal en el valor del entero de 32 bits sin signo especificado. |
| Decimal(UInt64) |
Inicializa una nueva instancia de Decimal en el valor del entero de 64 bits sin signo especificado. |
| Decimal(Int32, Int32, Int32, Boolean, Byte) |
Inicializa una nueva instancia de Decimal a partir de los parámetros que especifican las partes constituyentes de la instancia. |
Decimal(Double)
- Source:
- Decimal.cs
- Source:
- Decimal.cs
- Source:
- Decimal.cs
Inicializa una nueva instancia de Decimal en el valor del número de punto flotante de precisión doble especificado.
public:
Decimal(double value);public Decimal (double value);new decimal : double -> decimalPublic Sub New (value As Double)Parámetros
Excepciones
value es mayor que Decimal.MaxValue o menor que Decimal.MinValue.
o bien
value es NaN, PositiveInfinity o NegativeInfinity.
Ejemplos
En el ejemplo de código siguiente se crean varios Decimal números mediante la sobrecarga del constructor que inicializa una Decimal estructura con un Double valor .
// Example of the Decimal( double ) constructor.
using namespace System;
// Get the exception type name; remove the namespace prefix.
String^ GetExceptionType( Exception^ ex )
{
String^ exceptionType = ex->GetType()->ToString();
return exceptionType->Substring( exceptionType->LastIndexOf( '.' ) + 1 );
}
// Create a Decimal object and display its value.
void CreateDecimal( double value, String^ valToStr )
{
// Format and display the constructor.
Console::Write( "{0,-34}", String::Format( "Decimal( {0} )", valToStr ) );
try
{
// Construct the Decimal value.
Decimal decimalNum = Decimal(value);
// Display the value if it was created successfully.
Console::WriteLine( "{0,31}", decimalNum );
}
catch ( Exception^ ex )
{
// Display the exception type if an exception was thrown.
Console::WriteLine( "{0,31}", GetExceptionType( ex ) );
}
}
int main()
{
Console::WriteLine( "This example of the Decimal( double ) "
"constructor \ngenerates the following output.\n" );
Console::WriteLine( "{0,-34}{1,31}", "Constructor", "Value or Exception" );
Console::WriteLine( "{0,-34}{1,31}", "-----------", "------------------" );
// Construct Decimal objects from double values.
CreateDecimal( 1.23456789E+5, "1.23456789E+5" );
CreateDecimal( 1.234567890123E+15, "1.234567890123E+15" );
CreateDecimal( 1.2345678901234567E+25, "1.2345678901234567E+25" );
CreateDecimal( 1.2345678901234567E+35, "1.2345678901234567E+35" );
CreateDecimal( 1.23456789E-5, "1.23456789E-5" );
CreateDecimal( 1.234567890123E-15, "1.234567890123E-15" );
CreateDecimal( 1.2345678901234567E-25, "1.2345678901234567E-25" );
CreateDecimal( 1.2345678901234567E-35, "1.2345678901234567E-35" );
CreateDecimal( 1.0 / 7.0, "1.0 / 7.0" );
}
/*
This example of the Decimal( double ) constructor
generates the following output.
Constructor Value or Exception
----------- ------------------
Decimal( 1.23456789E+5 ) 123456.789
Decimal( 1.234567890123E+15 ) 1234567890123000
Decimal( 1.2345678901234567E+25 ) 12345678901234600000000000
Decimal( 1.2345678901234567E+35 ) OverflowException
Decimal( 1.23456789E-5 ) 0.0000123456789
Decimal( 1.234567890123E-15 ) 0.000000000000001234567890123
Decimal( 1.2345678901234567E-25 ) 0.0000000000000000000000001235
Decimal( 1.2345678901234567E-35 ) 0
Decimal( 1.0 / 7.0 ) 0.142857142857143
*/
// Example of the decimal( double ) constructor.
using System;
class DecimalCtorDoDemo
{
// Get the exception type name; remove the namespace prefix.
public static string GetExceptionType( Exception ex )
{
string exceptionType = ex.GetType( ).ToString( );
return exceptionType.Substring(
exceptionType.LastIndexOf( '.' )+1 );
}
// Create a decimal object and display its value.
public static void CreateDecimal( double value, string valToStr )
{
// Format and display the constructor.
Console.Write( "{0,-34}",
String.Format( "decimal( {0} )", valToStr ) );
try
{
// Construct the decimal value.
decimal decimalNum = new decimal( value );
// Display the value if it was created successfully.
Console.WriteLine( "{0,31}", decimalNum );
}
catch( Exception ex )
{
// Display the exception type if an exception was thrown.
Console.WriteLine( "{0,31}", GetExceptionType( ex ) );
}
}
public static void Main( )
{
Console.WriteLine( "This example of the decimal( double ) " +
"constructor \ngenerates the following output.\n" );
Console.WriteLine( "{0,-34}{1,31}", "Constructor",
"Value or Exception" );
Console.WriteLine( "{0,-34}{1,31}", "-----------",
"------------------" );
// Construct decimal objects from double values.
CreateDecimal( 1.23456789E+5, "1.23456789E+5" );
CreateDecimal( 1.234567890123E+15, "1.234567890123E+15" );
CreateDecimal( 1.2345678901234567E+25,
"1.2345678901234567E+25" );
CreateDecimal( 1.2345678901234567E+35,
"1.2345678901234567E+35" );
CreateDecimal( 1.23456789E-5, "1.23456789E-5" );
CreateDecimal( 1.234567890123E-15, "1.234567890123E-15" );
CreateDecimal( 1.2345678901234567E-25,
"1.2345678901234567E-25" );
CreateDecimal( 1.2345678901234567E-35,
"1.2345678901234567E-35" );
CreateDecimal( 1.0 / 7.0, "1.0 / 7.0" );
}
}
/*
This example of the decimal( double ) constructor
generates the following output.
Constructor Value or Exception
----------- ------------------
decimal( 1.23456789E+5 ) 123456.789
decimal( 1.234567890123E+15 ) 1234567890123000
decimal( 1.2345678901234567E+25 ) 12345678901234600000000000
decimal( 1.2345678901234567E+35 ) OverflowException
decimal( 1.23456789E-5 ) 0.0000123456789
decimal( 1.234567890123E-15 ) 0.000000000000001234567890123
decimal( 1.2345678901234567E-25 ) 0.0000000000000000000000001235
decimal( 1.2345678901234567E-35 ) 0
decimal( 1.0 / 7.0 ) 0.142857142857143
*/
// Example of the decimal( double ) constructor.
open System
// Get the exception type name; remove the namespace prefix.
let getExceptionType (ex: exn) =
let exceptionType = ex.GetType() |> string
exceptionType.Substring(exceptionType.LastIndexOf '.' + 1)
// Create a decimal object and display its value.
let createDecimal (value: double) valToStr =
// Format and display the constructor.
printf "%-34s" $"decimal( {valToStr} )"
try
// Construct the decimal value.
let decimalNum = Decimal value
// Display the value if it was created successfully.
printfn $"{decimalNum,31}"
with ex ->
// Display the exception type if an exception was thrown.
printfn $"{getExceptionType ex,31}"
printfn $"This example of the decimal( double ) constructor \ngenerates the following output.\n"
printfn "%-34s%31s" "Constructor" "Value or Exception"
printfn "%-34s%31s" "-----------" "------------------"
// Construct decimal objects from double values.
createDecimal 1.23456789E+5 "1.23456789E+5"
createDecimal 1.234567890123E+15 "1.234567890123E+15"
createDecimal 1.2345678901234567E+25 "1.2345678901234567E+25"
createDecimal 1.2345678901234567E+35 "1.2345678901234567E+35"
createDecimal 1.23456789E-5 "1.23456789E-5"
createDecimal 1.234567890123E-15 "1.234567890123E-15"
createDecimal 1.2345678901234567E-25 "1.2345678901234567E-25"
createDecimal 1.2345678901234567E-35 "1.2345678901234567E-35"
createDecimal (1. / 7.) "1. / 7."
// This example of the decimal( double ) constructor
// generates the following output.
//
// Constructor Value or Exception
// ----------- ------------------
// decimal( 1.23456789E+5 ) 123456.789
// decimal( 1.234567890123E+15 ) 1234567890123000
// decimal( 1.2345678901234567E+25 ) 12345678901234600000000000
// decimal( 1.2345678901234567E+35 ) OverflowException
// decimal( 1.23456789E-5 ) 0.0000123456789
// decimal( 1.234567890123E-15 ) 0.000000000000001234567890123
// decimal( 1.2345678901234567E-25 ) 0.0000000000000000000000001235
// decimal( 1.2345678901234567E-35 ) 0
' Example of the Decimal( Double ) constructor.
Module DecimalCtorDoDemo
' Get the exception type name; remove the namespace prefix.
Function GetExceptionType( ex As Exception ) As String
Dim exceptionType As String = ex.GetType( ).ToString( )
Return exceptionType.Substring( _
exceptionType.LastIndexOf( "."c ) + 1 )
End Function
' Create a Decimal object and display its value.
Sub CreateDecimal( value As Double, valToStr As String )
' Format and display the constructor.
Console.Write( "{0,-34}", _
String.Format( "Decimal( {0} )", valToStr ) )
' Construct the Decimal value.
Try
Dim decimalNum As New Decimal( value )
' Display the value if it was created successfully.
Console.WriteLine( "{0,31}", decimalNum )
' Display the exception type if an exception was thrown.
Catch ex As Exception
Console.WriteLine( "{0,31}", GetExceptionType( ex ) )
End Try
End Sub
Sub Main( )
Console.WriteLine( _
"This example of the Decimal( Double ) constructor " & _
vbCrLf & "generates the following output." & vbCrLf )
Console.WriteLine( "{0,-34}{1,31}", "Constructor", _
"Value or Exception" )
Console.WriteLine( "{0,-34}{1,31}", "-----------", _
"------------------" )
' Construct Decimal objects from Double values.
CreateDecimal( 1.23456789E+5, "1.23456789E+5" )
CreateDecimal( 1.234567890123E+15, "1.234567890123E+15" )
CreateDecimal( 1.2345678901234567E+25, _
"1.2345678901234567E+25" )
CreateDecimal( 1.2345678901234567E+35, _
"1.2345678901234567E+35" )
CreateDecimal( 1.23456789E-5, "1.23456789E-5" )
CreateDecimal( 1.234567890123E-15, "1.234567890123E-15" )
CreateDecimal( 1.2345678901234567E-25, _
"1.2345678901234567E-25" )
CreateDecimal( 1.2345678901234567E-35, _
"1.2345678901234567E-35" )
CreateDecimal( 1.0 / 7.0, "1.0 / 7.0" )
End Sub
End Module
' This example of the Decimal( Double ) constructor
' generates the following output.
'
' Constructor Value or Exception
' ----------- ------------------
' Decimal( 1.23456789E+5 ) 123456.789
' Decimal( 1.234567890123E+15 ) 1234567890123000
' Decimal( 1.2345678901234567E+25 ) 12345678901234600000000000
' Decimal( 1.2345678901234567E+35 ) OverflowException
' Decimal( 1.23456789E-5 ) 0.0000123456789
' Decimal( 1.234567890123E-15 ) 0.000000000000001234567890123
' Decimal( 1.2345678901234567E-25 ) 0.0000000000000000000000001235
' Decimal( 1.2345678901234567E-35 ) 0
' Decimal( 1.0 / 7.0 ) 0.142857142857143
Comentarios
Este constructor redondea value a 15 dígitos significativos mediante el redondeo al más cercano. Esto se hace incluso si el número tiene más de 15 dígitos y los dígitos menos significativos son cero.
Se aplica a
Decimal(Int32)
- Source:
- Decimal.cs
- Source:
- Decimal.cs
- Source:
- Decimal.cs
Inicializa una nueva instancia de Decimal en el valor del entero de 32 bits con signo especificado.
public:
Decimal(int value);public Decimal (int value);new decimal : int -> decimalPublic Sub New (value As Integer)Parámetros
Ejemplos
En el ejemplo de código siguiente se crean varios Decimal números mediante la sobrecarga del constructor que inicializa una Decimal estructura con un Int32 valor .
// Example of the Decimal( int ) constructor.
using namespace System;
// Create a Decimal object and display its value.
void CreateDecimal( int value, String^ valToStr )
{
Decimal decimalNum = Decimal(value);
// Format the constructor for display.
String^ ctor = String::Format( "Decimal( {0} )", valToStr );
// Display the constructor and its value.
Console::WriteLine( "{0,-30}{1,16}", ctor, decimalNum );
}
int main()
{
Console::WriteLine( "This example of the Decimal( int ) "
"constructor \ngenerates the following output.\n" );
Console::WriteLine( "{0,-30}{1,16}", "Constructor", "Value" );
Console::WriteLine( "{0,-30}{1,16}", "-----------", "-----" );
// Construct Decimal objects from int values.
CreateDecimal( Int32::MinValue, "Int32::MinValue" );
CreateDecimal( Int32::MaxValue, "Int32::MaxValue" );
CreateDecimal( 0, "0" );
CreateDecimal( 999999999, "999999999" );
CreateDecimal( 0x40000000, "0x40000000" );
CreateDecimal( (int)0xC0000000, "(int)0xC0000000" );
}
/*
This example of the Decimal( int ) constructor
generates the following output.
Constructor Value
----------- -----
Decimal( Int32::MinValue ) -2147483648
Decimal( Int32::MaxValue ) 2147483647
Decimal( 0 ) 0
Decimal( 999999999 ) 999999999
Decimal( 0x40000000 ) 1073741824
Decimal( (int)0xC0000000 ) -1073741824
*/
// Example of the decimal( int ) constructor.
using System;
class DecimalCtorIDemo
{
// Create a decimal object and display its value.
public static void CreateDecimal( int value, string valToStr )
{
decimal decimalNum = new decimal( value );
// Format the constructor for display.
string ctor = String.Format( "decimal( {0} )", valToStr );
// Display the constructor and its value.
Console.WriteLine( "{0,-30}{1,16}", ctor, decimalNum );
}
public static void Main( )
{
Console.WriteLine( "This example of the decimal( int ) " +
"constructor \ngenerates the following output.\n" );
Console.WriteLine( "{0,-30}{1,16}", "Constructor", "Value" );
Console.WriteLine( "{0,-30}{1,16}", "-----------", "-----" );
// Construct decimal objects from int values.
CreateDecimal( int.MinValue, "int.MinValue" );
CreateDecimal( int.MaxValue, "int.MaxValue" );
CreateDecimal( 0, "0" );
CreateDecimal( 999999999, "999999999" );
CreateDecimal( 0x40000000, "0x40000000" );
CreateDecimal( unchecked( (int)0xC0000000 ),
"(int)0xC0000000" );
}
}
/*
This example of the decimal( int ) constructor
generates the following output.
Constructor Value
----------- -----
decimal( int.MinValue ) -2147483648
decimal( int.MaxValue ) 2147483647
decimal( 0 ) 0
decimal( 999999999 ) 999999999
decimal( 0x40000000 ) 1073741824
decimal( (int)0xC0000000 ) -1073741824
*/
// Example of the decimal(int) constructor.
open System
// Create a decimal object and display its value.
let createDecimal (value: int) valToStr =
let decimalNum = new decimal(value)
// Format the constructor for display.
let ctor = $"decimal( {valToStr} )"
// Display the constructor and its value.
printfn $"{ctor,-30}{decimalNum,16}"
printfn "This example of the decimal(int) constructor\ngenerates the following output.\n"
printfn "%-30s%16s" "Constructor" "Value"
printfn "%-30s%16s" "-----------" "-----"
// Construct decimal objects from int values.
createDecimal Int32.MinValue "Int32.MinValue"
createDecimal Int32.MaxValue "int.MaxValue"
createDecimal 0 "0"
createDecimal 999999999 "999999999"
createDecimal 0x40000000 "0x40000000"
createDecimal (int 0xC0000000) "int 0xC0000000"
// This example of the decimal(int) constructor
// generates the following output.
// Constructor Value
// ----------- -----
// decimal( Int32.MinValue ) -2147483648
// decimal( Int32.MaxValue ) 2147483647
// decimal( 0 ) 0
// decimal( 999999999 ) 999999999
// decimal( 0x40000000 ) 1073741824
// decimal( int 0xC0000000 ) -1073741824
' Example of the Decimal( Integer ) constructor.
Module DecimalCtorIDemo
' Create a Decimal object and display its value.
Sub CreateDecimal( value As Integer, valToStr As String )
Dim decimalNum As New Decimal( value )
' Format the constructor for display.
Dim ctor As String = _
String.Format( "Decimal( {0} )", valToStr )
' Display the constructor and its value.
Console.WriteLine( "{0,-33}{1,16}", ctor, decimalNum )
End Sub
Sub Main( )
Console.WriteLine( _
"This example of the Decimal( Integer ) constructor " & _
vbCrLf & "generates the following output." & vbCrLf )
Console.WriteLine( "{0,-33}{1,16}", "Constructor", "Value" )
Console.WriteLine( "{0,-33}{1,16}", "-----------", "-----" )
' Construct Decimal objects from Integer values.
CreateDecimal( Integer.MinValue, "Integer.MinValue" )
CreateDecimal( Integer.MaxValue, "Integer.MaxValue" )
CreateDecimal( 0, "0" )
CreateDecimal( 999999999, "999999999" )
CreateDecimal( &H40000000, "&H40000000" )
CreateDecimal( &HC0000000, "&HC0000000" )
End Sub
End Module
' This example of the Decimal( Integer ) constructor
' generates the following output.
'
' Constructor Value
' ----------- -----
' Decimal( Integer.MinValue ) -2147483648
' Decimal( Integer.MaxValue ) 2147483647
' Decimal( 0 ) 0
' Decimal( 999999999 ) 999999999
' Decimal( &H40000000 ) 1073741824
' Decimal( &HC0000000 ) -1073741824
Se aplica a
Decimal(Int32[])
- Source:
- Decimal.cs
- Source:
- Decimal.cs
- Source:
- Decimal.cs
Inicializa una nueva instancia de Decimal en un valor decimal representado en binario e incluido en una matriz especificada.
public:
Decimal(cli::array <int> ^ bits);public Decimal (int[] bits);new decimal : int[] -> decimalPublic Sub New (bits As Integer())Parámetros
- bits
- Int32[]
Matriz de enteros de 32 bits con signo que contiene una representación de un valor decimal.
Excepciones
bits es null.
La longitud de bits no es 4.
o bien
La representación del valor decimal en bits no es válida.
Ejemplos
En el ejemplo de código siguiente se crean varios Decimal números mediante la sobrecarga del constructor que inicializa una Decimal estructura con una matriz de cuatro Int32 valores.
// Example of the Decimal( int __gc [ ] ) constructor.
using namespace System;
// Get the exception type name; remove the namespace prefix.
String^ GetExceptionType( Exception^ ex )
{
String^ exceptionType = ex->GetType()->ToString();
return exceptionType->Substring( exceptionType->LastIndexOf( '.' ) + 1 );
}
// Create a Decimal object and display its value.
void CreateDecimal( array<int>^bits )
{
// Format the constructor for display.
String^ ctor = String::Format( "Decimal( {{ 0x{0:X}", bits[ 0 ] );
String^ valOrExc;
for ( int index = 1; index < bits->Length; index++ )
ctor = String::Concat( ctor, String::Format( ", 0x{0:X}", bits[ index ] ) );
ctor = String::Concat( ctor, " } )" );
try
{
// Construct the Decimal value.
Decimal decimalNum = Decimal(bits);
// Format the Decimal value for display.
valOrExc = decimalNum.ToString();
}
catch ( Exception^ ex )
{
// Save the exception type if an exception was thrown.
valOrExc = GetExceptionType( ex );
}
// Display the constructor and Decimal value or exception.
int ctorLen = 76 - valOrExc->Length;
// Display the data on one line if it will fit.
if ( ctorLen > ctor->Length )
Console::WriteLine( "{0}{1}", ctor->PadRight( ctorLen ), valOrExc );
// Otherwise, display the data on two lines.
else
{
Console::WriteLine( "{0}", ctor );
Console::WriteLine( "{0,76}", valOrExc );
}
}
int main()
{
Console::WriteLine( "This example of the Decimal( int __gc [ ] ) "
"constructor \ngenerates the following output.\n" );
Console::WriteLine( "{0,-38}{1,38}", "Constructor", "Value or Exception" );
Console::WriteLine( "{0,-38}{1,38}", "-----------", "------------------" );
// Construct Decimal objects from integer arrays.
array<Int32>^zero = {0,0,0,0};
CreateDecimal( zero );
array<Int32>^arrayShort = {0,0,0};
CreateDecimal( arrayShort );
array<Int32>^arrayLong = {0,0,0,0,0};
CreateDecimal( arrayLong );
array<Int32>^word0Data = {1000000000,0,0,0};
CreateDecimal( word0Data );
array<Int32>^word1Data = {0,1000000000,0,0};
CreateDecimal( word1Data );
array<Int32>^word2Data = {0,0,1000000000,0};
CreateDecimal( word2Data );
array<Int32>^word3Data = {0,0,0,1000000000};
CreateDecimal( word3Data );
array<Int32>^decMax = { -1,-1,-1,0};
CreateDecimal( decMax );
array<Int32>^decMin = { -1,-1,-1,0x80000000};
CreateDecimal( decMin );
array<Int32>^fracDig16 = { -1,0,0,0x100000};
CreateDecimal( fracDig16 );
array<Int32>^fracDig28 = { -1,0,0,0x1C0000};
CreateDecimal( fracDig28 );
array<Int32>^fracDig29 = { -1,0,0,0x1D0000};
CreateDecimal( fracDig29 );
array<Int32>^reserved = { -1,0,0,0x1C0001};
CreateDecimal( reserved );
array<Int32>^Same4Words = {0xF0000,0xF0000,0xF0000,0xF0000};
CreateDecimal( Same4Words );
}
/*
This example of the Decimal( int __gc [ ] ) constructor
generates the following output.
Constructor Value or Exception
----------- ------------------
Decimal( { 0x0, 0x0, 0x0, 0x0 } ) 0
Decimal( { 0x0, 0x0, 0x0 } ) ArgumentException
Decimal( { 0x0, 0x0, 0x0, 0x0, 0x0 } ) ArgumentException
Decimal( { 0x3B9ACA00, 0x0, 0x0, 0x0 } ) 1000000000
Decimal( { 0x0, 0x3B9ACA00, 0x0, 0x0 } ) 4294967296000000000
Decimal( { 0x0, 0x0, 0x3B9ACA00, 0x0 } ) 18446744073709551616000000000
Decimal( { 0x0, 0x0, 0x0, 0x3B9ACA00 } ) ArgumentException
Decimal( { 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x0 } )
79228162514264337593543950335
Decimal( { 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x80000000 } )
-79228162514264337593543950335
Decimal( { 0xFFFFFFFF, 0x0, 0x0, 0x100000 } ) 0.0000004294967295
Decimal( { 0xFFFFFFFF, 0x0, 0x0, 0x1C0000 } ) 0.0000000000000000004294967295
Decimal( { 0xFFFFFFFF, 0x0, 0x0, 0x1D0000 } ) ArgumentException
Decimal( { 0xFFFFFFFF, 0x0, 0x0, 0x1C0001 } ) ArgumentException
Decimal( { 0xF0000, 0xF0000, 0xF0000, 0xF0000 } )
18133887298.441562272235520
*/
// Example of the decimal( int[ ] ) constructor.
using System;
class DecimalCtorIArrDemo
{
// Get the exception type name; remove the namespace prefix.
public static string GetExceptionType( Exception ex )
{
string exceptionType = ex.GetType( ).ToString( );
return exceptionType.Substring(
exceptionType.LastIndexOf( '.' ) + 1 );
}
// Create a decimal object and display its value.
public static void CreateDecimal( int[ ] bits )
{
// Format the constructor for display.
string ctor = String.Format(
"decimal( {{ 0x{0:X}", bits[ 0 ] );
string valOrExc;
for( int index = 1; index < bits.Length; index++ )
ctor += String.Format( ", 0x{0:X}", bits[ index ] );
ctor += " } )";
try
{
// Construct the decimal value.
decimal decimalNum = new decimal( bits );
// Format the decimal value for display.
valOrExc = decimalNum.ToString( );
}
catch( Exception ex )
{
// Save the exception type if an exception was thrown.
valOrExc = GetExceptionType( ex );
}
// Display the constructor and decimal value or exception.
int ctorLen = 76 - valOrExc.Length;
// Display the data on one line if it will fit.
if( ctorLen > ctor.Length )
Console.WriteLine( "{0}{1}", ctor.PadRight( ctorLen ),
valOrExc );
// Otherwise, display the data on two lines.
else
{
Console.WriteLine( "{0}", ctor );
Console.WriteLine( "{0,76}", valOrExc );
}
}
public static void Main( )
{
Console.WriteLine(
"This example of the decimal( int[ ] ) constructor " +
"\ngenerates the following output.\n" );
Console.WriteLine( "{0,-38}{1,38}", "Constructor",
"Value or Exception" );
Console.WriteLine( "{0,-38}{1,38}", "-----------",
"------------------" );
// Construct decimal objects from integer arrays.
CreateDecimal( new int[ ] { 0, 0, 0, 0 } );
CreateDecimal( new int[ ] { 0, 0, 0 } );
CreateDecimal( new int[ ] { 0, 0, 0, 0, 0 } );
CreateDecimal( new int[ ] { 1000000000, 0, 0, 0 } );
CreateDecimal( new int[ ] { 0, 1000000000, 0, 0 } );
CreateDecimal( new int[ ] { 0, 0, 1000000000, 0 } );
CreateDecimal( new int[ ] { 0, 0, 0, 1000000000 } );
CreateDecimal( new int[ ] { -1, -1, -1, 0 } );
CreateDecimal( new int[ ]
{ -1, -1, -1, unchecked( (int)0x80000000 ) } );
CreateDecimal( new int[ ] { -1, 0, 0, 0x100000 } );
CreateDecimal( new int[ ] { -1, 0, 0, 0x1C0000 } );
CreateDecimal( new int[ ] { -1, 0, 0, 0x1D0000 } );
CreateDecimal( new int[ ] { -1, 0, 0, 0x1C0001 } );
CreateDecimal( new int[ ]
{ 0xF0000, 0xF0000, 0xF0000, 0xF0000 } );
}
}
/*
This example of the decimal( int[ ] ) constructor
generates the following output.
Constructor Value or Exception
----------- ------------------
decimal( { 0x0, 0x0, 0x0, 0x0 } ) 0
decimal( { 0x0, 0x0, 0x0 } ) ArgumentException
decimal( { 0x0, 0x0, 0x0, 0x0, 0x0 } ) ArgumentException
decimal( { 0x3B9ACA00, 0x0, 0x0, 0x0 } ) 1000000000
decimal( { 0x0, 0x3B9ACA00, 0x0, 0x0 } ) 4294967296000000000
decimal( { 0x0, 0x0, 0x3B9ACA00, 0x0 } ) 18446744073709551616000000000
decimal( { 0x0, 0x0, 0x0, 0x3B9ACA00 } ) ArgumentException
decimal( { 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x0 } )
79228162514264337593543950335
decimal( { 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x80000000 } )
-79228162514264337593543950335
decimal( { 0xFFFFFFFF, 0x0, 0x0, 0x100000 } ) 0.0000004294967295
decimal( { 0xFFFFFFFF, 0x0, 0x0, 0x1C0000 } ) 0.0000000000000000004294967295
decimal( { 0xFFFFFFFF, 0x0, 0x0, 0x1D0000 } ) ArgumentException
decimal( { 0xFFFFFFFF, 0x0, 0x0, 0x1C0001 } ) ArgumentException
decimal( { 0xF0000, 0xF0000, 0xF0000, 0xF0000 } )
18133887298.441562272235520
*/
// Example of the decimal(int[]) constructor.
open System
// Get the exception type name; remove the namespace prefix.
let getExceptionType (ex: exn) =
let exceptionType = ex.GetType() |> string
exceptionType.Substring(exceptionType.LastIndexOf '.' + 1)
// Create a decimal object and display its value.
let createDecimal (bits: int[]) =
// Format the constructor for display.
let mutable ctor = String.Format("decimal( {{ 0x{0:X}", bits[0])
for i = 1 to bits.Length - 1 do
ctor <- $"{ctor}, 0x{bits[i]:X}"
ctor <- ctor + " } )"
let valOrExc =
try
// Construct the decimal value.
let decimalNum = new decimal(bits)
// Format the decimal value for display.
string decimalNum
with ex ->
// Save the exception type if an exception was thrown.
getExceptionType ex
// Display the constructor and decimal value or exception.
let ctorLen = 76 - valOrExc.Length;
// Display the data on one line if it will fit.
if ctorLen > ctor.Length then
printfn $"{ctor.PadRight ctorLen}{valOrExc}"
// Otherwise, display the data on two lines.
else
printfn $"{ctor}"
printfn $"{valOrExc,76}"
printfn
"""This example of the decimal(int[]) constructor
generates the following output.
"""
printfn "%-38s%38s" "Constructor" "Value or Exception"
printfn "%-38s%38s" "-----------" "------------------"
// Construct decimal objects from integer arrays.
createDecimal [| 0; 0; 0; 0 |]
createDecimal [| 0; 0; 0 |]
createDecimal [| 0; 0; 0; 0; 0 |]
createDecimal [| 1000000000; 0; 0; 0 |]
createDecimal [| 0; 1000000000; 0; 0 |]
createDecimal [| 0; 0; 1000000000; 0 |]
createDecimal [| 0; 0; 0; 1000000000 |]
createDecimal [| -1; -1; -1; 0 |]
createDecimal [| -1; -1; -1; 0x80000000 |]
createDecimal [| -1; 0; 0; 0x100000 |]
createDecimal [| -1; 0; 0; 0x1C0000 |]
createDecimal [| -1; 0; 0; 0x1D0000 |]
createDecimal [| -1; 0; 0; 0x1C0001 |]
createDecimal [| 0xF0000; 0xF0000; 0xF0000; 0xF0000 |]
// This example of the decimal(int[]) constructor
// generates the following output.
//
// Constructor Value or Exception
// ----------- ------------------
// decimal( { 0x0, 0x0, 0x0, 0x0 } ) 0
// decimal( { 0x0, 0x0, 0x0 } ) ArgumentException
// decimal( { 0x0, 0x0, 0x0, 0x0, 0x0 } ) ArgumentException
// decimal( { 0x3B9ACA00, 0x0, 0x0, 0x0 } ) 1000000000
// decimal( { 0x0, 0x3B9ACA00, 0x0, 0x0 } ) 4294967296000000000
// decimal( { 0x0, 0x0, 0x3B9ACA00, 0x0 } ) 18446744073709551616000000000
// decimal( { 0x0, 0x0, 0x0, 0x3B9ACA00 } ) ArgumentException
// decimal( { 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x0 } )
// 79228162514264337593543950335
// decimal( { 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x80000000 } )
// -79228162514264337593543950335
// decimal( { 0xFFFFFFFF, 0x0, 0x0, 0x100000 } ) 0.0000004294967295
// decimal( { 0xFFFFFFFF, 0x0, 0x0, 0x1C0000 } ) 0.0000000000000000004294967295
// decimal( { 0xFFFFFFFF, 0x0, 0x0, 0x1D0000 } ) ArgumentException
// decimal( { 0xFFFFFFFF, 0x0, 0x0, 0x1C0001 } ) ArgumentException
// decimal( { 0xF0000, 0xF0000, 0xF0000, 0xF0000 } )
// 18133887298.441562272235520
' Example of the Decimal( Integer( ) ) constructor.
Module DecimalCtorIArrDemo
' Get the exception type name; remove the namespace prefix.
Function GetExceptionType( ex As Exception ) As String
Dim exceptionType As String = ex.GetType( ).ToString( )
Return exceptionType.Substring( _
exceptionType.LastIndexOf( "."c ) + 1 )
End Function
' Create a Decimal object and display its value.
Sub CreateDecimal( ByVal bits( ) As Integer )
' Format and save the constructor.
Dim ctor As String = String.Format( "Decimal( {{ &H{0:X}", bits( 0 ) )
Dim valOrExc As String
Dim index As Integer
For index = 1 to bits.Length - 1
ctor &= String.Format( ", &H{0:X}", bits( index ) )
Next index
ctor &= " } )"
' Construct the Decimal value.
Try
Dim decimalNum As New Decimal( bits )
' Format the Decimal value for display.
valOrExc = decimalNum.ToString( )
' Save the exception type if an exception was thrown.
Catch ex As Exception
valOrExc = GetExceptionType( ex )
End Try
' Display the constructor and Decimal value or exception.
Dim ctorLen As Integer = 76 - valOrExc.Length
If ctorLen > ctor.Length Then
' Display the data on one line if it will fit.
Console.WriteLine( "{0}{1}", ctor.PadRight( ctorLen ), _
valOrExc )
' Otherwise, display the data on two lines.
Else
Console.WriteLine( "{0}", ctor )
Console.WriteLine( "{0,76}", valOrExc )
End If
End Sub
Sub Main( )
Console.WriteLine( "This example of the " & _
"Decimal( Integer( ) ) constructor " & _
vbCrLf & "generates the following output." & vbCrLf )
Console.WriteLine( "{0,-38}{1,38}", "Constructor", _
"Value or Exception" )
Console.WriteLine( "{0,-38}{1,38}", "-----------", _
"------------------" )
' Construct Decimal objects from Integer arrays.
CreateDecimal( New Integer( ) { 0, 0, 0, 0 } )
CreateDecimal( New Integer( ) { 0, 0, 0 } )
CreateDecimal( New Integer( ) { 0, 0, 0, 0, 0 } )
CreateDecimal( New Integer( ) { 1000000000, 0, 0, 0 } )
CreateDecimal( New Integer( ) { 0, 1000000000, 0, 0 } )
CreateDecimal( New Integer( ) { 0, 0, 1000000000, 0 } )
CreateDecimal( New Integer( ) { 0, 0, 0, 1000000000 } )
CreateDecimal( New Integer( ) { -1, -1, -1, 0 } )
CreateDecimal( New Integer( ) { -1, -1, -1, &H80000000 } )
CreateDecimal( New Integer( ) { -1, 0, 0, &H100000 } )
CreateDecimal( New Integer( ) { -1, 0, 0, &H1C0000 } )
CreateDecimal( New Integer( ) { -1, 0, 0, &H1D0000 } )
CreateDecimal( New Integer( ) { -1, 0, 0, &H1C0001 } )
CreateDecimal( New Integer( ) _
{ &HF0000, &HF0000, &HF0000, &HF0000 } )
End Sub
End Module
' This example of the Decimal( Integer( ) ) constructor
' generates the following output.
'
' Constructor Value or Exception
' ----------- ------------------
' Decimal( { &H0, &H0, &H0, &H0 } ) 0
' Decimal( { &H0, &H0, &H0 } ) ArgumentException
' Decimal( { &H0, &H0, &H0, &H0, &H0 } ) ArgumentException
' Decimal( { &H3B9ACA00, &H0, &H0, &H0 } ) 1000000000
' Decimal( { &H0, &H3B9ACA00, &H0, &H0 } ) 4294967296000000000
' Decimal( { &H0, &H0, &H3B9ACA00, &H0 } ) 18446744073709551616000000000
' Decimal( { &H0, &H0, &H0, &H3B9ACA00 } ) ArgumentException
' Decimal( { &HFFFFFFFF, &HFFFFFFFF, &HFFFFFFFF, &H0 } )
' 79228162514264337593543950335
' Decimal( { &HFFFFFFFF, &HFFFFFFFF, &HFFFFFFFF, &H80000000 } )
' -79228162514264337593543950335
' Decimal( { &HFFFFFFFF, &H0, &H0, &H100000 } ) 0.0000004294967295
' Decimal( { &HFFFFFFFF, &H0, &H0, &H1C0000 } ) 0.0000000000000000004294967295
' Decimal( { &HFFFFFFFF, &H0, &H0, &H1D0000 } ) ArgumentException
' Decimal( { &HFFFFFFFF, &H0, &H0, &H1C0001 } ) ArgumentException
' Decimal( { &HF0000, &HF0000, &HF0000, &HF0000 } )
' 18133887298.441562272235520
Comentarios
La representación binaria de un Decimal número consta de un signo de 1 bits, un número entero de 96 bits y un factor de escala utilizado para dividir el número entero y especificar qué parte de él es una fracción decimal. El factor de escalado es implícitamente el número 10, elevado a un exponente comprendido entre 0 y 28.
bits es una matriz larga de cuatro elementos de enteros con signo de 32 bits.
bits [0], [1] bits y bits [2] contienen los 32 bits bajos, intermedios y altos del número entero de 96 bits.
bits [3] contiene el factor de escala y el signo, y consta de las siguientes partes:
Los bits de 0 a 15, la palabra inferior, no se usan y deben ser cero.
Los bits de 16 a 23 deben contener un exponente entre 0 y 28, que indica la potencia de 10 para dividir el número entero.
Los bits de 24 a 30 no se usan y deben ser cero.
El bit 31 contiene el signo; 0 significa positivo y 1 significado negativo.
Un valor numérico puede tener varias representaciones binarias posibles; todos son igualmente válidos y numéricomente equivalentes. Tenga en cuenta que la representación de bits diferencia entre cero negativo y positivo. Estos valores se tratan como iguales en todas las operaciones.
Consulte también
Se aplica a
Decimal(Int64)
- Source:
- Decimal.cs
- Source:
- Decimal.cs
- Source:
- Decimal.cs
Inicializa una nueva instancia de Decimal en el valor del entero de 64 bits con signo especificado.
public:
Decimal(long value);public Decimal (long value);new decimal : int64 -> decimalPublic Sub New (value As Long)Parámetros
Ejemplos
En el ejemplo de código siguiente se crean varios Decimal números mediante la sobrecarga del constructor que inicializa una Decimal estructura con un Int64 valor .
// Example of the Decimal( __int64 ) constructor.
using namespace System;
// Create a Decimal object and display its value.
void CreateDecimal( __int64 value, String^ valToStr )
{
Decimal decimalNum = Decimal(value);
// Format the constructor for display.
String^ ctor = String::Format( "Decimal( {0} )", valToStr );
// Display the constructor and its value.
Console::WriteLine( "{0,-35}{1,22}", ctor, decimalNum );
}
int main()
{
Console::WriteLine( "This example of the Decimal( __int64 ) "
"constructor \ngenerates the following output.\n" );
Console::WriteLine( "{0,-35}{1,22}", "Constructor", "Value" );
Console::WriteLine( "{0,-35}{1,22}", "-----------", "-----" );
// Construct Decimal objects from __int64 values.
CreateDecimal( Int64::MinValue, "Int64::MinValue" );
CreateDecimal( Int64::MaxValue, "Int64::MaxValue" );
CreateDecimal( 0, "0" );
CreateDecimal( 999999999999999999, "999999999999999999" );
CreateDecimal( 0x2000000000000000, "0x2000000000000000" );
CreateDecimal( 0xE000000000000000, "0xE000000000000000" );
}
/*
This example of the Decimal( __int64 ) constructor
generates the following output.
Constructor Value
----------- -----
Decimal( Int64::MinValue ) -9223372036854775808
Decimal( Int64::MaxValue ) 9223372036854775807
Decimal( 0 ) 0
Decimal( 999999999999999999 ) 999999999999999999
Decimal( 0x2000000000000000 ) 2305843009213693952
Decimal( 0xE000000000000000 ) -2305843009213693952
*/
// Example of the decimal( long ) constructor.
using System;
class DecimalCtorLDemo
{
// Create a decimal object and display its value.
public static void CreateDecimal( long value, string valToStr )
{
decimal decimalNum = new decimal( value );
// Format the constructor for display.
string ctor = String.Format( "decimal( {0} )", valToStr );
// Display the constructor and its value.
Console.WriteLine( "{0,-35}{1,22}", ctor, decimalNum );
}
public static void Main( )
{
Console.WriteLine( "This example of the decimal( long ) " +
"constructor \ngenerates the following output.\n" );
Console.WriteLine( "{0,-35}{1,22}", "Constructor", "Value" );
Console.WriteLine( "{0,-35}{1,22}", "-----------", "-----" );
// Construct decimal objects from long values.
CreateDecimal( long.MinValue, "long.MinValue" );
CreateDecimal( long.MaxValue, "long.MaxValue" );
CreateDecimal( 0L, "0L" );
CreateDecimal( 999999999999999999, "999999999999999999" );
CreateDecimal( 0x2000000000000000, "0x2000000000000000" );
CreateDecimal( unchecked( (long)0xE000000000000000 ),
"(long)0xE000000000000000" );
}
}
/*
This example of the decimal( long ) constructor
generates the following output.
Constructor Value
----------- -----
decimal( long.MinValue ) -9223372036854775808
decimal( long.MaxValue ) 9223372036854775807
decimal( 0 ) 0
decimal( 999999999999999999 ) 999999999999999999
decimal( 0x2000000000000000 ) 2305843009213693952
decimal( (long)0xE000000000000000 ) -2305843009213693952
*/
// Example of the decimal( int64 ) constructor.
open System
// Create a decimal object and display its value.
let createDecimal (value: int64) valToStr =
let decimalNum = Decimal value
// Format the constructor for display.
let ctor = $"decimal( {valToStr} )"
// Display the constructor and its value.
printfn $"{ctor,-35}{decimalNum,22}"
printfn "This example of the decimal( int64 ) constructor\ngenerates the following output.\n"
printfn "%-35s%22s" "Constructor" "Value"
printfn "%-35s%22s" "-----------" "-----"
// Construct decimal objects from long values.
createDecimal Int64.MinValue "Int64.MinValue"
createDecimal Int64.MaxValue "Int64.MaxValue"
createDecimal 0L "0L"
createDecimal 999999999999999999L "999999999999999999L"
createDecimal 0x2000000000000000L "0x2000000000000000L"
createDecimal (int64 0xE000000000000000L) "int64 0xE000000000000000L"
// This example of the decimal( int64 ) constructor
// generates the following output.
//
// Constructor Value
// ----------- -----
// decimal( Int64.MinValue ) -9223372036854775808
// decimal( Int64.MaxValue ) 9223372036854775807
// decimal( 0L ) 0
// decimal( 999999999999999999L ) 999999999999999999
// decimal( 0x2000000000000000L ) 2305843009213693952
// decimal( int64 0xE000000000000000L ) -2305843009213693952
' Example of the Decimal( Long ) constructor.
Module DecimalCtorLDemo
' Create a Decimal object and display its value.
Sub CreateDecimal( value As Long, valToStr As String )
Dim decimalNum As New Decimal( value )
' Format the constructor for display.
Dim ctor As String = _
String.Format( "Decimal( {0} )", valToStr )
' Display the constructor and its value.
Console.WriteLine( "{0,-30}{1,22}", ctor, decimalNum )
End Sub
Sub Main( )
Console.WriteLine( _
"This example of the Decimal( Long ) constructor " & _
vbCrLf & "generates the following output." & vbCrLf )
Console.WriteLine( "{0,-30}{1,22}", "Constructor", "Value" )
Console.WriteLine( "{0,-30}{1,22}", "-----------", "-----" )
' Construct Decimal objects from Long values.
CreateDecimal( Long.MinValue, "Long.MinValue" )
CreateDecimal( Long.MaxValue, "Long.MaxValue" )
CreateDecimal( 0L, "0" )
CreateDecimal( 999999999999999999, "999999999999999999" )
CreateDecimal( &H2000000000000000, "&H2000000000000000" )
CreateDecimal( &HE000000000000000, "&HE000000000000000" )
End Sub
End Module
' This example of the Decimal( Long ) constructor
' generates the following output.
'
' Constructor Value
' ----------- -----
' Decimal( Long.MinValue ) -9223372036854775808
' Decimal( Long.MaxValue ) 9223372036854775807
' Decimal( 0 ) 0
' Decimal( 999999999999999999 ) 999999999999999999
' Decimal( &H2000000000000000 ) 2305843009213693952
' Decimal( &HE000000000000000 ) -2305843009213693952
Se aplica a
Decimal(ReadOnlySpan<Int32>)
- Source:
- Decimal.cs
- Source:
- Decimal.cs
- Source:
- Decimal.cs
Inicializa una instancia nueva de Decimal en un valor decimal representado en binario e incluido en el intervalo especificado.
public:
Decimal(ReadOnlySpan<int> bits);public Decimal (ReadOnlySpan<int> bits);new decimal : ReadOnlySpan<int> -> decimalPublic Sub New (bits As ReadOnlySpan(Of Integer))Parámetros
- bits
- ReadOnlySpan<Int32>
Intervalo de cuatro valores Int32 que contiene una representación binaria de un valor decimal.
Excepciones
La longitud de bits no es 4, o bien la representación del valor decimal en bits no es válida.
Se aplica a
Decimal(Single)
- Source:
- Decimal.cs
- Source:
- Decimal.cs
- Source:
- Decimal.cs
Inicializa una nueva instancia de Decimal en el valor del número de punto flotante de precisión sencilla especificado.
public:
Decimal(float value);public Decimal (float value);new decimal : single -> decimalPublic Sub New (value As Single)Parámetros
Excepciones
value es mayor que Decimal.MaxValue o menor que Decimal.MinValue.
o bien
value es NaN, PositiveInfinity o NegativeInfinity.
Ejemplos
En el ejemplo de código siguiente se crean varios Decimal números mediante la sobrecarga del constructor que inicializa una Decimal estructura con un Single valor .
// Example of the Decimal( float ) constructor.
using namespace System;
// Get the exception type name; remove the namespace prefix.
String^ GetExceptionType( Exception^ ex )
{
String^ exceptionType = ex->GetType()->ToString();
return exceptionType->Substring( exceptionType->LastIndexOf( '.' ) + 1 );
}
// Create a Decimal object and display its value.
void CreateDecimal( float value, String^ valToStr )
{
// Format and display the constructor.
Console::Write( "{0,-27}", String::Format( "Decimal( {0} )", valToStr ) );
try
{
// Construct the Decimal value.
Decimal decimalNum = Decimal(value);
// Display the value if it was created successfully.
Console::WriteLine( "{0,31}", decimalNum );
}
catch ( Exception^ ex )
{
// Display the exception type if an exception was thrown.
Console::WriteLine( "{0,31}", GetExceptionType( ex ) );
}
}
int main()
{
Console::WriteLine( "This example of the Decimal( float ) "
"constructor \ngenerates the following output.\n" );
Console::WriteLine( "{0,-27}{1,31}", "Constructor", "Value or Exception" );
Console::WriteLine( "{0,-27}{1,31}", "-----------", "------------------" );
// Construct Decimal objects from float values.
CreateDecimal( 1.2345E+5, "1.2345E+5" );
CreateDecimal( 1.234567E+15, "1.234567E+15" );
CreateDecimal( 1.23456789E+25, "1.23456789E+25" );
CreateDecimal( 1.23456789E+35, "1.23456789E+35" );
CreateDecimal( 1.2345E-5, "1.2345E-5" );
CreateDecimal( 1.234567E-15, "1.234567E-15" );
CreateDecimal( 1.23456789E-25, "1.23456789E-25" );
CreateDecimal( 1.23456789E-35, "1.23456789E-35" );
CreateDecimal( 1.0 / 7.0, "1.0 / 7.0" );
}
/*
This example of the Decimal( float ) constructor
generates the following output.
Constructor Value or Exception
----------- ------------------
Decimal( 1.2345E+5 ) 123450
Decimal( 1.234567E+15 ) 1234567000000000
Decimal( 1.23456789E+25 ) 12345680000000000000000000
Decimal( 1.23456789E+35 ) OverflowException
Decimal( 1.2345E-5 ) 0.000012345
Decimal( 1.234567E-15 ) 0.000000000000001234567
Decimal( 1.23456789E-25 ) 0.0000000000000000000000001235
Decimal( 1.23456789E-35 ) 0
Decimal( 1.0 / 7.0 ) 0.1428571
*/
// Example of the decimal( float ) constructor.
using System;
class DecimalCtorSDemo
{
// Get the exception type name; remove the namespace prefix.
public static string GetExceptionType( Exception ex )
{
string exceptionType = ex.GetType( ).ToString( );
return exceptionType.Substring(
exceptionType.LastIndexOf( '.' ) + 1 );
}
// Create a decimal object and display its value.
public static void CreateDecimal( float value, string valToStr )
{
// Format and display the constructor.
Console.Write( "{0,-27}",
String.Format( "decimal( {0} )", valToStr ) );
try
{
// Construct the decimal value.
decimal decimalNum = new decimal( value );
// Display the value if it was created successfully.
Console.WriteLine( "{0,31}", decimalNum );
}
catch( Exception ex )
{
// Display the exception type if an exception was thrown.
Console.WriteLine( "{0,31}", GetExceptionType( ex ) );
}
}
public static void Main( )
{
Console.WriteLine( "This example of the decimal( float ) " +
"constructor \ngenerates the following output.\n" );
Console.WriteLine( "{0,-27}{1,31}", "Constructor",
"Value or Exception" );
Console.WriteLine( "{0,-27}{1,31}", "-----------",
"------------------" );
// Construct decimal objects from float values.
CreateDecimal( 1.2345E+5F, "1.2345E+5F" );
CreateDecimal( 1.234567E+15F, "1.234567E+15F" );
CreateDecimal( 1.23456789E+25F, "1.23456789E+25F" );
CreateDecimal( 1.23456789E+35F, "1.23456789E+35F" );
CreateDecimal( 1.2345E-5F, "1.2345E-5F" );
CreateDecimal( 1.234567E-15F, "1.234567E-15F" );
CreateDecimal( 1.23456789E-25F, "1.23456789E-25F" );
CreateDecimal( 1.23456789E-35F, "1.23456789E-35F" );
CreateDecimal( 1.0F / 7.0F, "1.0F / 7.0F" );
}
}
/*
This example of the decimal( float ) constructor
generates the following output.
Constructor Value or Exception
----------- ------------------
decimal( 1.2345E+5F ) 123450
decimal( 1.234567E+15F ) 1234567000000000
decimal( 1.23456789E+25F ) 12345680000000000000000000
decimal( 1.23456789E+35F ) OverflowException
decimal( 1.2345E-5F ) 0.000012345
decimal( 1.234567E-15F ) 0.000000000000001234567
decimal( 1.23456789E-25F ) 0.0000000000000000000000001235
decimal( 1.23456789E-35F ) 0
decimal( 1.0F / 7.0F ) 0.1428571
*/
// Example of the decimal( float ) constructor.
open System
// Get the exception type name; remove the namespace prefix.
let getExceptionType (ex: exn) =
let exceptionType = ex.GetType() |> string
exceptionType.Substring(exceptionType.LastIndexOf '.' + 1)
// Create a decimal object and display its value.
let createDecimal (value: float32) valToStr =
// Format and display the constructor.
printf "%-27s" $"decimal( {valToStr} )"
try
// Construct the decimal value.
let decimalNum = Decimal value
// Display the value if it was created successfully.
printfn $"{decimalNum,31}"
with ex ->
// Display the exception type if an exception was thrown.
printfn $"{getExceptionType ex,31}"
printfn "This example of the decimal( float ) constructor \ngenerates the following output.\n"
printfn $"""{"Constructor",-27}{"Value or Exception",31}"""
printfn $"""{"-----------",-27}{"------------------",31}"""
// Construct decimal objects from float values.
createDecimal 1.2345E+5f "1.2345E+5F"
createDecimal 1.234567E+15f "1.234567E+15F"
createDecimal 1.23456789E+25f "1.23456789E+25F"
createDecimal 1.23456789E+35f "1.23456789E+35F"
createDecimal 1.2345E-5f "1.2345E-5F"
createDecimal 1.234567E-15f "1.234567E-15F"
createDecimal 1.23456789E-25f "1.23456789E-25F"
createDecimal 1.23456789E-35f "1.23456789E-35F"
createDecimal (1f / 7f) "1.0F / 7.0F"
// This example of the decimal( float ) constructor
// generates the following output.
// Constructor Value or Exception
// ----------- ------------------
// decimal( 1.2345E+5F ) 123450
// decimal( 1.234567E+15F ) 1234567000000000
// decimal( 1.23456789E+25F ) 12345680000000000000000000
// decimal( 1.23456789E+35F ) OverflowException
// decimal( 1.2345E-5F ) 0.000012345
// decimal( 1.234567E-15F ) 0.000000000000001234567
// decimal( 1.23456789E-25F ) 0.0000000000000000000000001235
// decimal( 1.23456789E-35F ) 0
// decimal( 1.0F / 7.0F ) 0.1428571
' Example of the Decimal( Single ) constructor.
Module DecimalCtorSDemo
' Get the exception type name; remove the namespace prefix.
Function GetExceptionType( ex As Exception ) As String
Dim exceptionType As String = ex.GetType( ).ToString( )
Return exceptionType.Substring( _
exceptionType.LastIndexOf( "."c ) + 1 )
End Function
' Create a Decimal object and display its value.
Sub CreateDecimal( value As Single, valToStr As String )
' Format and display the constructor.
Console.Write( "{0,-27}", _
String.Format( "Decimal( {0} )", valToStr ) )
' Construct the Decimal value.
Try
Dim decimalNum As New Decimal( value )
' Display the value if it was created successfully.
Console.WriteLine( "{0,31}", decimalNum )
' Display the exception type if an exception was thrown.
Catch ex As Exception
Console.WriteLine( "{0,31}", GetExceptionType( ex ) )
End Try
End Sub
Sub Main( )
Console.WriteLine( _
"This example of the Decimal( Single ) constructor " & _
vbCrLf & "generates the following output." & vbCrLf )
Console.WriteLine( "{0,-27}{1,31}", "Constructor", "Value or Exception" )
Console.WriteLine( "{0,-27}{1,31}", "-----------", "------------------" )
' Construct Decimal objects from Single values.
CreateDecimal( 1.2345E+5, "1.2345E+5" )
CreateDecimal( 1.234567E+15, "1.234567E+15" )
CreateDecimal( 1.23456789E+25, "1.23456789E+25" )
CreateDecimal( 1.23456789E+35, "1.23456789E+35" )
CreateDecimal( 1.2345E-5, "1.2345E-5" )
CreateDecimal( 1.234567E-15, "1.234567E-15" )
CreateDecimal( 1.23456789E-25, "1.23456789E-25" )
CreateDecimal( 1.23456789E-35, "1.23456789E-35" )
CreateDecimal( 1.0 / 7.0, "1.0 / 7.0" )
End Sub
End Module
' This example of the Decimal( Single ) constructor
' generates the following output.
'
' Constructor Value or Exception
' ----------- ------------------
' Decimal( 1.2345E+5 ) 123450
' Decimal( 1.234567E+15 ) 1234567000000000
' Decimal( 1.23456789E+25 ) 12345680000000000000000000
' Decimal( 1.23456789E+35 ) OverflowException
' Decimal( 1.2345E-5 ) 0.000012345
' Decimal( 1.234567E-15 ) 0.000000000000001234567
' Decimal( 1.23456789E-25 ) 0.0000000000000000000000001235
' Decimal( 1.23456789E-35 ) 0
' Decimal( 1.0 / 7.0 ) 0.1428571
Comentarios
Este constructor redondea value a 7 dígitos significativos mediante el redondeo al más cercano. Esto se hace incluso si el número tiene más de 7 dígitos y los dígitos menos significativos son cero.
Se aplica a
Decimal(UInt32)
- Source:
- Decimal.cs
- Source:
- Decimal.cs
- Source:
- Decimal.cs
Importante
Esta API no es conforme a CLS.
Inicializa una nueva instancia de Decimal en el valor del entero de 32 bits sin signo especificado.
public:
Decimal(System::UInt32 value);[System.CLSCompliant(false)]
public Decimal (uint value);[<System.CLSCompliant(false)>]
new decimal : uint32 -> decimalPublic Sub New (value As UInteger)Parámetros
- Atributos
Ejemplos
En el ejemplo de código siguiente se crean varios Decimal números mediante la sobrecarga del constructor que inicializa una Decimal estructura con un UInt32 valor .
// Example of the Decimal( unsigned int ) constructor.
using namespace System;
// Create a Decimal object and display its value.
void CreateDecimal( unsigned int value, String^ valToStr )
{
Decimal decimalNum = Decimal(value);
// Format the constructor for display.
String^ ctor = String::Format( "Decimal( {0} )", valToStr );
// Display the constructor and its value.
Console::WriteLine( "{0,-30}{1,16}", ctor, decimalNum );
}
int main()
{
Console::WriteLine( "This example of the Decimal( unsigned "
"int ) constructor \ngenerates the following output.\n" );
Console::WriteLine( "{0,-30}{1,16}", "Constructor", "Value" );
Console::WriteLine( "{0,-30}{1,16}", "-----------", "-----" );
// Construct Decimal objects from unsigned int values.
CreateDecimal( UInt32::MinValue, "UInt32::MinValue" );
CreateDecimal( UInt32::MaxValue, "UInt32::MaxValue" );
CreateDecimal( Int32::MaxValue, "Int32::MaxValue" );
CreateDecimal( 999999999, "999999999" );
CreateDecimal( 0x40000000, "0x40000000" );
CreateDecimal( 0xC0000000, "0xC0000000" );
}
/*
This example of the Decimal( unsigned int ) constructor
generates the following output.
Constructor Value
----------- -----
Decimal( UInt32::MinValue ) 0
Decimal( UInt32::MaxValue ) 4294967295
Decimal( Int32::MaxValue ) 2147483647
Decimal( 999999999 ) 999999999
Decimal( 0x40000000 ) 1073741824
Decimal( 0xC0000000 ) 3221225472
*/
// Example of the decimal( uint ) constructor.
using System;
class DecimalCtorUIDemo
{
// Create a decimal object and display its value.
public static void CreateDecimal( uint value, string valToStr )
{
decimal decimalNum = new decimal( value );
// Format the constructor for display.
string ctor = String.Format( "decimal( {0} )", valToStr );
// Display the constructor and its value.
Console.WriteLine( "{0,-33}{1,16}", ctor, decimalNum );
}
public static void Main( )
{
Console.WriteLine( "This example of the decimal( uint ) " +
"constructor \ngenerates the following output.\n" );
Console.WriteLine( "{0,-33}{1,16}", "Constructor", "Value" );
Console.WriteLine( "{0,-33}{1,16}", "-----------", "-----" );
// Construct decimal objects from uint values.
CreateDecimal( uint.MinValue, "uint.MinValue" );
CreateDecimal( uint.MaxValue, "uint.MaxValue" );
CreateDecimal( (uint)int.MaxValue, "(uint)int.MaxValue" );
CreateDecimal( 999999999U, "999999999U" );
CreateDecimal( 0x40000000U, "0x40000000U" );
CreateDecimal( 0xC0000000, "0xC0000000" );
}
}
/*
This example of the decimal( uint ) constructor
generates the following output.
Constructor Value
----------- -----
decimal( uint.MinValue ) 0
decimal( uint.MaxValue ) 4294967295
decimal( (uint)int.MaxValue ) 2147483647
decimal( 999999999U ) 999999999
decimal( 0x40000000U ) 1073741824
decimal( 0xC0000000 ) 3221225472
*/
// Example of the decimal( uint ) constructor.
open System
// Create a decimal object and display its value.
let createDecimal (value: uint) valToStr =
let decimalNum = Decimal value
// Format the constructor for display.
let ctor = $"decimal( {valToStr} )"
// Display the constructor and its value.
printfn $"{ctor,-33}{decimalNum,16}"
printfn "This example of the decimal( uint ) constructor \ngenerates the following output.\n"
printfn "%-33s%16s" "Constructor" "Value"
printfn "%-33s%16s" "-----------" "-----"
// Construct decimal objects from uint values.
createDecimal UInt32.MinValue "UInt32.MinValue"
createDecimal UInt32.MaxValue "UInt32.MaxValue"
createDecimal (uint Int32.MaxValue) "uint Int32.MaxValue"
createDecimal 999999999u "999999999u"
createDecimal 0x40000000u "0x40000000u"
createDecimal 0xC0000000u "0xC0000000u"
// This example of the decimal( uint ) constructor
// generates the following output.
//
// Constructor Value
// ----------- -----
// decimal( UInt32.MinValue ) 0
// decimal( UInt32.MaxValue ) 4294967295
// decimal( uint Int32.MaxValue ) 2147483647
// decimal( 999999999u ) 999999999
// decimal( 0x40000000u ) 1073741824
// decimal( 0xC0000000u ) 3221225472
' Example of the Decimal( UInt32 ) constructor.
Module DecimalCtorUIDemo
' Create a Decimal object and display its value.
Sub CreateDecimal( value As UInt32, valToStr As String )
Dim decimalNum As New Decimal( value )
' Format the constructor for display.
Dim ctor As String = _
String.Format( "Decimal( {0} )", valToStr )
' Display the constructor and its value.
Console.WriteLine( "{0,-33}{1,16}", ctor, decimalNum )
End Sub
Sub Main( )
Console.WriteLine( _
"This example of the Decimal( UInt32 ) constructor " & _
vbCrLf & "generates the following output." & vbCrLf )
Console.WriteLine( "{0,-33}{1,16}", "Constructor", "Value" )
Console.WriteLine( "{0,-33}{1,16}", "-----------", "-----" )
' Construct Decimal objects from UInt32 values.
' UInt32.MinValue and UInt32.MaxValue are not defined in VB.
CreateDecimal( Convert.ToUInt32( 0 ), """UInt32.MinValue""" )
CreateDecimal( Convert.ToUInt32( 4294967295 ), _
"""UInt32.MaxValue""" )
CreateDecimal( Convert.ToUInt32( Integer.MaxValue ), _
"Integer.MaxValue" )
CreateDecimal( Convert.ToUInt32( 999999999 ), "999999999" )
CreateDecimal( Convert.ToUInt32( &H40000000 ), "&H40000000" )
CreateDecimal( Convert.ToUInt32( &HC0000000L ), "&HC0000000" )
End Sub
End Module
' This example of the Decimal( UInt32 ) constructor
' generates the following output.
'
' Constructor Value
' ----------- -----
' Decimal( "UInt32.MinValue" ) 0
' Decimal( "UInt32.MaxValue" ) 4294967295
' Decimal( Integer.MaxValue ) 2147483647
' Decimal( 999999999 ) 999999999
' Decimal( &H40000000 ) 1073741824
' Decimal( &HC0000000 ) 3221225472
Se aplica a
Decimal(UInt64)
- Source:
- Decimal.cs
- Source:
- Decimal.cs
- Source:
- Decimal.cs
Importante
Esta API no es conforme a CLS.
Inicializa una nueva instancia de Decimal en el valor del entero de 64 bits sin signo especificado.
public:
Decimal(System::UInt64 value);[System.CLSCompliant(false)]
public Decimal (ulong value);[<System.CLSCompliant(false)>]
new decimal : uint64 -> decimalPublic Sub New (value As ULong)Parámetros
- Atributos
Ejemplos
En el ejemplo de código siguiente se crean varios Decimal números mediante la sobrecarga del constructor que inicializa una Decimal estructura con un UInt64 valor .
// Example of the Decimal( unsigned __int64 ) constructor.
using namespace System;
// Create a Decimal object and display its value.
void CreateDecimal( unsigned __int64 value, String^ valToStr )
{
Decimal decimalNum = Decimal(value);
// Format the constructor for display.
String^ ctor = String::Format( "Decimal( {0} )", valToStr );
// Display the constructor and its value.
Console::WriteLine( "{0,-33}{1,22}", ctor, decimalNum );
}
int main()
{
Console::WriteLine( "This example of the Decimal( unsigned "
"__int64 ) constructor \ngenerates the following output.\n" );
Console::WriteLine( "{0,-33}{1,22}", "Constructor", "Value" );
Console::WriteLine( "{0,-33}{1,22}", "-----------", "-----" );
// Construct Decimal objects from unsigned __int64 values.
CreateDecimal( UInt64::MinValue, "UInt64::MinValue" );
CreateDecimal( UInt64::MaxValue, "UInt64::MaxValue" );
CreateDecimal( Int64::MaxValue, "Int64::MaxValue" );
CreateDecimal( 999999999999999999, "999999999999999999" );
CreateDecimal( 0x2000000000000000, "0x2000000000000000" );
CreateDecimal( 0xE000000000000000, "0xE000000000000000" );
}
/*
This example of the Decimal( unsigned __int64 ) constructor
generates the following output.
Constructor Value
----------- -----
Decimal( UInt64::MinValue ) 0
Decimal( UInt64::MaxValue ) 18446744073709551615
Decimal( Int64::MaxValue ) 9223372036854775807
Decimal( 999999999999999999 ) 999999999999999999
Decimal( 0x2000000000000000 ) 2305843009213693952
Decimal( 0xE000000000000000 ) 16140901064495857664
*/
// Example of the decimal( ulong ) constructor.
using System;
class DecimalCtorLDemo
{
// Create a decimal object and display its value.
public static void CreateDecimal( ulong value, string valToStr )
{
decimal decimalNum = new decimal( value );
// Format the constructor for display.
string ctor = String.Format( "decimal( {0} )", valToStr );
// Display the constructor and its value.
Console.WriteLine( "{0,-35}{1,22}", ctor, decimalNum );
}
public static void Main( )
{
Console.WriteLine( "This example of the decimal( ulong ) " +
"constructor \ngenerates the following output.\n" );
Console.WriteLine( "{0,-35}{1,22}", "Constructor", "Value" );
Console.WriteLine( "{0,-35}{1,22}", "-----------", "-----" );
// Construct decimal objects from ulong values.
CreateDecimal( ulong.MinValue, "ulong.MinValue" );
CreateDecimal( ulong.MaxValue, "ulong.MaxValue" );
CreateDecimal( long.MaxValue, "long.MaxValue" );
CreateDecimal( 999999999999999999, "999999999999999999" );
CreateDecimal( 0x2000000000000000, "0x2000000000000000" );
CreateDecimal( 0xE000000000000000, "0xE000000000000000" );
}
}
/*
This example of the decimal( ulong ) constructor
generates the following output.
Constructor Value
----------- -----
decimal( ulong.MinValue ) 0
decimal( ulong.MaxValue ) 18446744073709551615
decimal( long.MaxValue ) 9223372036854775807
decimal( 999999999999999999 ) 999999999999999999
decimal( 0x2000000000000000 ) 2305843009213693952
decimal( 0xE000000000000000 ) 16140901064495857664
*/
// Example of the decimal( uint64 ) constructor.
open System
// Create a decimal object and display its value.
let createDecimal (value: uint64) valToStr =
let decimalNum = Decimal value
// Format the constructor for display.
let ctor = $"decimal( {valToStr} )"
// Display the constructor and its value.
printfn $"{ctor,-35}{decimalNum,22}"
printfn "This example of the decimal( uint64 ) constructor \ngenerates the following output.\n"
printfn "%-35s%22s" "Constructor" "Value"
printfn "%-35s%22s" "-----------" "-----"
// Construct decimal objects from ulong values.
createDecimal UInt64.MinValue "UInt64.MinValue"
createDecimal UInt64.MaxValue "UInt64.MaxValue"
createDecimal (uint64 Int64.MaxValue) "int64 Int64.MaxValue"
createDecimal 999999999999999999uL "999999999999999999uL"
createDecimal 0x2000000000000000uL "0x2000000000000000uL"
createDecimal 0xE000000000000000uL "0xE000000000000000uL"
// This example of the decimal( uint64 ) constructor
// generates the following output.
//
// Constructor Value
// ----------- -----
// decimal( UInt64.MinValue ) 0
// decimal( UInt64.MaxValue ) 18446744073709551615
// decimal( int64 Int64.MaxValue ) 9223372036854775807
// decimal( 999999999999999999uL ) 999999999999999999
// decimal( 0x2000000000000000uL ) 2305843009213693952
// decimal( 0xE000000000000000uL ) 16140901064495857664
' Example of the Decimal( UInt64 ) constructor.
Module DecimalCtorULDemo
' Create a Decimal object and display its value.
Sub CreateDecimal( value As UInt64, valToStr As String )
Dim decimalNum As New Decimal( value )
' Format the constructor for display.
Dim ctor As String = _
String.Format( "Decimal( {0} )", valToStr )
' Display the constructor and its value.
Console.WriteLine( "{0,-33}{1,22}", ctor, decimalNum )
End Sub
Sub Main( )
Console.WriteLine( _
"This example of the Decimal( UInt64 ) constructor " & _
vbCrLf & "generates the following output." & vbCrLf )
Console.WriteLine( "{0,-33}{1,22}", "Constructor", "Value" )
Console.WriteLine( "{0,-33}{1,22}", "-----------", "-----" )
' Construct Decimal objects from UInt64 values.
' UInt64.MinValue and UInt64.MaxValue are not defined in VB.
CreateDecimal( Convert.ToUInt64( 0 ), """UInt64.MinValue""" )
CreateDecimal( Convert.ToUInt64( 18446744073709551615D ), _
"""UInt64.MaxValue""" )
CreateDecimal( Convert.ToUInt64( Long.MaxValue ), _
"Long.MaxValue" )
CreateDecimal( Convert.ToUInt64( 999999999999999999 ), _
"999999999999999999" )
CreateDecimal( Convert.ToUInt64( &H2000000000000000 ), _
"&H2000000000000000" )
CreateDecimal( Convert.ToUInt64( 16140901064495857664.0 ), _
"16140901064495857664.0" )
End Sub
End Module
' This example of the Decimal( UInt64 ) constructor
' generates the following output.
'
' Constructor Value
' ----------- -----
' Decimal( "UInt64.MinValue" ) 0
' Decimal( "UInt64.MaxValue" ) 18446744073709551615
' Decimal( Long.MaxValue ) 9223372036854775807
' Decimal( 999999999999999999 ) 999999999999999999
' Decimal( &H2000000000000000 ) 2305843009213693952
' Decimal( 16140901064495857664.0 ) 16140901064495857664
Se aplica a
Decimal(Int32, Int32, Int32, Boolean, Byte)
- Source:
- Decimal.cs
- Source:
- Decimal.cs
- Source:
- Decimal.cs
Inicializa una nueva instancia de Decimal a partir de los parámetros que especifican las partes constituyentes de la instancia.
public:
Decimal(int lo, int mid, int hi, bool isNegative, System::Byte scale);public Decimal (int lo, int mid, int hi, bool isNegative, byte scale);new decimal : int * int * int * bool * byte -> decimalPublic Sub New (lo As Integer, mid As Integer, hi As Integer, isNegative As Boolean, scale As Byte)Parámetros
- lo
- Int32
32 bits inferiores de un entero de 96 bits.
- mid
- Int32
32 bits intermedios de un entero de 96 bits.
- hi
- Int32
32 bits superiores de un entero de 96 bits.
- isNegative
- Boolean
true para indicar un número negativo; false para indicar un número positivo.
- scale
- Byte
Potencia de 10 comprendida entre el 0 y el 28.
Excepciones
scale es mayor que 28.
Ejemplos
En el ejemplo de código siguiente se crean varios Decimal números mediante la sobrecarga del constructor que inicializa una Decimal estructura con tres Int32 palabras de valor, un Boolean signo y un Byte factor de escala.
// Example of the Decimal( int, int, int, bool, unsigned char )
// constructor.
using namespace System;
// Get the exception type name; remove the namespace prefix.
String^ GetExceptionType( Exception^ ex )
{
String^ exceptionType = ex->GetType()->ToString();
return exceptionType->Substring( exceptionType->LastIndexOf( '.' ) + 1 );
}
// Create a Decimal object and display its value.
void CreateDecimal( int low, int mid, int high, bool isNeg, unsigned char scale )
{
// Format the constructor for display.
array<Object^>^boxedParams = gcnew array<Object^>(5);
boxedParams[ 0 ] = low;
boxedParams[ 1 ] = mid;
boxedParams[ 2 ] = high;
boxedParams[ 3 ] = isNeg;
boxedParams[ 4 ] = scale;
String^ ctor = String::Format( "Decimal( {0}, {1}, {2}, {3}, {4} )", boxedParams );
String^ valOrExc;
try
{
// Construct the Decimal value.
Decimal decimalNum = Decimal(low,mid,high,isNeg,scale);
// Format and save the Decimal value.
valOrExc = decimalNum.ToString();
}
catch ( Exception^ ex )
{
// Save the exception type if an exception was thrown.
valOrExc = GetExceptionType( ex );
}
// Display the constructor and Decimal value or exception.
int ctorLen = 76 - valOrExc->Length;
// Display the data on one line if it will fit.
if ( ctorLen > ctor->Length )
Console::WriteLine( "{0}{1}", ctor->PadRight( ctorLen ), valOrExc );
// Otherwise, display the data on two lines.
else
{
Console::WriteLine( "{0}", ctor );
Console::WriteLine( "{0,76}", valOrExc );
}
}
int main()
{
Console::WriteLine( "This example of the Decimal( int, int, "
"int, bool, unsigned char ) \nconstructor "
"generates the following output.\n" );
Console::WriteLine( "{0,-38}{1,38}", "Constructor", "Value or Exception" );
Console::WriteLine( "{0,-38}{1,38}", "-----------", "------------------" );
// Construct Decimal objects from double values.
CreateDecimal( 0, 0, 0, false, 0 );
CreateDecimal( 0, 0, 0, false, 27 );
CreateDecimal( 0, 0, 0, true, 0 );
CreateDecimal( 1000000000, 0, 0, false, 0 );
CreateDecimal( 0, 1000000000, 0, false, 0 );
CreateDecimal( 0, 0, 1000000000, false, 0 );
CreateDecimal( 1000000000, 1000000000, 1000000000, false, 0 );
CreateDecimal( -1, -1, -1, false, 0 );
CreateDecimal( -1, -1, -1, true, 0 );
CreateDecimal( -1, -1, -1, false, 15 );
CreateDecimal( -1, -1, -1, false, 28 );
CreateDecimal( -1, -1, -1, false, 29 );
CreateDecimal( Int32::MaxValue, 0, 0, false, 18 );
CreateDecimal( Int32::MaxValue, 0, 0, false, 28 );
CreateDecimal( Int32::MaxValue, 0, 0, true, 28 );
}
/*
This example of the Decimal( int, int, int, bool, unsigned char )
constructor generates the following output.
Constructor Value or Exception
----------- ------------------
Decimal( 0, 0, 0, False, 0 ) 0
Decimal( 0, 0, 0, False, 27 ) 0
Decimal( 0, 0, 0, True, 0 ) 0
Decimal( 1000000000, 0, 0, False, 0 ) 1000000000
Decimal( 0, 1000000000, 0, False, 0 ) 4294967296000000000
Decimal( 0, 0, 1000000000, False, 0 ) 18446744073709551616000000000
Decimal( 1000000000, 1000000000, 1000000000, False, 0 )
18446744078004518913000000000
Decimal( -1, -1, -1, False, 0 ) 79228162514264337593543950335
Decimal( -1, -1, -1, True, 0 ) -79228162514264337593543950335
Decimal( -1, -1, -1, False, 15 ) 79228162514264.337593543950335
Decimal( -1, -1, -1, False, 28 ) 7.9228162514264337593543950335
Decimal( -1, -1, -1, False, 29 ) ArgumentOutOfRangeException
Decimal( 2147483647, 0, 0, False, 18 ) 0.000000002147483647
Decimal( 2147483647, 0, 0, False, 28 ) 0.0000000000000000002147483647
Decimal( 2147483647, 0, 0, True, 28 ) -0.0000000000000000002147483647
*/
// Example of the decimal( int, int, int, bool, byte ) constructor.
using System;
class DecimalCtorIIIBByDemo
{
// Get the exception type name; remove the namespace prefix.
public static string GetExceptionType( Exception ex )
{
string exceptionType = ex.GetType( ).ToString( );
return exceptionType.Substring(
exceptionType.LastIndexOf( '.' ) + 1 );
}
// Create a decimal object and display its value.
public static void CreateDecimal( int low, int mid, int high,
bool isNeg, byte scale )
{
// Format the constructor for display.
string ctor = String.Format(
"decimal( {0}, {1}, {2}, {3}, {4} )",
low, mid, high, isNeg, scale );
string valOrExc;
try
{
// Construct the decimal value.
decimal decimalNum = new decimal(
low, mid, high, isNeg, scale );
// Format and save the decimal value.
valOrExc = decimalNum.ToString( );
}
catch( Exception ex )
{
// Save the exception type if an exception was thrown.
valOrExc = GetExceptionType( ex );
}
// Display the constructor and decimal value or exception.
int ctorLen = 76 - valOrExc.Length;
// Display the data on one line if it will fit.
if ( ctorLen > ctor.Length )
Console.WriteLine( "{0}{1}", ctor.PadRight( ctorLen ),
valOrExc );
// Otherwise, display the data on two lines.
else
{
Console.WriteLine( "{0}", ctor );
Console.WriteLine( "{0,76}", valOrExc );
}
}
public static void Main( )
{
Console.WriteLine( "This example of the decimal( int, int, " +
"int, bool, byte ) \nconstructor " +
"generates the following output.\n" );
Console.WriteLine( "{0,-38}{1,38}", "Constructor",
"Value or Exception" );
Console.WriteLine( "{0,-38}{1,38}", "-----------",
"------------------" );
// Construct decimal objects from the component fields.
CreateDecimal( 0, 0, 0, false, 0 );
CreateDecimal( 0, 0, 0, false, 27 );
CreateDecimal( 0, 0, 0, true, 0 );
CreateDecimal( 1000000000, 0, 0, false, 0 );
CreateDecimal( 0, 1000000000, 0, false, 0 );
CreateDecimal( 0, 0, 1000000000, false, 0 );
CreateDecimal( 1000000000, 1000000000, 1000000000, false, 0 );
CreateDecimal( -1, -1, -1, false, 0 );
CreateDecimal( -1, -1, -1, true, 0 );
CreateDecimal( -1, -1, -1, false, 15 );
CreateDecimal( -1, -1, -1, false, 28 );
CreateDecimal( -1, -1, -1, false, 29 );
CreateDecimal( int.MaxValue, 0, 0, false, 18 );
CreateDecimal( int.MaxValue, 0, 0, false, 28 );
CreateDecimal( int.MaxValue, 0, 0, true, 28 );
}
}
/*
This example of the decimal( int, int, int, bool, byte )
constructor generates the following output.
Constructor Value or Exception
----------- ------------------
decimal( 0, 0, 0, False, 0 ) 0
decimal( 0, 0, 0, False, 27 ) 0
decimal( 0, 0, 0, True, 0 ) 0
decimal( 1000000000, 0, 0, False, 0 ) 1000000000
decimal( 0, 1000000000, 0, False, 0 ) 4294967296000000000
decimal( 0, 0, 1000000000, False, 0 ) 18446744073709551616000000000
decimal( 1000000000, 1000000000, 1000000000, False, 0 )
18446744078004518913000000000
decimal( -1, -1, -1, False, 0 ) 79228162514264337593543950335
decimal( -1, -1, -1, True, 0 ) -79228162514264337593543950335
decimal( -1, -1, -1, False, 15 ) 79228162514264.337593543950335
decimal( -1, -1, -1, False, 28 ) 7.9228162514264337593543950335
decimal( -1, -1, -1, False, 29 ) ArgumentOutOfRangeException
decimal( 2147483647, 0, 0, False, 18 ) 0.000000002147483647
decimal( 2147483647, 0, 0, False, 28 ) 0.0000000000000000002147483647
decimal( 2147483647, 0, 0, True, 28 ) -0.0000000000000000002147483647
*/
// Example of the decimal( int, int, int, bool, byte ) constructor.
open System
// Get the exception type name; remove the namespace prefix.
let getExceptionType (ex: exn) =
let exceptionType = ex.GetType() |> string
exceptionType.Substring(exceptionType.LastIndexOf '.' + 1)
// Create a decimal object and display its value.
let createDecimal low mid high (isNeg: bool) (scale: byte) =
// Format the constructor for display.
let ctor =
$"decimal( %i{low}, %i{mid}, %i{high}, {isNeg}, {scale} )"
let valOrExc =
try
// Construct the decimal value.
let decimalNum = new decimal(low, mid, high, isNeg, scale)
// Format and save the decimal value.
decimalNum |> string
with ex ->
// Save the exception type if an exception was thrown.
getExceptionType ex
// Display the constructor and decimal value or exception.
let ctorLen = 76 - valOrExc.Length
// Display the data on one line if it will fit.
if ctorLen > ctor.Length then
printfn $"{ctor.PadRight ctorLen}{valOrExc}"
// Otherwise, display the data on two lines.
else
printfn $"{ctor}"
printfn $"{valOrExc,76}"
printfn
"""This example of the decimal(int, int, int, bool, byte)
constructor generates the following output.
"""
printfn "%-38s%38s" "Constructor" "Value or Exception"
printfn "%-38s%38s" "-----------" "------------------"
// Construct decimal objects from the component fields.
createDecimal 0 0 0 false 0uy
createDecimal 0 0 0 false 27uy
createDecimal 0 0 0 true 0uy
createDecimal 1000000000 0 0 false 0uy
createDecimal 0 1000000000 0 false 0uy
createDecimal 0 0 1000000000 false 0uy
createDecimal 1000000000 1000000000 1000000000 false 0uy
createDecimal -1 -1 -1 false 0uy
createDecimal -1 -1 -1 true 0uy
createDecimal -1 -1 -1 false 15uy
createDecimal -1 -1 -1 false 28uy
createDecimal -1 -1 -1 false 29uy
createDecimal Int32.MaxValue 0 0 false 18uy
createDecimal Int32.MaxValue 0 0 false 28uy
createDecimal Int32.MaxValue 0 0 true 28uy
// This example of the decimal(int, int, int, bool, byte)
// constructor generates the following output.
//
// Constructor Value or Exception
// ----------- ------------------
// decimal( 0, 0, 0, False, 0 ) 0
// decimal( 0, 0, 0, False, 27 ) 0
// decimal( 0, 0, 0, True, 0 ) 0
// decimal( 1000000000, 0, 0, False, 0 ) 1000000000
// decimal( 0, 1000000000, 0, False, 0 ) 4294967296000000000
// decimal( 0, 0, 1000000000, False, 0 ) 18446744073709551616000000000
// decimal( 1000000000, 1000000000, 1000000000, False, 0 )
// 18446744078004518913000000000
// decimal( -1, -1, -1, False, 0 ) 79228162514264337593543950335
// decimal( -1, -1, -1, True, 0 ) -79228162514264337593543950335
// decimal( -1, -1, -1, False, 15 ) 79228162514264.337593543950335
// decimal( -1, -1, -1, False, 28 ) 7.9228162514264337593543950335
// decimal( -1, -1, -1, False, 29 ) ArgumentOutOfRangeException
// decimal( 2147483647, 0, 0, False, 18 ) 0.000000002147483647
// decimal( 2147483647, 0, 0, False, 28 ) 0.0000000000000000002147483647
// decimal( 2147483647, 0, 0, True, 28 ) -0.0000000000000000002147483647
' Example of the Decimal( Integer, Integer, Integer, Boolean, Byte )
' constructor.
Module DecimalCtorIIIBByDemo
' Get the exception type name; remove the namespace prefix.
Function GetExceptionType( ex As Exception ) As String
Dim exceptionType As String = ex.GetType( ).ToString( )
Return exceptionType.Substring( _
exceptionType.LastIndexOf( "."c ) + 1 )
End Function
' Create a Decimal object and display its value.
Sub CreateDecimal( low As Integer, mid As Integer, _
high As Integer, isNeg As Boolean, scale as Byte )
' Format the constructor for display.
Dim ctor As String = String.Format( _
"Decimal( {0}, {1}, {2}, {3}, {4} )", _
low, mid, high, isNeg, scale )
Dim valOrExc As String
' Construct the Decimal value.
Try
Dim decimalNum As New Decimal( _
low, mid, high, isNeg, scale )
' Format and save the Decimal value.
valOrExc = decimalNum.ToString( )
' Save the exception type if an exception was thrown.
Catch ex As Exception
valOrExc = GetExceptionType( ex )
End Try
' Display the constructor and Decimal value or exception.
Dim ctorLen = 76 - valOrExc.Length
If ctorLen > ctor.Length Then
' Display the data on one line if it will fit.
Console.WriteLine( "{0}{1}", ctor.PadRight( ctorLen ), _
valOrExc )
' Otherwise, display the data on two lines.
Else
Console.WriteLine( "{0}", ctor )
Console.WriteLine( "{0,76}", valOrExc )
End If
End Sub
Sub Main( )
Console.WriteLine( _
"This example of the Decimal( Integer, Integer, " & _
"Integer, Boolean, Byte ) " & vbCrLf & "constructor " & _
"generates the following output." & vbCrLf )
Console.WriteLine( "{0,-38}{1,38}", "Constructor", _
"Value or Exception" )
Console.WriteLine( "{0,-38}{1,38}", "-----------", _
"------------------" )
' Construct Decimal objects from the component fields.
CreateDecimal( 0, 0, 0, False, 0 )
CreateDecimal( 0, 0, 0, False, 27 )
CreateDecimal( 0, 0, 0, True, 0 )
CreateDecimal( 1000000000, 0, 0, False, 0 )
CreateDecimal( 0, 1000000000, 0, False, 0 )
CreateDecimal( 0, 0, 1000000000, False, 0 )
CreateDecimal( 1000000000, 1000000000, 1000000000, False, 0 )
CreateDecimal( -1, -1, -1, False, 0 )
CreateDecimal( -1, -1, -1, True, 0 )
CreateDecimal( -1, -1, -1, False, 15 )
CreateDecimal( -1, -1, -1, False, 28 )
CreateDecimal( -1, -1, -1, False, 29 )
CreateDecimal( Integer.MaxValue, 0, 0, False, 18 )
CreateDecimal( Integer.MaxValue, 0, 0, False, 28 )
CreateDecimal( Integer.MaxValue, 0, 0, True, 28 )
End Sub
End Module
' This example of the Decimal( Integer, Integer, Integer, Boolean, Byte )
' constructor generates the following output.
'
' Constructor Value or Exception
' ----------- ------------------
' Decimal( 0, 0, 0, False, 0 ) 0
' Decimal( 0, 0, 0, False, 27 ) 0
' Decimal( 0, 0, 0, True, 0 ) 0
' Decimal( 1000000000, 0, 0, False, 0 ) 1000000000
' Decimal( 0, 1000000000, 0, False, 0 ) 4294967296000000000
' Decimal( 0, 0, 1000000000, False, 0 ) 18446744073709551616000000000
' Decimal( 1000000000, 1000000000, 1000000000, False, 0 )
' 18446744078004518913000000000
' Decimal( -1, -1, -1, False, 0 ) 79228162514264337593543950335
' Decimal( -1, -1, -1, True, 0 ) -79228162514264337593543950335
' Decimal( -1, -1, -1, False, 15 ) 79228162514264.337593543950335
' Decimal( -1, -1, -1, False, 28 ) 7.9228162514264337593543950335
' Decimal( -1, -1, -1, False, 29 ) ArgumentOutOfRangeException
' Decimal( 2147483647, 0, 0, False, 18 ) 0.000000002147483647
' Decimal( 2147483647, 0, 0, False, 28 ) 0.0000000000000000002147483647
' Decimal( 2147483647, 0, 0, True, 28 ) -0.0000000000000000002147483647
En el ejemplo siguiente se usa el GetBits método para recuperar las partes de componente de una matriz. A continuación, usa esta matriz en la llamada al Decimal(Int32, Int32, Int32, Boolean, Byte) constructor para crear una instancia de un nuevo Decimal valor.
using System;
public class Example
{
public static void Main()
{
Decimal[] values = { 1234.96m, -1234.96m };
foreach (var value in values) {
int[] parts = Decimal.GetBits(value);
bool sign = (parts[3] & 0x80000000) != 0;
byte scale = (byte) ((parts[3] >> 16) & 0x7F);
Decimal newValue = new Decimal(parts[0], parts[1], parts[2], sign, scale);
Console.WriteLine("{0} --> {1}", value, newValue);
}
}
}
// The example displays the following output:
// 1234.96 --> 1234.96
// -1234.96 --> -1234.96
open System
let values = [ 1234.96m; -1234.96m ]
for value in values do
let parts = Decimal.GetBits value
let sign = (parts[3] &&& 0x80000000) <> 0
let scale = (parts[3] >>> 16) &&& 0x7F |> byte
let newValue = Decimal(parts[0], parts[1], parts[2], sign, scale)
printfn $"{value} --> {newValue}"
// The example displays the following output:
// 1234.96 --> 1234.96
// -1234.96 --> -1234.96
Module Example
Public Sub Main()
Dim values() As Decimal = { 1234.96d, -1234.96d }
For Each value In values
Dim parts() = Decimal.GetBits(value)
Dim sign As Boolean = (parts(3) And &h80000000) <> 0
Dim scale As Byte = CByte((parts(3) >> 16) And &H7F)
Dim newValue As New Decimal(parts(0), parts(1), parts(2), sign, scale)
Console.WriteLine("{0} --> {1}", value, newValue)
Next
End Sub
End Module
' The example displays the following output:
' 1234.96 --> 1234.96
' -1234.96 --> -1234.96
Comentarios
La representación binaria de un Decimal número consta de un signo de 1 bits, un número entero de 96 bits y un factor de escala utilizado para dividir el número entero y especificar qué parte de él es una fracción decimal. El factor de escalado es implícitamente el número 10 elevado a un exponente comprendido entre 0 y 28.
Se aplica a
Colaborar con nosotros en GitHub
El origen de este contenido se puede encontrar en GitHub, donde también puede crear y revisar problemas y solicitudes de incorporación de cambios. Para más información, consulte nuestra guía para colaboradores.
Comentarios
Próximamente: A lo largo de 2024 iremos eliminando gradualmente GitHub Issues como mecanismo de comentarios sobre el contenido y lo sustituiremos por un nuevo sistema de comentarios. Para más información, vea: https://aka.ms/ContentUserFeedback.
Enviar y ver comentarios de