Decimal Konstruktory
Definicja
Ważne
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Inicjuje nowe wystąpienie klasy Decimal.
Przeciążenia
Decimal(Double) |
Inicjuje nowe wystąpienie Decimal wartości określonej liczby zmiennoprzecinkowej o podwójnej precyzji. |
Decimal(Int32) |
Inicjuje nowe wystąpienie Decimal wartości określonej 32-bitowej liczby całkowitej ze znakiem. |
Decimal(Int32[]) |
Inicjuje nowe wystąpienie Decimal wartości dziesiętnej reprezentowanej w pliku binarnym i zawarte w określonej tablicy. |
Decimal(Int64) |
Inicjuje nowe wystąpienie Decimal wartości określonej 64-bitowej liczby całkowitej ze znakiem. |
Decimal(ReadOnlySpan<Int32>) |
Inicjuje nowe wystąpienie Decimal wartości dziesiętnej reprezentowanej w pliku binarnym i zawarte w określonym przedziale. |
Decimal(Single) |
Inicjuje nowe wystąpienie Decimal wartości określonej liczby zmiennoprzecinkowej o pojedynczej precyzji. |
Decimal(UInt32) |
Inicjuje nowe wystąpienie Decimal wartości określonej 32-bitowej liczby całkowitej bez znaku. |
Decimal(UInt64) |
Inicjuje nowe wystąpienie Decimal wartości określonej 64-bitowej liczby całkowitej bez znaku. |
Decimal(Int32, Int32, Int32, Boolean, Byte) |
Inicjuje nowe wystąpienie parametrów Decimal określających składniki wystąpienia. |
Decimal(Double)
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
Inicjuje nowe wystąpienie Decimal wartości określonej liczby zmiennoprzecinkowej o podwójnej precyzji.
public:
Decimal(double value);
public Decimal (double value);
new decimal : double -> decimal
Public Sub New (value As Double)
Parametry
Wyjątki
value
parametr jest większy niż Decimal.MaxValue lub mniejszy niż Decimal.MinValue.
-lub-
value
to NaN, PositiveInfinitylub NegativeInfinity.
Przykłady
Poniższy przykład kodu tworzy kilka Decimal
liczb przy użyciu przeciążenia konstruktora, które inicjuje Decimal
strukturę z wartością Double .
// 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
Uwagi
Ten konstruktor zaokrągla value
do 15 cyfr znaczących przy użyciu zaokrąglania do najbliższej. Odbywa się to nawet wtedy, gdy liczba ma więcej niż 15 cyfr, a mniej znaczących cyfr to zero.
Dotyczy
Decimal(Int32)
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
Inicjuje nowe wystąpienie Decimal wartości określonej 32-bitowej liczby całkowitej ze znakiem.
public:
Decimal(int value);
public Decimal (int value);
new decimal : int -> decimal
Public Sub New (value As Integer)
Parametry
Przykłady
Poniższy przykład kodu tworzy kilka Decimal
liczb przy użyciu przeciążenia konstruktora, które inicjuje Decimal
strukturę z wartością Int32 .
// 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
Dotyczy
Decimal(Int32[])
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
Inicjuje nowe wystąpienie Decimal wartości dziesiętnej reprezentowanej w pliku binarnym i zawarte w określonej tablicy.
public:
Decimal(cli::array <int> ^ bits);
public Decimal (int[] bits);
new decimal : int[] -> decimal
Public Sub New (bits As Integer())
Parametry
- bits
- Int32[]
Tablica 32-bitowych liczb całkowitych ze znakiem zawierająca reprezentację wartości dziesiętnej.
Wyjątki
bits
to null
.
Długość nie bits
wynosi 4.
-lub-
Reprezentacja wartości dziesiętnej w pliku bits
jest nieprawidłowa.
Przykłady
Poniższy przykład kodu tworzy kilka Decimal
liczb przy użyciu przeciążenia konstruktora, które inicjuje Decimal
strukturę z tablicą czterech Int32 wartości.
// 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
Uwagi
Reprezentacja Decimal binarna liczby składa się z znaku 1-bitowego, liczby całkowitej 96-bitowej oraz współczynnika skalowania używanego do dzielenia liczby całkowitej i określania, jaka część jest ułamkiem dziesiętnym. Współczynnik skalowania jest niejawnie liczbą 10 podniesioną do wykładnika z zakresu od 0 do 28.
bits
to czteroelementowa tablica z 32-bitowymi liczbami całkowitymi ze znakiem.
bits
[0], bits
[1] i bits
[2] zawierają małe, środkowe i wysokie 32 bity liczby całkowitej 96-bitowej.
bits
[3] zawiera współczynnik skali i znak i składa się z następujących części:
Bity od 0 do 15, dolne słowo, są nieużywane i muszą być zerowe.
Bity od 16 do 23 muszą zawierać wykładnik z zakresu od 0 do 28, co wskazuje moc 10, aby podzielić liczbę całkowitą.
Bity od 24 do 30 są nieużywane i muszą mieć wartość zero.
Bit 31 zawiera znak; 0 oznacza dodatnie, a 1 oznacza ujemne.
Wartość liczbowa może mieć kilka możliwych reprezentacji binarnych; wszystkie są równie prawidłowe i numerycznie równoważne. Należy pamiętać, że reprezentacja bitów rozróżnia ujemne i dodatnie zero. Te wartości są traktowane jako równe we wszystkich operacjach.
Zobacz też
Dotyczy
Decimal(Int64)
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
Inicjuje nowe wystąpienie Decimal wartości określonej 64-bitowej liczby całkowitej ze znakiem.
public:
Decimal(long value);
public Decimal (long value);
new decimal : int64 -> decimal
Public Sub New (value As Long)
Parametry
Przykłady
Poniższy przykład kodu tworzy kilka Decimal
liczb przy użyciu przeciążenia konstruktora, które inicjuje Decimal
strukturę z wartością Int64 .
// 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
Dotyczy
Decimal(ReadOnlySpan<Int32>)
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
Inicjuje nowe wystąpienie Decimal wartości dziesiętnej reprezentowanej w pliku binarnym i zawarte w określonym przedziale.
public:
Decimal(ReadOnlySpan<int> bits);
public Decimal (ReadOnlySpan<int> bits);
new decimal : ReadOnlySpan<int> -> decimal
Public Sub New (bits As ReadOnlySpan(Of Integer))
Parametry
- bits
- ReadOnlySpan<Int32>
Zakres czterech Int32 wartości, który zawiera binarną reprezentację wartości dziesiętnej.
Wyjątki
Długość wartości bits
nie wynosi 4 lub reprezentacja wartości dziesiętnej w bits
obiekcie jest nieprawidłowa.
Dotyczy
Decimal(Single)
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
Inicjuje nowe wystąpienie Decimal wartości określonej liczby zmiennoprzecinkowej o pojedynczej precyzji.
public:
Decimal(float value);
public Decimal (float value);
new decimal : single -> decimal
Public Sub New (value As Single)
Parametry
Wyjątki
value
parametr jest większy niż Decimal.MaxValue lub mniejszy niż Decimal.MinValue.
-lub-
value
to NaN, PositiveInfinitylub NegativeInfinity.
Przykłady
Poniższy przykład kodu tworzy kilka Decimal
liczb przy użyciu przeciążenia konstruktora, które inicjuje Decimal
strukturę z wartością Single .
// 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
Uwagi
Ten konstruktor zaokrągla value
do 7 cyfr znaczących przy użyciu zaokrąglania do najbliższego. Odbywa się to nawet wtedy, gdy liczba ma więcej niż 7 cyfr, a mniej znaczące cyfry to zero.
Dotyczy
Decimal(UInt32)
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
Ważne
Ten interfejs API nie jest zgodny ze specyfikacją CLS.
Inicjuje nowe wystąpienie Decimal wartości określonej 32-bitowej liczby całkowitej bez znaku.
public:
Decimal(System::UInt32 value);
[System.CLSCompliant(false)]
public Decimal (uint value);
[<System.CLSCompliant(false)>]
new decimal : uint32 -> decimal
Public Sub New (value As UInteger)
Parametry
- Atrybuty
Przykłady
Poniższy przykład kodu tworzy kilka Decimal
liczb przy użyciu przeciążenia konstruktora, które inicjuje Decimal
strukturę z wartością UInt32 .
// 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
Dotyczy
Decimal(UInt64)
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
Ważne
Ten interfejs API nie jest zgodny ze specyfikacją CLS.
Inicjuje nowe wystąpienie Decimal wartości określonej 64-bitowej liczby całkowitej bez znaku.
public:
Decimal(System::UInt64 value);
[System.CLSCompliant(false)]
public Decimal (ulong value);
[<System.CLSCompliant(false)>]
new decimal : uint64 -> decimal
Public Sub New (value As ULong)
Parametry
- Atrybuty
Przykłady
Poniższy przykład kodu tworzy kilka Decimal
liczb przy użyciu przeciążenia konstruktora, które inicjuje Decimal
strukturę z wartością UInt64 .
// 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
Dotyczy
Decimal(Int32, Int32, Int32, Boolean, Byte)
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
- Źródło:
- Decimal.cs
Inicjuje nowe wystąpienie parametrów Decimal określających składniki wystąpienia.
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 -> decimal
Public Sub New (lo As Integer, mid As Integer, hi As Integer, isNegative As Boolean, scale As Byte)
Parametry
- lo
- Int32
Niskie 32 bity 96-bitowej liczby całkowitej.
- mid
- Int32
Środkowe 32 bity 96-bitowej liczby całkowitej.
- hi
- Int32
Wysokie 32 bity 96-bitowej liczby całkowitej.
- isNegative
- Boolean
true
wskazać liczbę ujemną; false
aby wskazać liczbę dodatnią.
- scale
- Byte
Moc 10 od 0 do 28.
Wyjątki
scale
wartość jest większa niż 28.
Przykłady
Poniższy przykład kodu tworzy kilka Decimal
liczb przy użyciu przeciążenia konstruktora, które inicjuje Decimal
strukturę z trzema Int32 wyrazami wartości, znakiem Boolean i współczynnikiem skalowania Byte .
// 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
W poniższym przykładzie użyto GetBits metody , aby pobrać części składowe tablicy. Następnie używa tej tablicy w wywołaniu do konstruktora Decimal(Int32, Int32, Int32, Boolean, Byte) , aby utworzyć wystąpienie nowej Decimal wartości.
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
Uwagi
Reprezentacja Decimal binarna liczby składa się z znaku 1-bitowego, liczby całkowitej 96-bitowej oraz współczynnika skalowania używanego do dzielenia liczby całkowitej i określania, jaka część jest ułamkiem dziesiętnym. Współczynnik skalowania jest niejawnie liczbą 10 podniesioną do wykładnika z zakresu od 0 do 28.