Decimal.Round 方法
定义
重要
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将值舍入到最接近的整数或指定的小数位数。
重载
| Round(Decimal, Int32, MidpointRounding) |
使用指定的舍入策略将小数点值舍入到指定的精度。 |
| Round(Decimal, MidpointRounding) |
使用指定的舍入策略将十进制值舍入为整数。 |
| Round(Decimal, Int32) |
将 Decimal 值舍入到指定的小数位数。 |
| Round(Decimal) |
将小数值舍入到最接近的整数。 |
Round(Decimal, Int32, MidpointRounding)
- Source:
- Decimal.cs
- Source:
- Decimal.cs
- Source:
- Decimal.cs
使用指定的舍入策略将小数点值舍入到指定的精度。
public:
static System::Decimal Round(System::Decimal d, int decimals, MidpointRounding mode);public:
static System::Decimal Round(System::Decimal d, int decimals, MidpointRounding mode) = System::Numerics::IFloatingPoint<System::Decimal>::Round;public static decimal Round (decimal d, int decimals, MidpointRounding mode);static member Round : decimal * int * MidpointRounding -> decimalPublic Shared Function Round (d As Decimal, decimals As Integer, mode As MidpointRounding) As Decimal参数
- d
- Decimal
要舍入的小数。
- decimals
- Int32
返回值中的有效小数位数(精度)。
- mode
- MidpointRounding
指定要使用的舍入策略的枚举值之一。
返回
d使用mode舍入策略舍入到的数字,其精度decimals为 。 如果 d 的精度小于 decimals,则原样返回 d。
实现
例外
decimals 小于 0 或大于 28。
mode 不是 MidpointRounding 值。
结果在 Decimal 对象范围之外。
示例
以下示例演示如何将 方法与 枚举一 Round(Decimal, Int32, MidpointRounding) 起使用 MidpointRounding 。
decimal result;
// Round a positive value using different strategies.
// The precision of the result is 1 decimal place.
result = Math.Round(3.45m, 1, MidpointRounding.ToEven);
Console.WriteLine($"{result} = Math.Round({3.45m}, 1, MidpointRounding.ToEven)");
result = Math.Round(3.45m, 1, MidpointRounding.AwayFromZero);
Console.WriteLine($"{result} = Math.Round({3.45m}, 1, MidpointRounding.AwayFromZero)");
result = Math.Round(3.47m, 1, MidpointRounding.ToZero);
Console.WriteLine($"{result} = Math.Round({3.47m}, 1, MidpointRounding.ToZero)\n");
// Round a negative value using different strategies.
// The precision of the result is 1 decimal place.
result = Math.Round(-3.45m, 1, MidpointRounding.ToEven);
Console.WriteLine($"{result} = Math.Round({-3.45m}, 1, MidpointRounding.ToEven)");
result = Math.Round(-3.45m, 1, MidpointRounding.AwayFromZero);
Console.WriteLine($"{result} = Math.Round({-3.45m}, 1, MidpointRounding.AwayFromZero)");
result = Math.Round(-3.47m, 1, MidpointRounding.ToZero);
Console.WriteLine($"{result} = Math.Round({-3.47m}, 1, MidpointRounding.ToZero)\n");
/*
This code example produces the following results:
3.4 = Math.Round(3.45, 1, MidpointRounding.ToEven)
3.5 = Math.Round(3.45, 1, MidpointRounding.AwayFromZero)
3.4 = Math.Round(3.47, 1, MidpointRounding.ToZero)
-3.4 = Math.Round(-3.45, 1, MidpointRounding.ToEven)
-3.5 = Math.Round(-3.45, 1, MidpointRounding.AwayFromZero)
-3.4 = Math.Round(-3.47, 1, MidpointRounding.ToZero)
*/
// Round a positive value using different strategies.
// The precision of the result is 1 decimal place.
let result = Math.Round(3.45m, 1, MidpointRounding.ToEven)
printfn $"{result} = Math.Round({3.45m}, 1, MidpointRounding.ToEven)"
let result = Math.Round(3.45m, 1, MidpointRounding.AwayFromZero)
printfn $"{result} = Math.Round({3.45m}, 1, MidpointRounding.AwayFromZero)"
let result = Math.Round(3.47m, 1, MidpointRounding.ToZero)
printfn $"{result} = Math.Round({3.47m}, 1, MidpointRounding.ToZero)\n"
// Round a negative value using different strategies.
// The precision of the result is 1 decimal place.
let result = Math.Round(-3.45m, 1, MidpointRounding.ToEven)
printfn $"{result} = Math.Round({-3.45m}, 1, MidpointRounding.ToEven)"
let result = Math.Round(-3.45m, 1, MidpointRounding.AwayFromZero)
printfn $"{result} = Math.Round({-3.45m}, 1, MidpointRounding.AwayFromZero)"
let result = Math.Round(-3.47m, 1, MidpointRounding.ToZero)
printfn $"{result} = Math.Round({-3.47m}, 1, MidpointRounding.ToZero)\n"
// This code example produces the following results:
// 3.4 = Math.Round(3.45, 1, MidpointRounding.ToEven)
// 3.5 = Math.Round(3.45, 1, MidpointRounding.AwayFromZero)
// 3.4 = Math.Round(3.47, 1, MidpointRounding.ToZero)
// -3.4 = Math.Round(-3.45, 1, MidpointRounding.ToEven)
// -3.5 = Math.Round(-3.45, 1, MidpointRounding.AwayFromZero)
// -3.4 = Math.Round(-3.47, 1, MidpointRounding.ToZero)
Dim result As Decimal = 0D
Dim posValue As Decimal = 3.45D
Dim negValue As Decimal = -3.45D
' Round a positive value using different strategies.
' The precision of the result is 1 decimal place.
result = Math.Round(posValue, 1, MidpointRounding.ToEven)
Console.WriteLine("{0,4} = Math.Round({1,5}, 1, MidpointRounding.ToEven)",
result, posValue)
result = Math.Round(posValue, 1, MidpointRounding.AwayFromZero)
Console.WriteLine("{0,4} = Math.Round({1,5}, 1, MidpointRounding.AwayFromZero)",
result, posValue)
result = Math.Round(posValue, 1, MidpointRounding.ToZero)
Console.WriteLine("{0,4} = Math.Round({1,5}, 1, MidpointRounding.ToZero)",
result, posValue)
Console.WriteLine()
' Round a negative value using different strategies.
' The precision of the result is 1 decimal place.
result = Math.Round(negValue, 1, MidpointRounding.ToEven)
Console.WriteLine("{0,4} = Math.Round({1,5}, 1, MidpointRounding.ToEven)",
result, negValue)
result = Math.Round(negValue, 1, MidpointRounding.AwayFromZero)
Console.WriteLine("{0,4} = Math.Round({1,5}, 1, MidpointRounding.AwayFromZero)",
result, negValue)
result = Math.Round(negValue, 1, MidpointRounding.ToZero)
Console.WriteLine("{0,4} = Math.Round({1,5}, 1, MidpointRounding.ToZero)",
result, negValue)
Console.WriteLine()
'This code example produces the following results:
'
' 3.4 = Math.Round(3.45, 1, MidpointRounding.ToEven)
' 3.5 = Math.Round(3.45, 1, MidpointRounding.AwayFromZero)
' 3.4 = Math.Round(3.45, 1, MidpointRounding.ToZero)
'
' -3.4 = Math.Round(-3.45, 1, MidpointRounding.ToEven)
' -3.5 = Math.Round(-3.45, 1, MidpointRounding.AwayFromZero)
' -3.4 = Math.Round(-3.45, 1, MidpointRounding.ToZero)
'
注解
参数 decimals 指定返回值中的有效小数位数,范围从 0 到 28。 如果 decimals 为零,则返回整数。
如果为 mode 参数指定 ToEven 或 AwayFromZero ,则这些舍入策略仅适用于中点值,即最小有效位数为 5 的值。
另请参阅
适用于
Round(Decimal, MidpointRounding)
- Source:
- Decimal.cs
- Source:
- Decimal.cs
- Source:
- Decimal.cs
使用指定的舍入策略将十进制值舍入为整数。
public:
static System::Decimal Round(System::Decimal d, MidpointRounding mode);public:
static System::Decimal Round(System::Decimal d, MidpointRounding mode) = System::Numerics::IFloatingPoint<System::Decimal>::Round;public static decimal Round (decimal d, MidpointRounding mode);static member Round : decimal * MidpointRounding -> decimalPublic Shared Function Round (d As Decimal, mode As MidpointRounding) As Decimal参数
- d
- Decimal
要舍入的小数。
- mode
- MidpointRounding
指定要使用的舍入策略的枚举值之一。
返回
使用舍入策略舍入到的mode整数d。
实现
例外
mode 不是 MidpointRounding 值。
结果在 Decimal 对象范围之外。
示例
以下示例显示 方法返回 Round(Decimal, MidpointRounding) 的值,这些值具有不同的 mode 参数。
Console.WriteLine($"{"Value",-10} {"Default",-10} {"ToEven",-10} {"AwayFromZero",-15} {"ToZero",-15}");
for (decimal value = 12.0m; value <= 13.0m; value += 0.1m)
Console.WriteLine($"{value,-10} {Math.Round(value),-10} " +
$"{Math.Round(value, MidpointRounding.ToEven),-10} " +
$"{Math.Round(value, MidpointRounding.AwayFromZero),-15} " +
$"{Math.Round(value, MidpointRounding.ToZero),-15}");
// The example displays the following output:
// Value Default ToEven AwayFromZero ToZero
// 12.0 12 12 12 12
// 12.1 12 12 12 12
// 12.2 12 12 12 12
// 12.3 12 12 12 12
// 12.4 12 12 12 12
// 12.5 12 12 13 12
// 12.6 13 13 13 12
// 12.7 13 13 13 12
// 12.8 13 13 13 12
// 12.9 13 13 13 12
// 13.0 13 13 13 13
printfn $"""{"Value",-10} {"Default",-10} {"ToEven",-10} {"AwayFromZero",-15} {"ToZero",-15}"""
for value in 12m .. 0.1m .. 13m do
printfn "%-10O %-10O %-10O %-15O %-15O"
value
(Math.Round value)
(Math.Round(value, MidpointRounding.ToEven))
(Math.Round(value, MidpointRounding.AwayFromZero))
(Math.Round(value, MidpointRounding.ToZero))
// The example displays the following output:
// Value Default ToEven AwayFromZero ToZero
// 12.0 12 12 12 12
// 12.1 12 12 12 12
// 12.2 12 12 12 12
// 12.3 12 12 12 12
// 12.4 12 12 12 12
// 12.5 12 12 13 12
// 12.6 13 13 13 12
// 12.7 13 13 13 12
// 12.8 13 13 13 12
// 12.9 13 13 13 12
// 13.0 13 13 13 13
Console.WriteLine("{0,-10} {1,-10} {2,-10} {3,-15} {4,-15}", "Value", "Default",
"ToEven", "AwayFromZero", "ToZero")
For value As Decimal = 12D To 13D Step 0.1D
Console.WriteLine("{0,-10} {1,-10} {2,-10} {3,-15} {4,-15}",
value, Math.Round(value),
Math.Round(value, MidpointRounding.ToEven),
Math.Round(value, MidpointRounding.AwayFromZero),
Math.Round(value, MidpointRounding.ToZero))
Next
' The example displays the following output:
' Value Default ToEven AwayFromZero ToZero
' 12 12 12 12 12
' 12.1 12 12 12 12
' 12.2 12 12 12 12
' 12.3 12 12 12 12
' 12.4 12 12 12 12
' 12.5 12 12 13 12
' 12.6 13 13 13 12
' 12.7 13 13 13 12
' 12.8 13 13 13 12
' 12.9 13 13 13 12
' 13.0 13 13 13 13
注解
如果为 mode 参数指定 ToEven 或 AwayFromZero ,则这些舍入策略仅适用于中点值,即最小有效位数为 5 的值。
另请参阅
适用于
Round(Decimal, Int32)
- Source:
- Decimal.cs
- Source:
- Decimal.cs
- Source:
- Decimal.cs
将 Decimal 值舍入到指定的小数位数。
public:
static System::Decimal Round(System::Decimal d, int decimals);public:
static System::Decimal Round(System::Decimal d, int decimals) = System::Numerics::IFloatingPoint<System::Decimal>::Round;public static decimal Round (decimal d, int decimals);static member Round : decimal * int -> decimalPublic Shared Function Round (d As Decimal, decimals As Integer) As Decimal参数
- d
- Decimal
要舍入的小数。
- decimals
- Int32
指定数字要舍入到的小数位数的值,范围从 0 到 28。
返回
等效于 d 舍入到 decimals 小数位数的十进制数。
实现
例外
decimals 不是一个介于 0 到 28 的值。
示例
以下示例使用 Round 方法将多个Decimal值舍入到指定数量的小数位数。
using System;
class Example12
{
public static void Main()
{
// Define a set of Decimal values.
decimal[] values = { 1.45m, 1.55m, 123.456789m, 123.456789m,
123.456789m, -123.456m,
new Decimal(1230000000, 0, 0, true, 7 ),
new Decimal(1230000000, 0, 0, true, 7 ),
-9999999999.9999999999m,
-9999999999.9999999999m };
// Define a set of integers to for decimals argument.
int[] decimals = { 1, 1, 4, 6, 8, 0, 3, 11, 9, 10};
Console.WriteLine("{0,26}{1,8}{2,26}",
"Argument", "Digits", "Result" );
Console.WriteLine("{0,26}{1,8}{2,26}",
"--------", "------", "------" );
for (int ctr = 0; ctr < values.Length; ctr++)
Console.WriteLine("{0,26}{1,8}{2,26}",
values[ctr], decimals[ctr],
Decimal.Round(values[ctr], decimals[ctr]));
}
}
// The example displays the following output:
// Argument Digits Result
// -------- ------ ------
// 1.45 1 1.4
// 1.55 1 1.6
// 123.456789 4 123.4568
// 123.456789 6 123.456789
// 123.456789 8 123.456789
// -123.456 0 -123
// -123.0000000 3 -123.000
// -123.0000000 11 -123.0000000
// -9999999999.9999999999 9 -10000000000.000000000
// -9999999999.9999999999 10 -9999999999.9999999999
open System
// Define a set of Decimal values.
let values =
[ 1.45m; 1.55m; 123.456789m; 123.456789m
123.456789m; -123.456m
Decimal(1230000000, 0, 0, true, 7uy)
Decimal(1230000000, 0, 0, true, 7uy)
-9999999999.9999999999m
-9999999999.9999999999m ]
// Define a set of integers to for decimals argument.
let decimals =
[ 1; 1; 4; 6; 8; 0; 3; 11; 9; 10 ]
printfn $"""{"Argument",26}{"Digits",8}{"Result",26}"""
printfn $"""{"--------",26}{"------",8}{"------",26}"""
for i = 0 to values.Length - 1 do
printfn $"{values[i],26}{decimals[i],8}{Decimal.Round(values[i], decimals[i]),26}"
// The example displays the following output:
// Argument Digits Result
// -------- ------ ------
// 1.45 1 1.4
// 1.55 1 1.6
// 123.456789 4 123.4568
// 123.456789 6 123.456789
// 123.456789 8 123.456789
// -123.456 0 -123
// -123.0000000 3 -123.000
// -123.0000000 11 -123.0000000
// -9999999999.9999999999 9 -10000000000.000000000
// -9999999999.9999999999 10 -9999999999.9999999999
Public Module Example
Public Sub Main()
' Define a set of Decimal values.
Dim values() As Decimal = { 1.45d, 1.55d, 123.456789d, 123.456789d,
123.456789d, -123.456d,
New Decimal(1230000000, 0, 0, true, 7 ),
New Decimal(1230000000, 0, 0, true, 7 ),
-9999999999.9999999999d,
-9999999999.9999999999d }
' Define a set of integers to for decimals argument.
Dim decimals() As Integer = { 1, 1, 4, 6, 8, 0, 3, 11, 9, 10}
Console.WriteLine("{0,26}{1,8}{2,26}",
"Argument", "Digits", "Result" )
Console.WriteLine("{0,26}{1,8}{2,26}",
"--------", "------", "------" )
For ctr As Integer = 0 To values.Length - 1
Console.WriteLine("{0,26}{1,8}{2,26}",
values(ctr), decimals(ctr),
Decimal.Round(values(ctr), decimals(ctr)))
Next
End Sub
End Module
' The example displays the following output:
' Argument Digits Result
' -------- ------ ------
' 1.45 1 1.4
' 1.55 1 1.6
' 123.456789 4 123.4568
' 123.456789 6 123.456789
' 123.456789 8 123.456789
' -123.456 0 -123
' -123.0000000 3 -123.000
' -123.0000000 11 -123.0000000
' -9999999999.9999999999 9 -10000000000.000000000
' -9999999999.9999999999 10 -9999999999.9999999999
注解
此方法等效于使用 mode 参数MidpointRounding.ToEven调用 Round(Decimal, Int32, MidpointRounding) 方法。 当 d 正好介于两个舍入值之间的一半时,结果是舍入值,该值在最右小数点位置具有偶数位数。 例如,当舍入为两位小数时,值 2.345 变成 2.34,而值 2.355 变成 2.36。 此过程称为 向偶数舍入或 银行家舍入。 它可以最大程度地减少在单个方向上持续舍入中点值而导致的舍入误差。
另请参阅
适用于
Round(Decimal)
- Source:
- Decimal.cs
- Source:
- Decimal.cs
- Source:
- Decimal.cs
将小数值舍入到最接近的整数。
public:
static System::Decimal Round(System::Decimal d);public:
static System::Decimal Round(System::Decimal d) = System::Numerics::IFloatingPoint<System::Decimal>::Round;public static decimal Round (decimal d);static member Round : decimal -> decimalPublic Shared Function Round (d As Decimal) As Decimal参数
- d
- Decimal
要舍入的小数。
返回
最接近 d 参数的整数。 如果 d 正好处于两个整数中间,其中一个整数为偶数,另一个整数为奇数,则返回偶数。
实现
例外
结果在 Decimal 值范围之外。
示例
以下示例将介于 100 和 102 之间的值范围 Decimal 舍入为最接近的整数。 由于 方法使用银行家舍入,因此 100.5 舍入到 100,101.5 舍入到 102。
using System;
public class Example
{
public static void Main()
{
for (decimal value = 100m; value <= 102m; value += .1m)
Console.WriteLine("{0} --> {1}", value, Decimal.Round(value));
}
}
// The example displays the following output:
// 100 --> 100
// 100.1 --> 100
// 100.2 --> 100
// 100.3 --> 100
// 100.4 --> 100
// 100.5 --> 100
// 100.6 --> 101
// 100.7 --> 101
// 100.8 --> 101
// 100.9 --> 101
// 101.0 --> 101
// 101.1 --> 101
// 101.2 --> 101
// 101.3 --> 101
// 101.4 --> 101
// 101.5 --> 102
// 101.6 --> 102
// 101.7 --> 102
// 101.8 --> 102
// 101.9 --> 102
// 102.0 --> 102
open System
for value in 100m .. 0.1m .. 102m do
printfn $"{value} --> {Decimal.Round value}"
// The example displays the following output:
// 100 --> 100
// 100.1 --> 100
// 100.2 --> 100
// 100.3 --> 100
// 100.4 --> 100
// 100.5 --> 100
// 100.6 --> 101
// 100.7 --> 101
// 100.8 --> 101
// 100.9 --> 101
// 101.0 --> 101
// 101.1 --> 101
// 101.2 --> 101
// 101.3 --> 101
// 101.4 --> 101
// 101.5 --> 102
// 101.6 --> 102
// 101.7 --> 102
// 101.8 --> 102
// 101.9 --> 102
// 102.0 --> 102
Module Example
Public Sub Main()
For value As Decimal = 100d To 102d Step .1d
Console.WriteLine("{0} --> {1}", value, Decimal.Round(value))
Next
End Sub
End Module
' The example displays the following output:
' 100 --> 100
' 100.1 --> 100
' 100.2 --> 100
' 100.3 --> 100
' 100.4 --> 100
' 100.5 --> 100
' 100.6 --> 101
' 100.7 --> 101
' 100.8 --> 101
' 100.9 --> 101
' 101.0 --> 101
' 101.1 --> 101
' 101.2 --> 101
' 101.3 --> 101
' 101.4 --> 101
' 101.5 --> 102
' 101.6 --> 102
' 101.7 --> 102
' 101.8 --> 102
' 101.9 --> 102
' 102.0 --> 102
注解
此方法的行为遵循 IEEE 标准 754 第 4 节。 这种舍入有时被称为 第二轮到偶 数或 银行家的舍入。 它可以最大程度地减少在单个方向上持续舍入中点值而导致的舍入误差。 它等效于使用 mode 参数MidpointRounding.ToEven调用 Round(Decimal, MidpointRounding) 方法。
另请参阅
适用于
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