Math.Log 方法
定义
重要
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返回指定数字的对数。
重载
| Log(Double, Double) |
返回指定数字在使用指定底时的对数。 |
| Log(Double) |
返回指定数字的自然对数(底为 |
Log(Double, Double)
- Source:
- Math.cs
- Source:
- Math.cs
- Source:
- Math.cs
返回指定数字在使用指定底时的对数。
public:
static double Log(double a, double newBase);public static double Log (double a, double newBase);static member Log : double * double -> doublePublic Shared Function Log (a As Double, newBase As Double) As Double参数
- a
- Double
要查找其对数的数字。
- newBase
- Double
对数的底。
返回
下表中的值之一。 (+Infinity 表示 PositiveInfinity,-Infinity 表示 NegativeInfinity,NaN 表示 NaN。)
a | newBase | 返回值 |
|---|---|---|
a
> 0 | (0 <newBase< 1) -或- (newBase> 1) | lognewBase(a) |
a
< 0 | (任意值) | NaN |
| (任意值) |
newBase
< 0 | NaN |
a != 1 |
newBase = 0 | NaN |
a != 1 |
newBase = +Infinity | NaN |
a = NaN | (任意值) | NaN |
| (任意值) |
newBase = NaN | NaN |
| (任意值) |
newBase = 1 | NaN |
a = 0 | 0 <newBase< 1 | +Infinity |
a = 0 |
newBase
> 1 | -Infinity |
a = +Infinity | 0 <newBase< 1 | -Infinity |
a = +Infinity |
newBase
> 1 | +Infinity |
a = 1 |
newBase = 0 | 0 |
a = 1 |
newBase = +Infinity | 0 |
示例
以下示例使用 Log 来计算所选值的某些对数标识。
// Example for the Math::Log( double ) and Math::Log( double, double ) methods.
using namespace System;
// Evaluate logarithmic identities that are functions of two arguments.
void UseBaseAndArg( double argB, double argX )
{
// Evaluate log(B)[X] == 1 / log(X)[B].
Console::WriteLine( "\n Math::Log({1}, {0}) == {2:E16}"
"\n 1.0 / Math::Log({0}, {1}) == {3:E16}", argB, argX, Math::Log( argX, argB ), 1.0 / Math::Log( argB, argX ) );
// Evaluate log(B)[X] == ln[X] / ln[B].
Console::WriteLine( " Math::Log({1}) / Math::Log({0}) == {2:E16}", argB, argX, Math::Log( argX ) / Math::Log( argB ) );
// Evaluate log(B)[X] == log(B)[e] * ln[X].
Console::WriteLine( "Math::Log(Math::E, {0}) * Math::Log({1}) == {2:E16}", argB, argX, Math::Log( Math::E, argB ) * Math::Log( argX ) );
}
void main()
{
Console::WriteLine( "This example of Math::Log( double ) and "
"Math::Log( double, double )\n"
"generates the following output.\n" );
Console::WriteLine( "Evaluate these identities with "
"selected values for X and B (base):" );
Console::WriteLine( " log(B)[X] == 1 / log(X)[B]" );
Console::WriteLine( " log(B)[X] == ln[X] / ln[B]" );
Console::WriteLine( " log(B)[X] == log(B)[e] * ln[X]" );
UseBaseAndArg( 0.1, 1.2 );
UseBaseAndArg( 1.2, 4.9 );
UseBaseAndArg( 4.9, 9.9 );
UseBaseAndArg( 9.9, 0.1 );
}
/*
This example of Math::Log( double ) and Math::Log( double, double )
generates the following output.
Evaluate these identities with selected values for X and B (base):
log(B)[X] == 1 / log(X)[B]
log(B)[X] == ln[X] / ln[B]
log(B)[X] == log(B)[e] * ln[X]
Math::Log(1.2, 0.1) == -7.9181246047624818E-002
1.0 / Math::Log(0.1, 1.2) == -7.9181246047624818E-002
Math::Log(1.2) / Math::Log(0.1) == -7.9181246047624818E-002
Math::Log(Math::E, 0.1) * Math::Log(1.2) == -7.9181246047624804E-002
Math::Log(4.9, 1.2) == 8.7166610085093179E+000
1.0 / Math::Log(1.2, 4.9) == 8.7166610085093161E+000
Math::Log(4.9) / Math::Log(1.2) == 8.7166610085093179E+000
Math::Log(Math::E, 1.2) * Math::Log(4.9) == 8.7166610085093179E+000
Math::Log(9.9, 4.9) == 1.4425396251981288E+000
1.0 / Math::Log(4.9, 9.9) == 1.4425396251981288E+000
Math::Log(9.9) / Math::Log(4.9) == 1.4425396251981288E+000
Math::Log(Math::E, 4.9) * Math::Log(9.9) == 1.4425396251981288E+000
Math::Log(0.1, 9.9) == -1.0043839404494075E+000
1.0 / Math::Log(9.9, 0.1) == -1.0043839404494075E+000
Math::Log(0.1) / Math::Log(9.9) == -1.0043839404494075E+000
Math::Log(Math::E, 9.9) * Math::Log(0.1) == -1.0043839404494077E+000
*/
// Example for the Math.Log( double ) and Math.Log( double, double ) methods.
using System;
class LogDLogDD
{
public static void Main()
{
Console.WriteLine(
"This example of Math.Log( double ) and " +
"Math.Log( double, double )\n" +
"generates the following output.\n" );
Console.WriteLine(
"Evaluate these identities with " +
"selected values for X and B (base):" );
Console.WriteLine( " log(B)[X] == 1 / log(X)[B]" );
Console.WriteLine( " log(B)[X] == ln[X] / ln[B]" );
Console.WriteLine( " log(B)[X] == log(B)[e] * ln[X]" );
UseBaseAndArg(0.1, 1.2);
UseBaseAndArg(1.2, 4.9);
UseBaseAndArg(4.9, 9.9);
UseBaseAndArg(9.9, 0.1);
}
// Evaluate logarithmic identities that are functions of two arguments.
static void UseBaseAndArg(double argB, double argX)
{
// Evaluate log(B)[X] == 1 / log(X)[B].
Console.WriteLine(
"\n Math.Log({1}, {0}) == {2:E16}" +
"\n 1.0 / Math.Log({0}, {1}) == {3:E16}",
argB, argX, Math.Log(argX, argB),
1.0 / Math.Log(argB, argX) );
// Evaluate log(B)[X] == ln[X] / ln[B].
Console.WriteLine(
" Math.Log({1}) / Math.Log({0}) == {2:E16}",
argB, argX, Math.Log(argX) / Math.Log(argB) );
// Evaluate log(B)[X] == log(B)[e] * ln[X].
Console.WriteLine(
"Math.Log(Math.E, {0}) * Math.Log({1}) == {2:E16}",
argB, argX, Math.Log(Math.E, argB) * Math.Log(argX) );
}
}
/*
This example of Math.Log( double ) and Math.Log( double, double )
generates the following output.
Evaluate these identities with selected values for X and B (base):
log(B)[X] == 1 / log(X)[B]
log(B)[X] == ln[X] / ln[B]
log(B)[X] == log(B)[e] * ln[X]
Math.Log(1.2, 0.1) == -7.9181246047624818E-002
1.0 / Math.Log(0.1, 1.2) == -7.9181246047624818E-002
Math.Log(1.2) / Math.Log(0.1) == -7.9181246047624818E-002
Math.Log(Math.E, 0.1) * Math.Log(1.2) == -7.9181246047624804E-002
Math.Log(4.9, 1.2) == 8.7166610085093179E+000
1.0 / Math.Log(1.2, 4.9) == 8.7166610085093161E+000
Math.Log(4.9) / Math.Log(1.2) == 8.7166610085093179E+000
Math.Log(Math.E, 1.2) * Math.Log(4.9) == 8.7166610085093179E+000
Math.Log(9.9, 4.9) == 1.4425396251981288E+000
1.0 / Math.Log(4.9, 9.9) == 1.4425396251981288E+000
Math.Log(9.9) / Math.Log(4.9) == 1.4425396251981288E+000
Math.Log(Math.E, 4.9) * Math.Log(9.9) == 1.4425396251981288E+000
Math.Log(0.1, 9.9) == -1.0043839404494075E+000
1.0 / Math.Log(9.9, 0.1) == -1.0043839404494075E+000
Math.Log(0.1) / Math.Log(9.9) == -1.0043839404494075E+000
Math.Log(Math.E, 9.9) * Math.Log(0.1) == -1.0043839404494077E+000
*/
// Example for the Math.Log( double ) and Math.Log( double, double ) methods.
open System
// Evaluate logarithmic identities that are functions of two arguments.
let useBaseAndArg argB argX =
// Evaluate log(B)[X] == 1 / log(X)[B].
printfn $"""
Math.Log({argX}, {argB}) == {Math.Log(argX, argB):E16}
1.0 / Math.Log({argB}, {argX}) == {1. / Math.Log(argB, argX):E16}"""
// Evaluate log(B)[X] == ln[X] / ln[B].
printfn $" Math.Log({argX}) / Math.Log({argB}) == {Math.Log argX / Math.Log argB:E16}"
// Evaluate log(B)[X] == log(B)[e] * ln[X].
printfn $"Math.Log(Math.E, {argB}) * Math.Log({argX}) == {Math.Log(Math.E, argB) * Math.Log argX:E16}"
printfn
"""This example of Math.Log( double ) and Math.Log( double, double )
generates the following output.
printfn "Evaluate these identities with selected values for X and B (base):"""
printfn " log(B)[X] == 1 / log(X)[B]"
printfn " log(B)[X] == ln[X] / ln[B]"
printfn " log(B)[X] == log(B)[e] * ln[X]"
useBaseAndArg 0.1 1.2
useBaseAndArg 1.2 4.9
useBaseAndArg 4.9 9.9
useBaseAndArg 9.9 0.1
// This example of Math.Log( double ) and Math.Log( double, double )
// generates the following output.
//
// Evaluate these identities with selected values for X and B (base):
// log(B)[X] == 1 / log(X)[B]
// log(B)[X] == ln[X] / ln[B]
// log(B)[X] == log(B)[e] * ln[X]
//
// Math.Log(1.2, 0.1) == -7.9181246047624818E-002
// 1.0 / Math.Log(0.1, 1.2) == -7.9181246047624818E-002
// Math.Log(1.2) / Math.Log(0.1) == -7.9181246047624818E-002
// Math.Log(Math.E, 0.1) * Math.Log(1.2) == -7.9181246047624804E-002
//
// Math.Log(4.9, 1.2) == 8.7166610085093179E+000
// 1.0 / Math.Log(1.2, 4.9) == 8.7166610085093161E+000
// Math.Log(4.9) / Math.Log(1.2) == 8.7166610085093179E+000
// Math.Log(Math.E, 1.2) * Math.Log(4.9) == 8.7166610085093179E+000
//
// Math.Log(9.9, 4.9) == 1.4425396251981288E+000
// 1.0 / Math.Log(4.9, 9.9) == 1.4425396251981288E+000
// Math.Log(9.9) / Math.Log(4.9) == 1.4425396251981288E+000
// Math.Log(Math.E, 4.9) * Math.Log(9.9) == 1.4425396251981288E+000
//
// Math.Log(0.1, 9.9) == -1.0043839404494075E+000
// 1.0 / Math.Log(9.9, 0.1) == -1.0043839404494075E+000
// Math.Log(0.1) / Math.Log(9.9) == -1.0043839404494075E+000
// Math.Log(Math.E, 9.9) * Math.Log(0.1) == -1.0043839404494077E+000
' Example for the Math.Log( Double ) and Math.Log( Double, Double ) methods.
Module LogDLogDD
Sub Main()
Console.WriteLine( _
"This example of Math.Log( Double ) and " + _
"Math.Log( Double, Double )" & vbCrLf & _
"generates the following output." & vbCrLf)
Console.WriteLine( _
"Evaluate these identities with selected " & _
"values for X and B (base):")
Console.WriteLine(" log(B)[X] = 1 / log(X)[B]")
Console.WriteLine(" log(B)[X] = ln[X] / ln[B]")
Console.WriteLine(" log(B)[X] = log(B)[e] * ln[X]")
UseBaseAndArg(0.1, 1.2)
UseBaseAndArg(1.2, 4.9)
UseBaseAndArg(4.9, 9.9)
UseBaseAndArg(9.9, 0.1)
End Sub
' Evaluate logarithmic identities that are functions of two arguments.
Sub UseBaseAndArg(argB As Double, argX As Double)
' Evaluate log(B)[X] = 1 / log(X)[B].
Console.WriteLine( _
vbCrLf & " Math.Log({1}, {0}) = {2:E16}" + _
vbCrLf & " 1.0 / Math.Log({0}, {1}) = {3:E16}", _
argB, argX, Math.Log(argX, argB), _
1.0 / Math.Log(argB, argX))
' Evaluate log(B)[X] = ln[X] / ln[B].
Console.WriteLine( _
" Math.Log({1}) / Math.Log({0}) = {2:E16}", _
argB, argX, Math.Log(argX) / Math.Log(argB))
' Evaluate log(B)[X] = log(B)[e] * ln[X].
Console.WriteLine( _
"Math.Log(Math.E, {0}) * Math.Log({1}) = {2:E16}", _
argB, argX, Math.Log(Math.E, argB) * Math.Log(argX))
End Sub
End Module 'LogDLogDD
' This example of Math.Log( Double ) and Math.Log( Double, Double )
' generates the following output.
'
' Evaluate these identities with selected values for X and B (base):
' log(B)[X] = 1 / log(X)[B]
' log(B)[X] = ln[X] / ln[B]
' log(B)[X] = log(B)[e] * ln[X]
'
' Math.Log(1.2, 0.1) = -7.9181246047624818E-002
' 1.0 / Math.Log(0.1, 1.2) = -7.9181246047624818E-002
' Math.Log(1.2) / Math.Log(0.1) = -7.9181246047624818E-002
' Math.Log(Math.E, 0.1) * Math.Log(1.2) = -7.9181246047624804E-002
'
' Math.Log(4.9, 1.2) = 8.7166610085093179E+000
' 1.0 / Math.Log(1.2, 4.9) = 8.7166610085093161E+000
' Math.Log(4.9) / Math.Log(1.2) = 8.7166610085093179E+000
' Math.Log(Math.E, 1.2) * Math.Log(4.9) = 8.7166610085093179E+000
'
' Math.Log(9.9, 4.9) = 1.4425396251981288E+000
' 1.0 / Math.Log(4.9, 9.9) = 1.4425396251981288E+000
' Math.Log(9.9) / Math.Log(4.9) = 1.4425396251981288E+000
' Math.Log(Math.E, 4.9) * Math.Log(9.9) = 1.4425396251981288E+000
'
' Math.Log(0.1, 9.9) = -1.0043839404494075E+000
' 1.0 / Math.Log(9.9, 0.1) = -1.0043839404494075E+000
' Math.Log(0.1) / Math.Log(9.9) = -1.0043839404494075E+000
' Math.Log(Math.E, 9.9) * Math.Log(0.1) = -1.0043839404494077E+000
注解
此方法调用基础 C 运行时,不同的操作系统或体系结构的确切结果或有效输入范围可能有所不同。
适用于
Log(Double)
- Source:
- Math.cs
- Source:
- Math.cs
- Source:
- Math.cs
返回指定数字的自然对数(底为 e)。
public:
static double Log(double d);public static double Log (double d);static member Log : double -> doublePublic Shared Function Log (d As Double) As Double参数
- d
- Double
要查找其对数的数字。
返回
下表中的值之一。
d 参数 | 返回值 |
|---|---|
| 正 |
d 的自然对数,即 ln d 或 log e d |
| 零 | NegativeInfinity |
| 负数 | NaN |
| 等于 NaN | NaN |
| 等于 PositiveInfinity | PositiveInfinity |
示例
下面的示例演示 Log 了 方法。
using System;
public class Example
{
public static void Main()
{
Console.WriteLine(" Evaluate this identity with selected values for X:");
Console.WriteLine(" ln(x) = 1 / log[X](B)");
Console.WriteLine();
double[] XArgs = { 1.2, 4.9, 9.9, 0.1 };
foreach (double argX in XArgs)
{
// Find natural log of argX.
Console.WriteLine(" Math.Log({0}) = {1:E16}",
argX, Math.Log(argX));
// Evaluate 1 / log[X](e).
Console.WriteLine(" 1.0 / Math.Log(e, {0}) = {1:E16}",
argX, 1.0 / Math.Log(Math.E, argX));
Console.WriteLine();
}
}
}
// This example displays the following output:
// Evaluate this identity with selected values for X:
// ln(x) = 1 / log[X](B)
//
// Math.Log(1.2) = 1.8232155679395459E-001
// 1.0 / Math.Log(e, 1.2) = 1.8232155679395459E-001
//
// Math.Log(4.9) = 1.5892352051165810E+000
// 1.0 / Math.Log(e, 4.9) = 1.5892352051165810E+000
//
// Math.Log(9.9) = 2.2925347571405443E+000
// 1.0 / Math.Log(e, 9.9) = 2.2925347571405443E+000
//
// Math.Log(0.1) = -2.3025850929940455E+000
// 1.0 / Math.Log(e, 0.1) = -2.3025850929940455E+000
open System
printfn " Evaluate this identity with selected values for X:"
printfn " ln(x) = 1 / log[X](B)\n"
let XArgs = [| 1.2; 4.9; 9.9; 0.1 |]
for argX in XArgs do
// Find natural log of argX.
// The F# log function may be used instead
printfn $" Math.Log({argX}) = {Math.Log argX:E16}"
// Evaluate 1 / log[X](e).
printfn $" 1.0 / Math.Log(e, {argX}) = {1. / Math.Log(Math.E, argX):E16}\n"
// This example displays the following output:
// Evaluate this identity with selected values for X:
// ln(x) = 1 / log[X](B)
//
// Math.Log(1.2) = 1.8232155679395459E-001
// 1.0 / Math.Log(e, 1.2) = 1.8232155679395459E-001
//
// Math.Log(4.9) = 1.5892352051165810E+000
// 1.0 / Math.Log(e, 4.9) = 1.5892352051165810E+000
//
// Math.Log(9.9) = 2.2925347571405443E+000
// 1.0 / Math.Log(e, 9.9) = 2.2925347571405443E+000
//
// Math.Log(0.1) = -2.3025850929940455E+000
// 1.0 / Math.Log(e, 0.1) = -2.3025850929940455E+000
Module Example
Sub Main()
Console.WriteLine( _
" Evaluate this identity with selected values for X:")
Console.WriteLine(" ln(x) = 1 / log[X](B)")
Console.WriteLine()
Dim XArgs() As Double = { 1.2, 4.9, 9.9, 0.1 }
For Each argX As Double In XArgs
' Find natural log of argX.
Console.WriteLine(" Math.Log({0}) = {1:E16}", _
argX, Math.Log(argX))
' Evaluate 1 / log[X](e).
Console.WriteLine(" 1.0 / Math.Log(e, {0}) = {1:E16}", _
argX, 1.0 / Math.Log(Math.E, argX))
Console.WriteLine()
Next
End Sub
End Module
' This example displays the following output:
' Evaluate this identity with selected values for X:
' ln(x) = 1 / log[X](B)
'
' Math.Log(1.2) = 1.8232155679395459E-001
' 1.0 / Math.Log(e, 1.2) = 1.8232155679395459E-001
'
' Math.Log(4.9) = 1.5892352051165810E+000
' 1.0 / Math.Log(e, 4.9) = 1.5892352051165810E+000
'
' Math.Log(9.9) = 2.2925347571405443E+000
' 1.0 / Math.Log(e, 9.9) = 2.2925347571405443E+000
'
' Math.Log(0.1) = -2.3025850929940455E+000
' 1.0 / Math.Log(e, 0.1) = -2.3025850929940455E+000
注解
参数 d 指定为基数 10。
此方法调用基础 C 运行时,不同的操作系统或体系结构的确切结果或有效输入范围可能有所不同。
此方法调用基础 C 运行时,不同的操作系统或体系结构的确切结果或有效输入范围可能有所不同。
