POWER/de
Inhaltsverzeichnis |
= (**COPIED FROM ENGLISH PAGE**) === Action
Returns the power of a single or double variable and its argument
Syntax
var = POWER( source, raise )
Remarks
|
Var |
A numeric variable that is assigned with the power of variable source ^ raise. |
|
Source |
The single or double variable to get the power of. |
The POWER function works for positive floating point variables only.
When you use a ^ b , the sign will be preserved.
While Excel does not allow raising a negative single, QB does allow it.
The Power functions uses less code compared with the code that is generated when you use ^ for floating point values.
It is important that you use single variables for both single and raise. Constants are not accepted.
In version 1.11.9.2 the power function is improved so that it returns the same result as Excel. Previously it returned the same number as QB/VB. For example : -2 ^ 2 would be returned as -4, but -2 ^ 3 would be returned as -8 which is wring since -2 ^ 3 = -2 x -2 x -2=4 x -2 = -8. Minus times a minutes makes a positive number. So it depends on the sign of the base and if the number of raise if even or odd.
The exception handling was also improved.
| Base |
Raise |
Result |
|
0 |
0 |
NAN |
|
NAN |
x |
NAN |
|
x |
NAN |
NAN |
|
Infinity |
x |
NAN |
|
x |
Infinity |
NAN |
|
0 |
x<0 |
Infinity |
|
0 |
x>0 |
0 |
|
x |
0 |
1 |
|
x<0 |
x<>int(x) |
NAN |
See Also
Example
Example for Double Exceptions
$regfile = "m128def.dat" $crystal = 4000000 Dim D1 As Double , D2 As Double , D3 As Double Dim dInf as Double, dNAN as Double d1 = -1: dNAN = log(d1) d1 = 1: d2 = 0: dInf = D1 / D2 Print "POWER() - Test" Print "==============" D1 = 0: D2 = 0: GoSub ShowPowerTest D1 = dNAN: D2 = 3: GoSub ShowPowerTest D1 = 3: D2 = dNAN: GoSub ShowPowerTest D1 = dInf: D2 = 4: GoSub ShowPowerTest D1 = 4: D2 = dInf: GoSub ShowPowerTest D1 = 0: D2 = -2: GoSub ShowPowerTest D1 = 0: D2 = 3: GoSub ShowPowerTest D1 = 5: D2 = 0: GoSub ShowPowerTest D1 = -2: D2 = -3.5: GoSub ShowPowerTest D1 = -2: D2 = 3.5: GoSub ShowPowerTest D1 = -2: D2 = -3: GoSub ShowPowerTest D1 = -2: D2 = -4: GoSub ShowPowerTest D1 = -2: D2 = -5: GoSub ShowPowerTest D1 = -2: D2 = 3: GoSub ShowPowerTest D1 = -2: D2 = 4: GoSub ShowPowerTest D1 = -2: D2 = 5: GoSub ShowPowerTest end ShowPowerTest: D3 = POWER(D1, D2) Print "POWER( " ; D1 ; " , " ; D2 ; ") = " ; D3 Return --------------------------Simulator Output ------------------- POWER() - Test ============== POWER( 0 , 0) = NAN POWER( NAN , 3) = NAN POWER( 3 , NAN) = NAN POWER( Infinity , 4) = NAN POWER( 4 , Infinity) = NAN POWER( 0 , -2) = Infinity POWER( 0 , 3) = 0 POWER( 5 , 0) = 1 POWER( -2 , -3.5) = NAN POWER( -2 , 3.5) = NAN POWER( -2 , -3) = -125E-3 POWER( -2 , -4) = 62.5E-3 POWER( -2 , -5) = -31.25E-3 POWER( -2 , 3) = -8 POWER( -2 , 4) = 16 POWER( -2 , 5) = -32
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