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Strange things happen when i try to find the cube root of a number.

The following code returns me undefined. In cmd : -1.#IND

cout<<pow(( double )(20.0*(-3.2) + 30.0),( double )1/3)

While this one works perfectly fine. In cmd : 4.93242414866094

cout<<pow(( double )(20.0*4.5 + 30.0),( double )1/3)

From mathematical way it must work since we can have the cube root from a negative number. Pow is from Visual C++ 2010 math.h library. Any ideas?

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11 Answers 11

up vote 13 down vote accepted

pow(x, y) from <cmath> does NOT work if x is negative and y is non-integral.

This is from the C99 Standard, section


2 The pow functions compute x raised to the power y. A domain error occurs if x is finite and negative and y is finite and not an integer value. A domain error may occur if x is zero and y is less than or equal to zero.

But it is also mentioned most places where pow is discussed, like at opengroup

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i didn't knew this. since there is no n-th root function in cmath i've improvised. –  ilcredo Nov 24 '10 at 16:49

The power 1/3 is a special case. In general, non-integral powers of negative numbers are complex. It wouldn't be practical for pow to check for special cases like integer roots, and besides, 1/3 as a double is not exactly 1/3!

I don't know about the visual C++ pow, but my man page says under errors:

EDOM The argument x is negative and y is not an integral value. This would result in a complex number.

You'll have to use a more specialized cube root function if you want cube roots of negative numbers - or cut corners and take absolute value, then take cube root, then multiply the sign back on.

Note that depending on context, a negative number x to the 1/3 power is not necessarily the negative cube root you're expecting. It could just as easily be the first complex root, x^(1/3) * e^(pi*i/3). This is the convention mathematica uses; it's also reasonable to just say it's undefined.

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While (-1)^3 = -1, you can't simply take a rational power of a negative number and expect a real response. This is because there are other solutions to this rational exponent that are imaginary in nature.

Similarily, plot x^x. For x = -1/3, this should have a solution. However, this function is deemed undefined in R for x < 0.

Therefore, don't expect math.h to do magic that would make it inefficient, just change the signs yourself.

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Note that the url got mangled a bit. –  buddhabrot Nov 24 '10 at 16:35
you can correct the answer, then –  Luca Martini Nov 24 '10 at 16:37
well, it's a function which must have values both negative and positive. I'll put a if for this. –  ilcredo Nov 24 '10 at 16:42

Guess you gotta take the negative out and put it in afterwards. You can have a wrapper do this for you if you really want to.

function yourPow(double x, double y)
    if (x < 0)
        return -1.0 * pow(-1.0*x, y);
        return pow(x, y);
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Isn't this known as performing a cut along the line x<0? –  David Heffernan Nov 24 '10 at 16:38
This i was going to do. –  ilcredo Nov 24 '10 at 16:47
@DavidHeffernan, yes, it does, according to mathworld.wolfram.com/CubeRoot.html we have "However, extension of the cube root into the complex plane gives a branch cut along the negative real axis for the principal value of the cube root". –  uvts_cvs Sep 9 '13 at 16:59

pow( x, y ) is the same as (i.e. equivalent to) exp( y * log( x ) )

if log(x) is invalid then pow(x,y) is also.

Similarly you cannot perform 0 to the power of anything, although mathematically it should be 0.

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Don't cast to double by using (double), use a double numeric constant instead:

double thingToCubeRoot = -20.*3.2+30;
cout<< thingToCubeRoot/fabs(thingToCubeRoot) * pow( fabs(thingToCubeRoot), 1./3. );

Should do the trick!

Also: don't include <math.h> in C++ projects, but use <cmath> instead.

Alternatively, use pow from the <complex> header for the reasons stated by buddhabrot

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Er, double cast was fine, this fails too because it sends the same values to pow; @birryree has the answer –  David Heffernan Nov 24 '10 at 16:37
@David: recorrected code, missed a fabs –  rubenvb Nov 24 '10 at 16:39

I was looking for cubit root and found this thread and it occurs to me that the following code might work:

#include <cmath>
using namespace std;

function double nth-root(double x, double n){
    if (!(n%2) || x<0){
        throw FAILEXCEPTION(); // even root from negative is fail

    bool sign = (x >= 0);

    x = exp(log(abs(x))/n);

    return sign ? x : -x;
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It has been a while but (sign==true)?return x:return -x; seriously? Is this valid C/++? Why not go with return sign ? x : -x;? The same for x>=0?sign=true:sign=false; -> sign = (x >= 0);. –  Nobody Oct 10 '12 at 9:27
(sign==true)?return x:return -x; is a syntax error. Nobody's suggestions are cleaner and correct. –  Moberg Jun 6 '13 at 9:59
The focus of this thread is the algorithm and not c++. I offered a method that works and anybody should understand what I meant. You also understood it, didn't you? –  chaiy Jun 9 '13 at 19:31

I think you should not confuse exponentiation with the nth-root of a number. See the good old Wikipedia

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well there is no rt(x,3) in c++ –  ilcredo Nov 24 '10 at 16:44
@ilcredo Mine was a math advice –  Luca Martini Nov 24 '10 at 17:09

because the 1/3 will always return 0 as it will be considered as integer... try with 1.0/3.0... it is what i think but try and implement... and do not forget to declare variables containing 1.0 and 3.0 as double...

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C++11 has the cbrt function (see for example http://en.cppreference.com/w/cpp/numeric/math/cbrt) so you can write something like

#include <iostream>
#include <cmath>

int main(int argc, char* argv[])
   const double arg = 20.0*(-3.2) + 30.0;
   std::cout << cbrt(arg) << "\n";
   std::cout << cbrt(-arg) << "\n";
   return 0;

I do not have access to the C++ standard so I do not know how the negative argument is handled... a test on ideone http://ideone.com/bFlXYs seems to confirm that C++ (gcc-4.8.1) extends the cube root with this rule cbrt(x)=-cbrt(-x) when x<0; for this extension you can see http://mathworld.wolfram.com/CubeRoot.html

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Here's a little function I knocked up.

#define uniform() (rand()/(1.0 + RAND_MAX))

double CBRT(double Z)
    double guess = Z;
    double x, dx;
    int loopbreaker;

    x = guess * guess * guess;
    loopbreaker = 0;
    while (fabs(x - Z) > FLT_EPSILON)
        dx = 3 * guess*guess;
        if (fabs(dx) < DBL_EPSILON || loopbreaker > 53)
            guess += uniform() * 2 - 1.0;
            goto retry;
        guess -= (x - Z) / dx;
        x = guess*guess*guess;

    return guess;

It uses Newton-Raphson to find a cube root.

Sometime Newton -Raphson gets stuck, if the root is very close to 0 then the derivative can get large and it can oscillate. So I've clamped and forced it to restart if that happens. If you need more accuracy you can change the FLT_EPSILONs.

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