# Using fractional exponent with bc

bc, a linux command-line calculator, is proficient enough to calculate

``````3^2
9
``````

Even negative exponent doesn't confuse it:

``````3^-2
0.11111
``````

Yet when it fails when it enounters

``````9^0.5
Runtime warning (func=(main), adr=8): non-zero scale in exponent
``````

How could it be that bc can't handle this?

And what does the error message mean?

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The second argument of expr ^ expr must be an integer (scale=0). But 0.5 has scale = 1. –  hendrik Aug 12 '13 at 12:30

Yes, I've read http://www.linuxquestions.org/questions/programming-9/bc-and-exponents-containing-decimals-and-fractions-755260/ and the solution

``````e(0.5*l(9))
2.99999999999999999998
``````

given there.

And yes, it is no good because of precision lost and

A calculator is supposed to solve expressions. You are not supposed to make life easier for the calculator, it is supposed to be the other way around...

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bc is very basic and more complex functions not provided by the "math extension" must be implemented in the language itself: it has all you need to do it; in particular "power" is a common example even on wikipedia.

But you may be also interested in reading for example this answer here on SO.

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I would agree with this had not bc have 'power' function already in there. It can calculate `3^2` and even `3^-2` flawlessly. Yet it answers with undecipherable error message when as simple a function as a square root is requested. –  Antony Hatchkins Apr 23 '13 at 9:24
it has no the power function: it has the integer power function. The error when I ask for `9^0.11` in the bc I can use now is "exp not an integer" which makes it clearer. But "non-zero scale" means exactly the same, since you use `scale=0` to say bc you want "integer precision" (no decimal numbers). –  ShinTakezou Apr 23 '13 at 9:40
"it has no the power function: it has the integer power function" makes no sense. Every single other function in bc accepts fractional arguments. Why make an exception for such a widely used function? –  Antony Hatchkins Apr 23 '13 at 9:49
The other funcs you are talking about can be considered special (if you omit the `-l` switch you won't have them). About ''power'', the "basic" is that X^N is X repeated N times, so N must be integer for this interpretation to work. Extending it to real exponents is not trivial. Why `-l` does not "enhance" the `^`? Or there's no a pow func altogether with sqrt, s, c, ...? These are all other kind of question. en.wikipedia.org/wiki/Exponentiation –  ShinTakezou Apr 23 '13 at 10:02
Yes, this makes sense. But the meaning of 'basic' is given from the point of view of the bc author, not from the point of view of bc user. I'm not really sure who needs such distinction except for the author. In fact I don't understand the sense of `-l` altogether. Some backwards compatibility issues? Is there any use case for bc without `-l`? –  Antony Hatchkins Apr 23 '13 at 10:14

This feature was designed to encourage users to write their own functions. Making it a unique calculator that requires a user-defined function to calculate a square root.

It doesn't really bother me to write a function for tangents or cotangents as it looks pretty straightforward given `s(x)` and `c(x)`. But in my opinion calculating a square root through a user-defined function is a bit too much.

Why anyone uses bc if there's python out there? Speed?

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