# C versus wcalc: a precision problem?

Consider the following C code:

``````  int c=((0xa3>>6)&0x1f)|0xc0;
printf("%d\n",c);
``````

It correctly prints out 194 (`0xc2`). If I write the same thing in `wcalc`, the result is 195, or `0xc3`. Is this some sort of precision error? Is this expected behavior? `floor` and `ceiling` functions do not work... or, to be more specific, `floor` works for 0xa3, but not for, say `0xa1`, and vice versa.

Any help appreciated. Thanks.

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In effect, wcalc treats `x >> y` not as an integer bitshift operator (which simply drops shifted bits off the right hand side) but as floating-point division of x by 2^y. Hence:

``````Enter an expression to evaluate, q to quit, or ? for help:
-> 0xa3>>6
= 2.54688
``````

And this explains the difference relative to the C version, where `0xa3 >> 6` is simply 2.

-

Why are you asking instead of testing? Break it down. What do you get from the following?

``````0xa3>>6
(0xa3>>6)&0x1f
((0xa3>>6)&0x1f)|0xc0

Enter an expression to evaluate, q to quit, or ? for help:
-> ((0xa3>>6)&0x1f)|0xc0
= 195
-> 0xa3>>6
= 2.54688
-> (0xa3>>6)&0x1f
= 3
-> ((0xa3>>6)&0x1f)|0xc0
= 195
->
``````

See that line `"= 2.54688"`. Does that look right to you? By my calculations, `0xa3>>6` should give you 2 which, when `and`ed with `0x1f`, would still be 2.

If you try out the following, you'll see that `>>` is not giving integer results:

``````Enter an expression to evaluate, q to quit, or ? for help:
-> 0xa3
= 163
-> 0xa3>>1
= 81.5
-> 0xa3>>2
= 40.75
->
``````
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For what it's worth, wcalc 2.4 seems to do it 'correctly' - without the conversion to float and rounding. – Matt B. Sep 23 '09 at 15:32
Relax. I'd done the tests, and yes, I saw the decimal, but did not think it had a baring on the results, since they were all ints. My bad. – Dervin Thunk Sep 23 '09 at 15:32
I expected the 'correctly' that Matt is talking about, even if I got the decimal in one of the steps... you wouldn't have? – Dervin Thunk Sep 23 '09 at 15:33
No, I wouldn't have. The minute I saw a float I would have been suspicious. And the next step would have confirmed it (the one where it rounds 2.54688 to 3 when anding with 0x1f). That's why I said to break it down and gave you the walkthrough. – paxdiablo Sep 23 '09 at 16:01

I'm the author of wcalc; you must be using version 2.3.1 (which is almost a year out of date).

The cause of what you're seeing is that wcalc uses arbitrary-precision floating point numbers internally, from the mpfr library, and because of that, used to perform shifts as a division (and can thus handle things like 1.5>>6). Version 2.4 (which came out in October 2008) handles integer bit-shifts slightly differently, to produce C-like results (as you expect).

For what it's worth, an alternative command line calculator is bc (older, but more of a pain to use, and without as many features, in my not-unbiased opinion).

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Thanks, Kyle. Just apt-get installed it, so I will make sure I upgrade it asap. Great tool, though, and I'm happy I can 'fix' it to go on using it. – Dervin Thunk Sep 23 '09 at 18:57

This is an integer operation, there are no floating point precision issues involved. The correct answer is exact, and as you already know is being reported correctly by the example code. It sounds like a bug in "wcalc" (a tool I don't know) to me.

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Or, wcalc has a model that interprets '0xA3 >> 6' as '0xA3 / 64.0' and then goes on from there. It may be using the wrong tool for the job, rather than a bug in wcalc per se. – Jonathan Leffler Sep 23 '09 at 16:08