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Does anyone know why this happens and if it can be fixed. I'm comparing results from C and PHP, but PHP is giving me different results.

I can supply some code if needed but has anyone experienced this before?


PHP code

$tempnum = 1.0e - 5 * -44954; // substr($line1,53,6);
$bstar = $tempnum / pow(10.0, 3);

$bstar gives me -0.00044954 in PHP but it should be -0.000450

C code

double tempnum = 1.0e - 5 * -44954;
double bstar = tempnum / pow(10.0, 3);

printf bstar gives me -0.000450

Thanks for your responses so far, but how does PHP come to this conclusion...

$twopi =        6.28318530717958623;    /* 2*Pi  */
$xmnpda=        1440; //1.44E3  ;       /* Minutes per day */

$temp = (($twopi/$xmnpda)/$xmnpda);

$xndt2o = -0.000603;
$xndt2o = $xndt2o * $temp;

echo $xndt2o gives me -1.8256568188E-9 in PHP but in C it gives me -0.000000

I don't know what all that is about in PHP.


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You should supply some code. –  erjiang Jan 23 '11 at 23:36
possible duplicate of The accuracy of PHP float calculate and hundreds of other variants on this question –  Mark Baker Jan 23 '11 at 23:37
You should supply code right now. And tell us how they differ, what the results are and what you expect. (Also: PHP is implemented in C, it propably uses C doubles under the hood.) –  delnan Jan 23 '11 at 23:37
We also need to see the equivalent C. –  Oliver Charlesworth Jan 23 '11 at 23:43
I have supplied the code i am using. –  user586028 Jan 23 '11 at 23:45

3 Answers 3

Limited-precision floating-point formats are almost always slightly inaccurate, and these inaccuracies can compound each other and manifest in unexpected ways. Usually, the results are not so much wrong, but the only problem is that you did not expect the inaccuracies. For a general explanation, read The Floating-Point Guide.

Perhaps most relevant to your question: sequences of calculations should never be expected to yield exactly the same result across platforms, as there are many factors that can lead to different actual primitive operations being performed. This paper explains it in great detail..

A much simpler explanation for the difference you're seeing might be that the PHP code is somehow only using a 32 bit float somewhere, because the difference is showing up around the 6th/7th decimal, right where the accuracy of 32bit floats ends.

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but the calculations are the same in PHP and C, PHP was written in C so I would expect the same results. –  user586028 Jan 24 '11 at 0:18
@Carl: well, your expectations are wrong. That happens a lot with floating-point arithmetic. Do take a look at the paper I linked to. –  Michael Borgwardt Jan 24 '11 at 0:20
My rule of thumb: Never trust floating point calculations with your life ;) All floating point arithmetic are inaccurate. This is an inherent limitation of representing a decimal number to a binary. This affects ALL programming languages (not just PHP and C), it is just a matter of how many bits can they give before bumping into this limitation. The Floating-Point guide is indeed a great read. –  Ardee Aram Jun 22 '11 at 8:10
@azure_ardee: all number formats are inaccurate, since none of them can represent even the entirety of the integers, let alone rational or real numbers. The problem with binary floating-point formats is that they are inaccurate in unexpected ways, mainly having to do with the difference between binary and decimal representations. –  Michael Borgwardt Jun 22 '11 at 11:01

The equivalent C code gives the same result if you tell printf to display more digits:

printf("%.8f\n", bstar);
share|improve this answer
Please see new code –  user586028 Jan 23 '11 at 23:53
I can confirm Oli's answer. –  Doug T. Jan 23 '11 at 23:55
@Carl, show us the printf you are using. If you are doing %.8f then you will only show 8 digits past the decimal point. The result of the calculation is something * 10^-9 which would require using more digits in the printf format string. –  Doug T. Jan 23 '11 at 23:56
But what about the second part of the code? PHP is way off... –  user586028 Jan 23 '11 at 23:56
@Carl: It's simply display precision again. Try printf("%g\n");. –  Oliver Charlesworth Jan 23 '11 at 23:59

Thank you so much for your help guys. I have figured it out.

Sometimes you need to work with big numbers in PHP. For example, sometimes 32-bit identifiers are not enough and you have to use BIGINT 64-bit.

I had already written about the mess that 64-bit integers are in PHP. But if the numbers you use do not cover 64-bit range fully, floats might save the day. The trick is that PHP floats are in fact doubles, i.e. double-precision 64-bit numbers. They have 52 bits for mantissa, and integer values up to 2^53-1 can be stored exactly. So if you’re using up to 53 bits, you’re OK with floats.

However, there’s a conversion caveat you should be aware of.

Float to string conversion is not portable across systems and PHP versions. So if you’re handling large numbers stored as float (especially on 32-bit systems where 32-bit int overflow will implicitly convert to float) and getting strange results, remember that string conversion might let you down. sprintf(), on the other hand, is always a friend when it comes to fixing PHP “subtleties” in numeric value handling: it can be used to workaround signed vs. unsigned int issues; it helps with float formatting; always a saviour.

References - MySQL Performance Blog

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