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I need a fast solution to serialize float (4 bytes) and double (8 bytes) into binary representation to send them over the network.

The problem is the format I have to use :

mantissa * 10^exponent

where the mantissa is a signed integer (4 bytes when encoding the float and 8 bytes for the double) and the exponent is coded on 1 byte.

The exponent is a base 10, so bit shifting tricks seem useless to me and I have to separate the mantissa from the exponenet in order to serialize them.

Any suggestion would be appreciated

share|improve this question
Convert them to text? Or just send them as they are if you can assume that all parties will use IEEE-754. – David Heffernan Feb 13 '12 at 17:56
actually, the format used by all parties is not IEEE-754 but as i said mantissa*10^exponent. Converting to text ... well actually i'm trying to find something really fast. under IEEE-754 you can find some pretty nice routines (Kernighan's like) but for base 10 ... actually i'm kind of struggling. – promic Feb 13 '12 at 18:02
That's a pretty awful format for speed. All machines I have ever encountered are binary and having to convert to decimal costs. That said, if you are sending them over the network, speed of conversion is not going to be your bottleneck. – David Heffernan Feb 13 '12 at 18:12
yeah i know, it's not the most efficient. but that's the protocol. there is nothing i can do about it. but still speed of conversion can be a matter, i do have loads of float/double to process. I can't multithread the process, it has to be achieved within one memory context, therefore if the conversion is not optimal i can run into bottlenecks ... – promic Feb 13 '12 at 18:18
How could conversion ever be the bottleneck? You said you were sending it over the wire? Surely that's going to swamp the conversion. – David Heffernan Feb 13 '12 at 18:19

Your statement that the encoded mantissa is an integer confuses me. It has to represent some form of a floating point number, perhaps encoded in four or eight bytes.

For any positive number x, you can uniquely express x as

x = 10^(f + n) = 10^f * 10^n

where n is an integer, and 0 <= f < 1. Note that

f + n = log10(x)

by definition.

For positive x, the simplest code I can imagine is this:

double lg10 = log10(x);
double f = fmod(lg10, 1.0);
int n = lg10 - f
encode_mantissa(pow(10.0, f));

For negative x, you need to take the absolute value before applying the above code, and then encode the sign in whatever way is appropriate.

The cost of this is three non-trivial floating point operations, but I these are all done in hardware these days on general-purpose CPUs. You still have to solve the problem of encoding the mantissa into a four or eight byte value.

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In C99 / POSIX you can use double n, f = modf(lg10, &n) to directly break up lg10 into fractional and integer parts. – caf Feb 14 '12 at 2:25
Thanks for pointing that out. I wasn't aware of the modf function. – Dale Hagglund Feb 14 '12 at 5:55
@Dale: my format is Mantissa*10^exponent, where Mantissa is a signed integer, think of -3.14 = -314*10^(-2). – promic Feb 14 '12 at 8:16
@Dale: since log10 is an integral, then i will have to deal with exponenet approximation... – promic Feb 14 '12 at 8:18
@promic: You'll need to decide how many digits of precision you want in your integer mantissa, and then shift n and 10^f appropriately. Re your other comment, I don't understand what you mean by "log10 is an integral". The code above gives you an exact integer exponent, so I don't see the problem. – Dale Hagglund Feb 14 '12 at 17:05

why do you need to look at the representation?

How about using the htonl and ntohl functions at the respective ends of your connections, and send them in binary.

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hmmmm ... ok, but ntohl is using a long representation of the decimal. which means IEEE 754 representation. it's not what i need. – promic Feb 14 '12 at 10:44
What I'm saying is to separate the 'get the number' over the network part of the problem from anything else. Take your float, convert it to network order, transmit it, convert it to the new (possibly different) host order, and memcpy back the result into a float. Now you have your original value on the other side of the network connection and if you want it in a decimal representation, that's a different problem. – Peeter Joot Feb 14 '12 at 18:15
hmm ... actually i am not the developper of the server. it is a service provider which has set this protocol. so i'm only playing on the client side – promic Feb 15 '12 at 16:11

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