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I have been searching for a long a way to compress, using the zlib library (and the function compress) a struct containing float vars. Every example i saw are showing how to compress a string, specifically a unsigned char*.

My struct is an easy one :

struct Particle{

float x;
float y;
float z;
};

And I am calling the compress function as below :

uLong initSize = sizeof(Particle);
uLongf destSize = initSize * 1.1 + 12;
Bytef dataOriginal = (Bytef)malloc( initSize );
Bytef dataCompressed = (Bytef)malloc( destSize );

Particle p;
memset( &p, 0, sizeof(Particle) );

p.x = 10.24;
p.y = 23.5;
p.z = 7.4;

memcpy( dataOriginal, &p, sizeof(p) );
compress( dataCompressed, &destSize, dataOriginal, initSize );

But when I try to uncompress my datas to see what inside, i can't get back to my initial float value :

Bytef decomp = (Bytef)malloc( initSize );
uncompress( decomp, &initSize, dataCompressed, destSize );

for( int i = 0 ; i < initSize ; i++ ){

std::cout << (float)decomp[i] << std::endl;
}

If anyone have a solution to this problem, i'm on it since 2 days now... Thanx a lot !

share|improve this question
    
erm, what is initSize * 1.1 + 12 supposed to be? – jalf Nov 25 '12 at 11:12
    
(1) any solution to what problem (2) were you expecting the Bytef decomp pointer (which we don't even have a definition for) to magically become a valid float with that cast? – WhozCraig Nov 25 '12 at 11:21
    
initSize * 1.1 + 12 is supposed to be the buffer size used by zlib to compress datas. I saw in several website that it must follow this rule. destSize is updated by zlib with the final size of the compressed datas after compress function has been call. – art.mu Nov 25 '12 at 11:22
    
did you check what is return code for both compress() and uncompress()? If it is not Z_OK (0), you may have an explanation – mvp Nov 25 '12 at 11:24
    
Well, in fact I'm searching a solution to compress float datas contained in a struct with zlib. – art.mu Nov 25 '12 at 11:25
up vote 2 down vote accepted

You would need to copy the decompressed data back into the Particle struct, just like you copied it out in the first place. (Or you could just use casts instead of copies). Then you will recover the original floats in the struct. Whatever it is you think you're doing with 'decomp[i]` doesn't make any sense.

However there are several problems with this. First, this is only assured to work on the same machine, with the same compiler, and even then only within the same version of the compiler. If a different compiler or different version chooses to align the structure differently, then the compressed data will not be transferrable between the two. If there is a different representation of floats between different machines, the compressed data will not be transferrable.

Furthermore, you will not get any compression when compressing three floats. I presume that this is just a prelude to compressing a large array of such Particle structs. Then maybe you'll get somewhere with this.

Better would be to first convert the floats to the precision needed as integers. You should know the range and the useful number of bits for your application. This will compress before even using compress(), by using only the number of bits needed as opposed to 32 per float. Then convert those integers portably to a series of bytes with shift operations. You can then also apply differencing to successive Particles (e.g. x1-x2, y1-y2, z1-z2), which might improve compression if there is a correlation between successive Particles.

By the way, instead of * 1.1 + 12, you should use compressBound(), which does exactly what you want in a way that is assured by the zlib library for future versions.

share|improve this answer
    
Transferring compressed integers between SPARC and Intel, say, is not portable either. Portability of the compressed data is a separate from 'how to compress non-string data'. – Jonathan Leffler Nov 25 '12 at 15:07
    
It is if you do what I said: "Then convert those integers portably to a series of bytes with shift operations." (You elected to not fully read my answer before adding your two cents.) – Mark Adler Nov 25 '12 at 15:43
    
The original poster did not specify why they want to compress. If it is for use within the same machine, then portability is not (much of) an issue. If it is for transfer or storage, then portability of the compressed data is part of the question of "how to compress". – Mark Adler Nov 25 '12 at 15:46
    
Thanks @MarkAdler , I can now uncompress and display my datas. In fact this little program will be used to create a well formated PRT file which will be read in a 3D software. So yes there will be an Particle array to compress. – art.mu Nov 25 '12 at 21:26

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