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I'm sure this is a very common operation when doing any kind of network programming (or I/O with files) but I can't find the answer.

Basically I have a datagram packet coming in down the network which has a series of single precision floating point numbers (4 bytes each).

I have written some basic networking code which reads from a socket and stores the data into a buffer which is declared as follows:

char buffer[24];

This is my deserialization code:

for (int i=0; i<6; i++) {
    float *pf = reinterpret_cast<float*>(buffer + i*sizeof(float));
    printf("%f\n", *pf);

but it causes my program to crash.

If someone could point me to a good tutorial on this type of thing i.e. managing, storing and interpreting data, I'd really appreciate it! I've looked but I don't know what to search for.

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3 Answers 3

up vote 0 down vote accepted

If they are really sending floats -- which I wouldn't recommend, if you have a choice -- then you have to do some bit hackery.

Here is a utility library I wrote to do just this kind of thing. It works on Windows (MSVC) and Linux (GCC). It might not work on other platforms! Use at your own risk.

/**************  UTILITY ******************************/
template<class Val> Val ntohx(const Val& in)
    char out[sizeof(in)] = {0};
    for( size_t i = 0; i < sizeof(Val); ++i )
        out[i] = ((char*)&in)[sizeof(Val)-i-1];
    return *(reinterpret_cast<Val*>(out));

template<> uint16_t ntohx<uint16_t>(const uint16_t & v)
    return ntohs(v);

template<> uint32_t ntohx<uint32_t>(const uint32_t & v)
    return ntohl(v);

template<> uint64_t ntohx<uint64_t>(const uint64_t & v)
    uint32_t ret [] =
        ntohl(((const uint32_t*)&v)[1]),
        ntohl(((const uint32_t*)&v)[0])
    return *((uint64_t*)&ret[0]);
template<> float ntohx<float>(const float& v)
    uint32_t const* cast = reinterpret_cast<uint32_t const*>(&v);
    uint32_t ret = ntohx(*cast);
    return *(reinterpret_cast<float*>(&ret));

template<class Val> bool ieee_isnan(const Val& val)
    // According to the IEEE Standard for floating-point numbers, 
    // NaNs have the interesting attribute of always returning
    // false in comparisons; even to themselves.
    // All platforms we currently support use IEEE floating points,
    // so this should work. [Dib]
    return val != val;
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thx I'll have a closer look at this tomorrow, have to run, just a quick question, what's wrong with sending floats? –  lms Nov 16 '10 at 22:13
Precision and rounding errors get all jacked up when you try to move float data from machine to machine. A better solution is to use some form of scaled decimals. An __int32 for the exponent and an __int64 for the mantissa for example, where the value is mant * 10^exp –  John Dibling Nov 16 '10 at 22:27
Would this make a difference when sending between processes running on the same machine? Also, how do you know this, i.e. where can I find out more about this? –  lms Nov 17 '10 at 0:59
The ntoh functions correct for endian differences between architectures. en.wikipedia.org/wiki/Endianness –  John Dibling Nov 17 '10 at 2:52
If the processes are all on the same machine, there is may not be any difference in endianness. It depends on the sending application & how it was written. –  John Dibling Nov 17 '10 at 2:53

You have a buffer of 24 bytes but you operate on 24 * sizeof(float) bytes which is quite a few more.

char buffer[24 * sizeof(float)];
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you are right, I rewrote the code slightly to use constants for the array sizing and for loop, but I made a mistake. It's fixed now –  lms Nov 16 '10 at 21:55

See ntohs() and friends.

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No version for float afaik. But yes, a more general system would need a representation-independent protocol rather than reinterpret_cast<float> –  Ben Jackson Nov 16 '10 at 21:49
That is only useful for integers. Is there some extra functions that will convert floating data into a binary representation for agnostic storage and transport? –  Loki Astari Nov 16 '10 at 21:49

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