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In order to train a classifier, it requires that the training data are specified using a set of float array. Unfortunately, the training data available to me are byte arrays (actually they are Ipp8u arrays, which can be converted to unsigned char arrays).

Essentially, given an unsigned char array, I need to convert it to a float array: in other words, given an unsigned char array, I should read it as a float array. Is this operation always allowed? Does the float data type allow all possible configurations of bits? If yes, how to implement this conversion?

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I would make use of the stringstream library – Syntactic Fructose Jan 6 '13 at 22:11
Please clarify: is the data binary (and in correct byte order, etc), or human-readable strings? – Chris Jan 6 '13 at 22:13
@enzom83: "binary" means nothing - what kind of binary format is it? Is it the binary representation of an array of your platform's floats? Or something else? – Matteo Italia Jan 6 '13 at 22:15
Still not sure: If each unsigned char represents one value, the answer by @Dims works. If each 4 bytes are a binary float representation, things get a bit complicated. – Chris Jan 6 '13 at 22:22
@enzom83 If you don't have to convert each element, what do you have to do? What are you not telling us? – Mr Lister Jan 6 '13 at 22:28
up vote 3 down vote accepted

Given the documentation of the Intel Integrated Performance Primitives, the function:

IppStatus ippsConvert_8u32f(const Ipp8u* pSrc, Ipp32f* pDst, int len);

would seem a most-handy function for doing exactly what you're looking for.

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Sounds like just what I need! Now I wonder if the Ipp32f type can be converted to the float type. – enzom83 Jan 6 '13 at 23:09
@enzom83 Hard to say. If Intel provides this as a direct conversion, or documents that one cant directly assign to a platform-dependent float from their SDK type of Ipp32f, that would be good and you're likely in the clear. As I see it, this is the only documented way of converting a Ipp8u byte stream converted from Ipp32f float(s) back into said-same. Chances are direct conversion from their Ipp32f to a system-float will work, but you should seriously check into supporting documentation about it. – WhozCraig Jan 6 '13 at 23:17
I just read the fourth post on this page: Ipp32f is float. – enzom83 Jan 6 '13 at 23:21
@enzom83 If that is a viable source from Intel then you're likely in the clear. You would still need to do the conversion to an Ipp32f value, then assign the result to a system-float in your array. Don't just pass your array offset directly, as their function mandates their type. You just never know. I would continue looking for more concrete evidence of a platform-independent nature (i.e. Intel says you can freely interchange Ipp32f and float according to link "blah", but it definitely looks promising. – WhozCraig Jan 6 '13 at 23:26

You should do each operation explicitly, not relying on implicit conversion. First read array in the char form

unsigned char charArray[100];
// reading 

then convert elements one by obe

float floatArray[100];
for(i=0; i<100; ++i) {
   floatArray[i] = (float) charArray[i];
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Yeah, and you don't even need the (float), unless you crank up your warning levels unrealistically high... – Mr Lister Jan 6 '13 at 22:18
Yes but this is in favor of proclaimed explicitness. – Dims Jan 6 '13 at 22:22
I do not have to convert each element of the original array, but rather the entire array. – enzom83 Jan 6 '13 at 22:23
But the people here are not fond of that kind of typecasting in C++; they claim it belongs in C and you should use C++-specific typecasting in C++. – Mr Lister Jan 6 '13 at 22:25

You could just run an iterative conversion utilising atof in a for loop. Then you can just use the float array. I'm sure there is a one line solution though.

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There are many ways to approximate real numbers. There are floating point representations where some bits represent an exponent and some other bits represent a coefficient, there are fixed point representations where some bits represent the whole number part and some bits represent the factional part, there are arbitrary finite precision representations where some number of 'digits' in some base are stored, etc., and for every general class of representation there is an infinite variety of details which would matter when converting that representation into floats.

Your question does not specify what representation the byte array contains. Specifying that the array is Ipp8u does not come close to providing the necessary information.

What you probably mean is that the byte array contains a byte representation of the machine's native representation of floats (which is probably IEEE-754), differing at most in endianess.

You can simply do a memcpy of data from the char array into an array of floats:

char c[10 * sizeof(float)] = {...};
float f[10];
std::memcpy(f, c, 10 * sizeof(float)); // or you can search for an implementation of bit_cast

One thing not to do is to simply cast the char array: float *f = reinterpret_cast<float*>(c); This cast probably has undefined behavior because float probably has stricter alignment requirements than char.

If the endianess differs then you go through the byte array first and reorder the bytes, something like this:

// assuming sizeof(float) == sizeof(uint32_t)
for (int i; i<sizeof c; i+=sizeof(float)) {
    uint32_t i;
    std::memcpy(&i, c + i, sizeof(uint32_t));
    ntoh(i); // swaps bytes from Network TO Host order.
    std::memcpy(c + i, &i, sizeof(uint32_t));
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