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I am writting a C++ command line application that will apply the Haar transform to the pixels of a bmp image. I have successfully been able to extract the header information and determine the byte array size for the pixels. After filling a char[pixelHeight][rowSizeInBytes] with the pixel data from the file, I am reading each pixel (24 bits for the bmp I'm using) into a vector. It is working on my machine but I would like to know if my implementation for converting the char array representing a pixel into an unsigned int is safe and/or the idiomatic C++ way. I am assuming a little endian architecture.

unsigned char pixelData[infoHeader->pixelHeight][rowSize];
fseek(pFile, basicHeader->pixelDataOffset, SEEK_SET);
fread(&pixelData, pixelArraySize, 1, pFile);

for(int row = 0; row < infoHeader->pixelHeight; row++)
    for(int i = 0; i < rowSize; i = i + 3)
        unsigned char blue = pixelData[row][i];
        unsigned char green = pixelData[row][i + 1];
        unsigned char red = pixelData[row][i + 2];

        char vals[4];
        vals[0] = blue;
        vals[1] = green;
        vals[2] = red;
        vals[3] = '\0';

        unsigned int pixelVal = *((unsigned int *)vals);

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Why do you want a vector of unsigned integers rather than a vector of structures each containing three color values? –  David Schwartz Jan 16 '13 at 19:42
When You say I am assuming little endian architecture, does that mean you will neverr run this on a big endian system? –  Trump211 Jan 16 '13 at 19:44
David Schwartz, The reason I'm storing them as scalar values is so I can apply the Haar transform to the array. My understanding is that the transform can only be applied to a series of scalars but I might be wrong on this. This is part of an exercise from this blog post: knowing.net/index.php/2006/06/16/… . I thought I'd try it out with C++ –  WSkinner Jan 16 '13 at 19:59

1 Answer 1

up vote 4 down vote accepted

No, this is unidiomatic. You should code what you mean rather than relying on the endianness of the system. For example:

 unsigned int pixelVal = static_cast<unsigned int>(blue) |
     (static_cast<unsigned int>(green) << 8) |
     (static_cast<unsigned int>(red) << 16);

This assumes your intention was to get a vector with specific values for unsigned integers. If your intention was to get a vector with specific bytes, you should use a vector of byte-sized structures, not unsigned integers.

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If you are being endian agnostic you'll also want to consider the size of your types. If you intend a 32 bit unsigned int, use uint32_t explicitly. –  Dave Jan 16 '13 at 19:47
I agree with this answer, I've only ever seen pointer tricks like these in code made for a specific application mcu where the developer can guarantee that the endianness of the system is what they expect. –  Trump211 Jan 16 '13 at 19:48
Cool, so the bit shift is independent of the endianess. left shift always sifts from lsb to msb and right from msb to lsb? –  WSkinner Jan 16 '13 at 19:51
Precisely. <<1 doubles, >>1 halves. :) –  David Schwartz Jan 16 '13 at 19:54

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