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I have some legacy code that was writing to a NITF file to display some images. In the legacy code, it appears as if there was a LUT being used, and there was a section of code that wrote out a row at a time to the NITF file , and the values of that row were calculated like so:

// convert RGB to LUT values
unsigned char *lutData = new unsigned char[numBytes/3];
for (unsigned j = 0 ; j < numBytes/3 ; j++)
    lutData[j] = (unsigned char) stuff;

Where data was my original array of unsigned chars.

So now I am trying to take that data array and output it into a QImage in my GUI.

It would seem to me in the NITF, there was a block of LUT data that was "rows x cols" in size, right? So I created an array of that lut data:

unsigned char *lutData = new unsigned char[imwidth * imheight];
QImage *qi = new QImage(imwidth,imheight, QImage::Format_Indexed8);
for (int i = 0 ; i < imheight ; i++)
{
             #pragma omp parallel for
              for (int j = 0 ; j < imwidth ; j++)
              {
                     lutData[i*imwidth + j] = stuff;
              }
}

and then I tried to populate the qimage like this:

   for (int i = 0 ; i < imheight ; i++)
   {
                #pragma omp parallel for
                 for (int j = 0 ; j < imwidth ; j++)
                 {
                     qi->setPixel(j,i,qRgb(lutData[i*imwidth + j],lutData[i*imwidth + j],lutData[i*imwidth + j]));
                }
   }

However, this seems to more or less just give me a grayscale image, instead of my actual data.

What am I doing wrong?

Thanks!

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2 Answers 2

up vote 2 down vote accepted

The qRgb constructor looks like this:

qRgb(int r, int g, int b)

You're passing in the same value (lutData[i*imwidth + j]) for all three colors, so you'll end up with a greyscale image.

Now, qRgb is just a typedefed unsigned int, so if you store your colors in that format (RGB32 / ARGB32), you can just call:

qi->setPixel(j, i, lutData[i*imwidth + j])

But you might want to look into using QImage's built-in lookup table (aka color table) support - it might end up being as simple as:

QImage image(data, imwidth, imheight, QImage::Format_Indexed8);
QVector<QRgb> colorTable;
// Translate each color in lutData to a QRgb and push it onto colorTable;
image.setColorTable(colorTable);

Hope this helps!

Update: For reference purposes, here's the test code I used to try out QImage in indexed color mode (compiles without warnings with g++ - just remember to link to -lQtCore and -lQtGui):

#include <QtCore/QVector>
#include <QtGui/QApplication>
#include <QtGui/QImage>
#include <QtGui/QLabel>
#include <QtGui/QPixmap>

int main(int argc, char* argv[])
{
    QApplication app(argc, argv);

    unsigned char indices[1024];
    for(int i = 0; i < 1024; ++i)
    {
        indices[i] = qrand() & 0x0f;
    }

    QVector<QRgb> ctable;
    for(int i = 0; i < 16; ++i)
    {
        ctable.append(qRgb(qrand() & 0xff, qrand() & 0xff, qrand() & 0xff));
    }

    QImage image(indices, 32, 32, QImage::Format_Indexed8);
    image.setColorTable(ctable);

    QLabel label;
    label.setPixmap(QPixmap::fromImage(image));
    label.show();

    return app.exec();
} 
share|improve this answer
    
trying it your first way, I got an image that was really blue looking. Not really sure why - I guess because it has the smallest denominator in the LUT calculation perhaps? But it is what they have in the original code - and I can view the output data fine in ENVI and other programs –  Derek Mar 31 '11 at 19:58
    
@Derek - You know, looking at the original code again, I don't think it's a lookup table at all. I think it's a compression routine - it takes three bytes from data and shrinks them down to a single byte in lutData. And the size of lutData is directly related (x 1/3) to the size of data; if it was a color table, it would be independent of the number of pixels, and dependent on the number of colors instead... What format is data in originally? Can you just use the original data array with QImage::Format_RGB888? –  Xavier Holt Mar 31 '11 at 20:24
    
data is originally an unsigned char *. It is imwidth*3*imheight in size, based on the code showing in my snippet –  Derek Mar 31 '11 at 20:43
    
@Derek - Sounds like a good candidate for RGB888 data to me. What happens if you dump it directly to your QImage, bypassing lutData altogether (there's a convenient QImage constructor in case width != pitch)? –  Xavier Holt Mar 31 '11 at 20:54
    
when I use the original data array, and that RGB888 format, I get something that looks like a severely blurred version of the output. The way it is in my original post at least looks like the right thing, and is clear, just doenst have the right colors –  Derek Mar 31 '11 at 20:57
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Very interesting image compression. Here's my try to convert a RGB888 image into a Index8 with your function:

    QImage image8(image.size(), QImage::Format_Indexed8);
    QVector<QRgb> lut(256);
    for(int i=0;i<image888.height();++i) {
        const uchar * p = image888.bits() + image888.bytesPerLine()*i;
        uchar * q = image8.bits() + image8.bytesPerLine()*i;
        for(int j=0;j<image.width();++j, p+=3) {
            QRgb c = qRgb(p[0], p[1], p[2]);
            int n = qRed(c)/51*36 + qGreen(c)/51*6+qBlue(c)/51;
            lut[n] = c;
            *q++ = n;
        }
    }
    image8.setColorTable(lut);

It basically fills up the 8-bit color table as it converts from 888 to 8-bit data. For better result, you can accumulate the RGB values at an index, then average the values before putting them into the color table. It can also use some optimization on walking the image buffer.

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