Ejemplo n.º 1
0
static inline void
zero_ (ImageBuf &buf)
{
    int chans = buf.nchannels();
    for (ImageBuf::Iterator<T> pixel (buf);  pixel.valid();  ++pixel)
        for (int i = 0;  i < chans;  ++i)
            pixel[i] = 0;
}
Ejemplo n.º 2
0
static inline void
setpixel_ (ImageBuf &buf, int x, int y, int z, const float *data, int chans)
{
    ImageBuf::Iterator<T> pixel (buf, x, y, z);
    if (pixel.valid()) {
        for (int i = 0;  i < chans;  ++i)
            pixel[i] = data[i];
    }
}
Ejemplo n.º 3
0
static inline void
transfer_pixels_ (ImageBuf &buf, ColorTransfer *tfunc)
{
    for (ImageBuf::Iterator<T> pixel (buf); pixel.valid(); ++pixel) {
        convert_types (buf.spec().format, pixel.rawptr(),
                       buf.spec().format, pixel.rawptr(),
                       buf.nchannels(), tfunc,
                       buf.spec().alpha_channel, buf.spec().z_channel);
    }
}
// Tests ImageBufAlgo::compare
void test_compare ()
{
    std::cout << "test compare\n";
    // Construct two identical 50% grey images
    const int WIDTH = 10, HEIGHT = 10, CHANNELS = 3;
    ImageSpec spec (WIDTH, HEIGHT, CHANNELS, TypeDesc::FLOAT);
    ImageBuf A (spec);
    ImageBuf B (spec);
    const float grey[CHANNELS] = { 0.5, 0.5, 0.5 };
    ImageBufAlgo::fill (A, grey);
    ImageBufAlgo::fill (B, grey);

    // Introduce some minor differences
    const int NDIFFS = 10;
    ImageBuf::Iterator<float> a (A);
    for (int i = 0;  i < NDIFFS && a.valid();  ++i, ++a) {
        for (int c = 0;  c < CHANNELS;  ++c)
            a[c] = a[c] + 0.01f * i;
    }
    // We expect the differences to be { 0, 0.01, 0.02, 0.03, 0.04, 0.05,
    // 0.06, 0.07, 0.08, 0.09, 0, 0, ...}.
    const float failthresh = 0.05;
    const float warnthresh = 0.025;
    ImageBufAlgo::CompareResults comp;
    ImageBufAlgo::compare (A, B, failthresh, warnthresh, comp);
    // We expect 5 pixels to exceed the fail threshold, 7 pixels to
    // exceed the warn threshold, the maximum difference to be 0.09,
    // and the maximally different pixel to be (9,0).
    // The total error should be 3 chans * sum{0.01,...,0.09} / (pixels*chans)
    //   = 3 * 0.45 / (100*3) = 0.0045
    std::cout << "Testing comparison: " << comp.nfail << " failed, "
              << comp.nwarn << " warned, max diff = " << comp.maxerror
              << " @ (" << comp.maxx << ',' << comp.maxy << ")\n";
    std::cout << "   mean err " << comp.meanerror << ", RMS err " 
              << comp.rms_error << ", PSNR = " << comp.PSNR <<  "\n";
    OIIO_CHECK_EQUAL (comp.nfail, 5);
    OIIO_CHECK_EQUAL (comp.nwarn, 7);
    OIIO_CHECK_EQUAL_THRESH (comp.maxerror, 0.09, 1e-6);
    OIIO_CHECK_EQUAL (comp.maxx, 9);
    OIIO_CHECK_EQUAL (comp.maxy, 0);
    OIIO_CHECK_EQUAL_THRESH (comp.meanerror, 0.0045, 1.0e-8);
}
Ejemplo n.º 5
0
// DEPRECATED version
bool
ImageBufAlgo::add (ImageBuf &dst, const ImageBuf &A, const ImageBuf &B,
                   int options)
{
    // Sanity checks
    
    // dst must be distinct from A and B
    if ((const void *)&A == (const void *)&dst ||
        (const void *)&B == (const void *)&dst) {
        dst.error ("destination image must be distinct from source");
        return false;
    }
    
    // all three images must have the same number of channels
    if (A.spec().nchannels != B.spec().nchannels) {
        dst.error ("channel number mismatch: %d vs. %d", 
                   A.spec().nchannels, B.spec().nchannels);
        return false;
    }
    
    // If dst has not already been allocated, set it to the right size,
    // make it unconditinally float
    if (! dst.pixels_valid()) {
        ImageSpec dstspec = A.spec();
        dstspec.set_format (TypeDesc::TypeFloat);
        dst.alloc (dstspec);
    }
    // Clear dst pixels if instructed to do so
    if (options & ADD_CLEAR_DST) {
        zero (dst);
    }
      
    ASSERT (A.spec().format == TypeDesc::FLOAT &&
            B.spec().format == TypeDesc::FLOAT &&
            dst.spec().format == TypeDesc::FLOAT);
    
    ImageBuf::ConstIterator<float,float> a (A);
    ImageBuf::ConstIterator<float,float> b (B);
    ImageBuf::Iterator<float> d (dst);
    int nchannels = A.nchannels();
    // Loop over all pixels in A
    for ( ; a.valid();  ++a) {  
        // Point the iterators for B and dst to the corresponding pixel
        if (options & ADD_RETAIN_WINDOWS) {
            b.pos (a.x(), a.y());
        } else {
            // ADD_ALIGN_WINDOWS: make B line up with A
            b.pos (a.x()-A.xbegin()+B.xbegin(), a.y()-A.ybegin()+B.ybegin());
        }
        d.pos (a.x(), b.y());
        
        if (! b.valid() || ! d.valid())
            continue;   // Skip pixels that don't align
        
        // Add the pixel
        for (int c = 0;  c < nchannels;  ++c)
              d[c] = a[c] + b[c];
    }
    
    return true;
}