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Analyze the transform entropy on the whole image.
The first column was skipped before. Change-Id: I11521a6a48288d771e8fb83869fda08753f0fbcb
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@ -196,7 +196,7 @@ static int AnalyzeEntropy(const uint32_t* argb,
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if (use_palette && palette_size <= 16) {
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// In the case of small palettes, we pack 2, 4 or 8 pixels together. In
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// practice, small palette are better than any other transform.
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// practice, small palettes are better than any other transform.
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*min_entropy_ix = kPalette;
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*red_and_blue_always_zero = 1;
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return 1;
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@ -206,10 +206,12 @@ static int AnalyzeEntropy(const uint32_t* argb,
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int i, x, y;
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const uint32_t* prev_row = NULL;
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const uint32_t* curr_row = argb;
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uint32_t pix_prev = argb[0]; // Skip the first pixel.
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for (y = 0; y < height; ++y) {
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for (x = 1; x < width; ++x) {
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for (x = 0; x < width; ++x) {
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const uint32_t pix = curr_row[x];
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const uint32_t pix_diff = VP8LSubPixels(pix, curr_row[x - 1]);
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const uint32_t pix_diff = VP8LSubPixels(pix, pix_prev);
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pix_prev = pix;
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if ((pix_diff == 0) || (prev_row != NULL && pix == prev_row[x])) {
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continue;
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}
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@ -292,22 +294,12 @@ static int AnalyzeEntropy(const uint32_t* argb,
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// lower cost than sizeof(uint32_t)*8.
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entropy[kPalette] += palette_size * 8;
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if (use_palette && entropy[kDirect] == 0) {
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// If the entropy is null, there should only be one color,
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// and that case is handled at the very beginning of that function.
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// Unfortunately, we can also have a null entropy because we skip the
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// first column (an image with constant values on each line generates
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// a null entropy but could have a different color per line).
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// TODO(vrabaud) investigate and fix.
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*min_entropy_ix = kPalette;
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} else {
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*min_entropy_ix = kDirect;
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for (k = kDirect + 1; k <= last_mode_to_analyze; ++k) {
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if (entropy[*min_entropy_ix] > entropy[k]) {
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*min_entropy_ix = (EntropyIx)k;
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}
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}
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}
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assert((int)*min_entropy_ix <= last_mode_to_analyze);
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*red_and_blue_always_zero = 1;
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// Let's check if the histogram of the chosen entropy mode has
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