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Speed-up Combined entropy for palettized histograms.
Change-Id: Ie9bdebb26c726e5b44c2dbcc84d453f85a03f419
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@ -237,15 +237,31 @@ static double PopulationCost(const uint32_t* const population, int length,
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return BitsEntropyRefine(&bit_entropy) + FinalHuffmanCost(&stats);
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}
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// trivial_at_end is 1 if the two histograms only have one element that is
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// non-zero: both the zero-th one, or both the last one.
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static WEBP_INLINE double GetCombinedEntropy(const uint32_t* const X,
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const uint32_t* const Y,
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int length) {
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VP8LBitEntropy bit_entropy;
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int length, int trivial_at_end) {
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VP8LStreaks stats;
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if (trivial_at_end) {
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// This configuration is due to palettization that transforms an indexed
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// pixel into 0xff000000 | (pixel << 8) in VP8LBundleColorMap.
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// BitsEntropyRefine is 0 for histograms with only one non-zero value.
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// Only FinalHuffmanCost needs to be evaluated.
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memset(&stats, 0, sizeof(stats));
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// Deal with the non-zero value at index 0 or length-1.
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stats.streaks[1][0] += 1;
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// Deal with the following/previous zero streak.
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stats.counts[0] += 1;
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stats.streaks[0][1] += length - 1;
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return FinalHuffmanCost(&stats);
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} else {
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VP8LBitEntropy bit_entropy;
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VP8LGetCombinedEntropyUnrefined(X, Y, length, &bit_entropy, &stats);
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return BitsEntropyRefine(&bit_entropy) + FinalHuffmanCost(&stats);
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}
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}
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// Estimates the Entropy + Huffman + other block overhead size cost.
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double VP8LHistogramEstimateBits(const VP8LHistogram* const p) {
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@ -268,24 +284,42 @@ static int GetCombinedHistogramEntropy(const VP8LHistogram* const a,
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double cost_threshold,
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double* cost) {
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const int palette_code_bits = a->palette_code_bits_;
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int trivial_at_end = 0;
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assert(a->palette_code_bits_ == b->palette_code_bits_);
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*cost += GetCombinedEntropy(a->literal_, b->literal_,
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VP8LHistogramNumCodes(palette_code_bits));
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VP8LHistogramNumCodes(palette_code_bits), 0);
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*cost += VP8LExtraCostCombined(a->literal_ + NUM_LITERAL_CODES,
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b->literal_ + NUM_LITERAL_CODES,
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NUM_LENGTH_CODES);
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if (*cost > cost_threshold) return 0;
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*cost += GetCombinedEntropy(a->red_, b->red_, NUM_LITERAL_CODES);
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if (a->trivial_symbol_ != VP8L_NON_TRIVIAL_SYM &&
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a->trivial_symbol_ == b->trivial_symbol_) {
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// A, R and B are all 0 or 0xff.
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const uint32_t color_a = (a->trivial_symbol_ >> 24) & 0xff;
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const uint32_t color_r = (a->trivial_symbol_ >> 16) & 0xff;
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const uint32_t color_b = (a->trivial_symbol_ >> 0) & 0xff;
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if ((color_a == 0 || color_a == 0xff) &&
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(color_r == 0 || color_r == 0xff) &&
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(color_b == 0 || color_b == 0xff)) {
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trivial_at_end = 1;
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}
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}
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*cost +=
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GetCombinedEntropy(a->red_, b->red_, NUM_LITERAL_CODES, trivial_at_end);
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if (*cost > cost_threshold) return 0;
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*cost += GetCombinedEntropy(a->blue_, b->blue_, NUM_LITERAL_CODES);
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*cost +=
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GetCombinedEntropy(a->blue_, b->blue_, NUM_LITERAL_CODES, trivial_at_end);
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if (*cost > cost_threshold) return 0;
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*cost += GetCombinedEntropy(a->alpha_, b->alpha_, NUM_LITERAL_CODES);
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*cost += GetCombinedEntropy(a->alpha_, b->alpha_, NUM_LITERAL_CODES,
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trivial_at_end);
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if (*cost > cost_threshold) return 0;
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*cost += GetCombinedEntropy(a->distance_, b->distance_, NUM_DISTANCE_CODES);
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*cost +=
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GetCombinedEntropy(a->distance_, b->distance_, NUM_DISTANCE_CODES, 0);
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*cost +=
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VP8LExtraCostCombined(a->distance_, b->distance_, NUM_DISTANCE_CODES);
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if (*cost > cost_threshold) return 0;
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@ -293,6 +327,15 @@ static int GetCombinedHistogramEntropy(const VP8LHistogram* const a,
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return 1;
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}
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static WEBP_INLINE void HistogramAdd(const VP8LHistogram* const a,
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const VP8LHistogram* const b,
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VP8LHistogram* const out) {
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VP8LHistogramAdd(a, b, out);
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out->trivial_symbol_ = (a->trivial_symbol_ == b->trivial_symbol_)
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? a->trivial_symbol_
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: VP8L_NON_TRIVIAL_SYM;
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}
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// Performs out = a + b, computing the cost C(a+b) - C(a) - C(b) while comparing
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// to the threshold value 'cost_threshold'. The score returned is
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// Score = C(a+b) - C(a) - C(b), where C(a) + C(b) is known and fixed.
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@ -308,11 +351,9 @@ static double HistogramAddEval(const VP8LHistogram* const a,
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cost_threshold += sum_cost;
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if (GetCombinedHistogramEntropy(a, b, cost_threshold, &cost)) {
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VP8LHistogramAdd(a, b, out);
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HistogramAdd(a, b, out);
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out->bit_cost_ = cost;
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out->palette_code_bits_ = a->palette_code_bits_;
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out->trivial_symbol_ = (a->trivial_symbol_ == b->trivial_symbol_) ?
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a->trivial_symbol_ : VP8L_NON_TRIVIAL_SYM;
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}
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return cost - sum_cost;
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@ -504,7 +545,7 @@ static VP8LHistogram* HistogramCombineEntropyBin(
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histograms[size] = histograms[idx];
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bin_info[bin_id].first = size++;
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} else if (low_effort) {
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VP8LHistogramAdd(histograms[idx], histograms[first], histograms[first]);
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HistogramAdd(histograms[idx], histograms[first], histograms[first]);
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} else {
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// try to merge #idx into #first (both share the same bin_id)
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const double bit_cost = histograms[idx]->bit_cost_;
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@ -672,7 +713,7 @@ static int HistogramCombineGreedy(VP8LHistogramSet* const image_histo) {
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HistogramPair* copy_to;
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const int idx1 = histo_queue.queue[0].idx1;
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const int idx2 = histo_queue.queue[0].idx2;
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VP8LHistogramAdd(histograms[idx2], histograms[idx1], histograms[idx1]);
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HistogramAdd(histograms[idx2], histograms[idx1], histograms[idx1]);
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histograms[idx1]->bit_cost_ = histo_queue.queue[0].cost_combo;
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// Remove merged histogram.
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for (i = 0; i + 1 < image_histo_size; ++i) {
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@ -854,7 +895,7 @@ static void HistogramRemap(const VP8LHistogramSet* const in,
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for (i = 0; i < in_size; ++i) {
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const int idx = symbols[i];
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VP8LHistogramAdd(in_histo[i], out_histo[idx], out_histo[idx]);
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HistogramAdd(in_histo[i], out_histo[idx], out_histo[idx]);
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}
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}
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