Mercurial > hgrepos > Python2 > PyMuPDF
diff mupdf-source/thirdparty/brotli/c/enc/bit_cost_inc.h @ 2:b50eed0cc0ef upstream
ADD: MuPDF v1.26.7: the MuPDF source as downloaded by a default build of PyMuPDF 1.26.4.
The directory name has changed: no version number in the expanded directory now.
| author | Franz Glasner <fzglas.hg@dom66.de> |
|---|---|
| date | Mon, 15 Sep 2025 11:43:07 +0200 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/mupdf-source/thirdparty/brotli/c/enc/bit_cost_inc.h Mon Sep 15 11:43:07 2025 +0200 @@ -0,0 +1,127 @@ +/* NOLINT(build/header_guard) */ +/* Copyright 2013 Google Inc. All Rights Reserved. + + Distributed under MIT license. + See file LICENSE for detail or copy at https://opensource.org/licenses/MIT +*/ + +/* template parameters: FN */ + +#define HistogramType FN(Histogram) + +double FN(BrotliPopulationCost)(const HistogramType* histogram) { + static const double kOneSymbolHistogramCost = 12; + static const double kTwoSymbolHistogramCost = 20; + static const double kThreeSymbolHistogramCost = 28; + static const double kFourSymbolHistogramCost = 37; + const size_t data_size = FN(HistogramDataSize)(); + int count = 0; + size_t s[5]; + double bits = 0.0; + size_t i; + if (histogram->total_count_ == 0) { + return kOneSymbolHistogramCost; + } + for (i = 0; i < data_size; ++i) { + if (histogram->data_[i] > 0) { + s[count] = i; + ++count; + if (count > 4) break; + } + } + if (count == 1) { + return kOneSymbolHistogramCost; + } + if (count == 2) { + return (kTwoSymbolHistogramCost + (double)histogram->total_count_); + } + if (count == 3) { + const uint32_t histo0 = histogram->data_[s[0]]; + const uint32_t histo1 = histogram->data_[s[1]]; + const uint32_t histo2 = histogram->data_[s[2]]; + const uint32_t histomax = + BROTLI_MAX(uint32_t, histo0, BROTLI_MAX(uint32_t, histo1, histo2)); + return (kThreeSymbolHistogramCost + + 2 * (histo0 + histo1 + histo2) - histomax); + } + if (count == 4) { + uint32_t histo[4]; + uint32_t h23; + uint32_t histomax; + for (i = 0; i < 4; ++i) { + histo[i] = histogram->data_[s[i]]; + } + /* Sort */ + for (i = 0; i < 4; ++i) { + size_t j; + for (j = i + 1; j < 4; ++j) { + if (histo[j] > histo[i]) { + BROTLI_SWAP(uint32_t, histo, j, i); + } + } + } + h23 = histo[2] + histo[3]; + histomax = BROTLI_MAX(uint32_t, h23, histo[0]); + return (kFourSymbolHistogramCost + + 3 * h23 + 2 * (histo[0] + histo[1]) - histomax); + } + + { + /* In this loop we compute the entropy of the histogram and simultaneously + build a simplified histogram of the code length codes where we use the + zero repeat code 17, but we don't use the non-zero repeat code 16. */ + size_t max_depth = 1; + uint32_t depth_histo[BROTLI_CODE_LENGTH_CODES] = { 0 }; + const double log2total = FastLog2(histogram->total_count_); + for (i = 0; i < data_size;) { + if (histogram->data_[i] > 0) { + /* Compute -log2(P(symbol)) = -log2(count(symbol)/total_count) = + = log2(total_count) - log2(count(symbol)) */ + double log2p = log2total - FastLog2(histogram->data_[i]); + /* Approximate the bit depth by round(-log2(P(symbol))) */ + size_t depth = (size_t)(log2p + 0.5); + bits += histogram->data_[i] * log2p; + if (depth > 15) { + depth = 15; + } + if (depth > max_depth) { + max_depth = depth; + } + ++depth_histo[depth]; + ++i; + } else { + /* Compute the run length of zeros and add the appropriate number of 0 + and 17 code length codes to the code length code histogram. */ + uint32_t reps = 1; + size_t k; + for (k = i + 1; k < data_size && histogram->data_[k] == 0; ++k) { + ++reps; + } + i += reps; + if (i == data_size) { + /* Don't add any cost for the last zero run, since these are encoded + only implicitly. */ + break; + } + if (reps < 3) { + depth_histo[0] += reps; + } else { + reps -= 2; + while (reps > 0) { + ++depth_histo[BROTLI_REPEAT_ZERO_CODE_LENGTH]; + /* Add the 3 extra bits for the 17 code length code. */ + bits += 3; + reps >>= 3; + } + } + } + } + /* Add the estimated encoding cost of the code length code histogram. */ + bits += (double)(18 + 2 * max_depth); + /* Add the entropy of the code length code histogram. */ + bits += BitsEntropy(depth_histo, BROTLI_CODE_LENGTH_CODES); + } + return bits; +} + +#undef HistogramType