forked from mirror/brotli
165 lines
4.6 KiB
Go
165 lines
4.6 KiB
Go
package brotli
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/* Copyright 2013 Google Inc. All Rights Reserved.
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Distributed under MIT license.
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See file LICENSE for detail or copy at https://opensource.org/licenses/MIT
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*/
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/* Computes the bit cost reduction by combining out[idx1] and out[idx2] and if
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it is below a threshold, stores the pair (idx1, idx2) in the *pairs queue. */
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func compareAndPushToQueueCommand(out []histogramCommand, cluster_size []uint32, idx1 uint32, idx2 uint32, max_num_pairs uint, pairs []histogramPair, num_pairs *uint) {
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var is_good_pair bool = false
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var p histogramPair
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p.idx2 = 0
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p.idx1 = p.idx2
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p.cost_combo = 0
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p.cost_diff = p.cost_combo
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if idx1 == idx2 {
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return
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}
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if idx2 < idx1 {
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var t uint32 = idx2
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idx2 = idx1
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idx1 = t
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}
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p.idx1 = idx1
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p.idx2 = idx2
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p.cost_diff = 0.5 * clusterCostDiff(uint(cluster_size[idx1]), uint(cluster_size[idx2]))
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p.cost_diff -= out[idx1].bit_cost_
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p.cost_diff -= out[idx2].bit_cost_
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if out[idx1].total_count_ == 0 {
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p.cost_combo = out[idx2].bit_cost_
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is_good_pair = true
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} else if out[idx2].total_count_ == 0 {
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p.cost_combo = out[idx1].bit_cost_
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is_good_pair = true
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} else {
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var threshold float64
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if *num_pairs == 0 {
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threshold = 1e99
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} else {
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threshold = brotli_max_double(0.0, pairs[0].cost_diff)
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}
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var combo histogramCommand = out[idx1]
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var cost_combo float64
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histogramAddHistogramCommand(&combo, &out[idx2])
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cost_combo = populationCostCommand(&combo)
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if cost_combo < threshold-p.cost_diff {
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p.cost_combo = cost_combo
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is_good_pair = true
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}
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}
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if is_good_pair {
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p.cost_diff += p.cost_combo
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if *num_pairs > 0 && histogramPairIsLess(&pairs[0], &p) {
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/* Replace the top of the queue if needed. */
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if *num_pairs < max_num_pairs {
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pairs[*num_pairs] = pairs[0]
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(*num_pairs)++
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}
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pairs[0] = p
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} else if *num_pairs < max_num_pairs {
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pairs[*num_pairs] = p
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(*num_pairs)++
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}
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}
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}
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func histogramCombineCommand(out []histogramCommand, cluster_size []uint32, symbols []uint32, clusters []uint32, pairs []histogramPair, num_clusters uint, symbols_size uint, max_clusters uint, max_num_pairs uint) uint {
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var cost_diff_threshold float64 = 0.0
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var min_cluster_size uint = 1
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var num_pairs uint = 0
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{
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/* We maintain a vector of histogram pairs, with the property that the pair
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with the maximum bit cost reduction is the first. */
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var idx1 uint
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for idx1 = 0; idx1 < num_clusters; idx1++ {
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var idx2 uint
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for idx2 = idx1 + 1; idx2 < num_clusters; idx2++ {
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compareAndPushToQueueCommand(out, cluster_size, clusters[idx1], clusters[idx2], max_num_pairs, pairs[0:], &num_pairs)
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}
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}
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}
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for num_clusters > min_cluster_size {
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var best_idx1 uint32
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var best_idx2 uint32
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var i uint
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if pairs[0].cost_diff >= cost_diff_threshold {
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cost_diff_threshold = 1e99
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min_cluster_size = max_clusters
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continue
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}
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/* Take the best pair from the top of heap. */
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best_idx1 = pairs[0].idx1
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best_idx2 = pairs[0].idx2
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histogramAddHistogramCommand(&out[best_idx1], &out[best_idx2])
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out[best_idx1].bit_cost_ = pairs[0].cost_combo
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cluster_size[best_idx1] += cluster_size[best_idx2]
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for i = 0; i < symbols_size; i++ {
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if symbols[i] == best_idx2 {
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symbols[i] = best_idx1
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}
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}
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for i = 0; i < num_clusters; i++ {
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if clusters[i] == best_idx2 {
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copy(clusters[i:], clusters[i+1:][:num_clusters-i-1])
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break
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}
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}
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num_clusters--
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{
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/* Remove pairs intersecting the just combined best pair. */
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var copy_to_idx uint = 0
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for i = 0; i < num_pairs; i++ {
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var p *histogramPair = &pairs[i]
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if p.idx1 == best_idx1 || p.idx2 == best_idx1 || p.idx1 == best_idx2 || p.idx2 == best_idx2 {
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/* Remove invalid pair from the queue. */
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continue
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}
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if histogramPairIsLess(&pairs[0], p) {
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/* Replace the top of the queue if needed. */
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var front histogramPair = pairs[0]
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pairs[0] = *p
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pairs[copy_to_idx] = front
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} else {
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pairs[copy_to_idx] = *p
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}
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copy_to_idx++
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}
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num_pairs = copy_to_idx
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}
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/* Push new pairs formed with the combined histogram to the heap. */
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for i = 0; i < num_clusters; i++ {
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compareAndPushToQueueCommand(out, cluster_size, best_idx1, clusters[i], max_num_pairs, pairs[0:], &num_pairs)
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}
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}
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return num_clusters
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}
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/* What is the bit cost of moving histogram from cur_symbol to candidate. */
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func histogramBitCostDistanceCommand(histogram *histogramCommand, candidate *histogramCommand) float64 {
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if histogram.total_count_ == 0 {
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return 0.0
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} else {
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var tmp histogramCommand = *histogram
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histogramAddHistogramCommand(&tmp, candidate)
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return populationCostCommand(&tmp) - candidate.bit_cost_
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}
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}
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