mirror of
https://github.com/chylex/Brotli-Builder.git
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349 lines
13 KiB
C#
349 lines
13 KiB
C#
using System;
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using System.Collections.Generic;
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using System.Linq;
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using BrotliLib.Brotli.Parameters;
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using BrotliLib.Brotli.Utils;
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using BrotliLib.Collections;
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using BrotliLib.Markers.Serialization;
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using BrotliLib.Numbers;
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using BrotliLib.Serialization;
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namespace BrotliLib.Brotli.Components.Header{
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/// <summary>
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/// Represents a context map, which maps <blockID, contextID> pairs to indices in an array of Huffman trees for either literals or distances.
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/// https://tools.ietf.org/html/rfc7932#section-7.3
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/// </summary>
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public sealed class ContextMap{
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public Category Category { get; }
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public int TreeCount { get; }
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public int ContextsPerBlockType { get; }
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public int BlockTypes => contextMap.Length / ContextsPerBlockType;
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public byte this[int index] => contextMap[index];
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private readonly byte[] contextMap;
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public ContextMap(Category category, byte[] contextMap){
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this.contextMap = CollectionHelper.Clone(contextMap);
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this.Category = category;
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this.TreeCount = 1 + contextMap.Max();
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this.ContextsPerBlockType = category.Contexts();
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}
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public byte DetermineTreeID(int blockID, int contextID){
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return contextMap[blockID * ContextsPerBlockType + contextID];
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}
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// Object
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public override bool Equals(object obj){
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return obj is ContextMap map &&
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Category == map.Category &&
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TreeCount == map.TreeCount &&
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CollectionHelper.Equal(contextMap, map.contextMap);
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}
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public override int GetHashCode(){
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return HashCode.Combine(Category, TreeCount, CollectionHelper.HashCode(contextMap));
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}
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public override string ToString(){
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return "TreeCount = " + TreeCount + ", Map = { " + string.Join(", ", contextMap) + " }";
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}
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// Helpers
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public readonly struct Run{
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public const int MinSpecialCodeLength = 2;
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/// <summary>
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/// Returns the RLE code required to encode the specified <see cref="Length"/>. The codes follow the pattern:
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/// <list type="bullet">
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/// <item><description>code 1 ... values 2-3,</description></item>
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/// <item><description>code 2 ... values 4-7,</description></item>
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/// <item><description>code 3 ... values 8-15,</description></item>
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/// <item><description>code 4 ... values 16-31,</description></item>
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/// <item><description>(up to code 16)</description></item>
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/// </list>
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/// If <see cref="Length"/> is less than <see cref="MinSpecialCodeLength"/>, returns 0.
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/// </summary>
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public byte Code => Log2.Floor(Length);
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/// <summary>
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/// Amount of zero symbols in the run.
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/// </summary>
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public int Length { get; }
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public Run(int length){
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this.Length = length;
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}
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/// <summary>
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/// Does not use RLE for this run.
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/// </summary>
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public int Reject() => 0;
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/// <summary>
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/// Uses RLE for this run.
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/// </summary>
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public int Accept() => Length;
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/// <summary>
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/// Uses RLE for a shorter run of length <paramref name="retainedLength"/>.
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/// If the remaining length is at least <see cref="MinSpecialCodeLength"/>, it will become a new run.
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/// If either side of the split cannot use RLE, it will be encoded as plain zeros instead.
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/// </summary>
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public int Retain(int retainedLength){
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if (retainedLength < 1){
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throw new ArgumentOutOfRangeException(nameof(retainedLength));
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}
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return retainedLength; // if retainedLength > Length, will crash in RunDecider.Resolve
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}
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}
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/// <summary>
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/// Decides substitution of runs in (potentially move-to-front transformed) context map data.
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/// </summary>
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public sealed class RunDecider{
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public int DataLength => data.Length;
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private readonly byte[] data;
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public RunDecider(byte[] data){
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this.data = data;
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}
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/// <summary>
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/// Returns the byte at the specified <paramref name="index"/>.
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/// </summary>
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public byte GetByteAt(int index){
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return data[index];
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}
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/// <summary>
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/// Returns how many zeroes there are in a sequence starting at <paramref name="startIndex"/>.
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/// </summary>
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public int GetRunLength(int startIndex){
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for(int index = startIndex; index < data.Length + 1; index++){
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if (index == data.Length || data[index] != 0){
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return index - startIndex;
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}
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}
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throw new ArgumentOutOfRangeException(nameof(startIndex));
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}
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/// <summary>
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/// Applies a resolution function over all runs in the data.
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/// </summary>
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public RunResolution Resolve(Func<Run, int> resolver){
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var resolution = new RunResolution.Builder();
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for(int index = 0; index < data.Length;){
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byte symbol = data[index];
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if (symbol == 0){
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int runLength = GetRunLength(index);
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int retained = runLength < Run.MinSpecialCodeLength ? runLength : resolver(new Run(runLength));
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if (retained > runLength){
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throw new InvalidOperationException("Cannot request encoding a run longer than originally asked for (" + retained + " > " + runLength + ").");
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}
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if (retained < Run.MinSpecialCodeLength){
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if (retained == 0){
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retained = runLength;
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}
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for(int i = 0; i < retained; i++){
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resolution.AddRaw(0);
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}
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}
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else{
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resolution.AddRun(retained);
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}
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index += retained;
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}
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else{
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resolution.AddRaw(symbol);
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index += 1;
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}
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}
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return resolution.Build();
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}
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}
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public sealed class RunResolution{
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public int LongestRun { get; }
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public int RunLengthCodeCount => new Run(LongestRun).Code;
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public IEnumerable<int> RunLengths => intermediate.Where(code => code < 0).Select(code => -code);
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private readonly List<int> intermediate;
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private RunResolution(List<int> intermediate, int longestRun){
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this.intermediate = intermediate;
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this.LongestRun = longestRun;
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}
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public (List<int>, Queue<int>) GenerateSymbolsAndExtraBits(){
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var symbols = new List<int>();
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var extra = new Queue<int>();
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int runLengthCodeCount = RunLengthCodeCount;
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foreach(int code in intermediate){
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if (code == 0){
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symbols.Add(0);
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}
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else if (code > 0){
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symbols.Add(code + runLengthCodeCount);
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}
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else{
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var run = new Run(-code);
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int runLengthCode = run.Code;
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symbols.Add(runLengthCode);
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extra.Enqueue(run.Length - (1 << runLengthCode));
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}
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}
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return (symbols, extra);
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}
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public sealed class Builder{
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private List<int>? intermediate = new List<int>();
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private int longestRun;
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public void AddRaw(byte value){
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intermediate?.Add(value);
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}
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public void AddRun(int length){
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intermediate?.Add(-length);
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if (length > longestRun){
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longestRun = length;
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}
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}
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public RunResolution Build(){
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if (intermediate == null){
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throw new InvalidOperationException("The builder has already been built.");
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}
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var built = new RunResolution(intermediate, longestRun);
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intermediate = null;
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return built;
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}
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}
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}
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// Serialization
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private static HuffmanTree<int>.Context GetCodeTreeContext(int alphabetSize){
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return new HuffmanTree<int>.Context(new AlphabetSize(alphabetSize), bits => bits, symbol => symbol);
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}
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public static readonly BitDeserializer<ContextMap, BlockTypeInfo> Deserialize = MarkedBitDeserializer.Title<ContextMap, BlockTypeInfo>(
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context => "Context Map (" + context.Category + ")",
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(reader, context) => {
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int treeCount = reader.ReadValue(VariableLength11Code.Deserialize, NoContext.Value, "NTREES", value => value.Value);
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var category = context.Category;
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var contextMap = new byte[context.TypeCount * category.Contexts()];
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if (treeCount > 1){
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int runLengthCodeCount = reader.MarkValue("RLEMAX", () => reader.NextBit() ? 1 + reader.NextChunk(4) : 0);
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var codeContext = GetCodeTreeContext(treeCount + runLengthCodeCount);
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var codeLookup = reader.ReadStructure(HuffmanTree<int>.Deserialize, codeContext, "code tree").Root;
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for(int index = 0; index < contextMap.Length;){
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reader.MarkStart();
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int code = codeLookup.LookupValue(reader);
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if (code > 0){
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if (code <= runLengthCodeCount){
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int skip = (1 << code) + reader.NextChunk(code);
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reader.MarkEndTitle("repeat " + skip + " zeros");
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index += skip;
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continue;
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}
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contextMap[index] = (byte)(code - runLengthCodeCount);
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}
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reader.MarkEndValue("CMAP" + category.Id() + "[" + index + "]", contextMap[index]);
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index += 1;
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}
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if (reader.NextBit("IMTF")){
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MoveToFront.Decode(contextMap);
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}
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}
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var constructed = new ContextMap(category, contextMap);
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if (constructed.TreeCount != treeCount){
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throw new InvalidOperationException("Calculated context map tree count does not match the serialized number (" + constructed.TreeCount + " != " + treeCount + ").");
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}
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return constructed;
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}
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);
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public static BitSerializer<ContextMap, NoContext, BrotliSerializationParameters> Serialize = (writer, obj, context, parameters) => {
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VariableLength11Code.Serialize(writer, new VariableLength11Code(obj.TreeCount), NoContext.Value);
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if (obj.TreeCount > 1){
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bool mtf = parameters.ContextMapMTF(obj);
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byte[] contextMap;
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if (mtf){
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contextMap = CollectionHelper.Clone(obj.contextMap);
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MoveToFront.Encode(contextMap);
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}
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else{
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contextMap = obj.contextMap;
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}
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var runs = parameters.ContextMapRLE(new RunDecider(contextMap));
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int runLengthCodeCount = runs.RunLengthCodeCount;
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if (runLengthCodeCount > 0){
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writer.WriteBit(true);
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writer.WriteChunk(4, runLengthCodeCount - 1);
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}
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else{
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writer.WriteBit(false);
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}
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var (symbols, extra) = runs.GenerateSymbolsAndExtraBits();
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var codeContext = GetCodeTreeContext(obj.TreeCount + runLengthCodeCount);
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var codeTree = parameters.GenerateContextMapTree(FrequencyList<int>.FromSequence(symbols));
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HuffmanTree<int>.Serialize(writer, codeTree, codeContext, parameters);
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foreach(int symbol in symbols){
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writer.WriteBits(codeTree.FindPath(symbol));
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if (symbol > 0 && symbol <= runLengthCodeCount){
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writer.WriteChunk(symbol, extra.Dequeue());
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}
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}
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writer.WriteBit(mtf);
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}
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};
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}
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}
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